法国专利FR3055202A3 SPRAY WASHING BROOM

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专利摘要:
The invention provides a spray broom having a broom shaft, a broom head, a universal joint which rotatably couples the head and the broom shaft, the broom shaft having a water extraction structure which can move along the axis of the rod. The water extraction structure has a passage that the broom head can pass through, and a water extraction element that is located in the passageway and is in front of the cleaning fabric during the crossing the broom head. The wiper further includes a spray system including a water reservoir, a water pump, and a water pump drive. The water tank is located within the mop head with the water pump on the mop shaft. The universal joint comprises an upper connecting element and a lower connecting element, one end of the upper connecting element being fixedly connected to the mop shaft, the other end of the upper connecting element being hinged to one end of the lower connecting element, the broom head being articulated with the other end of the lower connecting element. The broom head has holes that ducts can cross.
公开号:FR3055202A3
申请号:FR1758018
申请日:2017-08-31
公开日:2018-03-02
发明作者:Xuelin Zhu
申请人:Jiaxing Jackson Travel Products Co Ltd；
IPC主号:

专利说明:

SPRAY WASHING BROOM
Technical field of the invention
The present invention relates to cleaning equipment and more particularly to a spray mop that can wash.
State of the art
The patent document CN204541992U has described a spray broom having a broom shaft whose lower end is connected to a broom head, the latter comprising in its lower part a cleaning cloth. A water spray device is arranged in the lower part of the broom shaft and has a water injection opening and a water tank. A support is arranged in the upper part of the mop shaft and has an element for controlling the operation of the spraying device. Said water injection opening is a high pressure sprayer and the injection direction is towards the front of the mop head. When using the broom, it is necessary to turn the broom head and bend the device, or this may affect the water injection pipes and causes problems such as clogging or instability of injection flow.
Object of the invention
The present invention aims to remedy the problems concerning this type of device by providing a single structure spray wiper that can ensure a stable flow of water injection.
For this, the invention provides a spray broom, comprising a broom shaft, a broom head, a universal joint which rotatably couples the head and the broom shaft. The wiper further includes a spray system including a water reservoir, a water pump, and a water pump drive. The water tank is located within the mop head with the water pump on the mop shaft. The universal joint comprises an upper connecting element and a lower connecting element, one end of the upper connecting element being fixedly connected to the mop shaft, the other end of the upper connecting element being hinged to one end of the lower connecting element, the broom head being articulated with the other end of the lower connecting element. The broom head has holes that ducts can cross. Thus, the water inlet of the water pump and the water tank are connected by means of a water pumping conduit. The lower connecting element has in its middle a first passage that a water pumping conduit can pass through.
In one embodiment of the present invention, the upper link member has in its middle a second passage that a water pumping conduit can pass through.
In another embodiment, the wiper further comprises a water discharge conduit and a spray head, one end of the exhaust duct being connected to an outlet of a spray pump, after having passed through the first passage, another end being connected to a spray head located on the mop head.
In another embodiment, the wiper further comprises a water discharge conduit and a spray head, one end of the exhaust duct being connected to an outlet of a water spray pump, after having through the two passages, another end being connected to a spray head located on the mop head.
In another embodiment, the broom shaft includes an upper body of the shaft and a lower body of the shaft, therebetween a connecting structure that can connect or separate these two bodies. The drive device includes an inner-lower shaft located in the inner body of the shaft, and a control device that causes movement of the inner-upper shaft along its axis. The lower body of the rod or the inner-lower rod is connected to a spring device which can reposition the inner-lower rod after its downward axis movement. The control device urges the drive between the upper-inner rod and the inner-lower rod, when the upper body and the lower body of the rod are connected by means of the connecting structure.
In another embodiment, a maneuvering hole is arranged on the lower lateral part of the lower body of the rod. An operating member is horizontally within the lower body of the shaft with one end emerging from the maneuvering hole, and is connected to the inner-lower shaft.
In another embodiment, the maneuvering hole extends along the lower body of the rod, in elongate form. The operating element passes through the maneuvering hole and can move along the hole.
In another embodiment, the spring device comprises a spring located within the lower body of the shaft, the lower end of which is applied to the lower body of the shaft and the upper end to the lower portion of the shaft. maneuver element, the lower end of the lower-inner rod applying to the rising part of the operating element.
