CN117439502B - Oblique tension balance vibration reduction locking device - Google Patents

Abstract

The invention relates to the field of photovoltaic brackets, in particular to a diagonal tension balance vibration reduction locking device. The invention provides a diagonal tension balance anti-vibration locking device for positioning and installing a stay cable. The utility model provides a balanced locking means that defibrillates of diagonal tension, including diagonal tension and installing the frame, the locking means is installed at diagonal tension both ends, the installing frame rotates and is connected with the rotating turret, the rotating turret is installed first link through first stay cord, first link hangs on the locking means, the measuring tape is installed to the installing machine frame, installing frame sliding connection has the finger piece, the winch rope dish that is located the installing frame is installed to the rotating turret, install the first stay cord that passes the installing frame between winch rope dish and the finger piece, first stay cord is convoluteed on the winch rope dish. The rest stay cables are positioned and installed according to the data indicated by the finger blocks on the measuring tape, so that the inclination angles of all the stay cables are consistent, and the tension balance can be achieved when the stay cables are tensioned, and the stability of the photovoltaic panel is ensured.

Description

Oblique tension balance vibration reduction locking device

Technical Field

The invention relates to the field of photovoltaic brackets, in particular to a diagonal tension balance vibration reduction locking device.

Background

The photovoltaic bracket is a supporting device for positioning the solar panel, and is a special bracket designed for placing, installing and fixing the solar panel in a solar photovoltaic power generation system. The traditional fixed support is installed by adopting field welding, so that a series of construction difficulty problems can be brought, such as large span of a photovoltaic array, uneven and steep slope of a topography, wind load, snow load and the like in mountain regions, such as large steel consumption, long construction period, high later maintenance cost, land waste and the like. At present, when the solar panel is installed by the flexible support, a certain degree of position error always exists in the installation of the lower end of the stay cable in the flexible support, so that the tension of stranded wires is unbalanced, the stability of the photovoltaic panel is affected, and the support swings under breeze power.

How to design a diagonal tension balance anti-vibration locking device for positioning and installing a stay cable is a technical problem to be solved by the invention.

Disclosure of Invention

In order to overcome the defects that the lower end of a stay cable in a flexible support in the prior art is provided with a position error, so that the tension of stranded wires is unbalanced and the stability of a photovoltaic panel is influenced, the technical problem is as follows: a diagonal tension balanced anti-vibration locking device for positioning and installing a diagonal tension cable is provided.

The technical scheme of the invention is as follows: the utility model provides a balanced locking ware that defibrillates of diagonal tension, including suspension cable and installing the frame, the locking ware is installed at suspension cable both ends, the installing frame is provided with the installation component that is used for installing the locking ware, the installing frame rotates and is connected with the rotating turret, the rotating turret is installed first link through first stay cord, first link is hung on the locking ware, first link threaded connection has the screw rod, screw rod and locking ware extrusion fit, installing frame installs the measuring tape, installing frame sliding connection has the finger piece, the rotating turret installs the hank rope dish that is located the installing frame, install the second stay cord that passes the installing frame between hank rope dish and the finger piece, the second stay cord is convoluteed on the hank rope dish, install the torsional spring between rotating turret and the installing frame.

Further, the installation component is including fixed C shape ring, and fixed C shape ring rigid coupling is in the installation frame, and the locking ware is placed on fixed C shape ring, and fixed C shape ring rotates to be connected with and rotates C shape ring.

Further, the balance assembly is used for displaying whether installation frame installation is balanced, the balance assembly is arranged on the installation frame, the balance assembly comprises symmetrically arranged top frames, the symmetrically arranged top frames are connected to the installation frame in a sliding mode, telescopic rods are installed between the symmetrically arranged top frames through balls, the symmetrically arranged top frames are fixedly connected with second connecting frames, and elastic sheets are installed between the symmetrically arranged second connecting frames and the installation frame.

Further, still including being used for spacing the spacing subassembly in the installation frame with the lock, spacing subassembly sets up in the installation frame, and spacing subassembly is including the spacing, and the spacing rotation is connected in the installation frame, and the stopper is installed to the spacing, and stopper and lock contact cooperation are provided with between installation frame and the rotating frame and are used for driving spacing pivoted drop-down subassembly.

Further, the limiting block is arranged in an arc shape attached to the locking device.

