CN114216664B - Mobile power supply button life test equipment - Google Patents

Abstract

The invention relates to a test device, in particular to a mobile power supply key life test device which comprises a shell, a movable plate, a u-shaped strip and the like, wherein the movable plate is arranged on the lower portion of the inner side of the shell in a sliding mode along the circumferential direction, and the u-shaped strip used for limiting a mobile power supply is fixedly connected to the middle of the right side of the top of the movable plate. According to the invention, the mobile power supply is placed on the movable plate to correspond to the u-shaped strips, the movable plate is driven to move up and down by twisting the lifting mechanism, the movable plate drives the mobile power supply to move up and down, when the mobile power supply moves up and down to a proper position, the lifting mechanism is stopped being twisted, the driving mechanism can be started to operate to drive the pressing head to move up and down, and the pressing head presses the keys of the mobile power supply up and down, so that the buttons of the mobile power supply do not need to be manually operated by people, and the test is labor-saving and convenient.

Description

Mobile power supply button life test equipment

Technical Field

The invention relates to a test device, in particular to a mobile power supply key life test device.

Background

In the manufacturing process of the mobile power supply, the mobile power supply can be manufactured completely generally through a plurality of processes, the mobile power supply is started by pressing a key, and the key of the mobile power supply needs to be pressed and tested in order to guarantee the service life and the quality of the key.

Chinese patent application No. CN201720013785.5 discloses a key testing device, which includes a fixing frame, a locking mechanism and a pressing device for pressing a key; the fixing frame comprises a first frame body and a second frame body which are fixedly connected, the pressing device is fixed on the first frame body, and the electronic equipment to be detected is arranged between the first frame body and the second frame body and is fixed on the fixing frame through the locking mechanism. The key test equipment provided by the embodiment of the invention has the advantages that the structure is simple, the cost is low, the electronic equipment to be detected is convenient to fix, the pressure output of the pressing end is controlled in a mechanical structure mode, the manufacturing cost is further reduced, and the reliability is improved.

Therefore, a mobile power supply key life testing device which can replace manual work to press and test a mobile power supply key and is labor-saving and high in working efficiency needs to be designed and researched.

Disclosure of Invention

In order to overcome the defects that the keys of the mobile power supply can be pressed, but the keys of the mobile power supply still need to be manually operated by people for a long time, and the labor is wasted, and the working efficiency is also influenced, the invention provides the mobile power supply key life testing equipment which can replace manual work to press and test the keys of the mobile power supply, and is labor-saving and high in working efficiency.

The invention is realized by the following technical approaches:

the utility model provides a portable power source button life-span test equipment, including the casing, the fly leaf, u type strip, the press head, elevating system and actuating mechanism, the fly leaf has been placed along circumference slidingtype in the inboard lower part of casing, the rigid coupling has and is used for carrying on spacing u type strip to portable power source in the middle of the fly leaf top right side, the actuating mechanism who is used for providing power is installed at the top in the casing, the last press head that is used for pressing the test to portable power source's button of installing of actuating mechanism, install elevating system between bottom and the fly leaf in the casing.

Preferably, the lifting mechanism comprises a first fixing seat, a nut, a first swinging plate, a rotating shaft, a second swinging plate, a knob, a second fixing seat and a bidirectional screw rod, wherein the first fixing seat is symmetrically fixedly connected to the left and right sides of the inner bottom of the shell in a front-back manner, the first swinging plate is rotatably connected between the two first fixing seats on the left side and between the two first fixing seats on the right side, the rotating shafts are rotatably connected to the front and back sides of the upper portion of the first swinging plate, the nuts are fixedly connected between the inner ends of the rotating shafts on the front and back sides, the bidirectional screw rod is rotatably connected between the nuts on the left and right sides, the right end of the bidirectional screw rod penetrates through the middle of the lower portion of the right side of the shell, the knob is fixedly connected to the right end of the bidirectional screw rod, the second fixing seat is rotatably connected between the two second fixing seats on the left side and between the two second fixing seats on the right side, the outer end of the tail portion of the second swinging plate is rotatably connected with the rotating shafts on the front and back sides respectively.

Preferably, actuating mechanism is including the mounting bracket, driving motor, the drive shaft, the drive wheel, the mount, a movable section of thick bamboo, first spring and second spring, top right side rear portion rigid coupling has the mounting bracket in the casing, mounting bracket outer bottom right side rigid coupling has the mount, the cross-under of slidingtype has a movable section of thick bamboo between the upper and lower both sides in the mount, top is the inclined plane in the movable section of thick bamboo, the first spring has been around having connect between activity section of thick bamboo outside upper portion and the mount inboard, middle and press head sliding connection in the activity bobbin base, press head top rigid coupling has the second spring, top contact in second spring tail end and the movable section of thick bamboo, driving motor is installed along circumference in the inboard middle part of mounting bracket, driving motor's output shaft tip rigid coupling has the drive shaft, the drive shaft rear side has the drive wheel that is used for driving a movable section of thick bamboo downstream along circumference rigid coupling.

