CN211387592U - Embedded micelle of cupboard board is squeezed into device - Google Patents

Abstract

The utility model discloses an embedded micelle of cupboard board is squeezed into device belongs to automatic processing equipment technical field. The discharge gate of vibration charging tray is connected and is carried the material way, carries the material to say that the end is equipped with and moves the material piece through moving material cylinder driven, it is equipped with the material mouth that moves that is used for moving the micelle to move material piece tip, move the first extreme position that the material mouth removed and just to carrying the material way end, move the second extreme position that the material mouth removed and just to the entry of conveying pipe, the entrance of conveying pipe is equipped with and is used for blowing the mechanism that blows that the micelle removed along the conveying pipe, the conveying pipe extends to the material loading push pedal department of being connected with the material loading cylinder, be equipped with in the material loading push pedal and be used for moving the micelle to the material loading hole of drift below. The utility model has the advantages that: replace manual work, improve work efficiency and quality, avoid the cupboard board to damage, reduce human cost and working strength.

Description

Embedded micelle of cupboard board is squeezed into device

Technical Field

The utility model relates to an embedded micelle of cupboard board is squeezed into device belongs to automatic processing equipment technical field.

Background

The cupboard passes through the screw-up by a plurality of cupboard boards and fixes together to form, for the firmness of connecting between the increase cupboard board, embedded micelle in the cupboard board usually, then twist the screw into the micelle again, therefore, in the course of working of cupboard board, need during the handheld iron hammer of workman squeezes into the cupboard board with the micelle, the dynamics of beating at every turn is hardly guaranteed always, lead to the micelle to squeeze into the degree of depth inconsistent in the cupboard board, and the damage that the cupboard board leads to the cupboard board is hindered to very easy mistake, manual operation work efficiency is low, the human cost is high.

SUMMERY OF THE UTILITY MODEL

For solving the defect that prior art exists, the utility model aims at providing a replace artifical, improve work efficiency and micelle and squeeze into embedded micelle of cupboard board of quality and squeeze into device.

The technical scheme of the utility model is that: a device for driving colloidal particles embedded in a cabinet plate is characterized in that a discharge port of a vibrating feeding disc is connected with a feeding channel, the tail end of the feeding channel is provided with a material moving block driven by a material moving cylinder, the end part of the material moving block is provided with a material moving port used for moving colloidal particles, a first limit position of the material moving port is right opposite to the tail end of the feeding channel, a second limit position of the material moving port is right opposite to an inlet of a feeding pipe, a blowing mechanism used for blowing colloidal particles to move along the feeding pipe is arranged at the inlet of the feeding pipe, the feeding pipe extends to a feeding push plate connected with a feeding cylinder, a feeding hole used for moving the colloidal particles to the lower part of a punch head is arranged on the feeding push plate, when the feeding hole moves to the lower part of the punch head, the feeding hole and colloidal particle mounting holes below the feeding hole are positioned on the same straight line, the punch head is connected with a mounting, the mounting plate b is connected with a lifting cylinder, the lifting cylinder is located on the mounting cross beam, and a limiting bolt is arranged at the bottom of the mounting plate b.

The lifting cylinder is fixed on the mounting plate c, the mounting plate c is connected with the mounting beam through the sliding block in a sliding mode, and the X-axis servo motor on the mounting beam is connected with and drives the mounting plate c.

And the limiting bolt is fixed on the mounting plate c.

The mounting cross beam is located above the workbench, a sliding rail is arranged on the workbench, the mounting cross beam is connected to the sliding rail in a sliding mode through sliding blocks at two ends, and a Y-axis servo motor on the workbench is connected and driven to drive the mounting cross beam.

The feeding air cylinder is fixed on the air cylinder fixing seat, and the air cylinder fixing seat is fixed on the mounting plate c.

The utility model has the advantages that: replace manual work, improve work efficiency and quality, avoid the cupboard board to damage, reduce human cost and working strength.

Drawings

FIG. 1 is a front view of the present invention;

fig. 2 is a top view of the present invention.

The reference numbers in the figures are as follows: 1. the automatic feeding device comprises a vibrating feeding disc, 2, a conveying channel, 3, a material moving port, 4, a material moving block, 5, a material moving cylinder, 6, a feeding pipe, 7, a feeding push plate, 8, a feeding cylinder, 9, a punch, 10, a mounting seat, 11, mounting plates a, 12, mounting plates b, 13, a lifting cylinder, 14, mounting plates c, 15, a limiting bolt, 16 and an X-axis servo motor, 17 and a Y-axis servo motor, 18, a mounting beam, 19 and colloidal particles.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings 1-2:

a device for driving colloidal particles embedded in a cabinet plate is characterized in that a discharge port of a vibrating feeding tray 1 is connected with a feeding channel 2, the tail end of the feeding channel 2 is provided with a material moving block 4 driven by a material moving cylinder 5, the end part of the material moving block 4 is provided with a material moving port 3 used for moving colloidal particles 19, a first limit position of the material moving port 3 is just opposite to the tail end of the feeding channel 2, a second limit position of the material moving port 3 is just opposite to an inlet of a feeding pipe 6, a blowing mechanism used for blowing the colloidal particles 19 to move along the feeding pipe 6 is arranged at the inlet of the feeding pipe 6, the feeding pipe 6 extends to a feeding push plate 7 connected with a feeding cylinder 8, a feeding hole used for moving the colloidal particles 19 to the lower part of a punch 9 is arranged on the feeding push plate 7, when the feeding hole moves to the lower part of the punch 9, the colloidal particles below the feeding hole and the feeding hole are arranged on the same straight line, the mounting seat 10 is fixed on a mounting plate a11, a mounting plate a11 is connected with a mounting plate b12, a mounting plate b12 is connected with a lifting cylinder 13, the lifting cylinder 13 is positioned on a mounting cross beam 18, and the bottom of the mounting plate b12 is provided with a limit bolt 15. The lifting cylinder 13 is fixed on a mounting plate c14, the mounting plate c14 is connected with a mounting beam 18 in a sliding mode through a sliding block, and an X-axis servo motor 16 on the mounting beam 18 is connected with and drives the mounting plate c 14. The limit bolt 15 is fixed on the mounting plate c 14. The mounting cross beam 18 is located above the workbench, a sliding rail is arranged on the workbench, the mounting cross beam 18 is connected to the sliding rail in a sliding mode through sliding blocks at two ends, and a Y-axis servo motor 17 on the workbench is connected and driven to drive the mounting cross beam 18. The material loading cylinder 8 is fixed on a cylinder fixing seat, and the cylinder fixing seat is fixed on a mounting plate c 14.

The working process of the utility model is as follows:

the colloidal particles 19 move along the conveying channel 2 under the vibration action of the vibrating feeding plate 1, and after moving out of the discharge port, the colloidal particles enter the material moving port 3 at the end part of the material moving block 4, the material moving cylinder 5 moves to drive the material moving block 4 to move, the colloidal particles 19 in the material moving port 3 are moved to the inlet of the material feeding pipe 6, the blowing mechanism blows the colloidal particles 19 into the material feeding pipe 6 and moves the colloidal particles into the material feeding hole of the material feeding push plate 7 along the material feeding pipe 6, the material feeding cylinder 8 drives the material feeding push plate 7 to move the colloidal particles 19 in the material feeding hole to the lower part of the punch 9 and is positioned above the position where the cabinet plate is embedded with the colloidal particles, the lifting cylinder 13 is started to drive the punch 9 to squeeze the colloidal particles 19 into the cabinet plate, the limit bolt 15 is arranged below the lifting cylinder 13 to limit the output stroke of the lifting cylinder 13, so that the depth of the punch 9 is always consistent, and the limit block is arranged on the workbench, so, therefore, the positions of the punch 9 and the cabinet plate are relatively consistent, so that the punch 9 is driven into the preset position of the cabinet plate every time, and the situation that the cabinet plate is damaged due to deviation in driving is avoided.

This application can also make drift 9 remove for the cupboard board through X axle servo motor and Y axle servo motor's drive to the realization carries out the installation of squeezing into of micelle 19 to cupboard board different positions. The specific process is that the Y-axis servo motor 17 drives the mounting beam 18 to move along a sliding rail on the workbench, the X-axis servo motor 16 on the mounting beam 18 drives the mounting plate c14 to slide on the mounting beam 18, and the punch 9 is driven by the mounting plate c14 to move along the X axis and the Y axis, so that the driving-in installation of the rubber particles 19 on different positions of the surface of the cabinet plate is realized.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (5)

1. The device is characterized in that a discharge port of a vibrating feeding tray (1) is connected with a conveying material channel (2), the tail end of the conveying material channel (2) is provided with a material moving block (4) driven by a material moving cylinder (5), the end part of the material moving block (4) is provided with a material moving port (3) used for moving colloidal particles, a first limit position of the material moving port (3) is just opposite to the tail end of the conveying material channel (2), a second limit position of the material moving port (3) is just opposite to an inlet of a feeding pipe (6), an inlet of the feeding pipe (6) is provided with a blowing mechanism used for blowing the colloidal particles to move along the feeding pipe (6), the feeding pipe (6) extends to a feeding push plate (7) connected with a feeding air cylinder (8), the feeding push plate (7) is provided with a feeding hole used for moving the colloidal particles to the lower part of a punch (9), and when the feeding hole moves to the lower part of the punch (9), drift (9) and material loading hole and the micelle mounting hole of below are located same straight line, mount pad (10) are connected in drift (9), and mount pad (10) are fixed on mounting panel a (11), and mounting panel b (12) are connected in mounting panel a (11), and lift cylinder (13) are connected in mounting panel b (12), and lift cylinder (13) are located installation crossbeam (18), and mounting panel b (12) bottom is equipped with spacing bolt (15).

2. The cabinet board embedded rubber granule driving device as claimed in claim 1, wherein the lifting cylinder (13) is fixed on a mounting plate c (14), the mounting plate c (14) is slidably connected with a mounting beam (18) through a slide block, and an X-axis servo motor (16) on the mounting beam (18) is connected with and drives the mounting plate c (14).

3. The cabinet panel insert rubber granule driving device as claimed in claim 2, wherein the limit bolt (15) is fixed on the mounting plate c (14).

4. Device is squeezed into to embedded micelle of cupboard board of claim 2, characterized in that, installation crossbeam (18) is located the workstation top, be equipped with the slide rail on the workstation, installation crossbeam (18) through the sliding block sliding connection at both ends on the slide rail, Y axle servo motor (17) on the workstation are connected the drive installation crossbeam (18).

5. Device is squeezed into to embedded micelle of cupboard board of claim 2, characterized in that, material loading cylinder (8) is fixed on the cylinder fixing base, and the cylinder fixing base is fixed on mounting panel c (14).

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