CN220782885U - Automatic screw machine back-taking device - Google Patents

Abstract

The utility model discloses a rear taking device of an automatic screw machine, which relates to the technical field of screw machines and comprises a screw feeder, wherein an automatic screw locking structure is arranged above the screw feeder; one side of the automatic screw locking structure is provided with a sliding seat, and a sliding rail is welded on the sliding seat; pneumatic linear sliding tables are arranged on two sides of the screw feeder, and linear sliding seats for placing and fixing workpieces are connected to the two pneumatic linear sliding tables in a sliding manner; when the screw feeding device is used, the screw feeding device is used for sucking the screw on the turntable of the screw feeding machine, then the screw is driven by the linear screw rod module to move to the upper part of the machined parts, and then the screw is fixed in the threaded hole of one of the machined parts; in the process of screwing the workpiece, the linear sliding seat can fix the workpiece, so that the workpiece is prevented from being displaced and the like, and the normal screwing operation is ensured.

Description

Automatic screw machine back-taking device

Technical Field

The utility model particularly relates to the technical field of screw machines, in particular to a rear taking device of an automatic screw machine.

Background

The screw machine is a small machine for automatically locking screws, the action structure of the screw machine can be generally divided into a feeding part and an electric screwdriver part, the feeding part is responsible for screening and providing the screws, the electric screwdriver part is responsible for taking the screws and locking the screws, and the production of the screw machine not only improves the operation efficiency, but also reduces the manual operation intensity.

Chinese patent application number CN 210549419U discloses an automatic screw machine, and this automatic screw machine includes the base, electric putter and conveyer belt are installed at the top of base, horizontal section of thick bamboo is installed at electric putter's top, the bottom of horizontal section of thick bamboo is connected with the fixed frame of handstand "U" shape, the inside sliding connection of fixed frame has the slider, the top of slider all bonds with fixed frame inner wall top and has the magnetic sheet.

According to the automatic screw machine, the workpieces are screwed through the gun heads, but the workpieces are conveyed by the conveying belt, and when the workpieces are screwed, the workpieces are required to be in a static state, and each time one workpiece is screwed, the workpieces are suspended; then the transmission belt is continuously suspended, started, paused and started, and the screw tightening mode in the mode has lower efficiency; the space between workpiece discharging is extremely high, because the conveyor belt can not be positioned below the gun head every time, and screws cannot be normally installed due to the fact that a point of deflection occurs; and after the screws are put on, the screws are manually transferred to the next production line.

Therefore, the automatic screw machine back-taking device is provided, the automatic screw locking structure is used for screwing the workpiece, and the screw supply machine is arranged below the automatic screw locking structure, so that the screw can be continuously supplied to the automatic screw locking structure, and the screwing efficiency is improved; in addition, the workpiece is fixed in the linear slide seat when the screw is screwed, so that the displacement of the workpiece can be effectively prevented, and the displacement of the tool is constant every time, so that the condition that the products are misplaced is avoided; after the machined part is machined, the two linear sliding seats move the machined part to the lower parts of the two screw rod sliding tables, then the two screw rod sliding tables control the adsorption nozzle to adsorb the machined part and move the machined part to the transmission table, and finally the machined part is transported to the next working procedure through the transmission table.

Disclosure of Invention

The utility model aims to provide a rear-taking device of an automatic screw machine, which is used for solving the problems that the automatic screw machine is used for screwing a workpiece through a gun head, and the automatic screw machine is not provided with a device for automatically feeding the screw although the screwing process is automatically carried out; in addition, the machined part of the automatic screw machine is placed on the conveying belt for machining, the conveying belt cannot fix the machined part, the position of the machined part on the conveying belt is unfixed, the gun head cannot be aligned with the threaded hole of the machined part rapidly, and in addition, when the screw is screwed, the machined part can displace, so that the problem of normal operation of the screw screwing operation is affected.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the automatic screw machine back taking device comprises a screw supply machine, wherein an automatic screw locking structure is arranged above the screw supply machine; one side of the automatic screw locking structure is provided with a sliding seat, and a sliding rail is welded on the sliding seat; pneumatic linear sliding tables are arranged on two sides of the screw feeder, and linear sliding seats for placing and fixing workpieces are connected to the two pneumatic linear sliding tables in a sliding manner; the sliding seat is in sliding connection with the screw rod linear module, and upright posts are welded at two ends of the screw rod linear module; one side of each of the two upright posts, which is far away from the automatic screw locking structure, is welded with a screw rod sliding table;