Preferably, still including being used for carrying out the adjustment mechanism who adjusts to the pressing power of press head, adjustment mechanism is including the guided way, the third spring, the slider, two-way rack, rotatory gear, the bull stick, the disc cam and lack the gear, the cross-under of slidingtype in the middle of the activity bobbin top has the bull stick, bull stick top rigid coupling has rotatory gear, bull stick bottom rigid coupling has the disc cam that is used for compressing the second spring, the disc cam contacts with the second spring tail end, rigid coupling has the guided way in the middle of the preceding side upper portion in the casing, the slider has been placed to gliding style on the guided way, be connected with the third spring between slider left surface front side and the interior left surface of guided way, slider trailing flank rigid coupling has the two-way rack that is used for driving rotatory gear revolve, two-way rack and rotatory gear engagement, drive shaft front end rigid coupling has the scarce gear that is used for driving rack two-way movement, lack gear and two-way rack engagement.

Preferably, the portable power source key press testing device further comprises a testing mechanism used for pressing a portable power source key, the testing mechanism comprises a vertical rack, a driving gear, a guide shaft, a Y-shaped block, a first magnet, a second magnet, an arc-shaped pressing plate and a fourth spring, the guide shaft is rotatably connected between the lower portions of the front side and the rear side of the pressing head in a penetrating mode, the driving gear is installed at the front end of the guide shaft, the rear side of the guide shaft is fixedly connected with the Y-shaped block used for pressing the portable power source key in a circumferential mode, the three ends of the Y-shaped block are different in material, the fourth spring is connected with the inner two sides of the pressing head close to the guide shaft in an embedded mode, the arc-shaped pressing plate used for compressing the guide shaft is fixedly connected with the tail end of the fourth spring, the arc-shaped pressing plate is in contact with the guide shaft, the right portion of the front side of the outer bottom of the fixing frame is fixedly connected with the vertical rack used for driving the driving gear to rotate, the vertical rack is meshed with the driving gear, the first magnet is fixedly connected with the front side and the rear side of the Y-shaped block in an embedded mode, the second magnet is fixedly connected with the second magnet in the middle of the lower portion of the front side and the rear side of the lower portion of the pressing head, and the second magnet corresponds to the first magnet at the lowest portion of the bottom of the movable power source.

Preferably, still including being used for the tight clamping mechanism with portable power source clamp, clamping mechanism is including the support frame, trough of belt leading truck, the movable rod, the roller bearing, the fifth spring, the movable block, clamp splice and connecting axle, fly leaf top front side rigid coupling has the support frame, the rigid coupling has trough of belt leading truck between the nine tip of support frame top, slidingtype being connected with the movable block between the face of both sides around in the trough of belt leading truck, the rigid coupling has the fifth spring between the left surface in movable block left surface and the trough of belt leading truck, the roller bearing of having placed of the inslot slidingtype of both sides about the trough of belt leading truck, upper and lower both sides roller bearing outer end all rigid coupling has the movable rod, the connecting axle of being connected with of rotary type between upper and lower both sides movable rod medial surface right side, the connection of rotation type is used for two clamp splices that the portable power source clamp is tight on the connecting axle, two clamp splices are mutually supported, the clamp splice left end and the contact of slider right flank.

Preferably, the pressing head further comprises a clamping block and an n-type block, the clamping block is fixedly connected to the front side and the rear side of the guide shaft at intervals along the circumferential direction, and the n-type block used for limiting the clamping block is fixedly connected to the lower portions of the front side face and the rear side face in the pressing head.

Preferably, the portable power source clamping device further comprises a rubber plate and sixth springs, the four sixth springs are connected to the right sides of the inner side faces of the two clamping blocks in an embedded mode, and the rubber plate used for clamping the portable power source is fixedly connected between the tail ends of the four sixth springs on each side.

Compared with the prior art, the invention has the remarkable improvements that:

1. the mobile power supply is placed on the movable plate and corresponds to the u-shaped strips, the movable plate is driven to move up and down by twisting the lifting mechanism, the movable plate drives the mobile power supply to move up and down, the movable power supply stops twisting the lifting mechanism when moving to a proper position, the driving mechanism can be started to operate and drive the pressing head to move up and down, and the pressing head performs pressing tests on the keys of the mobile power supply up and down.

2. When driving motor started, the drive shaft still drove adjustment mechanism and functions, and adjustment mechanism operates and is continuous compresses and relaxs first spring, just also makes the pressure head carry out the test of pressing of different dynamics to the portable power source button, and when driving motor closed, the drive shaft stopped to drive adjustment mechanism and functions, so, can carry out pressing of different dynamics to portable power source's button, and the effect of test is better.

3. When the driving motor starts, the pressing head moves to drive the testing mechanism to operate, the testing mechanism operates to perform press testing on the keys of the mobile power supply, and therefore three different materials can be used for performing press testing on the keys of the mobile power supply in a contact mode with the buttons of the mobile power supply, and the testing is more comprehensive.

Drawings

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

FIG. 2 is a first partial cross-sectional structural schematic of the present invention.

FIG. 3 is a second partial cross-sectional structural schematic of the present invention.

Fig. 4 is an enlarged schematic view of part a of the present invention.

Fig. 5 is a third partial sectional structural schematic view of the present invention.

Fig. 6 is an enlarged view of part B of the present invention.

Fig. 7 is a fourth partial sectional structural view of the present invention.