Further, the pull-down assembly comprises a first air cylinder and a second air cylinder, the first air cylinder and the second air cylinder are installed on the installation frame, a third pull rope is installed between a piston rod of the first air cylinder and the rotating frame, the piston rod of the first air cylinder is in contact fit with the rotating frame, a pressure rod is installed on the piston rod of the second air cylinder, the pressure rod is in sliding connection with one side, far away from the limiting block, of the limiting block, the second air cylinder is communicated with the first air cylinder, and an air bag is communicated between the air pipes.

Further, still including the screens subassembly that is used for the screens locking ware, the screens subassembly is including the guide block, and the guide block rigid coupling is in first link, and guide block sliding connection has the swash plate, and the swash plate rigid coupling has the pull block.

Further, the balance measuring device comprises a measuring component for measuring whether the installation rack is balanced or not, the measuring component is arranged on the installation rack, the balance measuring component comprises a mounting frame, the mounting frame is fixedly connected to the installation rack, and a level gauge is installed on the mounting frame.

Further, still including the locating component that is used for installing the frame installation location, locating component sets up in the installation frame, and locating component is including the display panel, and the display panel is installed in the installation frame, and laser emitter is installed to the installing machine frame, and photosensitive sensor is installed to laser emitter, and photosensitive sensor passes through electric connection with laser emitter, is provided with the cover assembly that is used for covering laser emitter between installation frame and the second link.

Further, the covering component comprises a movable frame, the movable frame is in sliding connection with the mounting frame, the movable frame is fixedly connected with the second connecting frame, a lever is rotationally connected with the mounting frame, the lever is in sliding connection with the movable frame, the mounting frame is rotationally connected with an opening and closing plate for covering the laser transmitter, and the opening and closing plate is in contact fit with the lever.

The advantages are that: the rest stay cables are positioned and installed according to the data indicated by the finger blocks on the measuring tape, so that the inclination angles of all the stay cables are consistent, and the tension balance can be achieved when the stay cables are tensioned, and the stability of the photovoltaic panel is ensured; the bottoms of the top frames are contacted with the top surface of the embedded ground pile, when the top surface of the embedded ground pile is in a horizontal state, the two top frames synchronously move upwards to indicate that the installation of the installation frame is stable, and when the top surface of the embedded ground pile is uneven, the two top frames upwards move out of synchronization to enable the telescopic rod to be in an inclined state to indicate that the installation of the installation frame is unstable; the stopper is used for limiting the locker, so that the stability of the photovoltaic panel is prevented from being influenced by the deviation of the locker at the front side; limiting the front side locking device on the first connecting frame through the inclined plate, and preventing the first connecting frame from being separated from the front side locking device; the balance of the installation frame is accurately measured through the level gauge, so that the accuracy of adjusting the tension of the stay cable is improved; when two opposite stay cables are installed, the two opposite stay cables are accurately positioned through the position of laser irradiation on the display panel, so that dislocation of the two opposite stay cables can be avoided, and unbalance of tension is caused when the stay cables are tensioned.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of a partial perspective structure of the present invention.

Fig. 3 is a schematic perspective view of the rotating frame and the first connecting frame.

Fig. 4 is a schematic perspective view of the measuring tape, the finger block and other parts according to the invention.

Fig. 5 is a schematic perspective view of the top frame and the telescopic rod.

Fig. 6 is a schematic perspective view of the spring plate and the second connecting frame.

Fig. 7 is a schematic perspective view of the limiting frame, the limiting block and other parts.

FIG. 8 is a schematic perspective view of the first and second cylinders of the present invention.

Fig. 9 is a schematic perspective view of the pull block, the inclined plate and other components of the present invention.

Fig. 10 is a schematic perspective view of the pull block, the inclined plate and the guide block according to the present invention.

FIG. 11 is a schematic perspective view of the mounting bracket and level of the present invention.

Fig. 12 is a schematic perspective view of the moving frame and lever of the present invention.

Fig. 13 is a schematic perspective view of the display panel and the photosensor of the present invention.

