CN215469411U - Clamp for mobile communication terminal processing platform - Google Patents

Abstract

A clamp for a mobile communication terminal processing platform comprises: locating support (41), layer board (42), baffle (43), binding clasp (44), connect (45) and pressure strip (46), layer board (42), baffle (43) and binding clasp (44) all set up on locating support (41), layer board (42) are arranged along the horizontal direction, baffle (43) extend to the top from the below of layer board (42), connect (45) movably the setting in the one end of binding clasp (44), pressure strip (46) movably the setting in the other end of binding clasp (44), the grafting part of joint (45) is located backup pad (42) directly over, layer board (42) are located between baffle (43) and pressure strip (46). The fixture can realize the positioning function of the mobile communication terminal in the processing process, automatically and smoothly insert the joint into the socket of the mobile communication terminal, and can ensure the stability of the insertion depth.

Description

Clamp for mobile communication terminal processing platform

Technical Field

The utility model relates to a positioning clamp of a mobile communication terminal, in particular to a clamp for a mobile communication terminal processing platform.

Background

Mobile communication is a modern technology for wireless communication, and this technology is one of the important achievements in the development of electronic computers and mobile internet. The development of the mobile communication technology through the first generation, the second generation, the third generation and the fourth generation technologies has advanced into the fifth generation development era (5G mobile communication technology), which is one of the major technologies that change the world at present.

In the production process of the mobile communication terminal, batch data processing needs to be performed on the mobile communication terminal product, and relevant data information needs to be checked, for example: upgrading, testing, writing numbers and the like.

Most of the current processing platforms use a fixture to position the mobile communication terminal, and insert the connector into the socket of the mobile communication terminal by moving the connector (refer to the fixture for the number writing equipment of the electronic device disclosed in patent application CN 108536454A).

However, the conventional clamp sometimes causes a situation of weak fixation when fixing the mobile communication terminal, and when the mobile communication terminal is not fixed well, the problem of shallow insertion of the connector may occur, which results in that subsequent processing cannot be performed smoothly.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problems, an aspect of the present invention provides a clamp for a mobile communication terminal processing platform, including: the clamping device comprises a positioning support, a supporting plate, a baffle, a clamping device, a joint and a pressing plate, wherein the supporting plate, the baffle and the clamping device are all arranged on the positioning support, the supporting plate is arranged along the horizontal direction, the baffle extends to the upper part from the lower part of the supporting plate, the joint is movably arranged at one end of the clamping device, the pressing plate is movably arranged at the other end of the clamping device, the inserting part of the joint is positioned right above a supporting plate, and the supporting plate is positioned between the baffle and the pressing plate.

Further, the gripper includes: the piston rods of the two-way cylinder are arranged along the horizontal direction, the two clamping blocks are respectively fixed with the two piston rods of the two-way cylinder, the joint is arranged on one clamping block, and the pressing plate is arranged on the other clamping block.

Further, the clamper further includes: the connector is fixed with the buffer block, the stop block is fixed with one clamping block, and the spring connecting rod is arranged between the buffer block and the stop block.

Furthermore, the stop block is provided with a guide rib, the cross section of the guide rib is U-shaped, the buffer block is provided with a guide groove, the cross section of the guide groove is trapezoidal, and the guide rib is inserted into the guide groove.

Further, the jig further includes: two location tracks and two location sliders, two location tracks set up on the locating support and the level is placed, and two location sliders are movably setting respectively on two location tracks, and two clamp splice form fixedly with two location sliders respectively.

Further, the jig further includes: an inductive switch, said inductive switch comprising: the induction electrode and the induction elastic sheet are arranged on the upper surface of the main body, the pins are arranged on the lower surface of the main body, the induction electrode and the induction elastic sheet are respectively electrically connected with the two pins, the induction elastic sheet penetrates through the supporting plate along the up-down direction, and the elastic sheet is located under the induction elastic sheet.

