A new type of sight for bows and arrows
By introducing a trigger lock module into the archery sight and using a preload spring to provide preload force, the main support can be quickly locked or unlocked, solving the problem of cumbersome adjustment in traditional archery sights and improving adjustment efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- TIANJIN NO 1 TARGET SPORTS GOODS CO LTD
- Filing Date
- 2025-07-01
- Publication Date
- 2026-06-30
AI Technical Summary
Traditional bow and arrow sights are inconvenient to adjust the extension length, requiring loosening the bolts for adjustment and then tightening them again, which is cumbersome.
The main support is quickly locked or unlocked by using a trigger lock module. By connecting or disengaging the trigger and the trigger lock, and using a preload spring to provide preload force, the main support is quickly locked or unlocked, simplifying the adjustment process.
It enables rapid adjustment of the main support position of the bow and arrow sight, simplifying user operation and improving adjustment efficiency.
Smart Images

Figure CN224435185U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of archery aiming technology, and in particular to a novel archery aiming device. Background Technology
[0002] Archery sights are used to assist users in aiming at targets when firing arrows. Traditional sights require loosening the bolts at the connection point to adjust their extension relative to the arrow, and then tightening them again after adjustment. This method is inconvenient for users. Therefore, a new adjustment mechanism is needed that allows users to easily adjust the extension of the archery sight relative to the arrow. Utility Model Content
[0003] In view of the current state of the prior art, the technical problem to be solved by this utility model is to provide a new type of archery sight, which can quickly lock or unlock the main support through a trigger, thereby facilitating the user to adjust the position of the main support in the archery sight.
[0004] The technical solution adopted by this utility model to solve the above-mentioned technical problems is as follows: a new type of archery sight, including a fixed base and a main support, wherein the main support is inserted into the fixed base, and a trigger lock module for switching the locked and unlocked states of the main support is connected to the fixed base;
[0005] The trigger lock module includes a pressure block, a slider, a trigger, a trigger lock, and a preload spring. The pressure block and the slider are slidably connected in the fixed base. The pressure block is located above the main support. The upper end of the slider is connected to the pressure block, and the lower end of the slider is connected to the trigger. The trigger is detachably connected to the trigger lock, and the trigger lock is movably connected to the fixed base. One end of the preload spring is connected to the fixed base, and the other end is connected to the trigger lock to apply a downward preload force to the trigger lock.
[0006] When the main support is in the locked state, after the trigger lock is connected to the trigger, the preload spring applies a downward preload force to the trigger, slider and pressure block through the trigger lock. The pressure block presses on the main support, and the main support is fixedly connected to the fixed seat.
[0007] When the main support is in the unlocked state, the trigger lock is disengaged from the trigger, the pressure block is located above the main support, and the main support is slidably connected to the fixed base.
[0008] Furthermore, one end of the trigger lock is provided with a rotating shaft and the other end is provided with locking teeth. The rotating shaft is inserted into the fixed seat, and the fixed seat is provided with a shaft groove that mates with the rotating shaft. The fixed seat is provided with a spring groove for installing the preload spring on the lower left of the shaft groove.
[0009] Furthermore, the lower end of the slider is provided with a sliding groove, and the trigger is provided with a rotating wheel. The rotating wheel rotates and slides with the sliding groove, and the rotating wheel is provided with a locking groove for the locking tooth to engage.
[0010] Furthermore, the rotating wheel is an eccentric wheel structure, and the locking groove is located on the side of the rotating wheel away from the center of rotation.
[0011] Furthermore, the main support is provided with several positioning holes and a positioning shaft at equal intervals. The positioning shaft is connected to any of the positioning holes, and the fixed seat is provided with a limiting groove that engages with the positioning shaft.
[0012] Furthermore, the positioning hole is a threaded hole, and the positioning shaft is a screw.
[0013] Furthermore, the main support is provided with a plurality of first indicator slots at equal intervals, and the fixed base is provided with a first spring positioning bead that cooperates with the first indicator slot.
[0014] Furthermore, the end of the main support is connected to a connector, which includes two symmetrically arranged claws and bolts passing through the claws. A secondary support is slidably connected to the connector and is arranged perpendicular to the main support. The secondary support is provided with a guide block, and the claws are respectively pressed on both sides of the guide block.
[0015] Furthermore, the claw is provided with a trapezoidal tooth, and the guide block is provided with a groove that slides in cooperation with the tooth.
