CN113651079A - Clamping and fixing device for electronic component production - Google Patents

Abstract

The invention is suitable for the technical field of electronic element production, and particularly relates to a clamping and fixing device for electronic element production, which comprises a workbench, a storage piece and a supporting piece, wherein the storage piece is connected to the workbench in a sliding manner, a first through hole is formed in the surface of the storage piece, the supporting piece is arranged on the workbench, and the clamping and fixing device for electronic element production further comprises: and the workpiece fixing component is connected on the supporting piece in a sliding way and is used for receiving the resistor discharged from the storage piece and stably limiting the resistor. According to the invention, the feeding structure and the workpiece fixing component are arranged, so that the material storage piece can be driven to reciprocate on the workbench, the resistor in the material storage piece can be quickly discharged from the first through hole and placed on the workpiece placing piece, and the electronic element can be automatically and efficiently clamped and fixed on the workpiece placing piece, thereby improving the working efficiency and the automation degree of the clamping and fixing device.

Description

Clamping and fixing device for electronic component production

Technical Field

The invention relates to the technical field of electronic element production, in particular to a clamping and fixing device for electronic element production.

Background

Electronic components, which are the basic elements of electronic circuits, are typically individually packaged and have two or more leads or metal contacts. In order to maintain the stability of the electronic components, the surfaces of the electronic components are usually coated with a synthetic resin to improve the insulation of the electronic components and protect the electronic components from the environment.

When coating synthetic resin on the surface of the resistor, special electronic component holding and fixing equipment is needed to limit the electronic component to be processed on the coating station.

When the existing electronic components are processed, the electronic components are generally required to be manually placed on the clamp one by one, so that the efficiency is low, and the automation degree is low.

Disclosure of Invention

The embodiment of the invention aims to provide a clamping and fixing device for electronic element production, aiming at solving the following problems: when the existing electronic components are processed, the electronic components are generally required to be manually placed on the clamp one by one, so that the efficiency is low, and the automation degree is low.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a centre gripping fixing device is used in electronic component production, includes workstation, storage spare and support piece, and storage spare sliding connection on the workstation, and first through-hole has been seted up on the surface of storage spare, and support piece sets up on the workstation, centre gripping fixing device is used in electronic component production still includes:

the workpiece fixing component is connected on the supporting piece in a sliding mode and is used for receiving the resistor discharged from the material storage piece and stably limiting the resistor;

the feeding structure is arranged on the material storage piece and the workpiece fixing component and used for driving the material storage piece to reciprocate on the workbench through mechanical transmission so that the resistors in the material storage piece can be rapidly discharged from the first through hole, and the workpiece fixing component can be driven to slide on the supporting piece while the material storage piece moves so that the workpiece fixing component can orderly receive the resistors; and

and the positioning structure is arranged on the workpiece fixing component and the supporting piece and is used for driving the resistor to roll on the workpiece fixing component so as to enable the resistor to carry out coating operation in all directions.

Further, the workpiece holding assembly includes:

the workpiece placing piece is connected to the supporting piece in a sliding mode, is used for placing the resistor and can drive the resistor to move;

a groove which is opened on the surface of the workpiece placing piece and is used for limiting the position of the resistor; and

and the adsorption piece is arranged on the workpiece placing piece and used for stably fixing the resistor in the groove.

Further, the feeding structure comprises:

the moving piece is connected to the material storage piece and used for driving the material storage piece to reciprocate on the workbench;

the transmission assembly is arranged on the workbench and is used for driving the moving piece to move through mechanical transmission; and

and the moving assembly is arranged on the workpiece fixing assembly and the transmission assembly and is used for taking the transmission assembly as power input and matching mechanical transmission to drive the workpiece fixing assembly to move on the supporting piece.

Further, the transmission assembly includes:

the two groups of first transmission pieces are arranged on two sides of the surface of the moving piece and are used for driving the moving piece to move;

the first linkage piece is connected with the first transmission piece and used for driving the first transmission piece to move; and

the first driving piece is installed on the workbench, and the output end of the first driving piece is connected with the first linkage piece and used for driving the first linkage piece to move.

Further, the moving assembly includes:

the fifth transmission part is connected to the workpiece fixing component and used for driving the workpiece fixing component to slide on the supporting part;

the second linkage piece is rotatably connected to the workbench and used for driving the fifth transmission piece to move; and

and the third linkage piece is arranged on the second linkage piece and the transmission assembly and is used for driving the second linkage piece to rotate on the workbench by taking the transmission assembly as power input.

