CN117706414A - Communication power module testing arrangement - Google Patents

Abstract

The invention belongs to the technical field of power supply detection, and discloses a communication power supply module testing device; including the base, the top rigid coupling of base has the support column, the inside sliding connection of support column has the fixed block, the inside of fixed block is provided with adjusting part, adjusting part includes the motor, motor top rigid coupling is in the outside of fixed block, the one end rotation of motor is connected with first gear, the bottom rotation of first gear is connected with movable mechanism, the inside of fixed block is provided with two second gears and second straight-line gear, and two second gear lateral wall gear engagement are connected, the lateral wall gear engagement of first gear is at the lateral wall of second gear, and this device utilizes the screw thread post to be circular cone, and the stopper can promote sleeve and connecting rod synchronous motion when upwards moving, contacts the slider through the connecting rod, makes the connecting rod drive the slider and moves in the fixed block to realize the removal effect to two thimbles.

Description

Communication power module testing arrangement

Technical Field

The invention relates to the technical field of power supply detection, in particular to a communication power supply module testing device.

Background

The power module is a power supply that can be directly mounted on a printed circuit board, and is characterized by being an application specific integrated circuit, and generally, such a module is called a load power supply system or a point-of-use power supply system.

The current power module detection can be through fixing power module on the holder, through on moving two thimble contact to the node on power module surface, utilize the electrical signal that transmits the universal meter behind the thimble contact node, realize power module node current detection effect.

When the existing power module is used for detecting, the position between the two ejector pins cannot be adjusted, so that the ejector pins can only detect smaller regular capacitors, and when the larger capacitors are detected, the capacitors can prevent the ejector pins from contacting the nodes, so that the ejector pins cannot detect the capacitor nodes, and the power module nodes need to be detected secondarily.

Disclosure of Invention

In order to overcome the above-mentioned drawbacks of the prior art, the present invention provides a testing device for a communication power module.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a communication power module testing arrangement, includes the base, the top rigid coupling of base has the support column, the inside sliding connection of support column has the fixed block, the inside of fixed block is provided with adjusting part, adjusting part includes the motor, motor top rigid coupling is in the outside of fixed block, the one end rotation of motor is connected with first gear, the bottom rotation of first gear is connected with movable mechanism, the inside of fixed block is provided with two second gears and second straight-line gear, and two second gear lateral wall gear engagement connection, the lateral wall gear engagement of first gear is at the lateral wall of second gear, the bottom rotation of second gear is connected with first straight-line gear, first straight-line gear bottom is provided with third gear and movable seat, the movable seat rotates the bottom of connection at third gear, the outside movable seat bottom rotates and is connected with the connecting rod, the sleeve has been cup jointed to the outside swing joint of connecting rod, the outside rotation of sleeve is connected with movable mechanism, the lateral wall gear engagement of second straight-line gear is in one side of second straight-line gear lateral wall gear engagement at the stopper, the second straight-line gear is the outside thread connection of second straight-line gear, the thread post is the screw thread of swing joint.

Further, telescopic bottom rigid coupling has the slide, the inside at the fixed block of lateral wall sliding connection of slide, the lateral wall of slide rotates and is connected with the universal joint, the bottom rotation of universal joint is connected with the threaded rod, threaded rod threaded connection is inside the thimble, the outside activity of thimble has cup jointed solid fixed ring.

Further, the movable mechanism comprises a movable plate, the top of the movable plate is hinged to the bottom of the fixed block, a spring column is fixedly connected to the top of the movable plate, and the side wall of the fixed ring is slidably connected to the side wall of the movable plate.

Further, the bottom of first gear rotates and is connected with the spool, just the inside of spool is provided with the bearing, the outside rigid coupling of spool has the rope, rope one end rigid coupling is in the bottom of fly leaf.

Further, the top of base rotates and is connected with the connecting plate, the bottom of connecting plate rotates and is connected with the leaf spring, the bottom rigid coupling of connecting plate has the baffle, the inside rigid coupling of base has the gag lever post, the gag lever post is located one side of baffle.

Further, the top of connecting plate is provided with slider and rack, slider and rack all are provided with a plurality of, just the bottom sliding connection of slider is at the top of connecting plate, the lateral wall of rack all fixedly connected with fixed plate, the lateral wall of rack rotates and is connected with the third straight-tooth wheel, the top rotation of third straight-tooth wheel is connected with the commentaries on classics board.