Part names and serial numbers in the figure: 1_stay, 101_latch, 102_mount rack, 103_fixed C-ring, 1031_rotary C-ring, 104_turret, 105_first link, 1051_screw, 106_scale, 107_finger, 108_first pull cord, 109_cable reel, 1010_second pull cord, 1011_torsion spring, 2_top, 201_spring, 202_telescoping rod, 203_second link, 3_limit, 31_stopper, 301_first air cylinder, 302_second air cylinder, 303_air guide, 304_air bag, 305_third pull cord, 306_compression bar, 4_pull block, 401_tilt plate, 402_guide block, 5_mount, 501_level, 6_display panel, 601_movable frame, 602_lever, 603_switch panel, 604_laser emitter, 605_photosensitive sensor.

Detailed Description

The following describes in detail the preferred embodiments of the present invention with reference to the accompanying drawings.

Example 1: 1-4, including suspension cable 1, locker 101 and installation frame 102, the locker 101 is installed to suspension cable 1 front and back both ends, the installation frame 102 top is provided with the installation component that is used for installing locker 101, installation frame 102 upper portion rotates and is connected with rotating turret 104, rotating turret 104 left and right sides all installs first link 105 through first stay cord 108, first link 105 hangs on the locker 101 of front side, all threaded connection has screw 1051 on the first link 105, screw 1051 all with locker 101 extrusion fit, installation frame 102 front side installs two measuring rules 106, installation frame 102 front side sliding connection has finger 107, finger 107 is located between two measuring rules 106, install the capstan 109 that is located in installation frame 102 in the middle of the rotating turret 104, install the second stay cord 1010 that passes installation frame 102 between capstan 109 and the finger 107, the second 1010 winds on rope cord 109, install torsion spring 1011 between rotating turret 104 and the installation frame 102 symmetry.

The installation component includes fixed C shape ring 103, and fixed C shape ring 103 rigid coupling is in the installation frame 102 top, and locking ware 101 is placed on fixed C shape ring 103, is connected with the rotation C shape ring 1031 on the fixed C shape ring 103 rotation.

When the photovoltaic module is used, the mounting frame 102 is fixed to the embedded plate of the concrete column through bolts, the C-shaped ring 1031 is turned and opened, the locking device 101 at one end is placed on the fixed C-shaped ring 103, the C-shaped ring 1031 is reset in a reversing mode to lock the locking device 101, and the locking device 101 at the other end is fixed to the photovoltaic support.

Then, the first link 105 is hung on the front side locker 101, and the rotation screw 1051 is abutted against the front side locker 101, so that the first link 105 is fixed to the front side locker 101, and the first link 105 is prevented from sliding when the front side locker 101 is tilted.

Then, the stay cable 1 is tensioned through the locking device 101, so that the two locking devices 101 and the stay cable 1 are in an inclined state, when the locking device 101 at the front side is inclined upwards, the locking device 101 at the front side drives the first connecting frame 105 to rotate upwards, the first connecting frame 105 pulls the rotating frame 104 to rotate upwards through the first pull rope 108, the torsion spring 1011 deforms, the rotating frame 104 drives the winch rope disc 109 to rotate, the winch rope disc 109 pulls the finger block 107 to move upwards through the second pull rope 1010, the rest stay cables 1 are positioned and installed according to the data indicated on the measuring scale 106 by the finger block 107, the inclination angles of all the stay cables 1 are consistent, and therefore, when the stay cable 1 is tensioned, the tension balance is achieved, and the stability of the photovoltaic panel is ensured.

During disassembly, the stay cable 1 is loosened through the locking device 101, the front locking device 101 drops down due to self gravity, the first connecting frame 105 is driven to rotate downwards, the first pull rope 108 is loosened, the rotating frame 104 is driven to reversely reset under the action of resetting of the torsion spring 1011, the rotating frame 104 drives the winch 109 to reversely reset and loosen the second pull rope 1010, the finger block 107 drops down due to self gravity and resets, the reverse screw 1051 is separated from the front locking device 101, the first connecting frame 105 can be taken down from the front locking device 101, the rotating C-shaped ring 1031 is opened in a rotating mode, and the locking device 101 can be taken down from the fixed C-shaped ring 103.

Example 2: on the basis of embodiment 1, referring to fig. 1, 2, 5 and 6, the device further comprises a balancing component for displaying whether the installation of the installation frame 102 is balanced, the balancing component is arranged on the installation frame 102, the balancing component comprises two top frames 2, the two top frames 2 are slidably connected to the middle of the installation frame 102, a telescopic rod 202 is installed between the two top frames 2 through balls, a second connecting frame 203 is fixedly connected to the lower portion of the top frame 2, and a spring piece 201 is installed between the top of the second connecting frame 203 and the installation frame 102.

