CN110223813B

CN110223813B - Potentiometer roll riveting substrate machine

Info

Publication number: CN110223813B
Application number: CN201910670281.4A
Authority: CN
Inventors: 周正军
Original assignee: Chengdu Guosheng Technology Co ltd
Current assignee: Chengdu Guosheng Technology Co ltd
Priority date: 2019-07-24
Filing date: 2019-07-24
Publication date: 2024-03-26
Anticipated expiration: 2039-07-24
Also published as: CN110223813A

Abstract

The invention discloses a potentiometer roll riveting substrate machine, which comprises: the machine body comprises a frame, a bedplate and a collecting box, the transverse shifter comprises a transverse seat, a transverse servo motor and a transverse threaded shaft, the vertical shifter comprises a vertical seat, a vertical servo motor and a vertical threaded shaft, the adsorber comprises an adsorption base, an adsorption air pipe and a suction nozzle, the rolling rivet assembly comprises a workbench, a working roller, a rolling shaft, a rolling rivet sliding block, a sliding rail and a pin shaft, the driving assembly comprises a driven rod, an eccentric turntable and a turntable motor; the machine can rivet the substrate fast, effectively strengthen the structural firmness of the substrate, avoid the workload of manual riveting and greatly improve the production efficiency of workshops.

Description

Potentiometer roll riveting substrate machine

Technical Field

The invention relates to the technical field of production of electronic components, in particular to a potentiometer roll riveting substrate machine.

Background

The potentiometer is an adjustable electronic component. It consists of a resistor body and a rotary or sliding system. When a voltage is applied between two fixed contacts of the resistor body, the position of the contacts on the resistor body is changed through a rotating or sliding system, and a voltage which is in a certain relation with the position of the movable contact can be obtained between the movable contact and the fixed contact. It is mostly used as a voltage divider, in which case the potentiometer is a four terminal element. The potentiometer is basically a sliding rheostat, has several types, is commonly used for adjusting the volume switch of a sound box and the power of a laser head, is an adjustable electronic element, and is called as a potentiometer because the potentiometer has the function of obtaining an output voltage which is in a certain relation with an input voltage (externally applied voltage) in a circuit.

The potentiometer substrate in the prior art is easy to loose, cannot be effectively riveted and fixed, and has large workload of manual riveting and low working efficiency during production.

Disclosure of Invention

The invention aims to provide a potentiometer roll riveting substrate machine which can rivet a substrate rapidly, effectively strengthen the structural firmness of the substrate, avoid the workload of manual riveting and greatly improve the production efficiency of workshops.

Embodiments of the present invention are implemented as follows:

a potentiometer roll-riveted substrate machine, comprising: organism, horizontal shifter, vertical shifter, the adsorber, roll and rivet subassembly and drive assembly, the horizontal shifter is fixed at the organism, vertical shifter is connected to horizontal shifter, the adsorber is installed at vertical shifter, roll and rivet the subassembly and fix at the organism, drive assembly installs and roll and rivet the subassembly in the organism and connect, roll and rivet the subassembly and include workstation, the work roll, roll and rivet the slider, slide rail and round pin axle, workstation and slide rail are fixed at the organism, roll and rivet the slider with rolling and fix, roll and rivet the work roll in the one end of roll, roll and rivet the slider match card at the slide rail top and slidable for the slide rail, drive assembly and roll and rivet the slider respectively are connected at the both ends of round pin axle, roll and rivet the slider slidable for the slide rail, roll and rivet the axle and drive the work roll and make a round trip at the top of workstation reciprocal roll simultaneously.

In a preferred embodiment of the present invention, the driving assembly includes a driven rod, an eccentric turntable and a turntable motor, the turntable motor is mounted on the machine body, the eccentric turntable is connected with the turntable motor, the eccentric position of the disk surface of the eccentric turntable is outwards protruded with a protrusion connected with the driven rod, and two ends of the driven rod are respectively connected with the protrusion and the pin shaft.

In the preferred embodiment of the invention, the eccentric turntable rotates to drive one end of the driven rod to do circular motion, the driven rod pushes or pulls the pin shaft, and the pin shaft drives the rolling riveting sliding block to reciprocate along the sliding rail.

In a preferred embodiment of the invention, the two sliding rails are respectively located at two sides of the workbench, and two ends of the rolling shaft are respectively fixed on the rolling riveting sliding blocks and penetrate through the working roller.