Fig. 8 is a schematic view of a first partial body structure according to the present invention.

FIG. 9 is a schematic view of a second partial body structure according to the present invention.

FIG. 10 is a schematic view of a fifth partial cross-sectional structure of the present invention.

Fig. 11 is a schematic view of a sixth partial sectional structure of the present invention.

Fig. 12 is an enlarged schematic view of part C of the present invention.

Fig. 13 is a schematic view of a seventh partial sectional structure of the present invention.

Fig. 14 is a partial sectional structural view of an eighth embodiment of the present invention.

FIG. 15 is a ninth partial sectional structural view of the present invention.

Fig. 16 is a perspective view of a third embodiment of the present invention.

Fig. 17 is an enlarged view of portion D of the present invention.

Wherein: 1-shell, 2-movable plate, 3-u-shaped bar, 31-pressing head, 4-mobile power supply, 5-lifting mechanism, 51-first fixed seat, 52-nut, 53-first swinging plate, 54-rotating shaft, 55-second swinging plate, 56-knob, 57-second fixed seat, 58-bidirectional screw, 6-driving mechanism, 61-mounting frame, 62-driving motor, 63-driving shaft, 64-driving wheel, 65-fixed frame, 66-movable cylinder, 67-first spring, 68-second spring, 7-adjusting mechanism, 71-guide rail, 72-third spring, 73-sliding block, 74-bidirectional rack, 75-rotating gear, 76-rotating rod, 77-disc cam, 78-missing gear, 8-testing mechanism, 81-vertical rack, 82-driving gear, 83-guide shaft, 84-Y-shaped block, 85-first magnet, 86-second magnet, 87-arc-shaped pressing plate, 88-fourth spring, 9-clamping mechanism, 91-92-supporting frame, 92-grooved guide shaft, 84-Y-shaped block, 85-first magnet, 86-second magnet, 87-arc-shaped pressing plate, 88-fourth spring, 9-clamping mechanism, 91-supporting frame, 92-elastic block, 96-elastic block, 98-elastic block, 99-elastic block, 11-elastic block, 9-elastic block, and 13-elastic block.

Detailed Description

The invention is further explained by combining the drawings in the specification and the embodiments of the invention are given by combining the drawings in the specification.

Example 1

A mobile power supply key life test device comprises a shell 1, a movable plate 2, a u-shaped strip 3, a pressing head 31, a lifting mechanism 5 and a driving mechanism 6, please refer to fig. 1-6, the movable plate 2 is placed on the lower portion of the inner side of the shell 1 in a sliding mode along the circumferential direction, the u-shaped strip 3 is installed in the middle of the right side of the top of the movable plate 2 in a welding connection mode, the u-shaped strip 3 can limit a mobile power supply 4, the driving mechanism 6 is installed on the top of the inner portion of the shell 1, the driving mechanism 6 is used for providing power, the pressing head 31 is installed on the driving mechanism 6, when the pressing head 31 moves downwards to be in contact with the mobile power supply 4, the pressing head 31 can press keys of the mobile power supply 4, the key life of the mobile power supply 4 can be tested, the lifting mechanism 5 is installed between the bottom of the shell 1 and the movable plate 2, and when the lifting mechanism 5 operates, the lifting mechanism 5 can drive the movable plate 2 to move.

The lifting mechanism 5 includes a first fixing seat 51, a nut 52, a first swing plate 53, a rotating shaft 54, a second swing plate 55, a knob 56, a second fixing seat 57, and a two-way screw 58, please refer to fig. 1-4, the first fixing seat 51 is installed in the casing 1 in a manner of welding connection in a front-back symmetry manner on the left and right sides of the bottom, the first swing plate 53 is rotatably connected between the two first fixing seats 51 on the left side and the two first fixing seats on the right side, the rotating shaft 54 is rotatably connected between the front and back sides of the upper portion of the first swing plate 53, the nut 52 is installed in the manner of welding connection between the inner ends of the rotating shafts 54 on the front and back sides, the two-way screw 58 is rotatably connected between the nuts 52 on the left and right sides, the right end of the two-way screw 58 penetrates through the middle of the lower portion of the right side of the casing 1, when the two-way screw 58 rotates, the two-way screw 58 can drive the nut 52 to move, the knob 56 is installed in a manner of welding connection on the right end of the two-way screw 58, when the operator rotates the knob 56, the knob 56 can drive the two-way, the two-way swing plates 55, the outer ends of the second swing plate 55 are rotatably connected between the second swing plate 55, and the second swing plate 55 are connected between the two swing plate 55, and the two swing plates 55, and the second swing plate 55.