Further, the positioning structure comprises:

the rolling part is rotationally connected to the workpiece fixing component and is used for driving the resistor on the workpiece fixing component to rotate through self rotation so as to enable the resistor to change positions; and

and the positioning assembly is arranged on the rolling part and the supporting part and is used for driving the rolling part to rotate through mechanical transmission.

Further, the positioning component comprises:

the sixth transmission part is arranged on the rolling part and used for driving the rolling part to move on the workpiece fixing component;

the fourth linkage piece is connected with the sixth transmission piece and is used for driving the sixth transmission piece to rotate; and

and the second driving piece is arranged on the supporting piece, and the output end of the second driving piece is connected with the fourth linkage piece and used for driving the fourth linkage piece to move.

According to the clamping and fixing device for electronic component production, the feeding structure and the workpiece fixing assembly are arranged, so that the material storage piece can be driven to reciprocate on the workbench, the resistor in the material storage piece can be quickly discharged from the first through hole and placed on the workpiece placing piece, the electronic component can be automatically and efficiently clamped and fixed on the workpiece placing piece, and the working efficiency and the automation degree of the clamping and fixing device are improved.

Drawings

Fig. 1 is a schematic structural view of a clamping and fixing device for electronic component production.

Fig. 2 is a partial structural schematic view of a magazine in a clamping and fixing device for electronic component production.

Fig. 3 is a side partial schematic view of a work placing member in a holding fixture for electronic component production.

Fig. 4 is a side partial schematic view of a moving part and a transmission assembly in a clamping and fixing device for electronic component production.

Fig. 5 is a partial structural view of a positioning structure in a clamping and fixing device for electronic component production.

In the figure: 1. a work table; 2. a material storage member; 3. a workpiece fixing assembly; 31. a workpiece placement member; 32. an adsorbing member; 33. a groove; 4. a feeding structure; 41. a moving member; 42. a transmission assembly; 421. a first transmission member; 422. a second transmission member; 423. a first rotating member; 424. a first driving member; 43. a moving assembly; 431. a first transition piece; 432. a third transmission member; 433. a second conversion member; 434. a second rotating member; 435. a fourth transmission member; 436. a fifth transmission member; 5. a positioning structure; 51. a rolling member; 52. a positioning component; 521. a sixth transmission member; 522. a second driving member; 523. a third rotating member; 524. a seventh transmission member; 6. a resistor; 7. a support member; 8. a first via.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

As shown in fig. 1 to 5, an embodiment of the present invention provides a clamping and fixing device for electronic component production, including a workbench 1, a storage member 2, and a support member 7, where the storage member 2 is slidably connected to the workbench 1, a first through hole is formed in a surface of the storage member 2, the support member 7 is disposed on the workbench 1, and the clamping and fixing device for electronic component production further includes:

the workpiece fixing component 3 is connected on the supporting piece 7 in a sliding way and is used for receiving the resistor 6 discharged from the storage piece 2 and stably limiting the resistor 6;

the feeding structure 4 is arranged on the material storage part 2 and the workpiece fixing component 3 and is used for driving the material storage part 2 to reciprocate on the workbench 1 through mechanical transmission so that the resistors 6 in the material storage part 2 can be rapidly discharged from the first through holes 8, and the workpiece fixing component 3 can be driven to slide on the support 7 while the material storage part 2 moves so that the workpiece fixing component 3 can orderly receive the resistors 6; and

and the positioning structure 5 is arranged on the workpiece fixing component 3 and the supporting piece 7 and is used for driving the resistor 6 to roll on the workpiece fixing component 3 so as to enable the resistor 6 to carry out coating operation in all directions.

In an embodiment of the present invention, the supporting member 7 may be a supporting plate or a connecting plate, and the surface of the supporting member 7 is provided with a second through hole, the storage member 2 may be a storage box or a storage basket, the workpiece fixing assembly 3 may be clamped by an electromagnetic absorption or a screw clamp, the resistor 6 is stably limited, the feeding structure 4 may drive the storage member 2 to horizontally reciprocate on the worktable 1 by a mechanical transmission manner, or drive the storage member 2 to reciprocate by a driving cylinder, preferably, the first manner is adopted, because by this manner, the workpiece fixing assembly 3 may be driven to slide on the supporting member 7 while the storage member 2 moves, so that the workpiece fixing assembly 3 can orderly receive the resistor 6, the positioning structure 5 may drive the resistor 6 to turn over the workpiece fixing assembly 3 by a mechanical transmission manner or clamp the resistor 6 by a clamp first, the position of the resistor 6 on the workpiece fixing component 3 can be changed by driving the clamp to rotate through the motor, so that the resistor 6 can carry out coating operation in all directions.