In a preferred embodiment of the present invention, the transverse shifter includes a transverse seat, a transverse servo motor and a transverse threaded shaft, wherein two ends of the transverse threaded shaft are respectively fixed on the transverse seat, the transverse servo motor is installed at one end of the transverse seat and connected with the transverse threaded shaft, and the transverse servo motor drives the transverse threaded shaft to rotate.

In a preferred embodiment of the invention, the vertical shifter comprises a vertical seat, a vertical servo motor and a vertical threaded shaft, wherein the vertical seat, the vertical servo motor and the vertical threaded shaft are arranged in the vertical direction, the transverse threaded shaft penetrates through the vertical seat and is matched with each other, the transverse threaded shaft rotates relative to the vertical seat to drive the vertical seat to move, the vertical threaded shaft is arranged in the vertical direction, two ends of the vertical threaded shaft are respectively fixed on the vertical seat, the vertical servo motor is arranged at the top end of the vertical seat and is connected with the vertical threaded shaft, and the vertical servo motor drives the vertical threaded shaft to rotate.

In a preferred embodiment of the invention, the adsorber comprises an adsorption base, an adsorption air pipe and a suction nozzle, wherein threaded holes for a vertical threaded shaft to pass through are respectively formed in two ends of the adsorption base and are matched with the vertical threaded shaft, the vertical threaded shaft rotates relative to the adsorption base to drive the adsorption base to move, the adsorption air pipe is fixed on the adsorption base, and the suction nozzle is fixed at the bottom end of the adsorption base and is communicated with the adsorption air pipe.

In a preferred embodiment of the invention, the machine body comprises a frame, a bedplate and a collecting box, wherein the frame is arranged on the ground, the transverse seat is fixed on the frame, the bedplate is fixed on the frame and is spaced from the ground, and the collecting box is fixed on the bedplate and is spaced from the workbench.

In a preferred embodiment of the invention, the top surface of the workbench is flat and is concavely provided with a substrate groove for placing the potentiometer substrate and at least two rows of probe holes for clamping the potentiometer probes, and the probe holes are communicated with the substrate groove.

In the preferred embodiment of the invention, the suction nozzle sucks the potentiometer substrate arranged on the top of the workbench, the adsorption base moves upwards under the drive of the vertical threaded shaft, the vertical seat moves towards the collecting box under the drive of the horizontal threaded shaft, and when the suction nozzle moves to the upper part of the collecting box, the adsorption base moves downwards under the drive of the vertical threaded shaft, the suction nozzle cuts off the air flow through the adsorption air pipe and places the potentiometer substrate in the collecting box.

The beneficial effects of the invention are as follows:

according to the invention, the transverse servo motor drives the transverse threaded shaft to rotate, so that the vertical seat moves in the horizontal direction, the vertical servo motor drives the vertical threaded shaft to rotate, so that the adsorption base moves in the vertical direction to adjust the height, the suction nozzle sucks the substrate, the turntable motor drives the driven rod to eccentrically rotate to drive the rolling riveting sliding block to slide relative to the sliding rail, and the working roller rolls on the surface of the working table under the drive of the rolling shaft to rivet and fix the substrate; the machine can rivet the substrate fast, effectively strengthen the structural firmness of the substrate, avoid the workload of manual riveting and greatly improve the production efficiency of workshops.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate certain embodiments of the present invention and therefore should not be considered as limiting the scope.

FIG. 1 is a front view of a potentiometer roll-on substrate machine of the present invention;

FIG. 2 is a partial block diagram of a potentiometer roll-riveted substrate machine of the present invention;

icon: 1-a machine body; 11-a frame; 12-platen; 13-collecting box; 2-a lateral shifter; 21-a transverse seat; 22-a transverse servo motor; 23-a transverse threaded shaft; 3-a vertical shifter; 31-a vertical seat; 32-a vertical servo motor; 33-a vertical threaded shaft; 4-adsorber; 41-an adsorption base; 42-adsorbing a gas pipe; 43-suction nozzle; 51-a workbench; 52-working rolls; 53-rolling the shaft; 54-rolling riveting a sliding block; 55-sliding rails; 56-pin shafts; 61-a driven rod; 62-eccentric turntable; 63-turntable motor.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. The components of the embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