the two screw rod sliding tables are both connected with screw rod sliding seats in a sliding manner, and the two screw rod sliding seats are both fixedly connected with telescopic cylinders through bolts; the telescopic rods of the two telescopic cylinders are welded with the connecting rods, one ends of the two connecting rods, which are far away from the telescopic cylinders, are fixedly connected with fixing frames through bolts, and the two fixing frames are fixedly connected with adsorption nozzles through bolts.

As a further technical scheme of the utility model, a transmission table is arranged below one end of the two screw rod sliding tables, which is far away from the upright post, and a transmission belt is arranged on the transmission table.

As a further technical scheme of the utility model, the bottom of the screw feeder is welded with the workbench; the bottoms of the two pneumatic linear sliding tables and the two upright posts are welded with the workbench.

As a further technical scheme of the utility model, the bottom of the workbench is fixedly connected with the frame body; the four corners of the bottom of the transmission table are welded with support columns, and the bottoms of the four support columns are welded with the frame body; the four corners of the bottom of the frame body are provided with supporting seats and universal wheels.

As a further technical scheme of the utility model, the automatic screw locking structure comprises an upper sliding seat, a lower sliding seat is arranged below the upper sliding seat, and the upper sliding seat and the lower sliding seat are both in sliding connection with a sliding rail of the sliding seat; an air cylinder is arranged above the upper sliding seat and is fixedly connected with the sliding seat.

As a further technical scheme of the utility model, a rotating motor is fixedly connected to the upper sliding seat, and an output shaft of the rotating motor penetrates through the upper sliding seat and is positioned between the upper sliding seat and the lower sliding seat; and the output shaft of the rotating motor is fixedly connected with a screwdriver.

As a further technical scheme of the utility model, the outer side of the screwdriver is sleeved with a negative pressure nozzle, and the negative pressure nozzle is welded with the bottom of the lower sliding seat; the outer side of the negative pressure nozzle is sleeved with a negative pressure pipe which is communicated with the inside of the negative pressure nozzle;

a spring is arranged between the upper sliding seat and the lower sliding seat, and a directional column is sleeved on the inner side of the spring; the bottom of the orientation column is fixedly connected with the lower slide seat, and a round hole for the orientation column to pass through is arranged on the upper slide seat at a position corresponding to the orientation column.

Compared with the prior art, the utility model has the beneficial effects that:

1. when the screw feeding device is used, two pneumatic linear sliding tables respectively move two workpieces to two sides of a screw feeding machine through a linear sliding seat, an automatic screw locking structure sucks screws on a turntable of the screw feeding machine, the screws are driven by a linear screw rod module to move to the upper part of the workpieces, then the screws are fixed in threaded holes of one of the workpieces, and then the screws are regulated in the threaded holes of the other workpiece by repeating the steps; in the process of screwing the workpiece, the linear sliding seat can fix the workpiece, so that the workpiece is prevented from being displaced and the like, and the normal screwing operation is ensured; in addition, when the screw feeding operation is performed, the linear sliding seat can accurately stop at the fixed positions on the two sides of the screw feeding machine under the control of the pneumatic linear sliding table, so that the automatic screw locking structure can quickly lock the positions of the threaded holes of the workpieces, and the screw feeding operation efficiency is further improved;