In order to ensure that the installation of the installation frame 102 is stable, the inclined pulling force affecting the stay cable 1 is avoided, when the installation frame 102 is fixed on the embedded plate of the concrete column, the bottom of the top frame 2 is contacted with the top surface of the embedded plate of the concrete column, when the top surface of the embedded plate of the concrete column is in a horizontal state, the two top frames 2 synchronously move upwards to indicate that the installation frame 102 is stably installed, and when the top surface of the embedded plate of the concrete column is not in a horizontal state, the two top frames 2 upwards move out of synchronization to enable the telescopic link 202 to be in an inclined state to indicate that the installation frame 102 is not stably installed.

When the top frame 2 moves upwards, the top frame 2 drives the telescopic rod 202 and the second connecting frame 203 to move upwards, the elastic sheet 201 deforms, and when the mounting frame 102 is taken down from the embedded plate of the concrete column, the top frame 2, the telescopic rod 202 and the second connecting frame 203 are driven to move downwards to reset under the reset action of the elastic sheet 201.

Referring to fig. 1, fig. 2, fig. 7 and fig. 8, the locking device further comprises a limiting component for limiting the locking device 101 on the mounting frame 102, the limiting component is arranged on the mounting frame 102 and comprises two limiting frames 3, the two limiting frames 3 are rotationally connected to the middle of the mounting frame 102, the limiting frames 3 are provided with limiting blocks 31, the limiting blocks 31 are in contact fit with the locking device 101, the limiting blocks 31 are in arc-shaped arrangement attached to the locking device 101, and a pull-down component for driving the limiting frames 3 to rotate is arranged between the mounting frame 102 and the rotating frame 104.

The pull-down assembly comprises a first air cylinder 301, two first air cylinders 301 are respectively arranged on the left side and the right side of the installation frame 102, two second air cylinders 302 are respectively arranged on the left side and the right side of the installation frame 102, a third pull rope 305 is arranged between a piston rod of the first air cylinder 301 and the rotating frame 104, the piston rod of the first air cylinder 301 is in contact fit with the rotating frame 104, a pressure rod 306 is arranged on a piston rod of the second air cylinder 302, the pressure rod 306 is in sliding connection with the lower part of the limiting frame 3, an air duct 303 is communicated with the upper part of the second air cylinder 302 and the upper part of the first air cylinder 301, and an air bag 304 is communicated between the air ducts 303.

In order to prevent the stability of the photovoltaic panel from being influenced by the offset of the locking device 101 at the front side, when the rotating frame 104 rotates upwards, the rotating frame 104 pulls the piston rod of the first air cylinder 301 to move upwards through the third pull rope 305, air in the first air cylinder 301 is discharged into the second air cylinder 302 through the air guide pipe 303, the air pushes the piston rod of the second air cylinder 302 to move downwards, the piston rod of the second air cylinder 302 drives the pressing rod 306 to move downwards, the pressing rod 306 pulls down the lower part of the limiting frame 3, the lower part of the limiting frame 3 rotates downwards, the upper part of the limiting frame 3 rotates backwards, the limiting frame 3 drives the limiting frame 31 to rotate backwards to be in contact with the locking device 101 at the front side, and the limiting frame 31 is in arc-shaped arrangement, so that the limiting frame 31 is attached to the locking device 101 to limit the locking device 101, and the stability of the photovoltaic panel from being influenced by the offset of the locking device 101 at the front side.

When the stopper 31 contacts with the locker 101 and the rotating frame 104 pulls the piston rod of the first air cylinder 301 to continue to rotate upwards through the third pull rope 305, air in the first air cylinder 301 enters the air duct 303 to expand the air bag 304, and therefore air buffering is performed.

When the rotating frame 104 rotates downwards to reset, the rotating frame 104 presses down the piston rod of the first air cylinder 301 to extract air, so that the air bag 304 is retracted to be in a state of being recovered, meanwhile, the piston rod of the second air cylinder 302 is pulled to move upwards to reset by suction, the piston rod of the second air cylinder 302 drives the pressing rod 306 to move upwards to reset, and the limiting frame 3 is reversely reset due to self gravity and separated from the front side locker 101.