[0016] Furthermore, the guide block is provided with a plurality of second indicator slots at equal intervals, and the connector is provided with a second spring positioning bead that cooperates with the second indicator slot.
[0017] Compared with existing technologies, the advantages of this invention are as follows: By setting a preload spring to provide a downward preload force to the trigger lock, and then connecting the trigger to the trigger lock, the downward preload force of the trigger lock can be transferred to the trigger, and simultaneously transferred from the trigger to the slider and the pressure block. This causes the pressure block, located above the main support, to firmly press the main support, using friction to prevent the main support from sliding. Conversely, when the trigger lock disengages from the trigger, the pressure block no longer has a downward preload force and therefore does not press against the main support. The friction between the pressure block and the main support is insufficient to prevent the main support from sliding, allowing the main support to slide within the fixed base. Therefore, the user only needs to control the connection or disengagement of the trigger and trigger lock to quickly lock or unlock the main support, thus facilitating the user's adjustment of the position of the main support in the bow and arrow sight. Attached Figure Description
[0018] Figure 1 This is a structural schematic diagram of one side of the present invention;
[0019] Figure 2 This is a schematic diagram of the structure on the other side of this utility model;
[0020] Figure 3 This is a structural diagram of the fixing base and trigger lock module of this utility model;
[0021] Figure 4 This is a cross-sectional view of the fixing base and trigger lock module of this utility model;
[0022] Figure 5 This is a schematic diagram of the connector and sub-support of this utility model;
[0023] As shown in the figure, 1. Fixed base; 1.1 First spring positioning ball; 1.2 Limiting groove; 1.3 Shaft groove; 1.4 Spring groove; 2. Main bracket; 2.1 Positioning shaft; 2.2 First indication groove; 2.3 Positioning hole; 3. Pressure block; 4. Slider; 4.1 Slide groove; 5. Trigger; 5.1 Rotating wheel part; 5.1.1 Locking groove; 6. Trigger lock; 6.1 Rotating shaft; 6.2 Locking tooth; 7. Preload spring; 8. Connector; 8.1 Claw; 8.1.1 Claw tooth; 8.2 Bolt; 8.3 Second spring positioning ball; 9. Sub-bracket; 9.1 Guide block; 9.1.1 Slide groove; 9.1.2 Second indication groove. Detailed Implementation
[0024] The present invention will be further described below with reference to specific embodiments.
[0025] In the description of this utility model, it should be understood that the terms "center", "longitudinal", "transverse", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc., indicating the orientation or positional relationship, are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation, and therefore should not be construed as a limitation of this utility model.
[0026] Furthermore, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of indicated technical features. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one of that feature. In the description of this utility model, "a plurality of" means at least two, such as two, three, etc., unless otherwise explicitly specified.
[0027] In this utility model, unless otherwise explicitly specified and limited, the terms "installation," "connection," "joining," and "fixing," etc., should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral part; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; they can refer to the internal communication of two components or the interaction between two components, unless otherwise explicitly limited. Those skilled in the art can understand the specific meaning of the above terms in this utility model according to the specific circumstances.
[0028] In this utility model, unless otherwise explicitly specified and limited, "above" or "below" the second feature can mean that the first feature is in direct contact with the second feature, or that the first feature is in indirect contact with the second feature through an intermediate medium. Furthermore, "above," "on top of," and "over" the second feature can mean that the first feature is directly above or diagonally above the second feature, or simply that the first feature is at a higher horizontal level than the second feature. "Below," "below," and "under" the second feature can mean that the first feature is directly below or diagonally below the second feature, or simply that the first feature is at a lower horizontal level than the second feature.
[0029] like Figure 1-5 As shown, a novel bow and arrow sight includes a fixed base 1 and a main support 2. The main support 2 is inserted into the fixed base 1, and a trigger lock module for switching the locked and unlocked states of the main support 2 is connected to the fixed base 1.
[0030] The trigger lock module includes a pressure block 3, a slider 4, a trigger 5, a trigger lock 6, and a preload spring 7. The pressure block 3 and the slider 4 are slidably connected in the fixed base 1. The pressure block 3 is located above the main support 2. The upper end of the slider 4 is connected to the pressure block 3, and the lower end of the slider 4 is connected to the trigger 5. The trigger 5 is detachably connected to the trigger lock 6, and the trigger lock 6 is movably connected to the fixed base 1. One end of the preload spring 7 is connected to the fixed base 1, and the other end is connected to the trigger lock 6 to apply a downward preload force to the trigger lock 6.