2. according to the utility model, after the machined part is machined, the two linear sliding seats move the machined part to the lower parts of the two screw rod sliding tables, then the two screw rod sliding tables control the adsorption nozzle to adsorb and move the machined part to the transmission table, and finally the machined part is transported to the next working procedure through the transmission table, so that manual operation of a worker is not needed in the process, the working efficiency is improved, and the workload of the worker is reduced;

3. according to the utility model, the workbench and the frame body play a role in supporting the device, and the universal wheels are arranged at the bottom of the frame body, so that the frame body can move the device to any position, and the maneuverability and applicability of the device are improved;

4. according to the automatic screw locking structure, screws on the screw feeder are adsorbed through the negative pressure nozzle, and the negative pressure pipe is communicated with the negative pressure pump, so that negative pressure can be continuously provided for the negative pressure nozzle; when the negative pressure nozzle is aligned with the threaded hole of the workpiece, the air cylinder pushes the upper sliding seat to move downwards, the spring is pressed downwards at the same time when the upper sliding seat moves downwards, the elastic force generated by the spring controls the lower sliding seat to move downwards, the negative pressure nozzle is used for placing a screw into the threaded hole of the workpiece, and finally the rotating motor is used for controlling the screw driver to rotate, so that the screw driver is used for tightening the screw; after the upper screw of the workpiece is finished, the cylinder does not apply pressure to the upper sliding seat any more, the upper sliding seat is propped up by the elasticity of the spring, so that the upper sliding seat is reset, and the lower sliding seat is also reset synchronously; this automatic lock screw structure absorbs the screw and go up whole automation of screw's process, effectively guarantees the efficiency of going up screw work.

Drawings

Fig. 1 is a schematic perspective view of the present utility model.

Fig. 2 is another view of fig. 1 of the present utility model.

Fig. 3 is a front view of fig. 1 in the present utility model.

Fig. 4 is a top view of fig. 1 in accordance with the present utility model.

Fig. 5 is a schematic structural view of the automatic screw locking structure of the present utility model.

Fig. 6 is an enlarged view of a portion of fig. 2 in accordance with the present utility model.

In the figure: the device comprises a 1-screw feeder, a 2-automatic screw locking structure, a 201-upper sliding seat, a 202-lower sliding seat, a 203-air cylinder, a 204-spring, a 205-rotating motor, a 206-screw driver, a 207-negative pressure nozzle, a 208-negative pressure pipe, a 3-sliding seat, a 4-screw rod linear module, a 5-pneumatic linear sliding table, a 6-linear sliding seat, a 7-screw rod sliding table, an 8-screw rod sliding seat, a 9-telescopic air cylinder, a 10-connecting rod, a 11-fixing frame, a 12-adsorption nozzle, a 13-transmission table, a 14-workbench, a 15-machine frame body, a 16-machined part and a 17-upright post.

Detailed Description

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

Referring to fig. 1-6, in an embodiment of the present utility model, an automatic screw machine back-taking device includes a screw feeder 1, and an automatic screw locking structure 2 is disposed above the screw feeder 1; a sliding seat 3 is arranged on one side of the automatic screw locking structure 2, and a sliding rail is welded on the sliding seat 3; the two sides of the screw feeder 1 are provided with pneumatic linear sliding tables 5, and the two pneumatic linear sliding tables 5 are connected with linear sliding seats 6 for placing and fixing workpieces 16 in a sliding manner; the sliding seat 3 is in sliding connection with the screw rod linear module 4, and the two ends of the screw rod linear module 4 are welded with upright posts 17; one side of the two upright posts 17, which is far away from the automatic screw locking structure 2, is welded with a screw rod sliding table 7;

the two screw rod sliding tables 7 are both connected with screw rod sliding seats 8 in a sliding manner, and the two screw rod sliding seats 8 are both fixedly connected with telescopic cylinders 9 through bolts; the telescopic rods of the two telescopic cylinders 9 are welded with the connecting rods 10, one ends of the two connecting rods 10, which are far away from the telescopic cylinders 9, are fixedly connected with fixing frames 11 through bolts, and the two fixing frames 11 are fixedly connected with adsorption nozzles 12 through bolts.