Further, the lateral wall rigid coupling of rack is at the lateral wall of slider, the lateral wall rigid coupling of slider has the bull stick, the outside activity of bull stick has cup jointed the layer board, the lateral wall sliding connection of layer board has the antiskid ribbed tile, just the inside of antiskid ribbed tile is provided with the rubber pad.

Further, the lateral wall of slider is provided with torsional spring and spacing, the torsional spring is provided with a plurality of, just the lateral wall rigid coupling of torsional spring is at the lateral wall of slider, the lateral wall rigid coupling of spacing is at the other end of torsional spring.

Further, the top rigid coupling of base has the bracing piece, the inside connecting rod and the spring of being provided with of bracing piece, the lateral wall sliding connection of connecting rod is in the inside of bracing piece, spring one end rigid coupling is in the bottom of connecting rod, connecting rod one end articulates there is the connecting block, the one end of connecting block articulates there is the light.

Further, the top rigid coupling of base has control panel, the bottom of base is provided with two screws, and two the top threaded connection of screw is in the bottom of base.

The communication power supply module testing device has the technical effects and advantages that:

(1) Utilize rotation between movable seat and the connecting rod to be connected, make the sleeve cup joint in the outside of connecting rod, telescopic outside activity cup joints the stopper simultaneously, and sleeve and stopper all can't rotate, when second spur gear rotates, the second spur gear drives the screw thread post and rotates, utilize the movable rod that stopper one side all set up, make the movable rod remove in the screw thread post, because the stopper can't rotate, when the screw thread post is the heliciform rotation, the screw thread post can drive the movable rod and upwards remove, the movable rod can drive the stopper synchronous upward movement simultaneously, utilize the screw thread post to be the circular cone form, the stopper can promote sleeve and connecting rod synchronous movement when upwards removing, contact the slider through the connecting rod, make the connecting rod drive the slider and remove in the fixed block, thereby realize the removal effect to two thimble.

(2) Through rotating the connecting plate, make the connecting plate rotate inside the base, drive the leaf spring when the connecting plate rotates simultaneously and rotate, and the baffle of connecting plate bottom rotates along with the rotation of connecting plate, after connecting plate and baffle rotate a week, the baffle can contact the gag lever post, makes the unable rotation of continuing of connecting plate to guarantee the node at connecting plate top and detect comprehensively, after the detection, through the reverse rotation of leaf spring, make the connecting plate reverse rotation under the effect of leaf spring, make the connecting plate gyration original state.

(3) The rotation of utilizing the bobbin makes the bobbin twine the rope, utilizes the fixed connection between rope and the fly leaf, makes rope pulling fly leaf rotate, can be to the tensile effect of spring column when rotating simultaneously, and when the electric capacity subassembly was great and the node was sheltered from in power module, through reverse pulling rope, makes the bobbin be reverse rotation, and the reverse effort of spring column simultaneously makes the bottom of fly leaf upwards move, and when the fly leaf upwards moved simultaneously, can promote the thimble to change the slope form by the perpendicular form to make the thimble bottom contact on power module's the node.

(4) When the power module node can not be illuminated, the screw is reversely rotated, so that one end of the screw is in threaded connection with the inside of one side of the base, one side of the base slowly moves upwards, and the base is inclined, so that the illumination of the illuminating lamp is more accurate.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present invention.

Fig. 2 is a schematic view of a base structure in the present invention.

Fig. 3 is a schematic view of a partial structure of a connection board according to the present invention.

Fig. 4 is a schematic view of a pallet structure according to the present invention.

Fig. 5 is a schematic cross-sectional view of a base in the present invention.

Fig. 6 is a schematic cross-sectional view of a fixing block according to the present invention.

Fig. 7 is a schematic diagram of the overall structure of a second gear in the present invention.

Fig. 8 is a schematic diagram of the connection of the second gear and the second spur gear in the present invention.

FIG. 9 is a schematic view of a thimble structure according to the present invention.

Fig. 10 is a schematic view of a partial structure of a leaf spring in the present invention.

Fig. 11 is a schematic view of the structure of the connecting rod in the present invention.

Fig. 12 is a schematic view of the structure of the screw in the present invention.