After the technical scheme is adopted, the utility model has the effects that: the fixture can realize the positioning function of the mobile communication terminal in the processing process, automatically and smoothly insert the joint into the socket of the mobile communication terminal, and can ensure the stability of the insertion depth.

Drawings

FIG. 1 is a schematic diagram of an automated processing platform to which the present invention relates;

FIG. 2 is a schematic view of a grasping robot according to the present invention;

FIG. 3 is a schematic view of a horizontal slide of the present invention;

FIG. 4 is a schematic view of a vertical slide of the present disclosure;

FIG. 5 is a schematic view of a hand grip according to the present invention;

FIG. 6 is a schematic view of a transport mechanism according to the present invention;

FIG. 7 is a schematic view of a feed conveyor according to the present invention;

FIG. 8 is a schematic view of a sorting robot according to the present invention;

FIG. 9 is a schematic view of a spacing mechanism according to the present invention;

FIG. 10 is a schematic view of a fixture according to the present invention;

FIG. 11 is a schematic view of a positioner according to the present invention;

FIG. 12 is a partial exploded view of a positioner according to the present invention

Fig. 13 is a schematic view of an inductor according to the present invention.

Detailed Description

It is specifically noted that, in the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise; the meaning of "several" is at least one. All directional indicators (such as up, down, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative positional relationship between the components, the movement, and the like in a certain posture, and if the certain posture is changed, the directional indicator is changed accordingly.

The technical solution of the present invention is further described by the following examples:

the utility model provides a clamp for a mobile communication terminal processing platform, as shown in figure 1, an automatic processing platform comprises: transport mechanism 1, snatch manipulator 2, handle support 3 and a plurality of anchor clamps 4, snatch manipulator 2 and be located transport mechanism 1 and handle between the support 3, a plurality of anchor clamps 4 set up on handling support 3 to a plurality of anchor clamps 4 are the matrix along left right direction and upper and lower direction and arrange, as shown in fig. 2, snatch manipulator 2 and include: the vertical sliding table 22 is arranged on the horizontal sliding table 21, and the gripper 23 is arranged on the vertical sliding table 22.

When the automatic processing platform works, the conveying mechanism 1 inputs the mobile communication terminal, the grabbing manipulator 2 transfers the mobile communication terminal to be processed to the clamp 4 of the processing support 3, the clamp 4 carries out upgrading, testing, number writing and other process processing on the mobile communication terminal, the grabbing manipulator 2 transfers the processed mobile communication terminal to the conveying mechanism 1, and the conveying mechanism 1 outputs the mobile communication terminal. The above processing process is the same as the prior art and is not described herein again.

Different from the prior art, because a plurality of clamps 4 are arranged in the processing bracket 3 in a matrix manner, correspondingly, the horizontal sliding table 21 and the vertical sliding table 22 of the grabbing manipulator 2 respectively control the grabbing hand 23 to move along the left-right direction and the up-down direction, so that the mobile communication terminals can be transferred to different positions on the matrix, and batch detection and independent transfer of the mobile communication terminals are realized.

Therefore, the automatic processing platform can be used for carrying out process processing such as batch upgrading, testing and number writing on the mobile communication terminal, the automation degree is high, independent feeding and discharging operations can be carried out on the processed mobile communication terminal, and the processing efficiency is greatly improved.

Specifically, as shown in fig. 3, the horizontal slide table 21 includes: the horizontal motor 211, the horizontal speed reducer 212, the first horizontal linear module 213 and the first horizontal support plate 214, the motor shaft of the horizontal motor 211 is connected with the drive shaft of the first horizontal linear module 213 through the horizontal speed reducer 212 (i.e. when the motor shaft of the horizontal motor 211 rotates, the drive shaft of the linear module 213 rotates therewith), the first horizontal linear module 213 is arranged along the left-right direction, the first support plate 214 is fixed with the drive belt of the first horizontal linear module 213, and the vertical sliding table 22 is fixed with the first support plate 214. The driving shaft of the first transverse linear module 213 can be driven to rotate by the transverse motor 211, and the driving shaft of the first transverse linear module 213 drives the driving belt to move, so as to drive the first supporting plate 214 to move in the left-right direction.

