瑞典专利SE1351063A1 Insulator

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专利摘要:
9 Summary An insulator comprising a threaded unit with a continuous threaded hall with a hole diameter c11. The continuous tail is intended to receive a corresponding threaded rod. The insulator further comprises a buffer unit of an elastic material having a halo in one end with a halo diameter d2. The buffer unit is secured to the aisle unit so that the through-going aisle of the unit and the aisle of the buffer unit are connected, the holding diameter d2 of the buffer unit being smaller than the holding diameter c11 of the aisle unit. (Fig. 3)
公开号:SE1351063A1
申请号:SE1351063
申请日:2013-09-17
公开日:2015-03-18
发明作者:Anel Pasic
申请人:Scania Cv Ab；
IPC主号:

专利说明:

2 adaptation of the screw connection advanced, time-consuming and in some cases not ergonomic for the fitters.
It is thus an object of the invention to provide an alternative insulator which allows an easy adaptation to different tolerances and which can receive bumps and / or vibrations.
Summary of the invention The object described above is achieved at least in part by an insulator according to the independent claim. The insulator comprises a threaded unit with a continuous threaded halo having a hole diameter d1 which is intended to receive a corresponding threaded rod. The insulator also comprises a buffer unit of an elastic material having a halo in one end with a halo diameter d2. The buffer unit is secured to the aisle unit so that the continuous aisle of the unit and the aisle of the buffer unit are connected, and the holding diameter d2 of the buffer unit is less than the holding diameter d1 of the aisled unit.
Since the holding diameter d2 of the buffer unit is smaller than the holding diameter d1 of the threaded unit, a glazing mechanism is created in the insulator so that its position on the threaded rod can be secured during any vibrations, etc., while still adjusting the insulator position on the threaded rod manually. The adjustment of the insulator's position becomes more ergonomic for a fitter to carry out because he does not have to deal with any tools for a million years when the space is limited. Since no tools are required, bone time can be saved when mounting the insulator.
Preferred embodiments are described in the dependent claims and in the detailed description.
Brief description of the accompanying figures The invention will be described below with reference to the accompanying figures, of which: Fig. 1 shows the front of a truck with a radiator grille partially lowered. Fig. 2 shows an insulator according to the invention mounted to the body of the vehicle. Fig. 3 illustrates how the insulator can be mounted to the vehicle body via a suspension with a screw.
Fig. 4A shows the insulator according to an embodiment of the invention.
Fig. 4B shows a cross section of the insulator in Fig. 4A along A-A.
Fig. 4C shows a cross section of an insulator according to another embodiment of the invention.
Detailed Description of the Preferred Embodiments of the Invention Fig. 1 shows a part of a vehicle, has a truck, front 1, where a radiator grille 2 is shown partially collapsed. Radiator grille 2 is used to protect the vehicle's air intake to the vehicle's radiator Iran dirt, cradle dust and foreign objects. In the embodiment shown in Fig. 1, the radiator grille 2 is mounted suspended from the vehicle's body so that it can be opened and closed, thus enabling easy access to the air intake, etc. for example for cleaning.
When mounting the radiator grille 2, it is important that the assembly is quick and easy. The radiator grille 2 must be mounted so that it rests in its closed position against the body on a stable salt, and which reduces the risk of shocks or vibrations between the radiator grille 2 and the body. Fig. 2 shows an enlarged view of a part of the front of the vehicle 1, which shows against which part of the body the radiator grille 2 should rest. The circled part 3, which is also shown in Fig. 1, shows a suspension which connects two different body parts. The suspension 6 is shown as having a flat piece of metal with a continuous slide for mounting. An insulator 4 is fixed on the suspension 6, against which the radiator grille 2 is to rest in its closed position. The insulator 4 will now be described in more detail with reference to Figures 3-40. It should be emphasized that the application for the insulator 4 illustrated in Figures 1-2 is only an example, and that the insulator 4 has a wide application area beyond what is shown.
Fig. 3 shows an exposed suspension 6, to which the insulator 4 is mounted with a threaded rod 5, has a screw 5. The screw 5 is pulled through a hall in the suspension 6, 4 and the insulator 4 is screwed to the screw 5 through a corresponding threaded hall in the insulator 4. By screwing on the insulator 4, you can then adjust at what distance from the suspension 6 the insulator 4 should be located, and thus what position the insulator 4 should have on. screw 5.
Fig. 4A shows an embodiment of the insulator 4, which has an arrow drawn on its one side to mark which hall the insulator is to be rotated towards the threaded rod 5 for rotation.