In another embodiment, the broom shaft incorporates an injection support on which a water pump is installed. A first one-way circumferential positioning device is located between the injection holder and the mop rod, so that the injection holder can be positioned relative to the mop shaft and the spray head is fixed face-to-face. to the first positioning device. The control device includes a handle and a click. A second one-way circumferential positioning device is located between the handle and the mop shaft, so that the handle is fixed relative to the mop shaft and the click points to the opposite of the spray head.
In another embodiment, the mop shaft includes an upper body and a lower body of the shaft between which there is a third one-way circumferential positioning device for positioning between these two bodies of the shaft.
In another embodiment, said three one-way circumferential positioning devices are selected from an embossed / embossed fastener, a unidirectional lock, a unidirectional driver and a unidirectional key device.
In another embodiment, the first one-way circumferential positioning device comprises a fixing cylinder located at the upper end of the injection support. The broom shaft sinks with its lower end into the fixing cylinder. Inside the fixing cylinder or at the lower end of the mop shaft has a first positioning relief, in return, at the lower end of the mop shaft or inside the fixing cylinder has a first positioning recess which is configured to fit the first relief to provide circumferential positioning.
In another embodiment, the first one-way circumferential positioning device further comprises a seaming cylinder located in the upper portion of the injection holder and wrapping the attachment cylinder, and removably connecting to the carrier of the invention. injection by means of a unidirectional positioning device.
In another embodiment, the unidirectional positioning device comprises at least one elastic positioning loop on the injection support, to which is adapted a positioning hole present on the joining cylinder. The fixing cylinder has on its circumference several positioning grooves extending along the axis of the seaming cylinder, and the seaming cylinder has on its circumference several bands in relief adapting to the grooves.
In another embodiment, the second one-way circumferential positioning device comprises at least one second positioning relief located within the sleeve or in the upper portion of the wiper shaft. At least one locating recess configured to accommodate the second relief is within the handle or upper portion of the mop shaft.
In another embodiment, the broom shaft has a water extraction structure that can move along the axis of the shaft. The water extraction structure has a passage that the broom head can pass through, and a water extraction element that is located in the passageway and is in front of the cleaning fabric during the crossing the broom head.
In another embodiment, the water extraction structure comprises a washing liquid dispenser in the passage and facing the cleaning fabric as the mop head passes through the passage, and storing washing liquid. The dispenser can be controlled to emit liquid in the passageway or the cleaning fabric as it passes through the mop head to wash it.
In another embodiment, the washing liquid dispenser comprises a liquid distribution channel associated with the passage, a liquid reservoir connected to the dispensing channel and a distribution control module associated with the dispensing channel for opening or closing it. .
In another embodiment, the liquid reservoir is a cavity formed by the water extraction structure.
In another embodiment, the liquid reservoir is a container installed on the water extraction structure.
In another embodiment, the container has an opening for the liquid dispensing channel, the corresponding dispensing control module being inside the container through this opening.
In another embodiment, the dispensing control module comprises a piece of tube also serving as a support which corresponds to this opening and a sheet facing the opening in this tube. Said film has a slotted casting which is left to close or open. The container includes a push button that can be controlled to move toward the opening by changing the volume of the container, and a spring located between the push button and the piece of tube that can provide a restoring force to the push button.
In another embodiment, the water extraction structure includes an installation opening, an installation groove located within this opening to install the container, and a ring on an installation groove that prevents the stall of the push button.
In another embodiment, the dispensing control module comprises a piece of tube also serving as a support which corresponds to this opening and a sheet facing the opening in this tube. Said film has a slotted casting which is left to close or open. The container includes a push button that can be controlled to move toward the opening by changing the volume of the container, and a spring located between the push button and the piece of tube that can provide a restoring force to the push button. One end of the spring rests on the push button, with the other end against the inner wall of the container that is next to the piece of tube.
In another embodiment, the liquid distribution channel has a liquid dispensing direction relative to the cleaning fabric that is perpendicular or at an angle to the cleaning fabric.
In another embodiment, a dispensing blocking piece has an OFF state when not energized and blocks liquid delivery, and an ON state when activated by traversing the passage of the cleaning cloth. .
In another embodiment, the water extraction structure comprises at least one auxiliary wheel located in the passageway that reaches the broom head as it passes through the passage.