Through adopting the technical scheme, when the screw feeding machine is used, two pneumatic linear sliding tables 5 respectively move two workpieces 16 to two sides of the screw feeding machine 1 through the linear sliding seat 6, the automatic screw locking structure 2 sucks screws on a turntable of the screw feeding machine 1, then the screws are driven by the screw rod linear module 4 to move above the workpieces 16, then the screws are fixed in threaded holes of one workpiece 16, then the steps are repeated, the screws are specified in the threaded holes of the other workpiece 16, and in the screw feeding operation, the screw feeding machine 1 can continuously provide the screws for the automatic screw locking structure 2, so that the screw feeding operation efficiency is improved; in the process of screwing the workpiece 16, the linear slide seat 6 can fix the workpiece 16, prevent the workpiece 16 from displacement and the like, and ensure that the screwing work is normally performed; in addition, when screwing, the linear sliding seat 6 can accurately stop at the fixed positions at two sides of the screw feeder 1 under the control of the pneumatic linear sliding table 5, so that the automatic screw locking structure 2 can quickly lock the positions of the threaded holes of the workpieces 16, and the screwing efficiency is further improved.

In this embodiment, a transmission table 13 is disposed below one end of the two screw sliding tables 7 away from the upright 17, and a transmission belt is disposed on the transmission table 13.

Through adopting above-mentioned technical scheme, after the processing of machined part 16, two sharp slide 6 remove machined part 16 to the below of two lead screw slip tables 7, then two lead screw slip tables 7 control absorption mouth 12 adsorb machined part 16 and remove to transmission bench 13, transport the machined part 16 to next process through transmission bench 13 at last, do not need the manual operation of staff in this process, still reduced staff's work load when accelerating work efficiency.

In the embodiment, the bottom of the screw feeder 1 is welded with the workbench 14; the bottoms of the two pneumatic linear sliding tables 5 and the two upright posts 17 are welded with the workbench 14;

the bottom of the workbench 14 is fixedly connected with the frame body 15; the four corners of the bottom of the transmission table 13 are welded with support columns, and the bottoms of the four support columns are welded with the frame body 15; the four corners of the bottom of the frame body 15 are provided with supporting seats and universal wheels.

Through adopting above-mentioned technical scheme, workstation 14 and frame body 15 play the effect that supports this device, and frame body 15 bottom is equipped with the universal wheel, lets frame body 15 can remove this device to optional position, has increased the mobility and the suitability of this device.

In this embodiment, the automatic screw locking structure 2 includes an upper slide 201, a lower slide 202 is disposed below the upper slide 201, and the upper slide 201 and the lower slide 202 are both slidably connected with the slide rail of the slide 3; an air cylinder 203 is arranged above the upper sliding seat 201, and the air cylinder 203 is fixedly connected with the sliding seat 3;

a rotary motor 205 is fixedly connected to the upper slide seat 201, and an output shaft of the rotary motor 205 penetrates through the upper slide seat 201 and is positioned between the upper slide seat 201 and the lower slide seat 202; the output shaft of the rotary motor 205 is fixedly connected with a screwdriver 206;

the outer side of the screwdriver 206 is sleeved with a negative pressure nozzle 207, and the negative pressure nozzle 207 is welded with the bottom of the lower sliding seat 202; the outside of the negative pressure nozzle 207 is sleeved with a negative pressure pipe 208, and the negative pressure pipe 208 is communicated with the inside of the negative pressure nozzle 207;

a spring 204 is arranged between the upper slide seat 201 and the lower slide seat 202, and a directional column is sleeved on the inner side of the spring 204; the bottom of the orientation column is fixedly connected with a lower slide seat 202, and a round hole for the orientation column to pass through is arranged on the upper slide seat 201 at a position corresponding to the orientation column