First embodiment

Referring to fig. 1, the present embodiment provides a potentiometer roll riveting substrate machine, which includes: the machine body 1, the transverse shifter 2, the vertical shifter 3, the adsorber 4, the roll riveting assembly and the driving assembly, the transverse shifter 2 is installed on the machine body 1, the vertical shifter 3 is installed on the transverse shifter 2, the adsorber 4 is installed on the vertical shifter 3, the roll riveting assembly is installed on the machine body 1, the driving assembly is respectively connected with the roll riveting assembly and the machine body 1, the machine body 1 comprises a frame 11, a bedplate 12 and a collecting box 13, the transverse shifter 2 comprises a transverse seat 21, a transverse servo motor 22 and a transverse threaded shaft 23, the vertical shifter 3 comprises a vertical seat 31, a vertical servo motor 32 and a vertical threaded shaft 33, the adsorber 4 comprises an adsorption base 41, an adsorption air pipe 42 and a suction nozzle 43, the roll riveting assembly comprises a workbench 51, a working roller 52, a rolling shaft 53, a roll riveting sliding block 54, a sliding rail 55 and a pin shaft 56, the driving assembly comprises a driven rod 61, an eccentric rotary table 62 and a rotary table motor 63, wherein the adsorber 4 is opposite to a substrate of the machine body 1 and moves up and down in the vertical direction through the vertical shifter 3, the vertical shifter 3 moves in the horizontal direction through the transverse shifter 2, and the roll riveting assembly is connected with the substrate and the probe is tightly fixed through the roll riveting assembly.

The machine body 1 comprises a machine frame 11, a bedplate 12 and a collecting box 13, wherein the machine frame 11 is installed on the ground, the bottom of the machine frame 11 is plate-shaped and is provided with a threaded hole, the bottom of the machine frame 11 is fixed on the ground by using a screw, the machine frame 11 is provided with two cylinders which are arranged in the vertical direction, the cylinders are welded at the bottom of the machine frame 11, a transverse seat 21 is fixed on the machine frame 11, the back surface of the transverse seat 21 is provided with the threaded hole, the top of the cylinders of the machine frame 11 is provided with the threaded hole, the transverse seat 21 is fixed on the cylinders of the machine frame 11 by using the screw to select the threaded hole, the bedplate 12 is fixed on the machine frame 11 and is spaced from the ground, the bedplate 12 is plate-shaped and horizontally arranged, the bottom of the bedplate 12 is provided with a support column and is welded to the machine frame 11, the collecting box 13 is fixed on the bedplate 12 and is spaced from the workbench 51, and the outer edge bottom of the collecting box 13 is provided with the threaded hole and is fixed at one end of the top of the bedplate 12 by using the screw.

Referring to fig. 2, the roll riveting assembly includes a workbench 51, a working roller 52, a rolling shaft 53, a roll riveting slide block 54, a slide rail 55 and a pin shaft 56, wherein the workbench 51 and the slide rail 55 are fixed on the machine body 1, one end of the rolling shaft 53 is fixed with the roll riveting slide block 54, the rolling shaft 53 is connected with the working roller 52, the roll riveting slide block 54 is clamped at the top of the slide rail 55 in a matching manner and is slidable relative to the slide rail 55, two ends of the pin shaft 56 are respectively connected with a driving assembly and the roll riveting slide block 54, the roll riveting slide block 54 is slidable relative to the slide rail 55, and meanwhile, the rolling shaft 53 drives the working roller 52 to reciprocate at the top of the workbench 51; the workbench 51 is square and has a flat top surface, the bottom of the workbench 51 is welded and fixed with one end of the top of the bedplate 12, a space is reserved between the workbench 51 and the collecting box 13, the top surface of the workbench 51 is flat and is provided with a substrate groove for placing a potentiometer substrate and at least two rows of probe holes for clamping in the potentiometer probes in an inward concave manner, the probe holes are communicated to the substrate groove, when the substrate is clamped in the substrate groove, the probes are just clamped in the probe holes, a channel for clamping in the probes from the side surface of the workbench 51 is formed by the sheet-shaped holes arranged on the side surface of the workbench 51, and when in operation, a technician clamps in the substrate from the side surface of the workbench 51; the working roller 52 is in a cylinder shape, the cylinder surface of the working roller 52 is used for rolling a substrate on the top of the workbench 51, the two ends of the working roller 52 are respectively provided with bearing holes for the rolling shaft 53 to pass through, the rolling shaft 53 is inserted into the bearing holes to be matched with the working roller 52, the working roller 52 rotates by taking the rolling shaft 53 as the center, when the working roller 52 rotates, the cylinder surface of the working roller 52 always rolls and presses the top of the workbench 51, the two ends of the rolling shaft 53 are respectively fixed on the rolling riveting slide blocks 54, the rolling riveting slide blocks 54 are provided with two, the top of the rolling riveting slide blocks 54 are provided with screw holes, the two ends of the rolling shaft 53 are respectively provided with a pair of screw holes communicated with the top and the bottom, the rolling shaft 53 is fixed at the top of the rolling riveting slide block 54 by using screws, two slide rails 55 are respectively positioned at two sides of the workbench 51, the two slide rails 55 are respectively welded at the top of the bedplate 12, the two slide rails 55 are mutually parallel and positioned at two sides of the workbench 51, the top of the slide rail 55 is provided with concave-convex pattern clamping grooves and convex patterns, the bottom of the rolling riveting slide block 54 is provided with clamping grooves mutually matched with the slide rails 55, the rolling riveting slide block 54 slides in from one end of the slide rail 55 and slides relative to the slide rail 55, and when the rolling riveting slide block 54 slides on the slide rail 55, the rolling shaft 53 drives the working roller 52 to slide forwards and backwards along the surface of the workbench 51; a threaded hole is formed in the side face of one rolling riveting sliding block 54, one end of a pin shaft 56 is provided with threads and screwed into the threaded hole, the pin shaft 56 and the rolling riveting sliding block 54 are fixed with each other, and the pin shaft 56 drives the rolling riveting sliding block 54 to move back and forth along the sliding rail 55.