[0031] When the main support 2 is in the locked state, after the trigger lock 6 is connected to the trigger 5, the preload spring 7 applies a downward preload force to the trigger 5, the slider 4 and the pressure block 3 through the trigger lock 6. The pressure block 3 presses against the main support 2, and the main support 2 is fixedly connected to the fixed base 1.
[0032] When the main support 2 is in the unlocked state, the trigger lock 6 is disengaged from the trigger 5, the pressure block 3 is located above the main support 2, and the main support 2 is slidably connected to the fixed base 1.
[0033] The mounting base 1 is fixed to the bow and arrow. A preload spring 7 provides downward preload to the trigger lock 6. Connecting the trigger 5 to the trigger lock 6 transfers this downward preload to the trigger 5, which in turn transmits it to the slider 4 and the pressure block 3. This causes the pressure block 3, positioned above the main support 2, to firmly press against the main support 2, using friction to prevent it from sliding. Conversely, when the trigger lock 6 disengages from the trigger 5, the pressure block 3 loses its downward preload and is no longer pressed against the main support 2. The friction between the pressure block 3 and the main support 2 is insufficient to prevent sliding, allowing the main support 2 to slide within the mounting base 1. Therefore, the user can quickly lock or unlock the main support 2 by controlling the connection or disconnection of the trigger 5 and trigger lock 6, facilitating adjustment of the main support 2's position in the bow and arrow sight.
[0034] Preferably, the trigger lock 6 has a rotating shaft 6.1 at one end and a locking tooth 6.2 at the other end. The rotating shaft 6.1 is inserted into the fixed base 1. The fixed base 1 has a shaft groove 1.3 that mates with the rotating shaft 6.1, allowing the trigger lock 6 to be rotatably connected to the fixed base 1. The fixed base 1 has a spring groove 1.4 on the lower left of the shaft groove 1.3 for installing the preload spring 7. This allows the trigger lock 6 to rotate around the rotating shaft 6.1 as a fulcrum, and the preload force of the preload spring 7 to give the locking tooth 6.2 a downward preload force.
[0035] Preferably, the lower end of the slider 4 is provided with a groove 4.1, and the trigger 5 is provided with a rotating wheel 5.1. The rotating wheel 5.1 rotates and slides with the groove 4.1, and the rotating wheel 5.1 is provided with a locking groove 5.1.1 for the locking tooth 6.2 to engage. By moving the trigger 5, the user can make the rotating wheel 5.1 slide in the groove 4.1, thereby moving closer to or away from the locking tooth 6.2. When the rotating wheel 5.1 is close to the locking tooth 6.2, the user can rotate the rotating wheel 5.1 by moving the trigger 5, so that the locking tooth 6.2 engages in the locking groove 5.1.1, transmitting the preload of the locking tooth 6.2 to the rotating wheel 5.1, and increasing the friction between the rotating wheel 5.1 and the groove 4.1, preventing the rotating wheel 5.1 from rotating or sliding, thereby preventing the locking tooth 6.2 from disengaging from the locking groove 5.1.1. The user can also disengage the rotating part 5.1 from the locking tooth 6.2 by lifting the locking tooth 6.2.
[0036] Preferably, the rotating wheel 5.1 has an eccentric wheel structure, and the locking groove 5.1.1 is located on the side of the rotating wheel 5.1 away from the center of rotation, which can allow the locking teeth 6.2 to have a larger displacement, thereby fully compressing the preload spring 7 and obtaining a larger preload force.
[0037] Preferably, the main support 2 is provided with a plurality of positioning holes 2.3 and a positioning shaft 2.1 at equal intervals. The positioning shaft 2.1 is connected to any of the positioning holes 2.3, and the fixing base 1 is provided with a limiting groove 1.2 that engages with the positioning shaft 2.1. If the user has a commonly used aiming device, the positioning shaft 2.1 can be fixed in the corresponding positioning hole 2.3 for quick positioning. At this time, simply inserting the positioning shaft 2.1 into the limiting groove 1.2 will quickly and accurately position the main support 2 to a specific position on the fixing base 1.
[0038] Preferably, the positioning hole 2.3 is a threaded hole and the positioning shaft 2.1 is a screw, so as to facilitate quick disassembly or connection of the two.