In another embodiment, the mop head is rectangular, its longest side being parallel to the mop shaft as it passes through the passage, the length of the portion of the water extraction member within the mop. passage being greater than or equal to the shortest side of the broom head.
This invention has the following advantages: 1. The spray broom has a simple and effective piping structure for protecting the spray pipes and ensuring a good circulation of liquid. 2. The first one-way circumferential positioning device and the second one-way circumferential positioning device allow accurate and efficient mounting with a reduced assembly error rate. The unidirectional positioning devices lead to improve the stability of the junction between the broom shaft and the injection support. 3. According to this invention, the washing liquid is injected onto the mop head as it passes through the water extraction structure, this advantageously making it possible to wash the cleaning cloth. In addition, the washing liquid is injected onto the cleaning cloth when the broom head crosses the passage after the extraction, this making it possible to improve the effects of the broom. The broom according to the invention also facilitates the dispensing of the washing liquid.
Brief description of the figures
Figure 1 schematically illustrates a structure of the embodiment 1 according to the invention;
Figure 2 is a sectional representation of the example of Figure 1;
Figure 3 schematically illustrates a structure of the upper joint piece;
Figure 4 schematically illustrates a structure of the embodiment 2 according to the invention;
Figure 5 is a detailed representation of Figure 4A;
Figure 6 is a detailed representation of Figure 4B;
Fig. 7 is a detailed representation of Fig. 4C;
Figure 8 schematically illustrates a structure of a liquid injection mechanism of Example 2, the latter being inside the lower body of the rod;
Figure 9 schematically illustrates another structure of a liquid injection mechanism of Example 2, the latter being inside the lower body of the rod;
Figure 10 schematically illustrates a structure of Embodiment 3 according to the invention;
Figure 11 is a detailed representation of Figure 10A of Embodiment 3 according to the invention;
Figure 12 is a detailed representation of Figure 10B of Embodiment 3 according to the invention;
FIG. 13 is a detailed representation of FIG. 10C of embodiment example 3 according to the invention;
FIG. 14 schematically illustrates the first one-way circumferential positioning device with an embossed / embossed fastener of the embodiment 3 according to the invention;
FIG. 15 schematically illustrates the first one-way circumferential positioning device with unidirectional key device of the embodiment example 3 according to the invention;
Fig. 16 schematically illustrates a structure of the mop shaft of Embodiment 3 according to the invention;
Fig. 17 schematically illustrates a structure of the joining cylinder of Embodiment 3 according to the invention;
FIG. 18 schematically illustrates a structure of the fixing cylinder of embodiment example 3 according to the invention;
Figure 19 is a perspective view of the embodiment 4 according to the invention;
Figure 20 is a partial sectional view of the embodiment 4 according to the invention;
Figure 20 is another view in partial section of the embodiment 4 according to the invention;
Figure 20 is another view in partial section of the embodiment 4 according to the invention.
Detailed description of embodiments of the invention
The features and advantages of the present invention will become more apparent from the following detailed description taken with reference to the accompanying drawings.
Exemplary embodiment 1:
With reference to FIGS. 1-3, the spray brush of this first exemplary embodiment comprises a brush head 130, a brush rod 1, a water spray pump 31, a universal joint device. The wiper head 130 which surrounds a reservoir 111 of water is connected to the rod 1 on which the pump 31 presents, by means of the universal joint device which comprises an upper connecting element 41 and a lower connecting element 42, a end of the upper element 41 being secured to the rod 1 and the other end of this element being articulated to the lower connecting element 42, this allowing the rotation of the upper connecting element 41 and the lower element 42 link can. At the same time, the other end of the lower connecting element 42 is articulated to the mop head 130 and the hinge pins of the two ends of the upper connecting element 41 being orthogonal, this allowing a movement of meaning universal. The head 130 has a hole 101 that ducts can pass through. Thus, the water inlet of the water spray pump 31 is connected to the water tank 111 via a pipe 51 for pumping water via the hole 101. The water spray pump 31 samples and sprays from the reservoir 31. The lower connecting element 42 has in its middle a first passage 420 that the pumping conduit 42 can pass through. Part of the pumping duct 51 is wrapped in the passage 420, so that the latter limits the location of the duct 51.
Said upper connecting element 41 has in its middle a second passage 410 that the conduit 51 can also pass. Thus, the pipe 51 pumping is fixed with the first passage 420 the second passage 410, this making it is more stable and clean to its outside.
The wiper further comprises a spraying head 61 and a conduit 71 for discharging water, one end of which is connected to the spraying pump 31 and the other end of which is connected to the spraying head 61 while passing through the passage 420. This is located on the broom head 130, this ensuring a precise liquid injection position by the spray head 61.