The driving assembly comprises a driven rod 61, an eccentric turntable 62 and a turntable motor 63, wherein the turntable motor 63 is arranged on the machine body 1, the turntable motor 63 is provided with a bolt hole and is fixed to the machine frame 11 by using a bolt, a turntable shaft at the center position of the eccentric turntable 62 is fixedly connected with a crankshaft of the turntable motor 63, the crankshaft of the turntable motor 63 is fixedly connected with a turntable shaft of the eccentric turntable 62 by using a shaft coupler, the turntable motor 63 drives the eccentric turntable 62 to rotate, a bulge connected with the driven rod 61 is outwards protruded at the eccentric position of the disk surface of the eccentric turntable 62, the bulge is clamped into a concave hole of the disk surface of the eccentric turntable 62, the bulge is rotatable relative to the eccentric turntable 62, two ends of the driven rod 61 are respectively connected with the bulge and the pin shaft 56, a threaded hole for screwing the driven rod 61 is formed in, the bottom end of the driven rod 61 is rotationally fixed to the bulge, the top end of the driven rod 61 is provided with a pin hole, one end of the pin shaft 56 is clamped into the pin hole, after clamping, the driven rod 61 is fixed to the pin shaft 56 by using a nut, the turntable motor 63 drives the eccentric turntable 62 to rotate, one end of the driven rod 61 is driven, and the driven rod 61 is driven by the nut, the eccentric turntable 62 rotates, and the eccentric 62 drives one end of the driven rod 61 to move, the driven rod 56, and the driven slider 56 pushes or pulls the pin shaft 56 to slide back and forth along the pin shaft 54.

The transverse shifter 2 comprises a transverse seat 21, a transverse servo motor 22 and a transverse threaded shaft 23, the back of the transverse seat 21 is fixed on the top end of a column body of the frame 11 through a screw, the transverse seat 21 is horizontally arranged, the middle of the transverse seat 21 is concavely arranged inwards to form a hollow arrangement, two ends of the transverse seat are outwards protruded, threaded holes are formed in the protruding positions, two ends of the transverse threaded shaft 23 are clamped into the threaded holes in two ends of the transverse seat 21 and are fixed on the transverse seat 21, the transverse servo motor 22 is installed at one end of the transverse seat 21 and is connected with the transverse threaded shaft 23, the transverse servo motor 22 is provided with a bolt hole and is fixed on the outer side of one end of the transverse seat 21 through a bolt, the transverse threaded shaft 23 is fixed on the shaft of the transverse servo motor 22 through a shaft coupler, the transverse servo motor 22 drives the transverse threaded shaft 23 to rotate, the transverse threaded shaft 23 is matched with the transverse threaded shaft 23, the transverse threaded shaft 23 is matched with the vertical seat 31 through the threaded hole, the transverse threaded shaft 23 rotates with the vertical seat 31, and the vertical seat 31 can move back and forth in the horizontal direction relative to the transverse seat 21.