In the figure:

1. a base; 2. a control panel; 3. a support rod; 4. a support column; 5. a fixed block; 6. a screw; 7. a connecting plate; 8. a slide block; 9. a rack; 10. a third spur gear; 11. a rotating plate; 12. a rotating rod; 13. a supporting plate; 14. a torsion spring; 15. a limiting frame; 16. a cleat; 17. a fixing plate; 18. a leaf spring; 19. a limit rod; 20. a baffle; 21. a motor; 22. a first gear; 23. a second gear; 24. a rope; 25. a movable plate; 26. a spring post; 27. a thimble; 28. a fixing ring; 29. a bobbin; 30. a slide plate; 31. a second spur gear; 32. a first straight gear; 33. a third gear; 34. a sleeve; 35. a threaded column; 36. a movable rod; 37. a limiting block; 38. a movable seat; 39. a connecting rod; 40. a threaded rod; 41. a universal joint; 42. a connecting rod; 43. a spring; 44. a connecting block; 45. an illuminating lamp.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Examples

Referring to fig. 6-9, the device comprises a base 1, wherein a support column 4 is fixedly connected to the top of the base 1, a fixed block 5 is connected inside the support column 4 in a sliding manner, and an adjusting component is arranged inside the fixed block 5;

the adjusting component comprises a motor 21, the top rigid coupling of motor 21 is in the outside of fixed block 5, the one end rotation of motor 21 is connected with first gear 22, the bottom rotation of first gear 22 is connected with movable mechanism, the inside of fixed block 5 is provided with two second gears 23 and second straight-line gear 31, and two second gears 23 lateral wall gear engagement connection, the lateral wall gear engagement of first gear 22 is in the lateral wall of second gear 23, the bottom rotation of second gear 23 is connected with first straight-line gear 32, first straight-line gear 32 bottom is provided with third gear 33 and movable seat 38, movable seat 38 rotation is connected in the bottom of third gear 33, movable seat 38 bottom rotation is connected with connecting rod 39, connecting rod 39 outside activity cup joints sleeve 34, the outside rotation of sleeve 34 is connected with stopper 37, connecting rod 39 is connected with thimble 27 through movable mechanism rotation, the lateral wall gear engagement of second straight-line gear 31 is in one side the lateral wall of first straight-line gear 32, the bottom of second straight-line gear 31 is provided with third gear 33 and movable seat 38, movable seat 35 is in the movable column 35, movable column 35 is in the screw thread form, movable column 35 is in the movable column 35 outside the movable column 35.

The motor 21 drives the first gear 22 to rotate by the rotation of the motor 21, the first gear 22 is driven to rotate by the meshing of the gears, the second gear 23 is driven to rotate by the rotation of the first gear 22, meanwhile, the two second gears 23 are in a gear meshing shape, the first straight gear 32 is driven to rotate by the second gear 23, the first straight gear 32 is driven to reversely rotate by the meshing of the gears between the first straight gear 32 and the second straight gear 31, the two first gears 22 are in reverse rotation, the rotation direction of the second straight gear 31 driven by the first straight gear 32 is consistent with that of the first gear 22 at the other side, the movable seat 38 is driven to rotate by the rotation of the third gear 33 through the rotation of the bottom of the first straight gear 32, and the movable seat 38 is ensured to normally move the thimble 27, the top of the movable seat 38 is connected to the bottom of the third gear 33 in a bearing rotation mode, the movable seat 38 is connected with the connecting rod 39 in a rotation mode, the sleeve 34 is sleeved outside the connecting rod 39, meanwhile, the sleeve 34 is movably sleeved with the limiting block 37, the sleeve 34 and the limiting block 37 cannot rotate, when the second spur gear 31 rotates, the second spur gear 31 drives the threaded column 35 to rotate, the movable rod 36 moves in the threaded column 35 by utilizing the movable rod 36 arranged on one side of the limiting block 37, because the limiting block 37 cannot rotate, when the threaded column 35 rotates in a threaded mode, the threaded column 35 drives the movable rod 36 to move upwards, meanwhile, the movable rod 36 drives the limiting block 37 to synchronously move upwards, when the threaded column 35 moves upwards, the limiting block 37 pushes the sleeve 34 and the connecting rod 39 to synchronously move, thereby achieving the moving effect of the two thimbles 27.