The wiper further comprises a spraying head 61 and a conduit 71 for discharging water, one end of which is connected to the spraying pump 31 and the other end of which is connected to the spraying head 61 as it passes through the first passage. 420 and the second passage 410. Said pumping conduit 51 and said water discharge conduit 71 may both pass through the first passage 420 and / or the second passage 410, this allowing a clean arrangement, protecting the outside of the passages. ducts and ensuring good overall stability of the device.
The centers of the hole 101, the first passage and the second passage are essentially collinear, when the rod 1 of the brush is in a vertical position. These three middle points are on the path of the pipe 51 pumping and that of the conduit 71 discharge colinearity allowing the fluidity of the pipe.
Exemplary embodiment 2:
With reference to FIGS. 4-9, the brush rod 1 has a contiguous structure, comprising an upper body 21 of the rod and a lower body 22 of the rod between which there is a connecting structure 26 which can connect or separate these two body of the stem. A control device 27 is located between the upper body 21 of the rod and an upper-inner rod 23 located in the latter, and causes a movement of the inner-upper rod 23 along its axis. A spring device 30 is located between the lower body 22 of the rod and an inner-lower rod 24 located therein, and can reset the inner-lower rod 24 after its downward axis movement. . The upper rod 23 and the lower rod 24 are driven together when the upper body 21 and the lower body 22 of the rod are connected by means of the connecting structure 26 which makes it possible to reduce the length of the blade, in particular to facilitate its operation. transport. With this structure 26, the upper body 21 of the rod and the control device 27 work together so that the upper-inner rod 23 rests against the rod 24 to perform the injection of the liquid. The upper-inner rod 23 rests against the spring device 30, which returns the rod 24 to its initial position with upward movement, the control device 27 and the spring device 30 making the drive more stable. and the easy maneuver.
In particular, a maneuvering hole 28 is arranged on the lower lateral part of the lower body 22 of the rod 2. An element 29 for maneuvering is located horizontally within the lower body 22 of the rod 2 with one end coming out of the hole 28, and is connected to the inner-lower rod 24. The operating hole 28 extends along the lower body 22 of the rod, in elongated form. The operating element 29 passes through the hole 28 while being able to move along the hole 28, this allowing a stable oscillation of the operating element 29 after the driving of the inner-lower rod 24. In addition, the spring device comprises a spring 159 'on the lower body 22 of the rod, the lower end of which applies to the lower body 22 of the rod and the upper end to the lower half of the rod. the operating element 29, the lower end of the inner-lower rod 24 applying to the upper part of the operating element29.
In one embodiment, the lower body 22 of the rod has a cylindrical support 32 of the spring. The operating element 29 is arranged with a hole 33 for accommodating the spring. One end of the spring 159 'is within the support 32 to have the following effect: while the inner-lower rod 24 is returned to its initial position, the force that the spring 159' applies to the rod 24 is distributed more regularly. The end of the element 29 operating in contact with the inner-lower rod 24 has an arc face 37 which improves the rotational stability of the element 29 maneuvering.
The control device 27 has a click 7 whose inner end is within the upper body 21 of the rod and the outer end is outside the upper body 21 of the rod, the middle of the click 7 connecting to the upper body of the rod rotatably. The inner end of the click 7 is connected to the upper-inner rod 23, so that the oscillation of the click 7 causes an axial movement of the inner-upper rod 23. Thus, the support of the click 7 will cause a displacement of the inner-upper rod 23 along the axis, therefore, the latter pushes the inner-lower rod 24 to achieve the movement of the element 29 maneuver, this being effective handling. A protective structure is located between the lower end of the upper-inner rod 23 and the upper end of the inner-lower rod 24, to provide a stable drive between the upper-inner rod 23 and the inner-lower rod 24 when the upper body 21 and the lower body 22 are joined.
Said protective structure comprises an inner tube 35 located at the lower end of the upper body 21 or the upper end of the lower body 22 of the rod. The lower end of the upper-inner rod 23 and the upper end of the inner-lower rod are inside the tube 35 and support each other. Between the inner wall of the inner tube and the lower end of the upper-inner rod 23 and / or the upper end of the inner-lower rod 24 are raised rings 36 by which the upper-inner rod 23 is located. and the inner-lower rod 24 are located inside the tube 35, this improving the stability of the drive between the upper-inner rod 23 and the inner-lower rod 24 and reinforcing the stiffness of the structure after the join rods 23 and 24. Between the upper body 21 of the rod and the inner-upper rod 23 there is a first stop for displacement along the axis preventing the stall of the rod 23 from the body 21 and a first radial displacement stopper preventing the disturbance of the rod 23 inside the upper body 21 of the rod; Between the lower body 22 of the rod and the inner-lower rod 24 are a second stop for displacement along the axis preventing the stall of the rod 24 from the body 22 and a second radial displacement stop preventing the disturbance coming from the stem 24 inside the lower body 22 of the rod.