Referring to fig. 1, 2, 9 and 10, the locking device further comprises a locking component for locking the locking device 101, the locking component comprises two guide blocks 402, the two guide blocks 402 are fixedly connected to the left side and the right side of the first connecting frame 105, inclined plates 401 are slidably connected to the guide blocks 402, and pull blocks 4 are fixedly connected to the inclined plates 401.

In order to prevent the first link 105 from being separated from the front side locker 101, when the first link 105 is hung on the front side locker 101, the swash plate 401 is in contact with the front side locker 101, the swash plate 401 is caused to drive the pull block 4 to move upward under the blocking of the front side locker 101, and when the swash plate 401 passes over the front side locker 101, the swash plate 401 and the pull block 4 drop down due to self gravity, so that the front side locker 101 is restricted on the first link 105, the first link 105 is prevented from being separated from the front side locker 101, and the front side locker 101 can be unlocked by moving the swash plate 401 upward through the pull block 4.

Referring to fig. 1,2 and 11, the balance measuring device further comprises a measuring component for measuring whether the mounting frame 102 is balanced, the measuring component is arranged on the mounting frame 102, the balance measuring component comprises two mounting frames 5, the two mounting frames 5 are fixedly connected to the left side and the right side of the mounting frame 102, and the level 501 is mounted on the mounting frames 5.

The balance of the installation frame 102 is accurately measured through the level gauge 501, and the accuracy of adjusting the tension of the stay cable 1 is improved.

Referring to fig. 1, 2, 12 and 13, the positioning assembly is further arranged on the mounting frame 102 and comprises a display panel 6, the display panel 6 is arranged on the upper rear side of the mounting frame 102, a laser emitter 604 is arranged in the middle of the rear side of the mounting frame 102, a photosensitive sensor 605 is arranged on the laser emitter 604, the photosensitive sensor 605 is electrically connected with the laser emitter 604, and a covering assembly for covering the laser emitter 604 is arranged between the mounting frame 102 and the second connecting frame 203.

The covering component comprises two movable frames 601, the two movable frames 601 are slidably connected in the mounting frame 102, the bottoms of the two movable frames 601 are fixedly connected with the tops of the adjacent second connecting frames 203 respectively, the upper portions in the mounting frame 102 are rotatably connected with two levers 602, the two levers 602 are slidably connected with the adjacent movable frames 601, the upper rear side of the mounting frame 102 is rotatably connected with an opening and closing plate 603 for covering a laser transmitter 604, and the opening and closing plate 603 is in contact fit with the levers 602.

For further positioning and installing the stay cable 1, the balance of the photovoltaic panel is improved, when the second connecting frame 203 moves upwards, the second connecting frame 203 drives the moving frame 601 to move upwards, the moving frame 601 pushes the front part of the lever 602 to rotate upwards, the rear part of the lever 602 rotates downwards, the lever 602 rotates to push the opening plate 603 to rotate backwards to be opened, the photosensitive sensor 605 detects that external light reaches a preset value, the laser transmitter 604 is controlled to start to transmit laser inclined downwards, when two opposite stay cables 1 are installed, the two opposite stay cables 1 are accurately positioned through the positions of the laser irradiation on the display panel 6, and thus, dislocation of the two opposite stay cables 1 can be avoided, and unbalance in tension is caused when the stay cables 1 are tensioned.

The foregoing has outlined rather broadly the more detailed description of the application in order that the detailed description of the principles and embodiments of the application may be implemented in conjunction with the detailed description of the application that follows, the examples being merely intended to facilitate an understanding of the method of the application and its core concepts; meanwhile, as those skilled in the art will have variations in the specific embodiments and application scope in accordance with the ideas of the present application, the present description should not be construed as limiting the present application in view of the above.

Claims (10)

1. The utility model provides a diagonal tension balance damping locking ware, a serial communication port, including suspension cable (1) and installing frame (102), locking ware (101) are installed at suspension cable (1) both ends, installing frame (102) are provided with the installation component who is used for installing locking ware (101), installing frame (102) rotate and are connected with rotating turret (104), first link (105) are installed through first stay cord (108) rotating turret (104), first link (105) hang on locking ware (101), first link (105) threaded connection has screw rod (1051), screw rod (1051) and locking ware (101) extrusion fit, install measuring tape (106) installing frame (102), installing frame (102) sliding connection has finger (107), install second (1010) that are located installing frame (102) between rotating turret (109) and finger (107), install second (1010) and pass on winch (109) and install stay cord (1011) between rotating turret (104) and installing frame (1011).