The vertical shifter 3 comprises a vertical seat 31, a vertical servo motor 32 and a vertical threaded shaft 33 which are arranged in the vertical direction, wherein the transverse threaded shaft 23 penetrates through the vertical seat 31 and is mutually matched, the transverse threaded shaft 23 rotates relative to the vertical seat 31 to drive the vertical seat 31 to move, the vertical seat 31 is arranged in the vertical direction, the vertical servo motor 32 is arranged at the top end of the vertical seat 31 and is connected with the vertical threaded shaft 33, the top end of the vertical seat 31 is provided with a bolt hole connected with the vertical servo motor 32, the vertical servo motor 32 is fixed to the top end of the vertical seat 31 through a bolt, the middle position of the vertical seat 31 is concavely arranged to form a hollow position, two ends of the vertical threaded shaft are outwards protruded, threaded holes are formed in the protruding position, the vertical threaded shaft 33 is arranged in the vertical direction, the two ends of the vertical threaded shaft are respectively fixed in the two threaded holes of the vertical seat 31, and the top end of the vertical threaded shaft 33 penetrates through the threaded holes and is fixed to a crankshaft of the vertical servo motor 32 through a shaft coupler; the adsorption base 41 is provided with a threaded bearing hole communicated with the top end and the bottom end and is matched with the vertical threaded shaft 33, the vertical threaded shaft 33 is screwed into the threaded bearing hole, and the vertical servo motor 32 drives the vertical threaded shaft 33 to rotate, so that the adsorption base 41 moves up and down along the vertical direction.

The adsorber 4 includes adsorption base 41, adsorption trachea 42 and suction nozzle 43, adsorption base 41's top and bottom both ends are provided with the screw hole that supplies vertical screw shaft 33 to pass respectively and match with vertical screw shaft 33, vertical screw shaft 33 rotates and drives adsorption base 41 and remove for adsorption base 41, adsorption trachea 42 is connected with the pneumatic cylinder, the pneumatic cylinder provides the device of flexible power for adsorption trachea 42, adjust the negative pressure in the adsorption trachea 42 through the pneumatic cylinder, adsorption trachea 42 is fixed in adsorption base 41's trachea hole department, adsorption base 41's bottom sets up the gas tube hole and connects adsorption trachea 42, suction nozzle 43 fixes in adsorption base 41's trachea hole department of bottom, suction nozzle 43 communicates adsorption trachea 42, suction nozzle 43's opening is down and is used for absorbing the substrate, during operation, suction nozzle 43 will be placed in the potentiometre substrate of workstation 51 top and absorb, adsorption base 41 upwards moves under the drive of vertical screw shaft 33, vertical seat 31 moves to collection box 13 under the drive of horizontal screw shaft 23, when suction nozzle 43 moves to collection box 13 top, adsorption base 41 moves downwards under the drive of vertical screw shaft 33, 43 breaks the air current and places substrate in collection box 13 through adsorption base 42.

In summary, according to the embodiment of the invention, the transverse servo motor drives the transverse threaded shaft to rotate, so that the vertical seat moves in the horizontal direction, the vertical servo motor drives the vertical threaded shaft to rotate, so that the adsorption base moves in the vertical direction to adjust the height, the suction nozzle sucks the substrate, the turntable motor drives the driven rod to eccentrically rotate to drive the rolling riveting sliding block to slide relative to the sliding rail, and the working roller rolls on the surface of the working table under the drive of the rolling shaft to rivet and fix the substrate; the machine can rivet the substrate fast, effectively strengthen the structural firmness of the substrate, avoid the workload of manual riveting and greatly improve the production efficiency of workshops.

This description describes examples of embodiments of the invention and is not intended to illustrate and describe all possible forms of the invention. Those of ordinary skill in the art will recognize that the embodiments described herein are for the purpose of aiding the reader in understanding the principles of the present invention and should be understood that the scope of the invention is not limited to such specific statements and embodiments. Those of ordinary skill in the art can make various other specific modifications and combinations from the teachings of the present disclosure without departing from the spirit thereof, and such modifications and combinations remain within the scope of the present disclosure.

