CN214326481U - Automatic gasket feeding device of riveting machine - Google Patents

Abstract

The utility model discloses an automatic gasket feeding device of a riveting machine, which comprises a bracket, a vibrating disc, a storage device and a feeding device; the vibrating disk is connected with a conveying chute with adjustable width; the material storage device comprises a material storage barrel, a material clamping arm and a first driving mechanism, wherein a material storage cavity with an opening at the lower end is arranged in the material storage barrel; the first driving mechanism is arranged on the workbench and drives the material clamping arm to move back and forth; the feeding device comprises a lifting seat, a material receiving plate, a second driving mechanism and a third driving mechanism; the front end of the material receiving plate is provided with a material receiving groove which is matched and right opposite to the opening at the lower end of the material storage cavity. Through being provided with vibration dish, storage device and material feeding unit in the frame to being connected with the defeated silo of width adjustable on the cooperation vibration dish, can not only realizing the automatic function of sending the gasket of riveter, still having reduced the danger in the course of the work, also can satisfy the use of different grade type gaskets, further reduced the processing cost.

Description

Automatic gasket feeding device of riveting machine

Technical Field

The utility model belongs to the technical field of the riveter technique and specifically relates to indicate an automatic gasket device that send of riveter.

Background

The riveting machine is a novel riveting device developed according to a cold rolling principle, and is mechanical equipment capable of riveting objects by rivets. The device has compact structure, stable performance and convenient and safe operation. The riveting machine mainly completes assembly by rotation and pressure, is mainly applied to occasions needing rivet riveting, is usually pneumatic, oil-pressure and electric, has standard types such as single-head and double-head, and is generally used by matching a gasket with a rivet during riveting.

The gasket needs to be manually put into the existing riveting machine in the using process, then riveting is carried out, each riveting machine needs to be operated aside manually, the labor cost is high, the working efficiency is low, accidents easily occur in the working process, and the danger is high, so that the existing riveting machine structure needs to be further improved.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model discloses to the disappearance that prior art exists, its main objective provides an automatic gasket device that send of riveter, and it can effectively solve current riveter cost of labor height, work efficiency slow and dangerous great problem.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an automatic gasket feeding device of a riveting machine comprises a support, a vibrating disc, a material storage device and a feeding device; the bracket is provided with a workbench; the vibrating disk is arranged on the bracket and is connected with a material conveying groove with adjustable width; the material storage device comprises a material storage barrel, a material clamping arm and a first driving mechanism, wherein the material storage barrel is arranged on the workbench and penetrates through the lower surface of the workbench, a material storage cavity with an opening at the lower end is arranged in the material storage barrel, one side of the upper end of the material storage barrel is provided with a material inlet which is matched with and is just opposite to and communicated with the output end of the material conveying groove, and the material inlet is communicated with the material storage cavity; the material clamping arm can be movably arranged on the workbench back and forth, and is provided with a material clamping part which is movably arranged in the material storage cavity back and forth along with the material clamping arm; the first driving mechanism is arranged on the workbench and drives the material clamping arm to move back and forth; the feeding device comprises a lifting seat, a material receiving plate, a second driving mechanism and a third driving mechanism; the lifting seat is movably arranged on the bracket up and down; the receiving plate is movably arranged below the storage cavity in a front-back manner, the front end of the receiving plate is provided with a receiving groove which is matched and right opposite to the opening at the lower end of the storage cavity, and the receiving groove penetrates through the bottom surface and the front end surface of the receiving plate; the second driving mechanism is arranged on the bracket and drives the lifting seat to move up and down; the third driving mechanism is arranged on the lifting seat and drives the material receiving plate to move back and forth.

As a preferred solution, the vibration plate has a fixed plate and a movable plate; the movable plate is arranged on one side of the fixed plate in a position laterally adjustable manner, and the material conveying groove is formed between the movable plate and the other side of the fixed plate.

As a preferred scheme, a fixed hole is formed in the fixed plate, a movable groove extending along the width direction of the material conveying groove is formed in the movable plate, and the fixing piece penetrates through the movable groove and is fixedly connected with the fixed hole.

