• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Aiming device for firearms, comprising an elongated base module (l0l; 20l) arranged to be mounted on a firearm and an elongated bullet course module (l04; 204) in the form of a stirrup rotatably arranged to the base module (l0l; 20l). The ball track module (104; 204) is arranged to carry at least one sight and to be rotated between different biasing layers up and down in relation to the base module (10; 20l) corresponding to different firing distances, the ball track module (104) being arranged to be releasably mounted on either side of the base module. 101). To be published with FIG. 1B.
    公开号:SE0950474A1
    申请号:SE0950474
    申请日:2009-06-18
    公开日:2010-12-19
    发明作者:Haakan Spuhr
    申请人:Spuhr I Dalby Ab;
    IPC主号:
    专利说明:

    15 20 25 30 35 090618 P: 9630 P 0O3 SE P96300003fü90ßlíšfpacencansökan för inlämningxlocx 2 shooting distance depending on weapon and ammunition. The sight on the rail is rotatably fixed to the base with a threaded pin and is held in place by a locking mechanism. The reading mechanism is set with a spring-loaded locking knob, which is pulled out and fl moved between different grooves in a plate in the reading mechanism. Each cut corresponds to a ballistic value for the current ammunition and caliber. The firing distance is thus set by moving the locking knob fl to a specific cut.
    A problem with a sight mount according to US-A-6 662 486 is that the shooter can accidentally lose the grip on the locking knob so that it ends up in a cut, which corresponds to an undesired firing distance. This makes it difficult to set the shooting distance quickly and safely.
    Frequent use can give rise to wear, which can mean that the sight mount can be moved involuntarily and by mistake easily between different settings without the shooter noticing anything before firing with a boom as a result.
    A sighting device for grenade launchers is previously known from US-A-6 568 118. The aiming device has a mounting module, which is arranged on the barrel and in the center line of the barrel on the grenade launcher. The aiming device is provided with a distance adjusting means rotatably arranged at the mounting module, the distance setting means having a number of selectable positions for different firing distances.
    The distance adjusting means has a rotatable plate, which can be moved along a gradation on a ball track plate with different firing distances readable from the side through an opening in the rotatable plate when the aiming device is mounted on the grenade launcher. The rotatable plate is set in different positions for the different shooting distances. A release latch allows the rotatable plate to be flattened and adjusted to the various positions. The release latch can be set in two positions. In one position, the rotatable plate is fixed to a base plate in a fixed position, which corresponds to a desired firing distance. In the second position, the rotatable plate is released and can be moved between different settings along the scale. A ball track plate is mounted on the back of the base plate and provided with inserts corresponding to the firing distances specified on the grading scale. Even if the sight mount has a graded scale for different shooting distances, the shooter must take the weapon down from the facility to be able to read the gradation from the side when setting.
    The trigger arm is located in an exposed position and can be easily bumped when handling and moving the weapon, which can lead to the trigger arm being accidentally released, the rotatable plate fl being moved from its position set by the shooter. Although grenade launchers / grenade launchers can be equipped with modern red dot sight or laser sight, which in itself makes it easier for the shooter to quickly aim the weapon at the target, the graduated range setting on previously known sight mounts is both difficult 10 15 20 25 30 35 090618 P: 9630 P O03 SE P96300003f090ßlíšfpacencansökan för submission.docx 3 to read and to set up quickly and easily. This means that the shooter, who in many cases handles the weapon in stressful situations, may set the wrong firing distance with a boom as a result. In addition, previously known sight mounts with graded distance setting are sensitive to shocks and other external influences, whereby the sight mount can for fl is moved out of its desired position for the distance setting, also here with boom as follow d.
    Summary It is an object of the invention to provide a sighting mount for firearms with a highly curved bullet trajectory, which can be easily and safely set in positions for different firing distances.
    One aspect of the invention is a sight mount for firearms, comprising an elongate base module arranged to be mounted on a firearm and an elongate bullet trajectory module in the form of a stirrup rotatably mounted to the base module. The trajectory module is arranged to carry at least one sight and to be rotated between different biased positions upwards and downwards in relation to the base module corresponding to different firing distances, the trajectory module being arranged to be releasably mounted on either side of the base module.
    It provides a sight mount, which can be used by both left-handed and right-handed shooters.
    According to some embodiments of the invention, the base module has at least one sight mounting plate with through holes for screws or pins to fix the sight bracket in the weapon.
    According to a preferred embodiment of the invention, the base module has two longitudinal sides and the ball track module is arranged to be rotatably and detachably mounted on either of the longitudinal sides of the base module.