Referring to fig. 6-7, the bottom of the sleeve 34 is fixedly connected with a sliding plate 30, the side wall of the sliding plate 30 is slidably connected inside the fixed block 5, the side wall of the sliding plate 30 is rotatably connected with a universal joint 41, the bottom of the universal joint 41 is rotatably connected with a threaded rod 40, the threaded rod 40 is in threaded connection inside the thimble 27, and the outside of the thimble 27 is movably sleeved with a fixed ring 28.

The connecting rod 39 contacts the sliding plate 30, so that the connecting rod 39 drives the sliding plate 30 to move in the fixed block 5, meanwhile, the connecting rod 39 drives the universal joint 41 to synchronously rotate when rotating, the rotation of the connecting rod 39 is transmitted to the threaded rods 40 by the universal joint 41, the thread grooves of the two threaded rods 40 are reverse, and the connecting rod 39 is ensured to drive the two ejector pins 27 to move downwards in the same direction.

Referring to fig. 6-8, the movable mechanism comprises a movable plate 25, the top of the movable plate 25 is hinged to the bottom of the fixed block 5, a spring column 26 is fixedly connected to the top of the movable plate 25, and the side wall of the fixed ring 28 is slidably connected to the side wall of the movable plate 25.

The bottom of the movable plate 25 is moved upward by the reverse force of the spring post 26, and the ejector pin 27 is pushed to be converted from a vertical shape to an inclined shape when the movable plate 25 is moved upward, so that the bottom of the ejector pin 27 contacts a node of the power module.

Referring to fig. 6-7, a spool 29 is rotatably connected to the bottom of the first gear 22, a bearing is disposed in the spool 29, a rope 24 is fixedly connected to the exterior of the spool 29, and one end of the rope 24 is fixedly connected to the bottom of the movable plate 25.

The winding frame 29 winds the rope 24 by utilizing the rotation of the winding frame 29, the movable plate 25 is pulled to rotate by the rope 24 by utilizing the fixed connection between the rope 24 and the movable plate 25, and meanwhile, the spring column 26 can be stretched by the movable plate 25 during rotation.

Referring to fig. 5-10, the top of the base 1 is rotatably connected with a connecting plate 7, the bottom of the connecting plate 7 is rotatably connected with a leaf spring 18, the bottom of the connecting plate 7 is fixedly connected with a baffle 20, the inside of the base 1 is fixedly connected with a limit rod 19, and the limit rod 19 is positioned on one side of the baffle 20.

Through rotating the connecting plate 7, make the connecting plate 7 rotate in base 1, drive leaf spring 18 when connecting plate 7 rotates simultaneously and rotate, and the baffle 20 of connecting plate 7 bottom rotates along with the rotation of connecting plate 7, after connecting plate 7 and baffle 20 rotate a week, baffle 20 can contact gag lever post 19, make connecting plate 7 unable continue to rotate to guarantee the node at connecting plate 7 top and detect comprehensively, after the detection is accomplished, through the reverse rotation of leaf spring 18, make connecting plate 7 reverse rotation under the effect of leaf spring 18, make connecting plate 7 gyration original state.

Referring to fig. 4-5, the top of the connecting plate 7 is provided with a sliding block 8 and a rack 9, the sliding block 8 and the rack 9 are both provided with a plurality of sliding blocks, the bottom of the sliding block 8 is slidably connected to the top of the connecting plate 7, the side walls of the rack 9 are both fixedly connected with a fixed plate 17, the side walls of the rack 9 are rotatably connected with a third spur gear 10, and the top of the third spur gear 10 is rotatably connected with a rotating plate 11.

When the power module is large, the rotating plate 11 is rotated reversely, so that the rotating plate 11 drives the third spur gear 10 to rotate, and meanwhile, the third spur gear 10 can push the racks 9 on two sides to be away from each other, so that the sliding blocks 8 on two sides can move simultaneously, and the size of the connecting plate 7 is adjusted.

Referring to fig. 3-4, the side wall of the rack 9 is fixedly connected to the side wall of the sliding block 8, the side wall of the sliding block 8 is fixedly connected with a rotating rod 12, a supporting plate 13 is movably sleeved outside the rotating rod 12, the side wall of the supporting plate 13 is slidably connected with a antiskid plate 16, and a rubber pad is arranged inside the antiskid plate 16.

When the power module is smaller, the power module is placed on the top of the anti-skid plate 16, the bottom of the power module is contacted by the anti-skid plate 16, and the overall friction of the power module is increased by using a rubber pad on the top of the anti-skid plate 16.