Fig. 4B shows a cross section of the insulator 4 along the line AA (Fig. 4A) according to an embodiment of the insulator 4. The insulator 4 comprises a threaded unit 7 with a continuous threaded hall 9 having a hollow diameter d1 intended to receive the corresponding threaded rod 5 which may be a screw 5 (Fig. 3). The insulator 4 also comprises a buffer unit 8 of an elastic material having a halo 10 in its one end with a hollow diameter d2. The buffer unit 8 is secured to the gangway unit 7 so that the continuous gangway hat 9 of the gangway unit and the buffer 10 hall 10 are connected. As can be seen in Fig. 4B, the hd diameter of the buffer unit 8 is smaller than the hd diameter of the current unit 7. When the insulator 4 is screwed onto the threaded rod 5, the threaded rod 5 will first be screwed through the through-threaded hollow 9 in the unit 7 and then continue into the hall 10 of the buffer unit with the smaller diameter d2. The diameter d2 is thus smaller than the diameter d1pd of the aisle unit hall 9, and thus also smaller than the diameter of the aisle rod 5. The inner surface pd. the buffer unit 8 along the extent of the hall 10 of the buffer unit will enclose the passages on the stepped rod 5 and cause the screwing of the insulator 4 to become slow. On such salt, the insulator 4 will function as a corrosion-glazing mechanism. By adjusting the diameter d2 to the diameter d1, a suitable inertia can be achieved, so that a fitter can adjust the insulator 4 by hand, while the insulator 4 remains on the threaded rod 5 dd. the insulator 4 and the threaded rod 5 vibrate or are subjected to shocks. In Figs. 4A and 4B sa, the hall 10 of the buffer unit is a continuous hall, which i.a. facilitates the manufacture of the insulator 4.
Fig. 40 shows another embodiment of the insulator 4, in which the tail 10 is not a continuous hall but only slides a bit into the buffer unit 8. The buffer unit 8 encloses all the sides of the folded unit 7 above, and forms a hole 10 on both sides around the hall 9 of the aisle unit 9. Also, the hall 10 of the buffer unit has a smaller hole diameter d2 than the aisle diameter d1 of the aisle unit. On such salt, a gait-glazing mechanism can be provided on both sides of the gait of the gaited unit 9.
In both embodiments shown in Figures 4B and 40, the hall 10 of the buffer unit and the through-going hall 9 of the walked unit are concentric. Ha.len's 9, 10 center lines thus coincide. According to an embodiment, in order to create the gang-glazing mechanism, the holding diameter d2 of the buffer unit 8 is at least 1 mm smaller than the holding diameter d1 of the running unit 7, for example 1.5, 2, 2.5, 3, 3.5 or 4 mm smaller than the holding diameter d1 of the running unit 7. According to an example sa, the threaded rod 5 is a so-called M8 screw. The diameter d1 on the hall 9 of the aisle unit is then of the size 8 mm, and the height diameter d2 of the buffer unit can be 4-7 mm in order to create a aisle glazing mechanism. Note that no part of the buffer unit 8 is located inside the hall 9 of the aisle unit.
In both embodiments shown in Figures 4B and 40, the buffer unit 8 leaps over the outer perimeter of the aisle unit 7. On such salt the aisle unit 4 can be held by the buffer unit 8 and on such a salt is screwed to the buffer unit 8. According to this embodiment, the outer diameter of the buffer unit 8 is staffed by the outer diameter of the aisle unit 7, for example 0.5, 1, 1.5, or 2 mm larger.
The buffer unit 8 can then thank the outer circumference of the folded unit 7. For example, if the outer diameter of the folded unit 7 is 24 mm, then the outer diameter of the buffer unit 8 may be 25 mm. The buffer unit 8 then thanks the outer circumference of the folded unit 7 with a 0.5 mm thick layer of the buffer unit 8. In an alternative embodiment not shown in the figures, the buffer unit 8 extends only along one side of the threaded unit 7, or along one side of the folded unit 7 and partly around the outer circumference of the folded unit 7. For example, dd. a feed element such as glue 6 is used to fasten the buffer unit 8 and the folded unit 7 to each other. A feed element can also be used in the other embodiments to strengthen the securing of the current unit 7 to the buffer unit 8.
The transition of the threaded rod 5 between the handle 9 of the threaded unit 7 and the tail 10 of the buffer unit 8 can be facilitated by providing the buffer unit 8 with an inclination 11 (Fig. 4B) between the handle 9 of the threaded unit 7 and the handle 10. The inclination can be between 25 ° -75 °, for example 45 °. The slope 11 is shown only in Fig. 4B, but is also used in the embodiment of Fig. 40 or other embodiments not shown.
According to one embodiment, the buffer unit 8 is made of rubber, for example vulcanized rubber. The buffer unit 8 may have a circular or oval outer cross-section, alternatively an angular outer cross-section which facilitates gripping with one hand. The folded unit 7 is according to an embodiment made of metal, for example steel or copper. The gangway unit 7 can also be provided with a bellows, for example zinc. The threaded unit 7 can, for example, consist of a nut, plate, screw plate or nut plate. The folded unit 7 may have a circular or oval outer cross-section, alternatively an angular outer cross-section.
To manufacture the insulator, for example, the stepped unit 7 can be cast into the buffer unit 8 by vulcanization. The buffer unit 8 becomes cid dimensionally stable at the same time as it is elastic.
The present invention is not limited to the embodiments described above. Various alternatives, modifications and equivalents can be used. Therefore, the above-mentioned embodiments do not limit the scope of the invention, which is defined by the appended claims. 7