The driving mechanism 6 includes an installation frame 61, a driving motor 62, a driving shaft 63, a driving wheel 64, a fixed frame 65, a movable cylinder 66, a first spring 67 and a second spring 68, please refer to fig. 1, fig. 2, fig. 5 and fig. 6, the installation frame 61 is installed at the rear portion of the right side of the top in the casing 1 in a welding connection manner, the fixed frame 65 is installed at the right side of the bottom outside the installation frame 61 in a welding connection manner, the movable cylinder 66 is slidably connected between the upper side and the lower side in the fixed frame 65 in a penetrating manner, the top in the movable cylinder 66 is an inclined plane, the first spring 67 is wound between the upper portion of the outer side of the movable cylinder 66 and the inner side of the fixed frame 65, the middle of the bottom of the movable cylinder 66 is slidably connected with the pressing head 31, the second spring 68 is installed at the top of the pressing head 31 in a welding connection manner, the tail end of the second spring 68 is in contact with the top in the movable cylinder 66, the middle of the inner side of the mounting frame 61 in the circumferential direction is installed with the driving motor 62, the driving shaft 63 is fixedly connected with the driving wheel 64 in the circumferential direction, the rear side of the driving wheel 63 is installed with the driving shaft 64 in the circumferential direction, and the driving wheel 64 in the rear side of the driving wheel 64 in the circumferential direction, and the driving wheel 64 can drive the driving wheel can drive the movable cylinder 66 to move downward.

Firstly, an operator places a mobile power supply 4 on a movable plate 2, and the mobile power supply 4 is placed in a u-shaped strip 3, the u-shaped strip 3 limits the mobile power supply 4, then twists a lifting mechanism 5, the lifting mechanism 5 operates to drive the movable plate 2 to move up and down, the movable plate 2 moves up and down to drive the mobile power supply 4 to move up and down, when the mobile power supply 4 moves up and down to a proper position, the twisting of the lifting mechanism 5 is stopped, the movable plate 2 stops driving the mobile power supply 4 to move up and down, then a driving mechanism 6 is started, the driving mechanism 6 operates to drive a pressing head 31 to move up and down, when the pressing head 31 moves down, the pressing head 31 is in contact with keys of the mobile power supply 4, the pressing head 31 tests the service life of the keys of the mobile power supply 4, after the key test of the mobile power supply 4 is completed, the driving mechanism 6 is closed, the driving mechanism 6 stops driving the pressing head 31 to move up and down, the mobile power supply 4 can be taken down from the movable plate 2, and the like this operation is repeated, and the service life of the keys of the mobile power supply 4 can be continuously tested.

When the mobile power supply 4 is placed on the movable plate 2 and limited by the u-shaped strips 3, the knob 56 can be twisted to rotate forward and backward alternately, the knob 56 rotates forward and backward alternately to drive the bidirectional screw 58 to rotate forward and backward alternately, the bidirectional screw 58 rotates forward and backward alternately to drive the nut 52 to move inward and outward through threads, the nut 52 moves inward and outward to drive the rotating shaft 54 to move inward and outward, the rotating shaft 54 moves inward and outward to drive the first swinging plate 53 and the second swinging plate 55 to swing inward and outward, the first swinging plate 53 and the second swinging plate 55 swing inward and outward to drive the movable plate 2 to move upward and downward, the movable plate 2 moves upward and downward to drive the mobile power supply 4 to move upward and downward, when the mobile power supply 4 moves up and downward to a proper position, the knob 56 is turned off, the bidirectional screw 58 stops driving the nut 52 to move inward and outward, the first swinging plate 53 and the second swinging plate 55 stop driving the movable plate 2 to move upward and downward, and downward movement of the mobile power supply 4 is stopped, and the key test of the mobile power supply 4 can be started. So, can adjust the position of portable power source 4 test as required, conveniently test portable power source 4's button.

When the position of the mobile power supply 4 is adjusted, the driving motor 62 can be started to rotate positively, the driving motor 62 rotates positively to drive the driving shaft 63 to rotate positively, the driving shaft 63 rotates positively to drive the driving wheel 64 to rotate positively, the driving wheel 64 rotates positively to drive the movable barrel 66 to move downwards when the convex end is in contact with the movable barrel 66, the first spring 67 is compressed, the movable barrel 66 moves downwards to drive the pressing head 31 to move downwards through the second spring 68, the pressing head 31 moves downwards to be in contact with the button of the mobile power supply 4, the pressing head 31 tests the button of the mobile power supply 4, the driving wheel 64 rotates positively continuously to enable the convex end to be separated from the movable barrel 66, due to the effect of the first spring 67, the movable barrel 66 moves upwards to reset to drive the pressing head 31 to move upwards to reset, the pressing head 31 resets to be separated from the button of the mobile power supply 4, and the above steps are repeated, and the button of the movable head 31 can be continuously moved upwards and downwards to test the button of the mobile power supply 4. After the button test of the mobile power supply 4 is completed, the driving motor 62 is turned off, the driving motor 62 stops driving the driving wheel 64 to rotate forward through the driving shaft 63, the movable cylinder 66 stops moving up and down, and the pressing head 31 stops moving up and down.