Referring to fig. 3-4, the side wall of the slider 8 is provided with a torsion spring 14 and a limiting frame 15, the torsion springs 14 are provided with a plurality of torsion springs, the side wall of the torsion spring 14 is fixedly connected to the side wall of the slider 8, and the side wall of the limiting frame 15 is fixedly connected to the other end of the torsion spring 14.

Through rotating torsional spring 14, make torsional spring 14 drive spacing 15 synchronous rotation, through placing power module at the top of antiskid plate 16, through the reverse effort of torsional spring 14, make torsional spring 14 drive spacing 15 and rotate, make the bottom of spacing 15 contact power module's top, realize the fixed effect to power module.

Referring to fig. 1-11, the top of the base 1 is fixedly connected with a supporting rod 3, a connecting rod 42 and a spring 43 are arranged in the supporting rod 3, the side wall of the connecting rod 42 is slidably connected in the supporting rod 3, one end of the spring 43 is fixedly connected at the bottom of the connecting rod 42, one end of the connecting rod 42 is hinged with a connecting block 44, and one end of the connecting block 44 is hinged with an illuminating lamp 45.

Through the screw of pulling connecting rod 42 one end, make connecting rod 42 remove in the inside of bracing piece 3, through pulling connecting rod 42, make connecting rod 42 remove suitable position, spring 43 follows connecting rod 42 simultaneously and is tensile motion, utilize the articulated between connecting block 44 and the connecting rod 42, make connecting block 44 rotate in connecting rod 42's one end, simultaneously light 45 is the rotation of upper and lower direction, make light 45 can adjust according to specific power module's size, guarantee the lighting effect of light 45 to power module surface node.

Referring to fig. 1-12, the top of the base 1 is fixedly connected with a control panel 2, two screws 6 are arranged at the bottom of the base 1, and the tops of the two screws 6 are in threaded connection with the bottom of the base 1.

By reversely rotating the screw rod 6, one end of the screw rod 6 is in threaded connection with the inside of one side of the base 1, so that one side of the base 1 slowly moves upwards, and the base 1 is inclined, so that the illumination of the illumination lamp 45 is more accurate.