权利要求:
Claims (11)
[1]
An insulator (4) comprising a threaded unit (7) with a continuous threaded hall (9) having a hole diameter di which is intended to receive a corresponding threaded rod (5); characterized in that the insulator (4) also comprises a buffer unit (8) ay an elastic material having a slide (10) in its one end with a holding diameter d2, the buffer unit (8) being saccharified to the threaded unit (7) so that the continuous aisle (9) of the unit and the aisle (10) of the buffer unit are connected, the holding diameter d2 of the buffer unit (8) being smaller than the holding diameter di of the passed unit (7).
[2]
The insulator (4) according to claim 1, wherein the hall (10) of the buffer unit and the continuous hallway (9) of the passage unit are concentric.
[3]
The insulator (4) according to claim 1 or 2, wherein the buffer unit (8) runs at least partially over the outer circumference of the aisle unit (7).
[4]
The insulator (4) according to any one of the preceding claims, wherein the buffer unit (8) at least partially encloses the passage unit (7).
[5]
The insulator (4) according to any one of the preceding claims, wherein the hall (10) of the buffer unit is a continuous hall.
[6]
The insulator (4) according to any one of the preceding claims, wherein the buffer unit (8) is made of rubber.
[7]
The insulator (4) according to claim 6, wherein the buffer unit (8) is made of vulcanized rubber.
[8]
The insulator (4) according to any one of the preceding claims, wherein the holding diameter d2 of the buffer unit (8) is at least 1 mm smaller than the holding diameter d1 of the running unit (7). 8
[9]
The insulator (4) according to any one of the preceding claims, wherein the stepped unit (7) is made of metal.
[10]
The insulator (4) according to any one of the preceding claims, wherein the stepped unit (7) has a circular cross-section.
[11]
The insulator (4) according to any one of the preceding claims, wherein the buffer unit (8) has a circular cross-section. 1- 0 L T_ CV d L T_ 2/2

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引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

US2850064A|1954-08-27|1958-09-02|Illinois Tool Works|Nut structure having elastic gripping action and sealing means|

US2904820A|1956-06-11|1959-09-22|Tinnerman Products Inc|Closure check or the like|

GB830722A|1957-04-26|1960-03-16|Morse Milton|Hermetic sealing devices and method for making same|

CN87216084U|1987-12-03|1988-09-28|刘学明|Locking sealed nut|

JP2510468B2|1993-06-30|1996-06-26|株式会社丸エム製作所|Cap nut and manufacturing method thereof|

JP2007162733A|2005-12-09|2007-06-28|Daiwa Kasei Ind Co Ltd|Cushion member and its forming method|

RU68989U1|2007-03-28|2007-12-10|Анатолий Владимирович Иванов|REMOVABLE DIRT CASE|

CN101363470A|2008-09-23|2009-02-11|隆鑫工业有限公司|Amortization connecting nut|CN110541507B|2019-08-19|2020-10-16|惠州市鸿泰建筑工程有限公司|Glass curtain wall mounting assembly and using method|

法律状态:

优先权:

申请号 | 申请日 | 专利标题

SE1351063A|SE539675C2|2013-09-17|2013-09-17|Isolator|SE1351063A| SE539675C2|2013-09-17|2013-09-17|Isolator|

BR112016004301-4A| BR112016004301B1|2013-09-17|2014-09-11|INSULATOR THAT IS ADJUSTABLE AND CAN DEAL WITH IMPACTS AND VIBRATIONS|

PCT/SE2014/051044| WO2015041585A1|2013-09-17|2014-09-11|Insulator which is adjustable and can deal with impacts and vibrations|

CN201480050466.0A| CN105556141B|2013-09-17|2014-09-11|Isolator adjustable and that shock and vibration can be tackled|

EP14845136.2A| EP3047164B1|2013-09-17|2014-09-11|Insulator which is adjustable and can deal with impacts and vibrations|

KR1020167009004A| KR20160052691A|2013-09-17|2014-09-11|Insulator which is adjustable and can deal with impacts and vibrations|

RU2016114534A| RU2666500C2|2013-09-17|2014-09-11|Shock absorber which is adjustable and can deal with impacts and vibrations|

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