Example 2

On the basis of embodiment 1, the adjusting device 7 further includes an adjusting mechanism 7, the adjusting mechanism 7 includes a guide rail 71, a third spring 72, a slider 73, a bidirectional rack 74, a rotating gear 75, a rotating rod 76, a disk cam 77 and a missing gear 78, please refer to fig. 2, 5, 6, 7, 8 and 9, the rotating rod 76 is slidably connected to the middle of the top of the movable cylinder 66, the rotating gear 75 is installed at the top end of the rotating rod 76 in a welding connection manner, the disk cam 77 is installed at the bottom end of the rotating rod 76 in a welding connection manner, the disk cam 77 contacts with the tail end of the second spring 68, when the disk cam 77 moves downward, the disk cam 77 can compress the second spring 68, the guide rail 71 is fixedly connected to the middle of the upper portion of the front side face in the housing 1, the slider 73 is installed in a sliding manner, the third spring 72 is connected between the front side face of the left side face of the slider 73 and the left side face in the guide rail 71, the slider 73 has the bidirectional rack 74, the bidirectional rack 74 is engaged with the rotating gear 75, when the bidirectional rack 74 moves, the missing gear 74 is fixedly connected to the driving shaft 78, and the missing gear 78, when the bidirectional rack 74 moves, the driving shaft 78, the missing gear 74 is fixedly connected to the driving shaft 78.

The testing device further comprises a testing mechanism 8, the testing mechanism 8 comprises a vertical rack 81, a driving gear 82, a guide shaft 83, a Y-shaped block 84, a first magnet 85, a second magnet 86, an arc-shaped pressing plate 87 and a fourth spring 88, as shown in fig. 10-13, the guide shaft 83 is rotatably connected between the lower portions of the front side and the rear side of the pressing head 31 in a penetrating manner, the driving gear 82 is installed at the front end of the guide shaft 83, the Y-shaped block 84 is installed at the rear side of the guide shaft 83 in a welded connection manner along the circumferential direction, the three ends of the Y-shaped block 84 are different in material, when the Y-shaped block 84 moves downwards, the Y-shaped block 84 can press keys of the mobile power supply 4, the fourth spring 88 is embedded into the right portion of the pressing head 31 close to the inner two sides of the guide shaft 83, the arc-shaped pressing plate 87 is fixedly connected to the tail end of the fourth spring 88, the arc-shaped pressing plate 87 is in contact with the guide shaft 83, the arc-shaped pressing plate 87 can press the guide shaft 83, the right portion of the front side of the outer bottom of the outer portion of the pressing head is provided with the vertical rack 81 in a welded connection manner, the vertical rack 81 is engaged with the driving gear 82, when the vertical rack 82 moves upwards to reset, the front side, the second magnet 82 and the magnet 85, the second magnet 85 is fixedly connected to the front side of the second magnet 84, and the second magnet 85, and the magnet 85.

The portable power supply clamping device further comprises a clamping mechanism 9, the clamping mechanism 9 comprises a supporting frame 91, a guide frame 92 with a groove, a movable rod 93, a rolling shaft 94, a fifth spring 96, a movable block 97, clamping blocks 98 and a connecting shaft 99, please refer to fig. 3, fig. 14, fig. 15 and fig. 16, the supporting frame 91 is installed on the front side of the top of the movable plate 2 in a welding connection mode, the guide frame 92 with the groove is fixedly connected between nine end portions of the top of the supporting frame 91, the movable block 97 is connected between the front side face and the rear side face in the guide frame 92 with the groove in a sliding mode, the fifth spring 96 is installed between the left side face of the movable block 97 and the left side face in the guide frame 92 with the groove in a welding connection mode, the rolling shaft 94 is placed in the grooves on the upper side and the lower side of the guide frame 92 with the groove in a sliding mode, the movable rod 93 is installed on the outer ends of the upper rolling shaft 94 and the lower rolling shaft, the movable rod 93 on the upper side and the lower side in a welding connection mode, the rotating mode is connected with the connecting shaft 99 between the inner side face of the movable rod 93 on the upper side and the lower side, the rotating mode is connected with the two clamping blocks 98 in the 99, the rotating mode on the 99, the connecting shaft 99 is connected with the clamping blocks 98, the clamping blocks 98 are matched with each other clamping blocks 98, the movable block 98 can clamp 4 can be achieved, and contact with the connecting shaft 73, and the left end of the connecting shaft 98.

When the driving motor 62 is started, the driving shaft 63 rotates forward to drive the missing gear 78 to rotate forward, the missing gear 78 rotates forward to drive the bidirectional rack 74 to move rightward, the bidirectional rack 74 moves rightward to drive the slider 73 to move rightward, the third spring 72 is stretched, the bidirectional rack 74 moves rightward to drive the rotating gear 75 to rotate backward, the rotating gear 75 rotates backward to drive the rotating rod 76 to rotate backward, the rotating rod 76 rotates backward to drive the disk-shaped cam 77 to rotate backward, the disk-shaped cam 77 continuously contacts with the top of the movable cylinder 66, the movable cylinder 66 enables the disk-shaped cam 77 to move up and down, the disk-shaped cam 77 continuously compresses the second spring 68 when moving up and down, the second spring 68 is compressed, the pressing force of the pressing head 31 on the button of the mobile power supply 4 is larger, the pressing force of the pressing head 31 on the mobile power supply 4 is smaller when the second spring 68 is not compressed, the pressing force of the pressing head 31 on the mobile power supply 4 is smaller, when the missing gear 78 continuously disengages from the bidirectional rack 74, the missing gear 72, the slider 73 moves leftward to reset to drive the bidirectional rack 74 to move leftward to move and reset, the bidirectional rack 74 to drive the bidirectional rack 74 to move forward, the bidirectional rack 74 to reset, the bidirectional rack 75 to reset, the forward, the disk-shaped cam 77, and the button can repeatedly test the button without constant pressing force. When the driving motor 62 is turned off, the driving shaft 63 stops driving the missing gear 78 to rotate forward, the missing gear 78 stops driving the bidirectional rack 74 to move rightward, and the disc cam 77 stops rotating. Therefore, the keys of the mobile power supply 4 can be pressed with different force, and the test effect is better.