2. The diagonal tension balance vibration-reducing lock according to claim 1, wherein the mounting assembly comprises a fixed C-ring (103), the fixed C-ring (103) is fixedly connected to the mounting frame (102), the lock (101) is placed on the fixed C-ring (103), and the fixed C-ring (103) is rotatably connected with a rotatable C-ring (1031).

3. The oblique tension balance vibration reduction locking device according to claim 2, further comprising a balance component for displaying whether the installation of the installation frame (102) is balanced, wherein the balance component is arranged on the installation frame (102), the balance component comprises symmetrically arranged top frames (2), the symmetrically arranged top frames (2) are in sliding connection with the installation frame (102), telescopic rods (202) are arranged between the symmetrically arranged top frames (2) through balls, the symmetrically arranged top frames (2) are fixedly connected with second connecting frames (203), and elastic sheets (201) are arranged between the symmetrically arranged second connecting frames (203) and the installation frame (102).

4. The oblique tension balance vibration reduction locking device according to claim 3, further comprising a limiting component for limiting the locking device (101) on the mounting frame (102), wherein the limiting component is arranged on the mounting frame (102) and comprises a limiting frame (3), the limiting frame (3) is rotationally connected to the mounting frame (102), the limiting frame (3) is provided with a limiting block (31), the limiting block (31) is in contact fit with the locking device (101), and a pull-down component for driving the limiting frame (3) to rotate is arranged between the mounting frame (102) and the rotating frame (104).

5. The diagonal tension balance vibration-reducing lock according to claim 4, wherein the stopper (31) is provided in an arc shape fitting the lock (101).

6. The diagonal tension balance vibration reduction locking device according to claim 5, wherein the pull-down assembly comprises a first air cylinder (301) and a second air cylinder (302), the first air cylinder (301) and the second air cylinder (302) are installed on the installation frame (102), a third pull rope (305) is installed between a piston rod of the first air cylinder (301) and the rotating frame (104), the piston rod of the first air cylinder (301) is in contact fit with the rotating frame (104), a pressing rod (306) is installed on the piston rod of the second air cylinder (302), the pressing rod (306) is in sliding connection with one side, far away from the limiting block (31), of the limiting block (3), an air duct (303) is communicated with the second air cylinder (302), and an air bag (304) is communicated between the air ducts (303).

7. The diagonal tension balance vibration-reducing lock according to claim 6, further comprising a clamping assembly for clamping the lock (101), wherein the clamping assembly comprises a guide block (402), the guide block (402) is fixedly connected to the first connecting frame (105), the guide block (402) is slidably connected with a sloping plate (401), and the sloping plate (401) is fixedly connected with a pull block (4).

8. The diagonal tension balance anti-vibration lock according to claim 7, further comprising a measuring assembly for measuring whether the mounting frame (102) is balanced, wherein the measuring assembly is arranged on the mounting frame (102), the balance measuring assembly comprises a mounting frame (5), the mounting frame (5) is fixedly connected to the mounting frame (102), and the level gauge (501) is mounted on the mounting frame (5).

9. The oblique tension balance vibration reduction locking device according to claim 8, further comprising a positioning component for mounting and positioning the mounting frame (102), wherein the positioning component is arranged on the mounting frame (102), the positioning component comprises a display board (6), the display board (6) is mounted on the mounting frame (102), the mounting frame (102) is provided with a laser emitter (604), the laser emitter (604) is provided with a photosensitive sensor (605), the photosensitive sensor (605) is electrically connected with the laser emitter (604), and a covering component for covering the laser emitter (604) is arranged between the mounting frame (102) and the second connecting frame (203).

10. The diagonal tension balance vibration-reducing lock according to claim 9, wherein the cover assembly comprises a movable frame (601), the movable frame (601) is slidably connected in the mounting frame (102), the movable frame (601) is fixedly connected with the second connecting frame (203), the lever (602) is rotatably connected with the mounting frame (102), the lever (602) is slidably connected with the movable frame (601), the mounting frame (102) is rotatably connected with an opening and closing plate (603) for covering the laser emitter (604), and the opening and closing plate (603) is in contact fit with the lever (602).