As a preferable scheme, a sensor is arranged on the storage cylinder and is positioned right above the storage cavity.

As an optimal scheme, the material clamping arm is fixed on the first driving mechanism through a fixing frame, the output end of the first driving mechanism is provided with a sliding groove, the fixing frame is provided with a sliding rail, and the first driving mechanism drives the material clamping arm to move back and forth through the matching of the sliding rail and the sliding groove.

As a preferred scheme, the material clamping arms are two and symmetrically arranged on the front side and the rear side of the material storage cylinder, and the corresponding fixing frames are also two.

Preferably, the first driving mechanism, the second driving mechanism and the third driving mechanism are all air cylinders.

As a preferable scheme, three magnets for positioning the gasket are embedded at the bottom of the material receiving groove.

Compared with the prior art, the utility model obvious advantage and beneficial effect have, particularly, can know by above-mentioned technical scheme:

through being provided with vibration dish, storage device and material feeding unit in the frame to being connected with the defeated silo of width adjustable on the cooperation vibration dish, can not only realizing the automatic function of sending the gasket of riveter, reducing the cost of labor, improved work efficiency, still reduced the danger in the course of the work, the defeated silo of width adjustable also can satisfy the use of different grade type gaskets moreover, need not use the different equipment of change to the gasket of difference, further reduced the processing cost.

To illustrate the structural features and functions of the present invention more clearly, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is a schematic view of a preferred embodiment of the present invention in use;

FIG. 2 is a schematic perspective view of a preferred embodiment of the present invention;

FIG. 3 is a partial assembly view of the preferred embodiment of the present invention;

FIG. 4 is a partially assembled schematic view of another operational state of the preferred embodiment of the present invention;

FIG. 5 is a partial assembled view of the preferred embodiment of the present invention in still another operating state;

FIG. 6 is a schematic cross-sectional view of a preferred embodiment of the present invention;

FIG. 7 is a schematic cross-sectional view of a trough according to a preferred embodiment of the present invention.

The attached drawings indicate the following:

10. support 11 and workbench

20. Vibration plate 201 and material conveying groove

202. Fixed hole 203, movable groove

21. Fixed plate 22 and movable plate

30. Storage device 301 and storage cavity

302. Feed inlet 303, spout

31. Storage cylinder 32 and material clamping arm

321. Clamping part 33 and first driving mechanism

34. Sensor 35, mount

351. Slide rail 40, feeding mechanism

401. Receiving trough 41 and lifting seat

42. Receiving plate 43 and second driving mechanism

44. Third drive mechanism 45 and magnet

50. A washer 60, a rivet.

Detailed Description

Referring to fig. 1 to 7, the detailed structure of the preferred embodiment of the present invention is shown, which includes a frame 10, a vibration plate 20, a material storage device 30 and a material feeding device 40.

The support 10 has a table 11 thereon.

The vibration disk 20 is arranged on the bracket 10, and the vibration disk 20 is connected with a material conveying groove 201 with adjustable width; in the present embodiment, the vibration plate 20 has a fixed plate 21 and a movable plate 22; the movable plate 22 is installed on one side of the fixed plate 21 with lateral position adjustment, and the material conveying chute 201 is formed between the movable plate 22 and the other side of the fixed plate 21; the fixed plate 21 is provided with a fixed hole 202, the movable plate 22 is provided with a movable slot 203 extending along the width direction of the material conveying slot 201, and a fixing member (not shown) passes through the movable slot 203 and is fixedly connected with the fixed hole 202.