As shown in fig. 1 and 3, in one embodiment of the present invention, the workpiece fixing assembly 3 includes:

a workpiece placing member 31 slidably connected to the supporting member 7 for placing the resistor 6 and also moving the resistor 6;

a recess 33 opened on the surface of the work placing member 31 for defining the position of the resistor 6; and

and a suction member 32 mounted on the work placing member 31 for stably fixing the resistor 6 in the recess 33.

In this embodiment, the workpiece placing part 31 may be a sliding seat or a supporting frame, the adsorbing part 32 may be an electromagnet rod or an electromagnet strip, when the resistor 6 is discharged from the first through hole 8, the resistor may fall on the workpiece placing part 31, and may enter the groove 33 under the action of inertia, and be clamped inside the groove 33, when the coating operation is required, the adsorbing part 32 may be opened, the adsorbing part 32 is powered on and firmly adsorbs the metal resistor 6 onto the workpiece placing part 31, so as to achieve the purpose of stably limiting the workpiece placing part 31.

As shown in fig. 1 and 4, in one embodiment of the present invention, the feeding structure 4 comprises:

the moving piece 41 is connected to the material storage piece 2 and used for driving the material storage piece 2 to reciprocate on the workbench 1;

a transmission assembly 42 mounted on the worktable 1 for driving the moving member 41 to move through mechanical transmission; and

and the moving assembly 43 is arranged on the workpiece fixing assembly 3 and the transmission assembly 42 and is used for taking the transmission assembly 42 as power input and matching with mechanical transmission to drive the workpiece fixing assembly 3 to move on the support 7.

In this embodiment, the moving member 41 may be a moving frame or a moving box, the transmission assembly 42 may be driven by a motor and cooperate with a rack-and-pinion transmission mode or a worm-and-gear transmission mode to drive the moving member 41 to reciprocate, so that the resistor 6 in the storage member 2 may be shaken, the resistor 6 may be discharged from the first through hole 8 quickly, the moving assembly 43 may drive the workpiece placing member 31 to move upwards by using the transmission assembly 42 as a power input and cooperating with the rack-and-pinion transmission mode or a lead screw nut transmission mode, and when the workpiece placing member 31 moves, the surface of the workpiece placing member 31 may receive the resistor 6 in order.

In the present embodiment, the transmission assembly 42 includes:

two sets of first transmission members 421 disposed on two sides of the surface of the moving member 41 for driving the moving member 41 to move;

the first linkage member is connected to the first transmission member 421 and is used for driving the first transmission member 421 to move; and

and the first driving part 424 is installed on the workbench 1, and the output end of the first driving part is connected with the first linkage part and used for driving the first linkage part to move.

In this embodiment, the first transmission member 421 can be a transmission rack or a toothed plate, the first linkage member can be composed of a second transmission member 422 and a first transmission member 423, and the second transmission member 422 can be an incomplete gear or a half gear, the first transmission member 423 can be a rotating rod or a rotating column, the first transmission member 424 can be a driving motor or a stepping motor, when the material storage member 2 needs to be driven to move, the first transmission member 424 can be opened, the first transmission member 424 drives the first transmission member 423 to rotate, so that the first transmission member 423 drives the second transmission member 422 to rotate, so that the second transmission member 422 drives the two first transmission members 421 to move towards opposite directions, and the first transmission member 421 drives the moving member 41 and the material storage member 2 to reciprocate on the workbench 1.

In the present embodiment, the moving assembly 43 includes:

a fifth transmission member 436 connected to the workpiece fixing assembly 3 for driving the workpiece fixing assembly 3 to slide on the supporting member 7;

the second linkage piece is rotatably connected to the workbench 1 and is used for driving the fifth transmission piece 436 to move; and

and the third linkage piece is arranged on the second linkage piece and the transmission assembly 42 and is used for driving the second linkage piece to rotate on the workbench 1 by taking the transmission assembly 42 as power input.