More specifically, the horizontal slide table 21 further includes: the transmission shaft 215, the second transverse straight line module 216 and the second transverse supporting plate 217, one end of the transmission shaft 215 is connected with a driving shaft of the first transverse straight line module 213, the other end of the transmission shaft is connected with a driving shaft of the second transverse straight line module 216, the second transverse straight line module 216 is also arranged in the left-right direction, the second transverse supporting plate 217 is fixed with a driving belt of the second transverse straight line module 216, and the vertical sliding table 22 is fixed with the second transverse supporting plate 217. The operation principle of the second transverse straight line module 216 is similar to that of the first transverse straight line module 213, and is not described herein again. Through the cooperation of the first transverse straight line module 213 and the second transverse straight line module 216, the movement of the vertical sliding table 22 can be more stable.

Specifically, as shown in fig. 4, the vertical slide table 22 includes: the gripper comprises a longitudinal motor 221, a longitudinal speed reducer 222, a longitudinal linear module 223 and a longitudinal support plate 224, wherein a motor shaft of the longitudinal motor 221 is connected with a driving shaft of the longitudinal linear module 223 through the longitudinal speed reducer 222, the longitudinal linear module 223 is arranged along the up-down direction, the longitudinal support plate 224 is fixed with a driving belt of the longitudinal linear module 223, and the gripper 23 is fixed with the longitudinal support plate 224. The driving shaft of the longitudinal linear module 223 can be driven to rotate by the longitudinal motor 221, and the driving shaft of the longitudinal linear module 223 drives the driving belt to move, so as to drive the longitudinal supporting plate 224 to move in the up-and-down direction.

Specifically, as shown in fig. 5, the hand grip 23 includes: snatch the backup pad 231, snatch the cylinder 232, snatch support 233 and adsorb head 234, snatch the cylinder 232 and form fixedly with snatching backup pad 231, the piston rod that snatchs the cylinder 232 arranges along the upper and lower direction, snatch support 233 and snatch the piston rod that the cylinder 232 formed fixedly, adsorb head 234 and snatch support 233 and form fixedly to it sets up down to adsorb head 234. The adsorption head 234 is externally connected with a suction pump, and the adsorption head 234 can be controlled to move in the up-and-down direction by the grabbing cylinder 232, so that the adsorption and release operations of the mobile communication terminal are realized.

More specifically, the hand grip 23 further includes: the grabbing device comprises a grabbing track 235 and a grabbing slider 236, wherein the grabbing track 235 is fixed with the grabbing support plate 231, the grabbing track 235 is arranged in the up-down direction, the grabbing slider 236 is movably arranged on the grabbing track 235, and the grabbing bracket 233 is fixed with the grabbing slider 236. The movement of the gripping bracket 233 may be guided by the cooperation of the gripping rail 235 and the gripping slider 236.

Specifically, as shown in fig. 6, the transport mechanism 1 includes: the feeding conveyor belt 11, the transition conveyor belt 12 and the discharge conveyor belt 13 are arranged in sequence in the front-rear direction, and the feeding conveyor belt 11, the transition conveyor belt 12 and the discharge conveyor belt 13 are all arranged in the front-rear direction. The feeding conveyor belt 11 is used for inputting the mobile communication terminal and transmitting the mobile communication terminal to the transition conveyor belt 12, the grabbing manipulator 2 grabs the mobile communication terminal to be processed from the transition conveyor belt 12 and places the processed mobile communication terminal on the transition conveyor belt 12, the transition conveyor belt 12 transmits the mobile communication terminal to the discharging conveyor belt 13, and the discharging conveyor belt 13 outputs the mobile communication terminal.