    It provides a sight mount, which can be mounted on either side of the firearm.
    According to some embodiments of the invention, the ball track module has an actuator on either longitudinal side of the ball track module arranged to be pulled backwards and upwards and / or downwards so that the ball track module is moved in a corresponding direction relative to the base module, which facilitates setting the desired firing distance.
    According to some embodiments, the operating means is arranged on one side of the ball track module and extends from the ball track module.
    According to some embodiments of the invention, the sight bracket has a locking bolt rotatably arranged in the rear and lower part of the base module and can be rotated between a horizontally locked position, in which the locking bolt prevents the base module from being pulled back relative to the base module, and a vertically disengaged position that the ball track module can be pulled back so that it is released from its set position, so that the ball track module can be upp moved upwards and / or downwards to another and / or downwards. position in relation to the base module. This means that the sight bracket can be safely set in positions for different shooting distances.
    For a safe and simple adjustment of the sight bracket, the ball path module has a ball path graduation part with a concave surface facing in the intended firing direction and with a series of recesses corresponding to the different firing distances and the base module has a locking means arranged to engage one recess at a time corresponding to a certain firing distance, for fixing the ball track module in relation to the base module.
    According to some embodiments of the invention, the sight bracket has a spring with a spring pin arranged in a space of the ball track module, so that the spring pin is pressed by the spring against the shaft, whereby the recess for the actual firing distance is forced against the locking means and the sight bracket is kept biased in its position. This reduces the risk of involuntary change of the set shooting distance even if the locking bolt is in the disengaged position or would be completely missing.
    According to a preferred embodiment of the invention, the ball track module is arranged to be detachably mounted on either side of the base module, so that the aiming mount is arranged to be mounted on the left side of a weapon when the ball track module is mounted on the left side of the base module and the sight mount is arranged to mount on the right side. of a weapon when the bullet trajectory module is mounted on the right side of the base module.
    To further facilitate mounting of the sight on the left or right side of the weapon, the actuator of the sight bracket is releasably arranged on either side of the bullet path module and the locking means and the locking bolt are releasably arranged on either side of the base module.
    In some embodiments, at least one sight is an open target, red dot sight, laser sight, or optical sight.
    According to some embodiments of the invention, the ball track module has a first fastening means on top of the ball track module arranged to carry a first sight and a second fastening means on either side of the ball track module arranged to carry a second screen.
    The first sight and the second sight can advantageously be of different types.
    According to some embodiments, the base module is arranged to be mounted on top of the weapon.
    The firing distances marked on the scale can advantageously consist of milled gradations, gradations in a luminescent material or some material that is visible through light amplifier goggles. 10 15 20 25 30 090618 P: 9630 P 0O3 SE P96300003fü90ßlíšfpacencansankan för sublämningxlocx 5 .
    Other objects, features and advantages of the present invention will become apparent from the following detailed description of a preferred embodiment, from the accompanying drawings as well as from the subclaims.
    Brief Description of the Drawings The invention will now be described in more detail with reference to the accompanying drawings, in which: FIGS. 1A-1D illustrate a first alternative embodiment of a sight mount for weapons with a curved bullet trajectory; Figs. 2A-2D illustrate a second alternative embodiment of a weapon sight mount with a curved bullet path; and FIGS. 3A-3D illustrate various operative positions of the screen fastener according to the embodiment of FIGS. 1A-1D.
    Detailed Description FIGS. 1A-1D illustrate an embodiment of a sighting 100 for weapons with a curved or highly curved bullet trajectory, such as a grenade launcher, grenade launcher or grenade launcher attachment, tear gas weapon, bean bag or pepper bullet weapon, etc.
    The sight bracket 100 is in the embodiment shown arranged for mounting on the right side of the weapon and is preferably intended for operation with the right hand.
    Referring to FIG. 1A, a right side view - in an imaginary firing direction when the sight mount is mounted on the firearm - is shown of the sight mount 100, which includes a base module 101 with plates 102, 103, with holes 102 °, 103 "to be fixed at the weapon from the side, for example by screwing the sight bracket. A ball track module 104 in the form of a stirrup is rotatably arranged at one end of the base module 101 and which can be rotated horizontally relative to the base module 101.
    One or more screens of the same or different type can be mounted on the screen mount.