Preferably, the spring device comprises a locked-type liquid injection mechanism 1a located below the rod 24, having a spring 2a and a bearing member 33a which is against the rod 24. When the rod 24 Inner-lower moves downwards, the mechanism 1a injects liquid and said rod 24 has a tendency to move upwards, this reducing the volume of the lower part of the blade. Alternatively, the spring is inside a piston 4a, this limiting the radial displacement of the spring 2a.
Exemplary embodiment 3:
With reference to FIGS. 10-18, the broom shaft 1 comprises an injection support 3 for installing the water pump. A first one-way circumferential positioning device 8 is located between said support 3 and said rod 1, so that said support 3 can be positioned circumferentially with respect to said rod 1 and that the spray head 4 is fixed in relation to said first positioning device 8. On the injection support 3 is installed a liquid injection mechanism 5 of the spray head 4. A handle 6 is installed at the other end of the rod 1 with a click 7 at its side. A second one-way circumferential positioning device 9 is located between the handle 6 and the broom shaft 1, so that the sleeve 6 is circumferentially fixed with respect to said rod 1 and the click 7 is directed towards the reverse of the spray head 4. During assembly, it is first necessary to fix the injection support 3 at the lower end of the rod 1 by means of the first one-way circumferential positioning device 8, and then to show the sleeve 6 at the upper end of the rod. the rod 1 by means of the second one-way circumferential positioning device 9, in order to prevent the click 7 and the spray head 4 from moving in the same direction and to improve the assembly efficiency.
In particular, the mop rod 1 comprises an upper body 21 and a lower body 22 between the rod, between which there is a third one-way circumferential positioning device 25 for positioning between these two bodies of the rod 1. Said three circumferential one-way positioning devices 8, 9, 25 are selected from a recessed / raised marker fixture, a unidirectional lock, a unidirectional driver and a unidirectional key device. The first positioning device 8 comprises a fixing cylinder 10 located at the upper end of the injection support 3. The broomstem 1 sinks with its lower end in the cylinder 10. Inside the latter or at the lower end of the rod 1 has a first positioning relief 11, in return, within the cylinder 10 or at the lower end of the rod 1 has a first positioning recess 12 which fits the first relief 11. The pairing between the first relief 11 and the first recess 12 ensures the fixing between the rod 1 and the support 3 during assembly. Preferably, when the first positioning device 8 and the second positioning device 9 are unidirectional key devices. The two ends of the mop shaft 1 respectively have two holes which are opposed radially and of different sizes, the circumferential positioning starting with the larger diameter hole and ending with the smaller one.
In one embodiment, the first one-way circumferential positioning device 8 further comprises a seaming cylinder 13 located in the upper part of the injection support 3 and wrapping the fixing cylinder 10, and removably connecting to the injection support 3 by means of a unidirectional positioning device 14. The fact that the seaming cylinder 13 envelops the fixing cylinder 10 and the injection support 3 prevents the stall between the broom shaft 1 and the injection support 3 and thus improves the stability of the connection. Said unidirectional positioning device 14 comprises at least one elastic positioning loop 15 on the injection support 3, to which is fitted a positioning hole 16 present on the seaming cylinder 13. The fixing cylinder 10 has on its circumference several positioning grooves 17 extending along the axis of the joining cylinder 13, and the joining cylinder 13 has on its circumference several recessed bands 18a fitting grooves 17. The grooves 17 and the strips 18a in relief to avoid rotation when using the blade. On the one hand, the unidirectional positioning device 14 makes it possible to demonstrate the seaming cylinder 13 and the injection support 3 in order to maintain the latter, on the other hand, the circumferential positioning of the seaming cylinder 13 with the loop 15 and the positioning hole 16 ensures stable fixation.
In addition, the second one-way circumferential positioning device 9 comprises at least one second positioning relief 18 located in the sleeve 6 or in the upper part of the rod 1. At least one second positioning recess 19 which fits the second relief 18 is in the sleeve 6 or in the upper part of the rod 1. The click 7 is connected to the liquid injection mechanism 5 via the control device 20, the injection direction of the spraying head 4 whose projection on the broom head 130 is perpendicular to the major axis of the head 130, this to increase the surface to sweep during the injection of water and thus improve the efficiency.
Said control device 20 comprises the upper body 21 and the lower body 22 forming the shank 2 by joining, the upper body 21 of the shank 21 having the inner-upper rod 23 connected to the click inside, the lower body 22 having the inner-lower stem 24 connected to the liquid injection mechanism inside. The upper-inner rod 23 and the inner-lower rod 24 abut one another.
Exemplary embodiment 4:
Referring to Figs. 19-22, a spray wiper 100 comprises a wiper blade 1, a wiper head 130 which is bonded to the wand 1 and is rotatable 130 having a cleaning fabric 120. The rod 1 has a structure 14 for extracting water which surrounds it and can carry out an axial path 140 along the rod 1. This extraction structure 14 comprises a passage 141 that the broom head 130 can cross 130, and a water extraction member 142 located within said passageway 141 and facing the cleaning fabric 120 as the head 130 passes through the passageway. The extraction structure 14 also has a washing liquid dispenser 15 located in the passage 141 and facing the tissue 120 when the head 130 passes through the passage. The dispenser 15 containing the washing liquid (not shown) can be controlled to emit it into the passage 141 or the tissue 120 as it passes through the broom head to wash the tissue.
The broom head 130 is rectangular. Before extracting water, the broom head 130 rotates relative to the rod 1 so that the long side of the head 130 is parallel to the axis of the rod 1. Then, the extraction structure 14 is pushed, so that it performs the path 140 during which the brush head 130 passes through the passage 141 and is extracted from water by the element 142 for extracting water. At the same time, the liquid dispenser may provide washing liquid to the cleaning cloth 120 so that the cloth 120 is washed at the time of the water extraction. After the water extraction structure 14 completes its path 140 and the water extraction of the fabric 120 is completed, the structure 14 will repeat the path 140 to return to the initial state. The liquid dispenser emits liquid to the fabric 120 as it passes through the passageway 141, thereby improving the efficiency with the liquid remaining on the fabric when using the mop.
With reference to FIGS. 21 and 22, the washing liquid dispenser 15 comprises a liquid distribution channel 151 associated with the passageway 141, a liquid reservoir 152 connected to this channel 151 and a distribution control module 153 associated with the serving channel 151 when it opens and closes. The reservoir 152 may be a cavity formed by the extraction structure 14 (not shown) or a container installed on the extraction structure 14. In the case where the reservoir 152 is a container, it has an opening 154 for the distribution channel 151, through which the dispensing control module 153 is inside the container. In another embodiment, the dispensing control module 153 is located at a location to close the opening 154 by passing only the washing liquid. Part of the dispensing control module 153 is placed towards the interior of the container. In addition, the distribution control module 153 comprises a piece of tube also serving as a support which corresponds to said opening 154 and a film 156 facing the opening in this tube. Said film has a slot casting 157 which is left to close or open. The container has a push button 158 which can be controlled to move to the opening 154 by changing the volume of the container, and a spring 159 located between the push button 158 and the tube piece 155 which can provide a return force to the opening. push button 158. After assembly, the push button 158 serves to seal the container and emerges from the container. When the push button 158 is pressed from the outside, this will change the internal pressure of the container which is applied to the washing liquid, causing the opening of the slit casting 157 and thus the injection of the washing liquid. The injection quantity is controllable with the force on the button 158. Furthermore, one end of the spring 159 is not necessarily against the piece of tube155. In one embodiment, the other end of the spring 159 away from the pusher button 158 rests against the wall of the container which is adjacent to the piece of tube 155 (not shown).
In another configuration, the washing liquid can be injected automatically. In one embodiment, the distribution control module 153 has an OFF state when it is not activated and blocks the liquid distribution and an ON state when activated by passing through the passage 141 of the tissue 120. In other words, the opening of the slot casting 157 is triggered by the fact that the wiper head 130 passes through the passage 141. During this passage, the cleaning cloth 120 is compressed by the passage, in parallel, the film 156 s opens under the push force by the fabric 120 and emits the washing liquid automatically.
Referring to Figs. 21 and 22, in one embodiment, the water extraction structure 14 has a mounting groove 143 for mounting the container, and a ring 144 on the groove for preventing the release of the button. 158 pusher. The shape of the installation groove 143 is configured according to the container to be shown, with its interior space connected to the liquid distribution channel 151. The ring 144 is at the end of the installation groove 143 which is far from the liquid distribution channel 151 151, and surrounds the pushbutton 158 to restrict its possible movement.
Referring to Fig. 22, the liquid dispensing channel 151 has a liquid dispensing direction with respect to the cleaning fabric 120 which is perpendicular or at an angle thereto, thereby leading to different injection zone on the tissue 120. The injection of the liquid is focused on the fabric with the perpendicularity, on the contrary, the liquid is distributed over a larger area on the fabric 120 with an angle. The structure 14 for extracting water comprises at least one auxiliary wheel 145 located in the passage 141 which reaches the head 130 of the blade as it passes through the passage. The invention describes with reference to the embodiments shown is not limited to them, but covers any modification that the skilled person is able to achieve.