By adopting the technical scheme, the automatic screw locking structure 2 adsorbs screws on the screw feeder 1 through the negative pressure nozzle 207, and the negative pressure pipe 208 is communicated with the negative pressure pump, so that negative pressure can be continuously provided for the negative pressure nozzle 207; when the negative pressure nozzle 207 is aligned with the threaded hole of the workpiece 16, the air cylinder 203 pushes the upper sliding seat 201 to move downwards, the spring 204 is pressed downwards while the upper sliding seat 201 moves downwards, the elastic force generated by the spring 204 controls the lower sliding seat 202 to move downwards, the negative pressure nozzle 207 places a screw into the threaded hole of the workpiece 16, and finally the rotating motor 205 controls the screw driver 206 to rotate, so that the screw driver 206 tightens the screw; after the screw-up operation of the workpiece 16 is completed, the cylinder 203 does not apply pressure to the upper slide seat 201 any more, the upper slide seat 201 is pushed up by the elastic force of the spring 204, the upper slide seat 201 is reset, and the lower slide seat 202 is also reset synchronously; this automatic lock screw structure 2 absorbs the screw and go up the whole automation of the process of screw, effectively guarantees the efficiency of going up screw work.

The working principle of the utility model is as follows: when the screw feeding device is used, two pneumatic linear sliding tables 5 respectively move two workpieces 16 to two sides of a screw feeding machine 1 through a linear sliding seat 6, an automatic screw locking structure 2 sucks screws on a turntable of the screw feeding machine 1, then the screws are driven by a screw rod linear module 4 to move to the upper part of the workpieces 16, then the screws are fixed in threaded holes of one workpiece 16, then the screws are regulated in the threaded holes of the other workpiece 16 by repeating the steps, and in the screw feeding operation, the screw feeding machine 1 can continuously supply the screws for the automatic screw locking structure 2, so that the screw feeding operation efficiency is improved; in the process of screwing the workpiece 16, the linear slide seat 6 can fix the workpiece 16, prevent the workpiece 16 from displacement and the like, and ensure that the screwing work is normally performed; in addition, when the screw screwing operation is performed, the linear sliding seat 6 can accurately stop at fixed positions on two sides of the screw feeder 1 under the control of the pneumatic linear sliding table 5, so that the automatic screw locking structure 2 can quickly lock the position of the threaded hole of the workpiece 16, and the screw screwing operation efficiency is further improved;

as further optimization, after the processing of the workpiece 16 is finished, the two linear sliding seats 6 move the workpiece 16 to the lower parts of the two screw rod sliding tables 7, then the two screw rod sliding tables 7 control the adsorption nozzle 12 to adsorb and move the workpiece 16 to the transmission table 13, and finally the processed workpiece 16 is transported to the next procedure through the transmission table 13, so that manual operation of a worker is not needed in the process, the working efficiency is improved, and the workload of the worker is reduced;

the workbench 14 and the frame body 15 play a role in supporting the device, and the bottom of the frame body 15 is provided with universal wheels, so that the frame body 15 can move the device to any position, and the maneuverability and applicability of the device are improved;

the automatic screw locking structure 2 adsorbs screws on the screw feeder 1 through the negative pressure nozzle 207, and the negative pressure pipe 208 is communicated with the negative pressure pump, so that negative pressure can be continuously provided for the negative pressure nozzle 207; when the negative pressure nozzle 207 is aligned with the threaded hole of the workpiece 16, the air cylinder 203 pushes the upper sliding seat 201 to move downwards, the spring 204 is pressed downwards while the upper sliding seat 201 moves downwards, the elastic force generated by the spring 204 controls the lower sliding seat 202 to move downwards, the negative pressure nozzle 207 places a screw into the threaded hole of the workpiece 16, and finally the rotating motor 205 controls the screw driver 206 to rotate, so that the screw driver 206 tightens the screw; after the screw-up operation of the workpiece 16 is completed, the cylinder 203 does not apply pressure to the upper slide seat 201 any more, the upper slide seat 201 is pushed up by the elastic force of the spring 204, the upper slide seat 201 is reset, and the lower slide seat 202 is also reset synchronously; this automatic lock screw structure 2 absorbs the screw and go up the whole automation of the process of screw, effectively guarantees the efficiency of going up screw work.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (7)