Working principle: firstly, the screw at one end of the connecting rod 42 is pulled to enable the connecting rod 42 to move in the support rod 3, the connecting rod 42 is pulled to enable the connecting rod 42 to move to a proper position, meanwhile, the spring 43 follows the connecting rod 42 to stretch, the connecting rod 44 rotates at one end of the connecting rod 42 by utilizing the hinging between the connecting rod 42 and the connecting rod 44, meanwhile, the illuminating lamp 45 rotates in the up-down direction, the illuminating lamp 45 can be adjusted according to the size of a specific power module, the illuminating effect of the illuminating lamp 45 on the surface node of the power module is ensured, due to different sizes of the power modules, when the power modules are smaller, the torsion spring 14 drives the limiting frame 15 to synchronously rotate by rotating the rotating plate 11, the power module is placed at the top of the antiskid plate 16 and contacted with the bottom of the power module by the antiskid plate 16, the whole friction of the power module is increased by utilizing the rubber pad at the top of the antiskid plate 16, the torsion spring 14 drives the limit frame 15 to rotate through the reverse acting force of the torsion spring 14, the bottom of the limit frame 15 contacts the top of the power module, the fixing effect on the power module is realized, otherwise, when the power module is large, the rotary plate 11 drives the third spur gear 10 to rotate through reverse rotation, meanwhile, the third spur gear 10 pushes the racks 9 at two sides to be mutually far away, the sliding blocks 8 at two sides move simultaneously, the adjustment on the size of the connecting plate 7 is realized, the limit frame 15 is pulled, the bottom of the limit frame 15 clamps the outer side of the power module, the fixing block 5 moves at the top of the supporting column 4 through pushing the fixing block 5, the fixing effect on the fixing block 5 is realized through a screw, the motor 21 drives the first gear 22 to rotate through rotation of the motor 21, and the meshing between gears is utilized, when the first gear 22 rotates, the second gears 23 are driven to rotate, meanwhile, the two second gears 23 are in a gear meshing shape, the first straight gear 32 is driven to rotate by the second gears 23, the first straight gear 32 is driven to reversely rotate by the second straight gear 31 through the gear meshing between the first straight gear 32 and the second straight gear 31, the two second gears 23 are in reverse rotation, the rotation direction of the second straight gear 31 driven by the first straight gear 32 is consistent with that of the first gear 22 at the other side, the movable seat 38 is driven to rotate by the third gear 33 through the rotation of the third gear 33, the movable seat 38 is connected with the connecting rod 39 through the rotation, the sleeve 34 is sleeved outside the connecting rod 39 through the rotation, the limiting block 37 is movably sleeved outside the sleeve 34 at the same time, when the second spur gear 31 rotates, the second spur gear 31 drives the threaded column 35 to rotate, the movable rod 36 arranged on one side of the limiting block 37 is utilized to enable the movable rod 36 to move in the threaded column 35, when the threaded column 35 rotates in a threaded mode, the threaded column 35 drives the movable rod 36 to move upwards, meanwhile, the movable rod 36 drives the limiting block 37 to synchronously move upwards, the threaded column 35 is conical, when the limiting block 37 moves upwards, the sleeve 34 and the connecting rod 39 are pushed to synchronously move, the connecting rod 39 contacts the sliding plate 30, the connecting rod 39 drives the sliding plate 30 to move in the fixed block 5, so that the moving effect on the two ejector pins 27 is achieved, meanwhile, when the connecting rod 39 rotates, the universal joint 41 is driven to synchronously rotate, and the rotation of the connecting rod 39 is transmitted to the threaded rod 40 through the universal joint 41, the thread grooves of the two threaded rods 40 are reversed, so that the connecting rod 39 drives the two ejector pins 27 to move downwards in the same direction, meanwhile, the bottom of the first gear 22 is rotationally connected with the winding frame 29, a bearing is arranged in the winding frame 29, the winding frame 29 rotates along with the rotation of the first gear 22 by utilizing the rotation of the first gear 22, the rope 24 is wound by the winding frame 29 by utilizing the rotation of the winding frame 29, the movable plate 25 is pulled to rotate by the rope 24 by utilizing the fixed connection between the rope 24 and the movable plate 25, the movable plate 25 can form a stretching effect on the spring column 26 when rotating, when a capacitor component in a power supply module is large and a node is shielded, the winding frame 29 rotates in the opposite direction by reversely pulling the rope 24, meanwhile, the bottom of the movable plate 25 moves upwards by the reversely acting force of the spring column 26, and meanwhile, the movable plate 25 moves upwards, the thimble 27 is pushed to be inclined from vertical, so that the bottom of the thimble 27 contacts a node of a power module, after the detection of the node at one side of the top of the power module is completed, the connecting plate 7 is rotated in the base 1 by rotating the connecting plate 7, meanwhile, the leaf spring 18 is driven to rotate when the connecting plate 7 rotates, the baffle 20 at the bottom of the connecting plate 7 rotates along with the rotation of the connecting plate 7, when the connecting plate 7 and the baffle 20 rotate for one circle, the baffle 20 contacts the limit rod 19, so that the connecting plate 7 cannot rotate continuously, the node at the top of the connecting plate 7 is ensured to be comprehensively detected, after the detection is completed, the connecting plate 7 rotates reversely under the action of the leaf spring 18 by reversely rotating the connecting plate 7, so that the connecting plate 7 rotates in the original state, when the node of the power module cannot be illuminated, one end of the screw 6 moves out of the base 1 in a threaded connection mode by reversely rotating the screw 6, the base 1 is inclined, so that the illuminating lamp 45 can illuminate more accurately, and the detection accuracy of technicians is ensured. The device ensures that the surface node of the power supply module is detected more accurately, and is convenient for adjusting the thimble.

The foregoing is merely specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily think about changes or substitutions within the technical scope of the present application, and the changes and substitutions are intended to be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Finally: the foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and principles of the invention are intended to be included within the scope of the invention.