The material storage device 30 comprises a material storage barrel 31, a material clamping arm 32 and a first driving mechanism 33, wherein the material storage barrel 31 is arranged on the workbench 11 and penetrates through the lower surface of the workbench 11, a material storage cavity 301 with an opening at the lower end is arranged in the material storage barrel 31, a material inlet 302 which is matched with and is just communicated with the output end of the material conveying groove 201 is arranged on one side of the upper end of the material storage barrel 31, and the material inlet 302 is communicated with the material storage cavity 301; the material clamping arm 32 can be movably arranged on the workbench 11 back and forth, the material clamping arm 32 is provided with a material clamping part 321, and the material clamping part 321 is movably arranged in the material storage cavity 301 back and forth along with the material clamping arm 32; the first driving mechanism 33 is disposed on the working platform 11 and drives the material clamping arm 32 to move back and forth; in this embodiment, the storage barrel 31 is provided with a sensor 34, the sensor 34 is located right above the storage cavity 301, the sensor 34 is used for sensing the number of the gaskets 50 in the storage cavity 301, and when the gaskets 50 are fully stacked in the storage cavity 301, the vibrating tray 20 is controlled to stop feeding; the first driving mechanism 33 is a cylinder; the material clamping arm 32 is fixed on the first driving mechanism 33 through a fixing frame 35, the output end of the first driving mechanism 33 is provided with a sliding groove 303, the fixing frame 35 is provided with a sliding rail 351, and the first driving mechanism 33 drives the material clamping arm 32 to move back and forth through the matching of the sliding rail 351 and the sliding groove 303; the two material clamping arms 32 are symmetrically arranged on the front side and the rear side of the material storage cylinder 31, and the corresponding two fixing frames 35 are also provided.

The feeding device 40 comprises a lifting seat 41, a material receiving plate 42, a second driving mechanism 43 and a third driving mechanism 44; the lifting seat 41 is movably arranged on the bracket 11 up and down; the material receiving plate 42 is movably arranged below the material storage cavity 32 in a front-back manner, the front end of the material receiving plate 42 is provided with a material receiving groove 401 which is matched and right opposite to the opening at the lower end of the material storage cavity 32, and the material receiving groove 401 penetrates through the bottom surface and the front end surface of the material receiving plate 42; the second driving mechanism 43 is disposed on the bracket 11 and drives the lifting seat 41 to move up and down; the third driving mechanism 44 is disposed on the lifting seat 41 and drives the material receiving plate 42 to move back and forth; in this embodiment, three magnets 45 for positioning the spacer 50 are embedded in the bottom of the material receiving groove 401; the second drive mechanism 43 and the third drive mechanism 44 are both air cylinders.

Detailed description the working principle of the present embodiment is as follows:

when the gasket feeding device works, firstly, the gasket 50 is placed in the vibrating disc 20, the width of the material conveying groove 201 is adjusted according to the size of the gasket 50, the gasket 50 is conveyed to the position of the material inlet 302 of the material storage barrel 31 through the material conveying groove 201 under the driving of the vibrating disc 20, then the gasket 50 enters the material storage cavity 301 through the material inlet 302, when one gasket 50 enters the material receiving groove 401 through the material storage cavity 301, the magnet 45 in the material receiving groove 401 can position and fix the gasket 50, the second gasket 50 can be stacked on the first gasket 50, similarly, the third gasket 50 is stacked on the second gasket 50, and so on, the sensor 34 can sense the number of the gaskets 50 in the material storage cavity 301 at any time, when the gasket 50 is fully stacked in the material storage cavity 301, the vibrating disc 20 is controlled to stop feeding, then the first driving mechanism 33 respectively drives the two fixing frames 35 to move through the matching of the sliding rail 351 and the sliding groove 303, and respectively drive the two material clamping arms 32 to move towards the direction of the material storage cavity 301, then the two material clamping parts 321 can clamp the second and more than one gasket 50, then the third driving mechanism 44 drives the material receiving plate 42 to move forwards, the gasket 50 can also move forwards along with the material receiving groove 401 until the gasket 50 moves to the position right above the substitute-processed rivet 60, at the moment, the second driving mechanism 43 drives the lifting seat 41 to move downwards, so that the gasket 50 passes through the rivet 60, then the third driving mechanism 44 drives the material receiving plate 42 to move backwards, the rivet 60 passes through the front end opening of the material receiving groove 401, so that the gasket 50 is left on the rivet 60, then the second driving mechanism drives the lifting seat 41 to move upwards, so that the material receiving groove 401 returns to the position right below the material discharging hole 101, at the moment, the first driving mechanism 33 can drive the material clamping parts 321 of the two material clamping arms 32 to release the clamped second and more than one gasket 50, so that the second gasket 50 falls into the material receiving groove 401 and is positioned by the magnet 45, waiting for the rivet 60 to be processed and changing another rivet 60, and repeating the steps.