More specifically, as shown in fig. 1 and fig. 6, the conveying mechanism 1 further includes: a defective product input conveyor belt 14 and a defective product output conveyor belt 15, the defective product input conveyor belt 14 and the defective product output conveyor belt 15 being arranged in order in the front-rear direction, and the defective product input conveyor belt 14 and the defective product output conveyor belt 15 being arranged in the front-rear direction; the automated processing platform further comprises: and the sorting mechanical arm 5 is positioned between the discharge conveyor belt 13 and the defective product output conveyor belt 15, and the sorting mechanical arm 5 is positioned between the discharge conveyor belt 13 and the defective product output conveyor belt 15. The defective product input conveyor belt 14 is used for inputting defective products generated in the previous process, and the defective product output conveyor belt 15 is used for outputting the defective products to the manual processing platform; when the mobile communication terminal on the clamp 4 is unsuccessfully processed, namely, the defective products are found, the sorting mechanical arm 5 transfers the defective products on the discharging conveyor belt 13 to the defective product output conveyor belt 15, and then the defective products are output to the manual processing platform.

More specifically, as shown in fig. 7, the feeding conveyor belt 11 includes: the structure of the conveying device comprises a conveying motor 101, a conveying speed reducer 102, a first belt pulley 103, a connecting belt 104, a second belt pulley 105, a first conveying shaft 106, a second conveying shaft 107 and a conveying belt 108, wherein a motor shaft of the conveying motor 101 is connected with the first belt pulley 103 through the conveying speed reducer 102, the connecting belt 104 is wound around the first belt pulley 103 and the second belt pulley 105, the second belt pulley 105 is fixedly connected with the first conveying shaft 106, the conveying belt 108 is wound around the first conveying shaft 106 and the second conveying shaft 107, and the transition conveying belt 12, the discharging conveying belt 13, the defective product input conveying belt 14 and the defective product output conveying belt 15 are the same as the feeding conveying belt 11. When the motor shaft of the transmission motor 101 rotates, the first belt pulley 103 rotates accordingly, and the connecting belt 104 is driven to move in a closed loop, so that the second belt pulley 105 and the first transmission shaft 106 are driven to rotate, and the transmission belt 108 is driven to move in a closed loop.

More specifically, as shown in fig. 8, the sorting robot 5 includes: rodless cylinder 51, sort support 52, letter sorting cylinder 53, letter sorting connecting block 54, chuck 55 and two clamp splice 56, rodless cylinder 51's guide pillar is arranged along left right direction, letter sorting support 52 forms fixedly with rodless cylinder 51's cylinder body, letter sorting cylinder 53 forms fixedly with letter sorting support 52, letter sorting cylinder 53's piston rod is arranged along upper and lower direction, letter sorting connecting block 54 forms fixedly with letter sorting cylinder 53's piston rod, chuck 55 forms fixedly with letter sorting connecting block 54, two clamp splice 56 form fixedly with two jack catchs of chuck 55 respectively. The sorting bracket 52 can be controlled to move in the left-right direction by the rodless cylinder 51, the sorting connecting block 54 can be controlled to move in the up-down direction by the sorting cylinder 53, and the two clamping blocks 56 can be controlled to approach or separate from each other by the chuck 55, so that the clamping and releasing operations of the mobile communication terminal can be realized.

More specifically, as shown in fig. 9, the transport mechanism 1 further includes: a stopper 16, the stopper 16 being positioned above the feed conveyor 11; the stopper 16 includes: the two limit plates 161 are respectively fixed with the two limit nuts 163, the two limit nuts 163 are both meshed with the limit screw 162, the limit guide rod 164 penetrates through the two limit nuts 163, and the limit screw 162 and the limit guide rod 164 are both arranged along the left-right direction. The two limiting plates 161 can limit the transmission track of the mobile communication terminal, so that the grabbing manipulator 2 can grab the mobile communication terminal smoothly; the two limit nuts 163 can be controlled to approach or separate from each other by rotating the limit screw 162, thereby adjusting the distance between the two limit plates 161.