Claims (10)

1. The communication power supply module testing device is characterized by comprising a base (1), wherein a support column (4) is fixedly connected to the top of the base (1), a fixed block (5) is connected inside the support column (4) in a sliding manner, and an adjusting assembly is arranged inside the fixed block (5);

the adjusting component comprises a motor (21), the top of the motor (21) is fixedly connected to the outside of a fixed block (5), one end of the motor (21) is rotationally connected with a first gear (22), the bottom of the first gear (22) is rotationally connected with a movable mechanism, two second gears (23) and a second straight gear (31) are arranged in the fixed block (5), side wall gears of the two second gears (23) are meshed and connected, side wall gears of the first gear (22) are meshed with the side wall of the second gear (23), the bottom of the second gear (23) is rotationally connected with a first straight gear (32), the bottom of the first straight gear (32) is provided with a third gear (33) and a movable seat (38), the bottom of the movable seat (38) is rotationally connected with a connecting rod (39), the outside of the connecting rod (39) is movably sleeved with a sleeve (34), the outside of the sleeve (34) is rotationally connected with a limiting block (37), the bottom of the second gear (23) is rotationally connected with a first straight gear (32), the bottom of the first straight gear (33) is rotationally connected with a movable seat (38), the movable seat (38) is rotationally connected with a third gear (33) and the bottom of the movable seat (38), the movable seat (38) is rotationally connected with the bottom of the third gear (33), the movable rod (36) is fixedly connected to the side wall of the limiting block (37).

2. The communication power module testing device according to claim 1, wherein the bottom of the sleeve (34) is fixedly connected with a sliding plate (30), the side wall of the sliding plate (30) is slidably connected inside the fixed block (5), the side wall of the sliding plate (30) is rotatably connected with a universal joint (41), the bottom of the universal joint (41) is rotatably connected with a threaded rod (40), the threaded rod (40) is in threaded connection inside the thimble (27), and the outside of the thimble (27) is movably sleeved with a fixed ring (28).

3. The communication power module testing device according to claim 2, wherein the movable mechanism comprises a movable plate (25), the top of the movable plate (25) is hinged to the bottom of the fixed block (5), a spring column (26) is fixedly connected to the top of the movable plate (25), and the side wall of the fixed ring (28) is slidably connected to the side wall of the movable plate (25).

4. A communication power module testing device according to claim 3, wherein the bottom of the first gear (22) is rotatably connected with a winding frame (29), a bearing is arranged in the winding frame (29), a rope (24) is fixedly connected to the outside of the winding frame (29), and one end of the rope (24) is fixedly connected to the bottom of the movable plate (25).

5. The communication power module testing device according to claim 4, wherein the top of the base (1) is rotatably connected with a connecting plate (7), the bottom of the connecting plate (7) is rotatably connected with a leaf spring (18), a baffle (20) is fixedly connected with the bottom of the connecting plate (7), a limit rod (19) is fixedly connected with the inside of the base (1), and the limit rod (19) is located on one side of the baffle (20).

6. The communication power module testing device according to claim 5, wherein a sliding block (8) and a rack (9) are arranged at the top of the connecting plate (7), the sliding block (8) and the rack (9) are both provided with a plurality of sliding blocks, the bottom of the sliding block (8) is slidably connected to the top of the connecting plate (7), a fixing plate (17) is fixedly connected to the side wall of the rack (9), a third spur gear (10) is rotatably connected to the side wall of the rack (9), and a rotating plate (11) is connected to the top of the third spur gear (10).

7. The communication power module testing device according to claim 6, wherein the side wall of the rack (9) is fixedly connected to the side wall of the sliding block (8), the side wall of the sliding block (8) is fixedly connected with a rotating rod (12), the outside of the rotating rod (12) is movably sleeved with a supporting plate (13), the side wall of the supporting plate (13) is slidably connected with a antiskid plate (16), and a rubber pad is arranged on the antiskid plate (16).

8. The communication power module testing device according to claim 7, wherein a torsion spring (14) and a limiting frame (15) are arranged on the side wall of the sliding block (8), a plurality of torsion springs (14) are arranged, the side wall of each torsion spring (14) is fixedly connected to the side wall of the sliding block (8), and the side wall of each limiting frame (15) is fixedly connected to the other end of each torsion spring (14).

9. The communication power module testing device according to claim 8, wherein the top of the base (1) is fixedly connected with a supporting rod (3), a connecting rod (42) and a spring (43) are arranged in the supporting rod (3), the side wall of the connecting rod (42) is slidably connected in the supporting rod (3), one end of the spring (43) is fixedly connected to the bottom of the connecting rod (42), one end of the connecting rod (42) is hinged with a connecting block (44), and one end of the connecting block (44) is hinged with an illuminating lamp (45).

10. The communication power module testing device according to claim 9, wherein the top of the base (1) is fixedly connected with the control panel (2), two screws (6) are arranged at the bottom of the base (1), and the tops of the two screws (6) are in threaded connection with the bottom of the base (1).