1. An automatic screw machine back fetch device, its characterized in that: comprises a screw feeder (1), wherein an automatic screw locking structure (2) is arranged above the screw feeder (1); one side of the automatic screw locking structure (2) is provided with a sliding seat (3), and a sliding rail is welded on the sliding seat (3); pneumatic linear sliding tables (5) are arranged on two sides of the screw feeder (1), and linear sliding seats (6) for placing and fixing workpieces (16) are connected to the two pneumatic linear sliding tables (5) in a sliding manner; the sliding seat (3) is in sliding connection with the screw rod linear module (4), and upright posts (17) are welded at two ends of the screw rod linear module (4); one side of the two upright posts (17) far away from the automatic screw locking structure (2) is welded with a screw rod sliding table (7);

the two screw rod sliding tables (7) are both connected with screw rod sliding seats (8) in a sliding manner, and the two screw rod sliding seats (8) are both fixedly connected with telescopic cylinders (9) through bolts; the telescopic rods of the two telescopic cylinders (9) are welded with the connecting rods (10), one ends of the two connecting rods (10) far away from the telescopic cylinders (9) are fixedly connected with fixing frames (11) through bolts, and the two fixing frames (11) are fixedly connected with adsorption nozzles (12) through bolts.

2. The automatic screw machine rear take-out device of claim 1, wherein: two lead screw slipways (7) keep away from one end below of stand (17) and are equipped with transmission platform (13), are equipped with the conveyer belt on this transmission platform (13).

3. An automatic screw machine rear access device according to claim 2, characterized in that: the bottom of the screw feeder (1) is welded with the workbench (14); the bottoms of the two pneumatic linear sliding tables (5) and the two upright posts (17) are welded with the workbench (14).

4. An automatic screw machine rear access device according to claim 3, wherein: the bottom of the workbench (14) is fixedly connected with the frame body (15); the four corners of the bottom of the transmission table (13) are welded with support columns, and the bottoms of the four support columns are welded with the frame body (15); the four corners of the bottom of the frame body (15) are provided with supporting seats and universal wheels.

5. The automatic screw machine rear access device of claim 4, wherein: the automatic screw locking structure (2) comprises an upper sliding seat (201), a lower sliding seat (202) is arranged below the upper sliding seat (201), and the upper sliding seat (201) and the lower sliding seat (202) are both in sliding connection with a sliding rail of the sliding seat (3); an air cylinder (203) is arranged above the upper sliding seat (201), and the air cylinder (203) is fixedly connected with the sliding seat (3).

6. The automatic screw machine rear access device of claim 5, wherein: a rotary motor (205) is fixedly connected to the upper sliding seat (201), and an output shaft of the rotary motor (205) penetrates through the upper sliding seat (201) and is positioned between the upper sliding seat (201) and the lower sliding seat (202); the output shaft of the rotating motor (205) is fixedly connected with a screwdriver (206).

7. The automatic screw machine rear access device of claim 6, wherein: the outer side of the screw driver (206) is sleeved with a negative pressure nozzle (207), and the negative pressure nozzle (207) is welded with the bottom of the lower sliding seat (202); the outside of the negative pressure nozzle (207) is sleeved with a negative pressure pipe (208), and the negative pressure pipe (208) is communicated with the inside of the negative pressure nozzle (207);

a spring (204) is arranged between the upper sliding seat (201) and the lower sliding seat (202), and a directional column is sleeved on the inner side of the spring (204); the bottom of the orientation column is fixedly connected with a lower slide seat (202), and a round hole for the orientation column to pass through is arranged on the upper slide seat (201) at a position corresponding to the orientation column.