[0039] Preferably, the main support 2 is provided with a plurality of first indicator slots 2.2 at equal intervals, and the fixing base 1 is provided with a first spring positioning bead 1.1 that cooperates with the first indicator slots 2.2. The spring positioning bead is a component consisting of a housing, a spring, and a ball. The spring inside the housing pushes the ball, causing it to retract or pop out. When the ball of the first spring positioning bead 1.1 slides into the first indicator slot 2.2, it will emit a knocking sound. Because the first indicator slots 2.2 are evenly spaced, the user can judge the adjustment range of the main support 2 based on the number of knocks.
[0040] Preferably, a connector 8 is connected to the end of the main support 2. The connector 8 includes two symmetrically arranged claws 8.1 and a bolt 8.2 passing through the claws 8.1. A secondary support 9, perpendicular to the main support 2, is slidably connected to the connector 8. The secondary support 9 is provided with a guide block 9.1. The claws 8.1 are respectively pressed against both sides of the guide block 9.1, thereby clamping the guide block 9.1 and connecting the connector 8 to the secondary support 9. By tightening or loosening the bolt 8.2, the distance between the two claws 8.1 can be adjusted, thereby controlling the tightness of the fit between the claws 8.1 and the guide block 9.1, controlling the damping when the connector 8 slides relative to the secondary support 9, or fixing the secondary support 9.
[0041] Preferably, the claw 8.1 is provided with a trapezoidal tooth 8.1.1, and the guide block 9.1 is provided with a groove 9.1.1 that slides with the tooth 8.1.1. The trapezoidal tooth 8.1.1 has two inclined surfaces, and the contact area with the groove 9.1.1 is large, resulting in a stable fit.
[0042] Preferably, the guide block 9.1 is provided with a plurality of second indicator slots 9.1.2 at equal intervals, and the connector 8 is provided with a second spring positioning bead 8.3 that mates with the second indicator slots 9.1.2. The spring positioning bead is a component consisting of a housing, a spring, and a ball. The spring inside the housing pushes the ball, allowing it to retract and return to its original position. A knocking sound is emitted the instant the ball of the second spring positioning bead 8.3 slides into the second indicator slot 9.1.2. Because the second indicator slots 9.1.2 are evenly spaced, the user can judge the adjustment range of the sub-support 9 based on the number of knocks.
[0043] The method of using this utility model is as follows: The user controls the rotating wheel 5.1 by pulling the trigger 5, causing it to slide close to the trigger lock 6, and rotate it to a suitable position so that the locking groove 5.1.1 engages with the locking tooth 6.2, thereby fixing the trigger 5 and the trigger lock 6. By connecting the trigger 5 and the trigger lock 6, the downward preload of the trigger lock 6 can be transmitted to the trigger 5, and simultaneously transmitted from the trigger 5 to the slider 4 and the pressure block 3, so that the pressure block 3, located above the main support 2, tightly presses against the main support 2, using friction to prevent the main support 2 from sliding. Conversely, the user can also lift the trigger lock 6 to disengage the locking groove 5.1.1 from the locking tooth 6.2, and pull the trigger 5 to slide away from the trigger lock 6. At this time, the pressure block 3 will not have a downward preload and will not press against the main support 2. The friction between the pressure block 3 and the main support 2 will not be sufficient to prevent the main support 2 from sliding, and the main support 2 can then slide within the fixed base 1. Therefore, users only need to control the connection or disconnection of trigger 5 and trigger lock 6 to quickly lock or unlock the main support 2, thereby making it convenient for users to adjust the position of the main support 2 in the bow and arrow sight.
[0044] By tightening or loosening the bolt 8.2, the distance between the two jaws 8.1 can be adjusted, thereby controlling the tightness of the fit between the jaws 8.1 and the guide block 9.1. This controls the damping when the connector 8 slides relative to the sub-support 9, facilitating the adjustment of the sub-support 9. When the user adjusts the position of the main support 2 or the sub-support 9, a prompt sound will be emitted after the main support 2 or the sub-support 9 has been moved a certain distance, due to the engagement of the first spring positioning bead 1.1 with the first indicator groove 2.2 and the engagement of the second spring positioning bead 8.3 with the second indicator groove 9.1.2.
[0045] Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of this utility model, and not to limit it; although the utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that they can still modify the technical solutions described in the foregoing embodiments, or make equivalent substitutions for some of the technical features; and these modifications or substitutions do not cause the essence of the corresponding technical solutions to deviate from the spirit and scope of the technical solutions of the embodiments of this utility model.