权利要求:
Claims (25)
[1" id="c-fr-0001]
A spray mop, comprising a mop rod, a mop head, a universal joint which rotatably couples the head and the mop shaft, characterized in that the mop further comprises a spray system having a mop head water tank, a water pump, and a water pump driving device, the water tank located within the mop head, the water pump being on the mop shaft the universal joint comprising an upper connecting element and a lower connecting element, one end of the upper connecting element being fixedly connected to the mop shaft, the other end of the upper connecting element being hinged at one end of the lower link member, the mop head being hinged to the other end of the lower link member, the mop head having holes that conduits can pass through, the mop head water pump and the water tank being connected by means of a water pumping conduit, the lower connecting element has in its middle a first passage that a pumping pipe d water can cross.
[2" id="c-fr-0002]
2. A spray mop as claimed in claim 1, wherein the upper connecting member has in its middle a second passage that a water pumping conduit can pass through.
[3" id="c-fr-0003]
3. A spray mop as claimed in claim 2, characterized in that the wiper further comprises a water discharge pipe and a spray head, one end of the exhaust pipe being connected to an outlet of a spray pump, after passing through the first passage, another end being connected to a spray head located on the mop head.
[4" id="c-fr-0004]
4. A spray mop as claimed in claim 2, characterized in that the wiper further comprises a water discharge pipe and a spray head, one end of the exhaust pipe being connected to an outlet of a water spray pump, after passing through the two passages, another end being connected to a spray head located on the mop head.
[5" id="c-fr-0005]
5. A spray mop as claimed in claim 1, wherein the mop shaft comprises an upper body of the stem and a lower body of the stem, therebetween being a connecting structure which can connect or separate these two bodies. , the driver having an inner-lower shaft located in the inner body of the shaft, and a control device that causes movement of the inner-upper shaft along its axis, and the lower body of the shaft or shaft inner-lower is connected to a spring device that can reset the inner-lower rod after its downward axis movement, the control device urges the drive between the inner-upper rod and the inner rod lower, when the upper body and the lower body of the rod are connected by means of the connecting structure.
[6" id="c-fr-0006]
6. A spray mop as claimed in claim 5, wherein a maneuvering hole is arranged on the lower lateral part of the lower body of the rod, a maneuvering element lying horizontally within the lower body of the rod with one end. coming out of the maneuvering hole, and is connected to the inner-lower rod.
[7" id="c-fr-0007]
7. A spray mop as claimed in claim 6, wherein the maneuvering hole extends along the lower body of the rod, in elongate form, and the actuating element passes through the maneuvering hole while being able to move the along the hole.
[8" id="c-fr-0008]
A spray mop as claimed in claim 6, wherein the spring device comprises a spring located within the lower body of the stem, the lower end of which is applied to the lower body of the stem and the end. upper on the lower part of the operating element, the lower end of the inner-lower rod applying to the rising part of the operating element.
[9" id="c-fr-0009]
A spray mop as claimed in claim 5, wherein the mop shaft incorporates an injection holder on which a water pump is installed, a first one-way circumferential positioning device located between the mop holder and the mop pad. injection and the mop rod, so that the injection holder can position relative to the mop shaft and the spray head is attached to the first positioning device, and the control device comprises a handle and a click, a second one-way circumferential positioning device located between the handle and the mop shaft, so that the handle is fixed relative to the mop shaft and the click points to the opposite of the head spray.
[10" id="c-fr-0010]
A spray mop as claimed in claim 9, wherein the wiper shaft comprises an upper body and a lower body of the shaft between which there is a third one-way circumferential positioning device for positioning between these two bodies. of the stem.
[11" id="c-fr-0011]
A spray mop as claimed in claim 10, wherein said three one-way circumferential positioning devices are selected from an embossed / embossed fastener, a unidirectional lock, a unidirectional driver and a unidirectional key device.
[12" id="c-fr-0012]
A spray mop as claimed in claim 11, wherein the first one-way circumferential positioning device comprises a fixing cylinder located at the upper end of the injection holder, the mop shaft engaging with its end. lower in the fixing cylinder, and inside the fixing cylinder or at the lower end of the mop shaft has a first positioning relief, in return, at the lower end of the mop shaft or at the The inside of the fixing cylinder has a first positioning recess which is configured to fit the first relief to provide circumferential positioning.
[13" id="c-fr-0013]
A spray mop as claimed in claim 12, wherein the first one-way circumferential positioning device further comprises a seaming cylinder located in the upper portion of the injection holder and wrapping the attachment cylinder, and connecting removably to the injection medium by means of a unidirectional positioning device.
[14" id="c-fr-0014]
14. A spray mop as claimed in claim 13, wherein the unidirectional positioning device comprises at least one elastic positioning loop on the injection support, to which is adapted a positioning hole present on the joint cylinder and the The fixing cylinder has on its circumference several positioning grooves extending along the axis of the joining roll, and the seaming roll has on its circumference several raised bands fitting the grooves.
[15" id="c-fr-0015]
A spray mop as claimed in claim 9, wherein the second one-way circumferential positioning device comprises at least one second locating relief located within the sleeve or upper portion of the mop shaft and at least one a positioning recess which is configured to accommodate the second relief is within the sleeve or the upper portion of the mop shaft.
[16" id="c-fr-0016]
16. A spray mop as claimed in claim 1, wherein the mop shaft incorporates an injection holder on which a water pump is installed, a first one-way circumferential positioning device located between the mop holder and the mop pad. injection and the mop rod, so that the injection holder can be positioned relative to the mop shaft and the spray head is attached to the first positioning device, the control device comprising a handle and a click, a second one-way circumferential positioning device located between the sleeve and the mop shaft, so that the sleeve is fixed relative to the mop shaft and the click moves toward the opposite of the head of the mop; spray
[17" id="c-fr-0017]
17. A spray mop as claimed in claim 1, wherein the mop shaft has a water extraction structure which is movable along the axis of the stem and has a passage that the head of the mop. broom can cross, and a water extraction element that is located in the passage and is in front of the cleaning cloth when crossing the broom head.
[18" id="c-fr-0018]
A spray mop as claimed in claim 1, wherein the water extraction structure comprises a washing liquid dispenser in the passageway and facing the cleaning cloth as the broom head passes through the passageway and storing washing liquid and the dispenser can be controlled to emit liquid in the passageway or the cleaning fabric as it passes through the mop head to wash it.
[19" id="c-fr-0019]
19. A spray mop as claimed in claim 18, wherein the washing liquid dispenser comprises a liquid distribution channel associated with the passage, a liquid reservoir connected to the dispensing channel and a distribution control module associated with the dispensing channel. distribution for opening or closing.
[20" id="c-fr-0020]
20. A spray mop as claimed in claim 19, wherein the liquid reservoir is a cavity formed by the water extraction structure.
[21" id="c-fr-0021]
21. A spray mop as claimed in claim 19, wherein the liquid reservoir is a container installed on the water extraction structure.
[22" id="c-fr-0022]
22. A spray mop as claimed in claim 21, wherein the container has an opening for the liquid dispensing channel, the corresponding dispensing control module being inside the container through this opening.
[23" id="c-fr-0023]
23. A spray mop as claimed in claim 22, wherein the dispensing control module comprises a piece of tube also serving as a support which corresponds to this opening and a film facing the opening in said tube, said sheet having a slotted casting which is left to close or open, the container having a push button which can be controlled to move towards the opening by changing the container volume, and a spring located between the push button and the piece of tube which can provide a restoring force to the push button.
[24" id="c-fr-0024]
24. A spray mop as claimed in claim 23, wherein the water extraction structure comprises an installation opening, an installation groove located within this opening for installing the container, and a ring on a installation groove that prevents the release of the pressure button.
[25" id="c-fr-0025]
25. A spray mop as claimed in claim 22, wherein the dispensing control module comprises a piece of tube also serving as a support which corresponds to this opening and a sheet facing the opening in said tube, said sheet having a slotted casting which is left to close or open, the container having a push button which can be controlled to move towards the opening by changing the container volume, and a spring located between the push button and the piece of tube which can provide a restoring force to the push button, one end of the spring resting on the push button, with the other end against the inner wall of the container that is next to the piece of tube.