    The embodiments of FIG. 1A have a first mounting rail 105 for mounting a first screen on top of the ball track module 104 and a second mounting rail 106 for mounting a second screen on the side of the ball track module 104. The mounting rails 105 and 106 may be either fixed or releasably mounted mounting adapters for specific sight. 10 15 20 25 30 35 090618 P: 9630 P 0O3 SE P96300003fü90ßlíšfpacencansankan för lämningxlocx 6 The first sight may be, but is not limited to, a mechanical sight, red dot sight, laser sight or optical sight while the second sight on the same may be, but is not limited to, a mechanical sight, red dot sight, laser sight, or optical sight. The first and second sights may be of the same or different type.
    In the present embodiment, the ball track module 104 is formed mainly of three integral parts, including a lower part 107, an upper part 108 and a substantially horizontal ball track graduation part 109. The ball track graduation part 109 may be marked on its right side with different firing distances, for example from 50-300 meters in steps of, for example, 50 meters, on a scale of 110. The distances specified in the embodiments are not intended to be limiting. The total interval as well as the length between the steps can be both longer and shorter.
    Referring to FIG. 1B, the base module has in its rear part on the right side a laterally projecting portion 112 with a vertically through opening 113, through which the ball path graduation part 109 can be moved up and down. The protruding portion 112 forms with its opening 113 a frame which horizontally kul axes the ballway graduating portion 109 laterally (left / right in the firing direction) as it is passed vertically through the opening 113. The actual firing distance can be read from the right in height with the upper edge of the protruding portion 112, for example, by a shooter holding the weapon in place.
    The ball track module 104 is held in its front part rotatably in place against the base module 101 with a nut and shaft or screw 114 with a washer spring 114 ". An actuator in the form of, for example, a cylindrical handle 115 is used to adjust the sight for different firing distances by the shooter gripping the cylindrical handle 115 and pulling it backwards and upwards or downwards - depending on whether the aiming bracket is to be set for longer or shorter firing distances - whereby the ball track module 104 can be moved vertically relative to the base module 101. The cylindrical handle 115 is arranged on the right side of the ball track module 104 and extends from the ball track module where the lower part 107 merges into the ball track graduation part 109. A locking bolt 116 is rotatably mounted at the rear and lower parts. the base module 101. The locking latch 116 is rotatable between a vertically locked position, in which it prevents both voluntary and involuntary change of the setting of the sight bracket, and a horizontally connected position according to FIG. 1B, which allows the ball track module 104 to be retracted by the cylindrical handle 115. The locking is allowed by the eccentric ä of the locking bolt 116 nddel.
    FIG. 1C shows a rear view of the sight bracket of FIG. 1A showing that the ball bearing graduation member 109 may have a graduated scale 110 ”with sliding distances readable from the rear, in a position of use. Fig. 1D shows a perspective view of an embodiment of the sight bracket where the ball bearing graduation part 109 is provided with both the scale 110 readable from the right side and readable from the right side. from behind.
    FIGS. 2A-2D illustrate an alternative embodiment of a weapon sight mount 200 with a highly curved bullet trajectory. The sight bracket 200 is in the embodiment shown arranged for mounting on the left side of the weapon and is preferably intended for operation with the left hand.
    Referring to FIG. 2A, there is shown a left side view - in an imaginary firing direction when the sight is mounted on a firearm - of the sight mount 200, which includes a base module 201 with mounting plates 202, 203, with holes 202 ", 203" for fixation at the weapon from the side, for example by screwing the sight bracket. A ball track module 204 in the form of a jumper is rotatably arranged at one end of the base module 201 and can be rotated horizontally relative to the base module 201.
    One or more screens of the same or different type can be mounted on the screen mount.
    The embodiments of FIG. 2A have a first mounting rail 205 for mounting a first screen on top of the ball track module 204 and a second mounting rail 206 for mounting a second screen on the side of the ball track module 204. The mounting rails 205 and 206 may be either fixed or removably mounted mounting sights for specific sight. .
    The first sight may be, but is not limited to, a mechanical sight, red dot sight, laser sight or optical sight while the second sight may similarly be, but is not limited to, a mechanical sight, red dot sight, laser sight or optical sight. The first and second sights may be of the same or different type.
    In the present embodiment, the ball path module 204 is formed mainly of three integral parts, including a lower part 207, an upper part 208 and a substantially horizontal ball path graduation part 209. The ball path graduation part 209 can be marked on its left side with different firing distances, for example from 50-300 meters in steps of, for example, 50 meters, on a scale of 210 ”. The distances specified in the embodiments are not intended to be limiting. The total interval as well as the length between the steps can be both longer and shorter.