In the present invention, as shown in fig. 10, the jig 4 includes: the positioning device comprises a positioning bracket 41, a supporting plate 42, a baffle plate 43, a clamping device 44, a joint 45 and a pressing plate 46, wherein the supporting plate 42, the baffle plate 43 and the clamping device 44 are all arranged on the positioning bracket 41, the supporting plate 42 is arranged along the horizontal direction, the baffle plate 43 extends from the lower part to the upper part of the supporting plate 42, the joint 45 is movably arranged at one end of the clamping device 44, the pressing plate 46 is movably arranged at the other end of the clamping device 44, the inserting part of the joint 45 is positioned right above the supporting plate 42, and the supporting plate 42 is positioned between the baffle plate 43 and the pressing plate 46.

Note that the above "upper" does not mean a position directly above but a position higher than the reference object, and the above "lower" does not mean a position directly below but a position lower than the reference object. In the process, the mobile communication terminal is placed on the supporting plate 42, the blocking plate 43 is in contact with one end of the mobile communication terminal, the clamper 44 controls the pressing plate 46 to move, the mobile communication terminal is fixed by the cooperation of the pressing plate 46 and the blocking plate 43, and the clamper 44 controls the connector 45 to move and is inserted into the interface of the mobile communication terminal.

Unlike the prior art, the above-mentioned clamp 4 employs a movable pressing plate 46 to press the mobile communication terminal from another direction during the insertion of the connector 45 into the socket, thereby ensuring the smooth insertion of the connector 45.

Therefore, the fixture can realize the positioning function of the mobile communication terminal in the processing process, automatically and smoothly insert the joint into the socket of the mobile communication terminal, and can ensure the stability of the insertion depth.

Specifically, as shown in fig. 11, the gripper 44 includes: the bidirectional air cylinder 441 and the two clamping blocks 442 are arranged, piston rods of the bidirectional air cylinder 441 are arranged in the horizontal direction, the two clamping blocks 442 are respectively fixed with the two piston rods of the bidirectional air cylinder 441, the joint 45 is arranged on one clamping block 442, and the pressing plate 46 is arranged on the other clamping block 422. The two clamping blocks 442 can be controlled to move toward or away from each other by the bi-directional cylinder 441.

More specifically, as shown in fig. 12, the gripper 44 further includes: the stopper 443, the buffer block 444 and the spring connecting rod 445, the joint 45 is fixed with the buffer block 444, the stopper 443 is fixed with one clamping block 442, and the spring connecting rod 445 is arranged between the buffer block 444 and the stopper 443. Through the elastic action of the spring connecting rod 445, rigid collision can be avoided from occurring around the socket in the process of inserting the joint 45, so that damage to the joint 45 or the interface can be avoided, and the joint 45 can be smoothly inserted. In the present embodiment, there are three spring connecting rods 445.

More specifically, the stopper 443 has a guide rib 4430, the guide rib 4430 has a U-shaped cross section (i.e., a cross section in the width direction, the same applies to the following), the buffer block 444 has a guide groove 4440, the guide groove 4440 has a trapezoidal cross section, and the guide rib 4430 is inserted into the guide groove 4440. The side surfaces of the guide ribs 4430 are in line contact with the side surfaces of the guide grooves 4440, thereby providing a moving space while ensuring the assembling accuracy, and thus, the assembly guide function is achieved.

More specifically, with continued reference to fig. 10, the fixture 4 further includes: two positioning rails 47 and two positioning sliders 48, the two positioning rails 47 are disposed on the positioning bracket 41 and are horizontally placed, the two positioning sliders 48 are movably disposed on the two positioning rails 47, respectively, and the two clamping blocks 442 are fixed with the two positioning sliders 48, respectively. The movement of the clamping block 442 can be made more stable by the cooperation of the positioning rail 47 and the positioning slider 48.