类似技术:

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FR3055202A3|2018-03-02|SPRAY WASHING BROOM

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FR2551318A1|1985-03-08|IMPACT DRIVING WATERING APPARATUS

EP0499537B1|1995-05-17|Spraying or dispensing device for a fluid product comprising a sliding dip tube in its inlet port

FR3035631A1|2016-11-04|WINDING DEVICE FOR A GLAZED SURFACE WITH AN EASILY CONNECTED WASHING LIQUID PROJECTION SYSTEM

EP1149633B1|2004-12-01|Spray apparatus

EP1982774A1|2008-10-22|Installation and device for cleaning objects equipped with a liquid circulation circuit

EP0726417B1|2000-01-12|Coupling device for quick coupling of two pipes

EP1084766B1|2008-07-16|Painting device with roll holding element adaptable to the roller

同族专利:

公开号 | 公开日

DE202017104994U1|2017-09-18|

KR20180025267A|2018-03-08|

FR3055202B3|2018-11-30|

US20180055327A1|2018-03-01|

US11006809B2|2021-05-18|

KR101994968B1|2019-07-02|

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法律状态:
2018-08-31| PLFP| Fee payment|Year of fee payment: 2 |

2019-08-29| PLFP| Fee payment|Year of fee payment: 3 |

2020-08-28| PLFP| Fee payment|Year of fee payment: 4 |

2021-08-30| PLFP| Fee payment|Year of fee payment: 5 |

优先权:

申请号 | 申请日 | 专利标题

CN201621027846|2016-08-31|

CN201621182337.XU|CN207532362U|2016-10-23|2016-11-03|There is the certainly crowded mop for discharging detergent|

CN201621279997.XU|CN206560414U|2016-11-28|2016-11-28|A kind of underlying mop capable of spraying water of water tank|

CN201720092015.4U|CN207186587U|2017-01-22|2017-01-22|The assembling location structure of hydrojet mop|

CN201720092530.2U|CN207202839U|2016-08-31|2017-01-22|The spliced bar structure of hydrojet mop|

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