In this embodiment, the fifth transmission member 436 may be a transmission rack or a toothed plate, the second linkage member may be composed of a fourth transmission member 435 and a second rotation member 434, and the fourth transmission member 435 may be a transmission gear or a ring gear, the second rotation member 434 may be a rotation rod or a rotation column, the third transmission member may be composed of a first conversion member 431, a third transmission member 432 and a second conversion member 433, and the first conversion member 431 is disposed at an outer side of the first rotation member 423, the second conversion member 433 is disposed at an outer side of the second rotation member 434, and the third transmission member 432 is sleeved at an outer side of the first conversion member 431 and the second conversion member 433, the first conversion member 431 may be a sprocket or a transmission wheel, the third transmission member 432 may be a transmission chain or a transmission belt, the second conversion member 433 may be a sprocket or a transmission wheel, and when the first rotation member 423 rotates, the first rotation member 423 drives the first conversion member 431 to rotate, the first conversion member 431 drives the second conversion member 433 to rotate through the third transmission member 432, so that the second conversion member 433 drives the second rotation member 434 to rotate on the working platform 1, so that the second rotation member 434 drives the fourth transmission member 435 to rotate, and the fourth transmission member 435 drives the fifth transmission member 436 to move, so that the fifth transmission member 436 drives the workpiece placing member 31 to move the receiving resistor 6 on the supporting member 7.

As shown in fig. 1 and 5, in one embodiment of the present invention, the positioning structure 5 includes:

the rolling piece 51 is rotationally connected to the workpiece fixing component 3 and is used for driving the resistor 6 on the workpiece fixing component 3 to rotate through self rotation so as to enable the resistor 6 to change positions; and

and the positioning assembly 52 is arranged on the rolling member 51 and the supporting member 7 and is used for driving the rolling member 51 to rotate through mechanical transmission.

In this embodiment, the rolling member 51 may be a rotating roller or a rotating column, the surface of the rolling member 51 is made of a material with a large friction coefficient, the surface of the rolling member 51 is attached to the surface of the resistor 6, the number of the rolling member 51 and the positioning component 52 corresponds to the number of the grooves 33, and the positioning component 52 may be driven by a motor and cooperate with a gear transmission or the rolling member 51 is provided with a gear and the rolling member 51 and the gear are driven by a horizontally movable rack to rotate together so that the rolling member 51 can drive the resistor 6 to turn over.

In this embodiment, the positioning component 52 includes:

the sixth transmission piece 521 is arranged on the rolling piece 51 and used for driving the rolling piece 51 to move on the workpiece fixing component 3;

the fourth linkage part is connected with the sixth transmission part 521 and is used for driving the sixth transmission part 521 to rotate; and

the second driving member 522 is mounted on the supporting member 7, and an output end of the second driving member is connected to the fourth linkage member for driving the fourth linkage member to move.

In this embodiment, the sixth transmission element 521 may be a transmission gear or a ring gear, the fourth transmission element may be composed of a third rotating element 523 and a seventh transmission element 524, and the third rotating member 523 may be a rotating rod or a rotating column, the seventh transmission member 524 may be a transmission gear or a transmission gear ring, and the second driving member 522 may be a driving motor or a stepping motor, when it is required to make the rolling member 51 drive the resistor 6 to rotate so as to flip the resistor 6, the second driving member 522 can be turned on, the output shaft of the second driving member 522 drives the third rotating member 523 connected thereto to rotate, so that the third rotating member 523 rotates the seventh transmission member 524, the seventh transmission member 524 drives the sixth transmission member 521 and the rolling member 51 to rotate on the workpiece placing member 31, so that the rolling member 51 drives the resistor 6 on the workpiece placing member 31 to rotate, thereby achieving the purpose of turning over the resistor 6.

The working mode of the invention is as follows: when the resistor 6 in the storage member 2 needs to be smoothly discharged from the first through hole 8, the first driving member 424 may be opened, the first driving member 424 drives the first rotating member 423 to rotate, so that the first rotating member 423 drives the second driving member 422 to rotate, so that the second driving member 422 drives the two first driving members 421 to move in opposite directions, so that the first driving member 421 drives the moving member 41 and the storage member 2 to reciprocate on the workbench 1, so that the resistor 6 is rapidly discharged from the storage member 2, after being discharged from the first through hole 8, the resistor 6 falls on the workpiece placing member 31, enters the groove 33 under the action of inertia, and is clamped inside the groove 33, when the coating operation needs to be performed, the adsorbing member 32 may be opened, the adsorbing member 32 is powered on, and the metal resistor 6 is firmly adsorbed on the workpiece placing member 31, so as to achieve the purpose of stably limiting the workpiece placing member 31, when the first rotating member 423 rotates, the first rotating member 423 drives the first converting member 431 to rotate, and the first converting member 431 drives the second converting member 433 to rotate through the third transmission member 432, so that the second converting member 433 drives the second rotating member 434 to rotate on the workbench 1, so that the second rotating member 434 drives the fourth transmission member 435 to rotate, and the fourth transmission member 435 drives the fifth transmission member 436 to move, so that the fifth transmission member 436 drives the workpiece placing member 31 to move the receiving resistor 6 on the supporting member 7;