When the pressing head 31 moves downwards, the pressing head 31 also drives the guide shaft 83 to move downwards, the guide shaft 83 moves downwards to drive the Y-shaped block 84 to move downwards, the guide shaft 83 moves downwards to drive the driving gear 82 to move downwards, the driving gear 82 moves downwards to slide on the vertical rack 81, and further when the Y-shaped block 84 moves downwards to contact with the button of the mobile power supply 4, the Y-shaped block 84 performs pressing test on the button of the mobile power supply 4, when the pressing head 31 moves upwards, the pressing head 31 drives the guide shaft 83 to move upwards, the guide shaft 83 moves upwards to drive the driving gear 82 to move upwards, the vertical rack 81 enables the driving gear 82 moving upwards to rotate forwards, the driving gear 82 rotates forwards to drive the guide shaft 83 to rotate forwards, the arc-shaped pressing plate 87 guides the guide shaft 83, due to the action of the fourth spring 88, the arc-shaped pressing plate 87 can guide the guide shaft 83 more tightly, the guide shaft 83 rotates forward to drive the Y-shaped block 84 to rotate forward, the Y-shaped block 84 also drives the first magnet 85 to rotate forward, when the Y-shaped block 84 rotates forward by one hundred thirty degrees, the other end of the Y-shaped block 84 faces downward, the Y-shaped block 84 stops driving the first magnet 85 to rotate forward, the first magnet 85 and the second magnet 86 position the Y-shaped block 84, namely the pressing head 31 moves upward to reset, and the process is repeated, when the button of each pair of mobile power sources 4 is pressed once, the other end of the Y-shaped block 84 can test the button of the mobile power source 4. When the pressing head 31 stops moving up and down, the pressing head 31 stops driving the guide shaft 83 to move up and down, and the Y-shaped block 84 stops moving up and down. Therefore, the button contact of the mobile power supply 4 and three different materials can be used for pressing and testing, and the test is more comprehensive.

Initially, the fifth spring 96 is in a compressed state, firstly, an operator pulls the upper movable rod 93 to move leftward, the upper movable rod 93 moves leftward to drive the roller 94 to move leftward, the roller 94 moves leftward to slide along the groove of the grooved guide frame 92, the groove of the grooved guide frame 92 enables the roller 94 to swing outwards without being limited, the movable rod 93 is released, due to the action of the fifth spring 96, the slider 73 moves rightward to drive the clamping block 98 to move rightward, the clamping block 98 moves rightward without being limited by the grooved guide frame 92, the clamping block 98 moves rightward to drive the connecting shaft 99 to move rightward, the connecting shaft 99 moves rightward to drive the movable rod 93 to move rightward, the movable rod 93 moves rightward to drive the roller 94 to move rightward, the roller 94 moves rightward to the rightmost right side of the groove of the grooved guide frame 92, then the clamping block 98 is pulled to swing outwards to a proper position, and the mobile power supply 4 can be placed on the top of the movable plate 2, and the mobile power supply 4 is limited by the u-shaped strip 3, then the movable rod 93 is pulled to move leftwards, the movable rod 93 moves leftwards to drive the connecting shaft 99 to move leftwards, the connecting shaft 99 moves leftwards to drive the clamping block 98 to move leftwards, the clamping block 98 moves leftwards to drive the sliding block 73 to move leftwards, the fifth spring 96 is compressed, when the clamping block 98 moves leftwards to contact with the grooved guide frame 92, the grooved guide frame 92 enables the clamping block 98 to swing inwards, the clamping block 98 swings inwards to contact with the mobile power supply 4, the clamping block 98 clamps and fixes the mobile power supply 4, the movable rod 93 moves leftwards to drive the rolling shaft 94 to move leftwards, the rolling shaft 94 moves leftwards to slide in the groove of the grooved guide frame 92, when the rolling shaft 94 moves leftwards to the leftmost side of the groove of the grooved guide frame 92, the movable rod 93 is pulled to swing inwards to drive the rolling shaft 94 to swing inwards, when the rolling shaft 94 swings inwards to the original position, the movable rod 93 stops being pulled, due to the action of the fifth spring 96, so that the roller 94 can be closely contacted with the slotted guide frame 92 to be limited, and the test of the button of the mobile power supply 4 can be started. After the button test of the mobile power supply 4 is completed, the clamping block 98 can move rightwards and swing outwards to loosen the mobile power supply 4 by pressing the above operation, and then the mobile power supply 4 is taken down. Therefore, the phenomenon that the mobile power supply 4 moves to influence the test of the keys can be avoided.