    Referring to FIG. 2B, the base module has in its rear portion on the left side a laterally projecting portion 212 with a vertically through opening 213, through which the ball path graduation portion 209 can be moved up and down. The protruding portion 212 forms with its opening 213 a frame which horizontally fixes the ball path graduation part 209 (left / right in the firing direction) when it is passed through the opening 213. The current firing distance can be read from the left at the height of the upper edge of the protruding portion 212. The ball track module 204 is held in its front part rotatably in place against the base module 201 with a nut and shaft or screw 214 with a washer spring 214 ”. An actuator in the form of, for example, a cylindrical handle 215 is used to adjust the sight for different firing distances by the shooter gripping the cylindrical handle 215 and pulling it backwards and upwards or downwards - depending on whether the aiming bracket is to be set for longer or shorter firing distance - whereby the ball track module 204 can be moved vertically relative to the base module 101. The cylindrical handle 215 is arranged on the left side of the ball track module 204 and extends from the ball track module where the lower part 207 merges into the ball track graduating part 209. A locking latch 216 is rotatable. part of the base module 204. The locking latch 216 is rotatable between a horizontally locked position according to Fig. 2B, in which it prevents both voluntary and involuntary change of the setting of the sight bracket, and a vertically disengaged position, which allows the ball track module 204 to be retracted by the cylindrical pin 215.
    Fig. 2C shows a rear view of the sight mount of Fig. 2A where it is seen that the ball path graduating member 209 may have a graduated scale 210 "with sliding distances readable from behind, in a position of use Fig. 2D shows a perspective view of an embodiment of the sight holder 210 "readable from the left side and the scale 210" readable from the back. Although FIGS. 1A-1D and FIGS. 2A-2D have been described as two separate embodiments of the screen mount according to the invention, FIGS. 1A-1D and FIGS. 2A-2D may equally well describe one and the same embodiment, according to which the parts are releasably arranged for each other to be able to be arranged either according to the embodiment described in Figs. 1A-1D for mounting on the right side of the weapon or according to the embodiments in Figs. 2A-2D for mounting on the left side of the weapon. According to such an embodiment, all reference numerals 100-115 correspond to the same elements as 200-216. However, the ball bearing graduation part 109,209 is provided with a scale 110 readable from the right side, a scale 110 °, 210 ° readable from the rear and a scale 210 ”readable from the left in a position of use. The sight mount is not limited to having scales on both the left and right sides but can preferably only have a scale, which is readable from behind.
    An advantage of the above-mentioned embodiment is that the sight can be used by both left and right shooters and that the sight can be mounted on either the left side or the right side of the weapon 10 15 20 25 30 35 090618 P: 9630 P 0O3 SE P96300003fü90ßlíšfpacencansökan for reference xlocx 9 Referring to FIGS. 3A-3D, the various operative positions of the screen mount 100,200 are illustrated, i.e., a locked position and a disengaged position. In the locked position the bracket is fixed for firing and cannot be adjusted and in the disengaged position the bracket can be adjusted between different firing distances. The description of the operative positions is equally applicable to the embodiment of the sight bracket 200 and the embodiments with removable parts.
    Fig. 3A shows the screen mount in section along the line A - A in Fig. 3B, and illustrates the screen mount in the locked position. The ball bearing graduation part 109 may have a concave surface with a number of recesses 117 on the side facing forward when the sight bracket is mounted on the weapon. There are a series of recesses, grooves or slots 117, one for each possible adjustable shooting distance on the scale 110 ”. As mentioned above in connection with the description of the two embodiments of the sight bracket 100, the ball track module 104 is held in its front part rotatably in place against the base module 101 with a nut and shaft or screw 114.
    The recess corresponding to the current set shooting distance is engaged with a locking means, which in this embodiment is a cylindrical locking path 118 arranged in the projecting portion 112. A spring 119 with a spring pin 120 is arranged in a space 121 of the ball track module 104. The spring pin 120 is pressed by fi edema 119 against the shaft 114, whereby the recess 117 for the current firing distance is forced against the cylindrical pin 118 and the sight bracket is biased in its position with the currently set firing distance.
    The locking latch 116 is in its vertical locked position and if the shooter should grip the actuator 115 to try to adjust if the firing distance is prevented from moving the ballway module laterally and backwards towards it and the cylindrical pin 118 remains in engagement with the recess 117 of the series recess 117, .