The utility model discloses a design focus lies in: through being provided with vibration dish, storage device and material feeding unit in the frame to being connected with the defeated silo of width adjustable on the cooperation vibration dish, can not only realizing the automatic function of sending the gasket of riveter, reducing the cost of labor, improved work efficiency, still reduced the danger in the course of the work, the defeated silo of width adjustable also can satisfy the use of different grade type gaskets moreover, need not use the different equipment of change to the gasket of difference, further reduced the processing cost.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any slight modifications, equivalent changes and modifications made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims (8)

1. The utility model provides an automatic gasket device that send of riveter which characterized in that: comprises a bracket, a vibrating disk, a material storage device and a feeding device; the bracket is provided with a workbench; the vibrating disk is arranged on the bracket and is connected with a material conveying groove with adjustable width; the material storage device comprises a material storage barrel, a material clamping arm and a first driving mechanism, wherein the material storage barrel is arranged on the workbench and penetrates through the lower surface of the workbench, a material storage cavity with an opening at the lower end is arranged in the material storage barrel, one side of the upper end of the material storage barrel is provided with a material inlet which is matched with and is just opposite to and communicated with the output end of the material conveying groove, and the material inlet is communicated with the material storage cavity; the material clamping arm can be movably arranged on the workbench back and forth, and is provided with a material clamping part which is movably arranged in the material storage cavity back and forth along with the material clamping arm; the first driving mechanism is arranged on the workbench and drives the material clamping arm to move back and forth; the feeding device comprises a lifting seat, a material receiving plate, a second driving mechanism and a third driving mechanism; the lifting seat is movably arranged on the bracket up and down; the receiving plate is movably arranged below the storage cavity in a front-back manner, the front end of the receiving plate is provided with a receiving groove which is matched and right opposite to the opening at the lower end of the storage cavity, and the receiving groove penetrates through the bottom surface and the front end surface of the receiving plate; the second driving mechanism is arranged on the bracket and drives the lifting seat to move up and down; the third driving mechanism is arranged on the lifting seat and drives the material receiving plate to move back and forth.

2. An automatic gasket feeding device of a riveting machine as set forth in claim 1, characterized in that: the vibration disc is provided with a fixed plate and a movable plate; the movable plate is arranged on one side of the fixed plate in a position laterally adjustable manner, and the material conveying groove is formed between the movable plate and the other side of the fixed plate.

3. An automatic gasket feeding device of a riveting machine as set forth in claim 2, wherein: the fixed plate is provided with a fixed hole, the movable plate is provided with a movable groove extending along the width direction of the material conveying groove, and the fixing piece penetrates through the movable groove and is fixedly connected with the fixed hole.

4. An automatic gasket feeding device of a riveting machine as set forth in claim 1, characterized in that: the storage cylinder is provided with a sensor which is positioned right above the storage cavity.

5. An automatic gasket feeding device of a riveting machine as set forth in claim 1, characterized in that: the material clamping arm is fixed on the first driving mechanism through a fixing frame, the output end of the first driving mechanism is provided with a sliding groove, the fixing frame is provided with a sliding rail, and the first driving mechanism drives the material clamping arm to move back and forth through the matching of the sliding rail and the sliding groove.

6. An automatic gasket feeding device of a riveting machine as set forth in claim 5, wherein: the material clamping arms are two and are symmetrically arranged on the front side and the rear side of the material storage barrel, and the corresponding fixing frames are also two.

7. An automatic gasket feeding device of a riveting machine as set forth in claim 1, characterized in that: the first driving mechanism, the second driving mechanism and the third driving mechanism are all cylinders.

8. An automatic gasket feeding device of a riveting machine as set forth in claim 1, characterized in that: and three magnets for positioning the gasket are embedded at the bottom of the material receiving groove.

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