Example 3

On the basis of the embodiments 1 and 2, the fixture block 10 and the n-shaped block 11 are further included, referring to fig. 11-13, the fixture block 10 is installed on both front and rear sides of the guide shaft 83 at uniform intervals along the circumferential direction, and the n-shaped block 11 is fixedly connected to the lower portions of both front and rear sides in the pressing head 31, so that when the fixture block 10 moves upward and is inserted into the n-shaped block 11, the n-shaped block 11 can limit the fixture block 10.

The portable power source clamping device further comprises a rubber plate 12 and sixth springs 13, as shown in fig. 14 and 17, the four sixth springs 13 are connected to the right sides of the inner sides of the two clamping blocks 98 in an embedded mode, the rubber plate 12 is installed between the tail ends of the four sixth springs 13 on each side in a welding connection mode, and when the rubber plate 12 is in contact with the portable power source 4, the rubber plate 12 can clamp the portable power source 4.

When the pressing head 31 moves downwards and drives the Y-shaped block 84 to move downwards through the guide shaft 83, the Y-shaped block 84 moves downwards to be in contact with a button of the mobile power supply 4 for testing, the Y-shaped block 84 stops moving downwards, the guide shaft 83 stops moving downwards, the pressing head 31 continues moving downwards to enable the fourth spring 88 to be compressed, the pressing head 31 moves downwards to drive the n-shaped block 11 to move downwards, the n-shaped block 11 moves downwards to be sleeved on the fixture block 10, the n-shaped block 11 limits the fixture block 10, the fixture block 10 limits the guide shaft 83, and the guide shaft 83 is fixed. In this way, when the Y-shaped block 84 moves downward to test the button of the mobile power supply 4, the phenomenon that the Y-shaped block 84 rotates can be prevented from affecting the test of the button of the mobile power supply 4.

When the clamping block 98 swings inwards to clamp the mobile power supply 4, the rubber plate 12 is in contact with the mobile power supply 4, the rubber plate 12 clamps the mobile power supply 4, and due to the action of the sixth spring 13, the rubber plate 12 can be in close contact with the mobile power supply 4. When the clamping block 98 swings outwards, the clamping block 98 drives the rubber plate 12 to swing outwards through the sixth spring 13, and the rubber plate 12 swings outwards to release the mobile power supply 4. In this way, the portable power source 4 can be clamped and fixed more firmly.

Finally, it is necessary to mention that: the above contents are only used for helping to understand the technical scheme of the invention, and can not be understood as the limitation of the protection scope of the invention; insubstantial modifications and adaptations of the invention, as viewed by a person with ordinary skill in the art in light of the above teachings, are intended to be within the scope of the invention as claimed.

Claims (7)

1. The utility model provides a portable power source button life test equipment, including casing (1), fly leaf (2), u type strip (3) and press head (31), fly leaf (2) have been placed along circumference slidingtype to casing (1) inboard lower part, the middle u type strip (3) that are used for spacing portable power source (4) are installed through welded connection's mode in fly leaf (2) top right side, press head (31) are used for pressing the test to the button of portable power source (4), the utility model is characterized in that, still include elevating system (5) and actuating mechanism (6), actuating mechanism (6) for providing power are installed to casing (1) interior top, actuating mechanism (6) and press head (31) sliding connection, install elevating system (5) that are used for to portable power source (4) height control between casing (1) interior bottom and fly leaf (2); the lifting mechanism (5) comprises a first fixed seat (51), a nut (52), a first swinging plate (53), a rotating shaft (54), a second swinging plate (55), a knob (56), a second fixed seat (57) and a bidirectional screw (58), first fixed seats (51) are symmetrically fixedly connected to the left side and the right side of the bottom in a front-back mode in the shell (1), first swing plates (53) are rotatably connected between the two first fixed seats (51) on the left side and between the two first fixed seats (51) on the right side, rotating shafts (54) are rotatably connected to the front side and the rear side of the upper portion of the first swing plate (53), nuts (52) are fixedly connected between the inner ends of the rotating shafts (54) on the front side and the rear side, two-way screw rods (58) are rotatably connected between the nuts (52) on the left side and the right side through threads, the right end of each two-way screw rod (58) penetrates through the middle of the lower portion of the right side of the shell (1), a knob (56) is fixedly connected to the right end of each two-way screw rod (58), second fixed seats (57) are symmetrically fixedly connected to the front side and the rear side of the bottom of the movable plate (2) in a front-back mode, second swing plates (55) for driving the movable plate (2) to move are rotatably connected between the two second fixed seats (57) on the left side and the right side and the two second fixed seats (57) in a rotary mode, and the tail end of the second swing plates (55) are rotatably connected to the outer ends of the rotating shafts (54) on the front side and the front side respectively.

2. The device for testing the service life of the mobile power supply key as claimed in claim 1, wherein the driving mechanism (6) comprises a mounting frame (61), a driving motor (62), a driving shaft (63), a driving wheel (64), a fixed frame (65), a movable cylinder (66), a first spring (67) and a second spring (68), the mounting frame (61) is fixedly connected to the rear portion of the right side of the inner top of the housing (1), the fixed frame (65) is fixedly connected to the right side of the outer bottom of the mounting frame (61), the movable cylinder (66) is slidably connected between the upper side and the lower side of the inner bottom of the fixed frame (65) in a penetrating manner, the inner top of the movable cylinder (66) is an inclined plane, the first spring (67) is wound between the upper portion of the outer side of the movable cylinder (66) and the inner side of the fixed frame (65), the middle portion of the bottom of the movable cylinder (66) is slidably connected with the pressing head (31), the second spring (68) is fixedly connected to the top of the pressing head (31), the tail end of the second spring (68) is in contact with the inner top of the movable cylinder (66), the mounting frame (61) is circumferentially provided with the driving motor (62) along the middle portion of the end of the output shaft (63), and the driving shaft (63) is fixedly connected with the driving wheel (64) for driving shaft (64) which is fixedly connected to the movable cylinder.