when the rolling element 51 is required to drive the resistor 6 to rotate so as to turn over the resistor 6, the second driving element 522 can be opened, the output shaft of the second driving element 522 drives the third rotating element 523 connected with the second driving element to rotate, so that the third rotating element 523 drives the seventh transmission element 524 to rotate, the seventh transmission element 524 drives the sixth transmission element 521 and the rolling element 51 to rotate on the workpiece placing element 31, so that the rolling element 51 drives the resistor 6 on the workpiece placing element 31 to rotate, and the purpose of turning over the resistor 6 is achieved, so that the coating station can process the resistor 6 in an omnibearing manner.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (7)

1. The utility model provides a centre gripping fixing device is used in electronic component production, includes workstation, storage spare and support piece, and storage spare sliding connection on the workstation, and first through-hole has been seted up on the surface of storage spare, and support piece sets up on the workstation, its characterized in that, centre gripping fixing device is used in electronic component production still includes:

the workpiece fixing component is connected on the supporting piece in a sliding mode and is used for receiving the resistor discharged from the material storage piece and stably limiting the resistor;

the feeding structure is arranged on the material storage piece and the workpiece fixing component and used for driving the material storage piece to reciprocate on the workbench through mechanical transmission so that the resistors in the material storage piece can be rapidly discharged from the first through hole, and the workpiece fixing component can be driven to slide on the supporting piece while the material storage piece moves so that the workpiece fixing component can orderly receive the resistors; and

and the positioning structure is arranged on the workpiece fixing component and the supporting piece and is used for driving the resistor to roll on the workpiece fixing component so as to enable the resistor to carry out coating operation in all directions.

2. The holding fixture for electronic component production as claimed in claim 1, wherein said work holding assembly comprises:

the workpiece placing piece is connected to the supporting piece in a sliding mode, is used for placing the resistor and can drive the resistor to move;

a groove which is opened on the surface of the workpiece placing piece and is used for limiting the position of the resistor; and

and the adsorption piece is arranged on the workpiece placing piece and used for stably fixing the resistor in the groove.

3. The clamping and fixing device for electronic component production as claimed in claim 1, wherein the feeding structure comprises:

the moving piece is connected to the material storage piece and used for driving the material storage piece to reciprocate on the workbench;

the transmission assembly is arranged on the workbench and is used for driving the moving piece to move through mechanical transmission; and

and the moving assembly is arranged on the workpiece fixing assembly and the transmission assembly and is used for taking the transmission assembly as power input and matching mechanical transmission to drive the workpiece fixing assembly to move on the supporting piece.

4. The holding fixture of claim 3, wherein said actuator assembly comprises:

the two groups of first transmission pieces are arranged on two sides of the surface of the moving piece and are used for driving the moving piece to move;

the first linkage piece is connected with the first transmission piece and used for driving the first transmission piece to move; and

the first driving piece is installed on the workbench, and the output end of the first driving piece is connected with the first linkage piece and used for driving the first linkage piece to move.

5. The holding fixture for electronic component production as claimed in claim 3, wherein said moving assembly comprises:

the fifth transmission part is connected to the workpiece fixing component and used for driving the workpiece fixing component to slide on the supporting part;

the second linkage piece is rotatably connected to the workbench and used for driving the fifth transmission piece to move; and

and the third linkage piece is arranged on the second linkage piece and the transmission assembly and is used for driving the second linkage piece to rotate on the workbench by taking the transmission assembly as power input.

6. The holding fixture of claim 1, wherein the positioning structure comprises:

the rolling part is rotationally connected to the workpiece fixing component and is used for driving the resistor on the workpiece fixing component to rotate through self rotation so as to enable the resistor to change positions; and

and the positioning assembly is arranged on the rolling part and the supporting part and is used for driving the rolling part to rotate through mechanical transmission.

7. The holding fixture of claim 6, wherein said positioning assembly comprises:

the sixth transmission part is arranged on the rolling part and used for driving the rolling part to move on the workpiece fixing component;

the fourth linkage piece is connected with the sixth transmission piece and is used for driving the sixth transmission piece to rotate; and

and the second driving piece is arranged on the supporting piece, and the output end of the second driving piece is connected with the fourth linkage piece and used for driving the fourth linkage piece to move.

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