Claims
1. A novel bow sight, characterized in that, It includes a fixed base (1) and a main bracket (2), wherein the main bracket (2) is inserted into the fixed base (1), and a trigger lock module for switching the locked and unlocked states of the main bracket (2) is connected to the fixed base (1); The trigger lock module includes a pressure block (3), a slider (4), a trigger (5), a trigger lock (6), and a preload spring (7). The pressure block (3) and the slider (4) are slidably connected in the fixed base (1). The pressure block (3) is located above the main support (2). The upper end of the slider (4) is connected to the pressure block (3), and the lower end of the slider (4) is connected to the trigger (5). The trigger (5) is detachably connected to the trigger lock (6). The trigger lock (6) is movably connected to the fixed base (1). One end of the preload spring (7) is connected to the fixed base (1), and the other end is connected to the trigger lock (6) to apply a downward preload force to the trigger lock (6). When the main support (2) is in the locked state, after the trigger lock (6) is connected to the trigger (5), the preload spring (7) applies a downward preload force to the trigger (5), the slider (4) and the pressure block (3) through the trigger lock (6). The pressure block (3) is pressed on the main support (2), and the main support (2) is fixedly connected to the fixed seat (1). When the main support (2) is in the unlocked state, the trigger lock (6) is disengaged from the trigger (5), the pressure block (3) is located above the main support (2), and the main support (2) is slidably connected to the fixed seat (1).
2. A novel bow sight according to claim 1, characterized in that One end of the trigger lock (6) is provided with a rotating shaft (6.1) and the other end is provided with a locking tooth (6.2). The rotating shaft (6.1) is inserted into the fixed seat (1). The fixed seat (1) is provided with a shaft groove (1.3) that mates with the rotating shaft (6.1). The fixed seat (1) is provided with a spring groove (1.4) for installing the preload spring (7) on the lower left side of the shaft groove (1.3).
3. A novel bow and arrow sight according to claim 2, characterized in that, The lower end of the slider (4) is provided with a groove (4.1), and the trigger (5) is provided with a rotating wheel. 5.1), the rotating wheel (5.1) and the sliding groove (4.1) rotate and slide in engagement, the rotating wheel (5.1) 5.1) has a locking groove (5.1.1) for the locking tooth (6.2) to engage.
4. A novel bow and arrow sight according to claim 3, characterized in that, The rotating wheel (5.1) has an eccentric wheel structure, and the locking groove (5.1.1) is located on the side of the rotating wheel (5.1) away from the center of rotation.
5. A novel bow and arrow sight according to claim 1, characterized in that, The main support (2) is provided with a plurality of positioning holes (2.3) and a positioning shaft (2.1) at equal intervals. The positioning shaft (2.1) is connected to any of the positioning holes (2.3). The fixed seat (1) is provided with a limiting groove (1.2) that engages with the positioning shaft (2.1).
6. A novel bow and arrow sight according to claim 5, characterized in that, The positioning hole (2.3) is a threaded hole, and the positioning shaft (2.1) is a screw.
7. A novel bow and arrow sight according to claim 1, characterized in that, The main support (2) is provided with a plurality of first indication slots (2.2) at equal intervals, and the fixed base (1) is provided with a first spring positioning bead (1.1) that cooperates with the first indication slot (2.2).
8. A novel bow and arrow sight according to claim 1, characterized in that, The end of the main support (2) is connected to a connector (8). The connector (8) includes two symmetrically arranged claws (8.1) and a bolt (8.2) passing through the claws (8.1). A secondary support (9) is slidably connected to the connector (8) and is arranged perpendicular to the main support (2). A guide block (9.1) is provided on the secondary support (9). The claws (8.1) are pressed on both sides of the guide block (9.1).
9. A novel bow and arrow sight according to claim 8, characterized in that, The claw (8.1) is provided with trapezoidal teeth protruding from it. 8.1.1), the guide block (9.1) is provided with a groove (9.1.1) that slides with the tooth (8.1.1).
10. A novel bow and arrow sight according to claim 8, characterized in that, The guide block (9.1) is provided with several second prompting slots (9.1.2) at equal intervals, and the connector (8) is provided with a second spring positioning bead (8.3) that cooperates with the second prompting slot (9.1.2).