3. The device for testing the service life of the mobile power supply button according to claim 2, further comprising an adjusting mechanism (7) for adjusting the pressing force of the pressing head (31), wherein the adjusting mechanism (7) comprises a guide rail (71), a third spring (72), a slider (73), a bidirectional rack (74), a rotating gear (75), a rotating rod (76), a disk cam (77) and a gear lacking wheel (78), the rotating rod (76) is slidably connected in the middle of the top of the movable cylinder (66), the rotating gear (75) is fixedly connected to the top of the rotating rod (76), the disk cam (77) for compressing the second spring (68) is fixedly connected to the bottom of the rotating rod (76), the disk cam (77) is in contact with the tail end of the second spring (68), the guide rail (71) is arranged in the middle of the upper portion of the front side face inside the housing (1), the slider (73) is slidably arranged on the guide rail (71), the slider (73) is fixedly connected between the front side face of the left side face of the slider (73) and the guide rail (71), the slider (73) is fixedly connected with the gear (75), the gear) is fixedly connected to the gear lacking gear (75) for driving the bidirectional gear (74), and the rack (74) is fixedly connected to drive the rack (74) for driving the bidirectional gear (75) to rotate, the bidirectional gear (75) for driving the bidirectional gear (75), the missing gear (78) is meshed with the bidirectional rack (74).

4. The device for testing the service life of the mobile power supply key as claimed in claim 3, further comprising a testing mechanism (8) for pressing the mobile power supply (4) key, wherein the testing mechanism (8) comprises a vertical rack (81), a driving gear (82), a guide shaft (83), a Y-shaped block (84), a first magnet (85), a second magnet (86), an arc-shaped pressing plate (87) and a fourth spring (88), the guide shaft (83) is rotatably connected between the lower parts of the front side and the rear side of the pressing head (31) in a penetrating manner, the driving gear (82) is installed at the front end of the guide shaft (83), the Y-shaped block (84) for pressing the key of the mobile power supply (4) is fixedly connected to the rear side of the guide shaft (83) along the circumferential direction, the Y-shaped block (84) is made of different materials, the fourth spring (88) is connected to the inner sides of the pressing head (31) close to the guide shaft (83) in an embedded manner, the fourth spring (88) is connected to the rear end of the fourth spring (88), the arc-shaped pressing plate (87) for pressing the guide shaft (83), the arc-shaped pressing plate (83) is in contact with the guide shaft (83), the guide shaft (65), the front side and the rear side of the rack (82) are fixedly connected to the rack (81), the middle parts of the lower parts of the front side surface and the rear side surface in the pressing head (31) are fixedly connected with a second magnet (86) in an embedded mode, and the second magnet (86) corresponds to the first magnet (85) at the lowest part.

5. The device for testing the service life of the mobile power supply key is characterized by further comprising a clamping mechanism (9) for clamping the mobile power supply (4), wherein the clamping mechanism (9) comprises a support frame (91), a guide frame (92) with a groove, a movable rod (93), a roller (94), a fifth spring (96), a movable block (97), a clamping block (98) and a connecting shaft (99), the support frame (91) is fixedly connected to the front side of the top of the movable plate (2), the guide frame (92) with the groove is fixedly connected between nine end portions of the top of the support frame (91), the movable block (97) is slidably connected between the front side face and the rear side face in the guide frame (92), the fifth spring (96) is fixedly connected between the left side face of the movable block (97) and the left side face in the guide frame (92), the roller (94) is slidably placed in grooves on the upper side and the lower side of the guide frame (92), the outer ends of the rollers (94) on the upper side and the lower side of the guide frame (92) are fixedly connected with the connecting shaft (99), the movable rod (93) is connected with the connecting shaft (99) which is used for clamping block (98) on the right side of the movable power supply, and the clamping block (98), and the rotating type clamping block (73) are matched with the movable block (98).

6. The device for testing the service life of the key of the mobile power supply as claimed in claim 5, further comprising a fixture block (10) and an n-shaped block (11), wherein the fixture block (10) is fixedly connected to the front side and the rear side of the guide shaft (83) at regular intervals along the circumferential direction, and the n-shaped block (11) for limiting the fixture block (10) is fixedly connected to the lower portions of the front side and the rear side of the pressing head (31).

7. The mobile power supply key life testing device according to claim 6, further comprising a rubber plate (12) and sixth springs (13), wherein four sixth springs (13) are connected to the right sides of the inner sides of the two clamping blocks (98) in an embedded manner, and the rubber plate (12) for clamping the mobile power supply (4) is fixedly connected between the tail ends of the four sixth springs (13) on each side.

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