    Fig. 3C shows the sight bracket in cross-section along the line B - B in Fig. 3D, and illustrates the sight bracket in the disengaged position, i.e. the locking latch 116 is in its horizontal disengaged position. The shooter can in this position grip the actuator l15,215 and pull it backwards towards it, whereby the spring pin 120 compresses fi edema 119.
    The trajectory module is then released from its set position and can be moved up or down to the desired position for a certain fixed firing distance. When the ball path module has been moved to the desired firing distance on the scale, the shooter releases the ball path module, the spring 119 expanding slightly but still pressing against the spring pin 120. The cylindrical locking path 118 engages the recess corresponding to the desired firing distance as shown in FIG. 3A.
    The locking bar 116 can then be folded down to its locked vertical position. Even if the shooter forgets to set the locking bolt to the locked position, the sight remains set in its current position as the spring pin 119 is pressed against the spring pin 119 against the locking pin 120. the shaft 114, whereby the recess 117 for the current firing distance is forced towards the cylindrical pin 118 and the sight bracket remains prestressed in its position with the current set firing distance.
    Frequent adjustment of the sight bracket between different sliding distances can lead to wear of the cylindrical locking pin 118 and the recesses 117. This can advantageously be avoided in that the cylindrical locking path 118 has a slightly larger radius than the grooves or recesses 117. For example, the locking path 118 may have a radius of 1.5 mm while the recesses have a radius of 1.0 mm.
    Thereby, a certain wear of the recess can be allowed without a gap occurring in the construction and the desired wear compensation obtained. Said dimensions of radii and the relationship between the radii are only intended to function as examples and may therefore have other values or mutual relations within the scope of the embodiment.
    The sight bracket may be made of, but is not limited to, any suitable torsionally rigid material such as steel, aluminum or any other metal, hard plastic or other suitable synthetic material. Different materials can also be mixed. For example, the base module and the ball track module may be made of one material while the mounting adapter (s) may be of a different material. Although the sight bracket has been described in the form of specific embodiments, they are not intended to limit the invention but are only intended to serve as examples of embodiments. The sight bracket can therefore occur in different designs and is limited only by what appears from the patent claims.
    For example, the sight mount may be provided for mounting on top of a weapon.
    According to an alternative embodiment, the cylindrical locking pin may be a spring-loaded ball arranged in the projecting portion. The recess that corresponds to the current set shooting distance is then engaged with the bullet.
    The laterally projecting portion of the base module may in an alternative embodiment be open and consist only of the locking means or the locking means with a stabilizing attachment, along which the ball path graduating part can be moved up and down.
    The ball bearing graduation part in this embodiment only has support from one side of the base module when it is moved up or down between different firing distance settings.
    One or more of the scales may be, but are not limited to, provided with milled gradations, gradations in a luminescent material or any material visible through light amplifier goggles. For example, tritium lamps can be used to increase lockability. In such an embodiment, a tritium lamp may be arranged in the 0 in the middle of each graduated hundred. This means that the shooter can read the set shooting distance even in low light or in the dark. No visible tritium lamp 090618 P: 9630 P 003 SE P96300003 * 0906l8 * patent application for filingxlocx ll corresponds to a set shooting distance of 50m, a visible tritium lamp corresponds to a set shooting distance of 100m, two visible shooting distances of 200m .
    权利要求:
    Claims (19)
    [1]
    A firearm sight mount, comprising an elongate base module (101; 201) arranged to be mounted on a firearm and an elongate bullet trajectory module (104; 204) in the form of a stirrup rotatably mounted to the base module (101; 201), the bullet trajectory module (104; 204) is arranged to carry at least one sight and to be rotated between different biased positions upwards and downwards relative to the base module (101; 201) corresponding to different firing distances, the ball track module (104) being arranged to be releasably mounted on either side of the base module (101). .
    [2]
    A screen mount according to claim 1, wherein the base module (101; 201) has at least one screen mounting plate (10 2, 10 3; 202,203) with through holes (102 ", 103 °; 202 °, 203 ') for screws or pins to fix the screen mount in armed.
    [3]
    A sight bracket according to claim 1 or 2, wherein the base module has two longitudinal sides and the ball track module (104; 204) is arranged to be rotatably and removably mounted on either of the longitudinal sides of the base module (101; 201).
    [4]
    A sight mount according to any one of the preceding claims, wherein the base module (101; 201) is arranged to be mounted on the side of the weapon.
    [5]
    A sight bracket according to any one of the preceding claims, wherein the ball track module (104; 204) has an actuator (11; 215) on either longitudinal side of the ball track module arranged to be pulled backwards and upwards and / or downwards so that the ball track module (104; 204) for in the corresponding direction in relation to the base module (101; 201).