Claims

1. A potentiometer roll-riveted substrate machine, comprising: the automatic riveting machine comprises a machine body, a transverse shifter, a vertical shifter, an absorber, a rolling riveting assembly and a driving assembly, wherein the transverse shifter is fixed on the machine body, the vertical shifter is connected to the transverse shifter, the absorber is arranged on the vertical shifter, the rolling riveting assembly is fixed on the machine body, the driving assembly is arranged on the machine body and is connected with the rolling riveting assembly, the rolling riveting assembly comprises a workbench, a working roller, a rolling shaft, a rolling riveting sliding block, a sliding rail and a pin shaft, the workbench and the sliding rail are fixed on the machine body, one end of the rolling shaft is fixed with the rolling riveting sliding block, the rolling shaft is connected with the working roller, the rolling riveting sliding block is matched and clamped at the top of the sliding rail and can slide relative to the sliding rail, two ends of the pin shaft are respectively connected with the driving assembly and the rolling riveting sliding block, the rolling riveting sliding block can slide relative to the sliding rail, and meanwhile the rolling shaft drives the working roller to reciprocate at the top of the workbench;

the two slide rails are respectively positioned at two sides of the workbench, and two ends of the rolling shaft are respectively fixed on the rolling riveting sliding blocks and penetrate through the working rollers.

2. The substrate rolling riveting machine for the potentiometer according to claim 1, wherein the driving assembly comprises a driven rod, an eccentric rotary disc and a rotary disc motor, the rotary disc motor is arranged on the machine body, the eccentric rotary disc is connected with the rotary disc motor, a protrusion connected with the driven rod is arranged at the eccentric position of the disc surface of the eccentric rotary disc in an outward protruding mode, and two ends of the driven rod are respectively connected with the protrusion and the pin shaft.

3. The substrate rolling riveting machine for potentiometers according to claim 2, wherein the eccentric turntable rotates to drive one end of the driven rod to do circular motion, the driven rod pushes or pulls the pin shaft, and the pin shaft drives the rolling riveting sliding block to reciprocate along the sliding rail.

4. The potentiometer roll-riveting substrate machine according to claim 1, wherein the transverse shifter comprises a transverse seat, a transverse servo motor and a transverse threaded shaft, two ends of the transverse threaded shaft are respectively fixed on the transverse seat, the transverse servo motor is installed at one end of the transverse seat and connected with the transverse threaded shaft, and the transverse servo motor drives the transverse threaded shaft to rotate.

5. The potentiometer roll riveting substrate machine according to claim 4, wherein the vertical shifter comprises a vertical seat, a vertical servo motor and a vertical threaded shaft, the vertical seat, the vertical servo motor and the vertical threaded shaft are arranged in the vertical direction, the transverse threaded shaft penetrates through the vertical seat and are matched with each other, the transverse threaded shaft rotates relative to the vertical seat to drive the vertical seat to move, the vertical threaded shaft is arranged in the vertical direction, two ends of the vertical threaded shaft are respectively fixed on the vertical seat, and the vertical servo motor is arranged at the top end of the vertical seat and is connected with the vertical threaded shaft, and drives the vertical threaded shaft to rotate.

6. The potentiometer roll riveting substrate machine according to claim 5, wherein the adsorber comprises an adsorption base, an adsorption air pipe and a suction nozzle, threaded holes for a vertical threaded shaft to pass through are respectively formed in two ends of the adsorption base and are matched with the vertical threaded shaft, the vertical threaded shaft rotates relative to the adsorption base to drive the adsorption base to move, the adsorption air pipe is fixed on the adsorption base, and the suction nozzle is fixed at the bottom end of the adsorption base and is communicated with the adsorption air pipe.

7. The potentiometer roll-on substrate machine of claim 6, wherein the machine body comprises a frame, a bedplate and a collection box, the frame is mounted on the ground, the transverse seat is fixed on the frame, the bedplate is fixed on the frame and has a space with the ground, and the collection box is fixed on the bedplate and has a space with the workbench.

8. The potentiometer roll riveting substrate machine according to claim 7, wherein the top surface of the workbench is flat and is provided with a substrate groove for placing the potentiometer substrate and at least two rows of probe holes for clamping in the potentiometer probes in a concave manner, and the probe holes are communicated with the substrate groove.

9. The potentiometer roll riveting substrate machine according to claim 8, wherein the suction nozzle sucks a potentiometer substrate placed on the top of the workbench, the suction base moves upwards under the drive of the vertical threaded shaft, the vertical seat moves towards the collecting box under the drive of the horizontal threaded shaft, when the suction nozzle moves to the position above the collecting box, the suction base moves downwards under the drive of the vertical threaded shaft, and the suction nozzle cuts off air flow through the suction air pipe and places the potentiometer substrate in the collecting box.