More specifically, as shown in fig. 13, the jig 4 further includes: an inductive switch 49, the inductive switch 49 comprising: main part 491, induction electrode 492, induction shell fragment 493 and a plurality of pin 494, induction electrode 492 and induction shell fragment 493 set up the upper surface at main part 491, and pin 494 sets up the lower surface at main part 491, and induction electrode 492 and induction shell fragment 493 form the electricity with two pin 494 respectively and are connected, and induction shell fragment 493 passes layer board 42 along upper and lower direction, and shell fragment 493 is located induction shell fragment 493 under. When the mobile communication terminal is placed on the support plate 42, the resilient piece 493 is pressed downward and contacts the sensing resilient piece 493, thereby forming an electrical connection and driving the clamper 44 to operate.

The above-described embodiments are merely preferred examples of the present invention, and not intended to limit the scope of the utility model, so that equivalent changes or modifications in the structure, features and principles of the utility model described in the claims should be included in the claims.

Claims (6)

1. The utility model provides a anchor clamps that mobile communication terminal processing platform used which characterized in that: the jig includes: the clamping device comprises a positioning support (41), a supporting plate (42), a baffle plate (43), a clamping device (44), a joint (45) and a pressing plate (46), wherein the supporting plate (42), the baffle plate (43) and the clamping device (44) are arranged on the positioning support (41), the supporting plate (42) is arranged along the horizontal direction, the baffle plate (43) extends to the upper part from the lower part of the supporting plate (42), the joint (45) is movably arranged at one end of the clamping device (44), the pressing plate (46) is movably arranged at the other end of the clamping device (44), an inserting part of the joint (45) is positioned right above the supporting plate (42), and the supporting plate (42) is positioned between the baffle plate (43) and the pressing plate (46).

2. The clamp for a mobile communication terminal processing platform according to claim 1, wherein: the gripper (44) comprises: the clamping device comprises a bidirectional cylinder (441) and two clamping blocks (442), piston rods of the bidirectional cylinder (441) are arranged in the horizontal direction, the two clamping blocks (442) are respectively fixed with the two piston rods of the bidirectional cylinder (441), the joint (45) is arranged on one clamping block (442), and the pressing plate (46) is arranged on the other clamping block (442).

3. The clamp for a mobile communication terminal processing platform according to claim 2, wherein: the gripper (44) further comprises: the connector comprises a stopper (443), a buffer block (444) and a spring connecting rod (445), the connector (45) and the buffer block (444) are fixed, the stopper (443) and a clamping block (442) are fixed, and the spring connecting rod (445) is arranged between the buffer block (444) and the stopper (443).

4. The clamp for a mobile communication terminal processing platform according to claim 3, wherein: the stopper (443) is provided with a guide rib (4430), the cross section of the guide rib (4430) is U-shaped, the buffer block (444) is provided with a guide groove (4440), the cross section of the guide groove (4440) is trapezoidal, and the guide rib (4430) is inserted into the guide groove (4440).

5. The clamp for a mobile communication terminal processing platform according to claim 2, wherein: the clamp (4) further comprises: the two positioning rails (47) are arranged on the positioning bracket (41) and are horizontally placed, the two positioning sliders (48) are movably arranged on the two positioning rails (47) respectively, and the two clamping blocks (442) are fixed with the two positioning sliders (48) respectively.

6. The clamp for a mobile communication terminal processing platform according to claim 1, wherein: the jig further includes: an inductive switch (49), said inductive switch (49) comprising: the induction type touch screen comprises a main body (491), an induction electrode (492), an induction shrapnel (493) and a plurality of pins (494), wherein the induction electrode (492) and the induction shrapnel (493) are arranged on the upper surface of the main body (491), the pins (494) are arranged on the lower surface of the main body (491), the induction electrode (492) and the induction shrapnel (493) are electrically connected with the two pins (494) respectively, the induction shrapnel (493) penetrates through a supporting plate (42) along the up-down direction, and the shrapnel (493) is located under the induction shrapnel (493).

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