    [6]
    A sight bracket according to claim 6, wherein the actuator (15; 215) is arranged on one side of the ball track module (104; 204) and extends laterally out from the ball track module.
    [7]
    A sight bracket according to claim 5 or 6, wherein a locking bolt (16; 216) is rotatably mounted in the rear and lower portions of the base module (104; 204) and is rotatable between a horizontally locked position in which the locking bolt (16; 216) prevents the base module from being pulled back relative to the base module, and a vertically disengaged position, which allows the ball track module (104; 204) to be pulled back so that it is released from its set position, so that: 9630 P 0O3 EN P96300003fü90ßlíšfpacencansankan för lämmenxlocx 13 the ball track module can fl be moved up and / or down to another set position in relation to the base module.
    [8]
    A sight mount according to any one of the preceding claims, wherein the ball path module (104) has a ball path graduation member (109) with a concave surface facing in the intended firing direction and with a series of recesses (117) corresponding to the different firing distances and the base module (101) having a locking means (101). 118), which is arranged to engage with a recess corresponding to a certain firing distance, for fixing the ball track module (104) relative to the base module (101).
    [9]
    A sight bracket according to claim 8, wherein a spring (119) with a spring pin (120) is arranged in a space (121) of the ball track module (104), so that the spring path (120) is pressed by the spring (119) against the shaft (114). , whereby the recess (117) for the current firing distance is forced towards the locking means (118) and the sight bracket is kept biased in its position with the current set firing distance.
    [10]
    A sight mount according to any one of the preceding claims, wherein the bullet path module (104; 204) is arranged to be releasably mounted on either side of the base module (101; 201), so that the sight mount is arranged to be mounted on the left side of a weapon when the ball path module is mounted on left side of the base module and that the sight mount is arranged to be mounted on the right side of a weapon when the bullet path module is mounted on the right side of the base module.
    [11]
    A sight mount according to claim 10, wherein the actuator (1 15,215) is releasably arranged on either side of the ball track module (104; 204) and the locking means (118) and the locking latch (l16; 216) are releasably arranged on either side of the base module (101; 201). ).
    [12]
    A sight mount according to any one of the preceding claims, wherein said at least one sight is an open aiming means, red dot sight, laser sight or optical sight.
    [13]
    A screen mount according to any one of the preceding claims, wherein the ball track module (104) has a first fastener on top of the ball track module (104; 204) arranged to support a first screen and a second fastener on either side of the ball track module (104; 204) arranged to support a second sight. 10 15 20 25 090618 P: 9630 P O03 SE P96300003f090ßlíšfpacencansökan för inlämning.docx 14
    [14]
    A screen mount according to any one of the preceding claims, wherein the first screen and the second screen are of different types.
    [15]
    A sight mount according to any one of the preceding claims, wherein the base module is arranged to be mounted on top of the weapon.
    [16]
    A sight mount according to any one of the preceding claims, wherein the different firing distances are marked on a scale on a surface of the stirrup, which surface faces in an opposite direction to an imaginary firing direction and is readable from behind.
    [17]
    A sight mount according to claim 16, wherein the base module (101; 201) has a marking means (112; 212) arranged so that the marking on the scale for a set firing distance is set at the height of a marking means (1 12,212) on the base module (10 1; 20 1).
    [18]
    A sight mount according to claim 16 or 17, wherein the firing distances marked on the scale consist of milled gradations, gradations in a luminescent material or any material visible through light amplifier goggles.
    [19]
    A sight mount according to any one of claims 16-18, wherein at least one of the shooting distances marked on the scale is provided with a tritium lamp, which indicates a set shooting distance and is readable from behind in a user position.
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    同族专利:
    公开号 | 公开日
    SE534610C2|2011-10-25|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    法律状态:
    2021-10-05| NUG| Patent has lapsed|
    优先权:
    申请号 | 申请日 | 专利标题
    SE0950474A|SE534610C2|2009-06-18|2009-06-18|Siktesfäste|SE0950474A| SE534610C2|2009-06-18|2009-06-18|Siktesfäste|
    EP10789828.0A| EP2443411B1|2009-06-18|2010-06-18|Sight mount|
    PCT/SE2010/050693| WO2010147550A1|2009-06-18|2010-06-18|Sight mount|
    DK10789828.0T| DK2443411T3|2009-06-18|2010-06-18|TERM HOLDER|
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