CN211195308U - A press from both sides material mechanism for silk screen printing machine - Google Patents

Abstract

A material clamping mechanism for a screen printing machine comprises a long strip-shaped machine body, wherein a lead screw is arranged in the machine body, one end of the lead screw is axially connected with a first motor, and the first motor is arranged at the left side position outside the machine body; a screw rod sliding block is further sleeved on the screw rod in a threaded manner, a pushing block is horizontally arranged on the screw rod sliding block, the pushing block extends out of the upper edge of the rear wall of the machine body, and a horizontal wire groove for the pushing block to slide is formed in the upper edge of the rear wall; the rear wall of the machine body is also provided with a linear guide rail, the linear guide rail is parallel to the screw rod, two guide rail sliding blocks are connected onto the linear guide rail in a sliding manner, a push plate is fixed onto the two guide rail sliding blocks, and the upper end of the push plate is also fixed onto the push block; the left end and the right end of the push plate are respectively provided with a symmetrical rotating unit, the rotating units are axially connected with a material clamping unit, and the middle position of the push plate is also provided with a material clamping unit which clamps materials upwards.

Description

A press from both sides material mechanism for silk screen printing machine

Technical Field

The utility model belongs to the technical field of the silk screen printing machine and specifically relates to a press from both sides material mechanism for silk screen printing machine is related to.

Background

The screen printing machine is a machine for printing by using a screen printing plate, and belongs to one type of printing machines; a screen printer is a machine for printing characters and images, which is a generic name of a machine or apparatus for producing printed matters; the silk screen printing machine belongs to the more representative printing equipment in the porous printing machine, and the material for manufacturing the silk screen can be nylon wire, copper wire, steel wire or stainless steel wire and the like besides real silk; the glass bottle screen printing machine is used for carrying out decorative printing on a glass bottle product by utilizing a screen printing machine and using glass glaze.

At present, glass silk screen printing machine is going on pressing from both sides the in-process of getting to the glass bottle, can appear pressing from both sides and get insecure glass bottle offset that leads to, influence the glass bottle and get into the station and process, and current silk screen printing machine presss from both sides material mechanism and need press from both sides the glass bottle earlier, owing to be to printing to the side of glass bottle, so need to rotate the glass bottle 90 degrees and place and process on the station, the silk screen printing machine is seen off to the glass bottle that will process at last again, this process does not realize the function that presss from both sides one step of material and targets in place, and carry out the rotatory in-process to the glass bottle and adopt revolving cylinder more to rotate, because revolving cylinder's rotation rate is difficult to control, can lead to the glass bottle to be thrown away at rotatory in-process owing.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an it is not enough to overcome above-mentioned condition, aims at providing the technical scheme that can solve above-mentioned problem.

A material clamping mechanism for a screen printing machine comprises a long strip-shaped machine body, wherein a lead screw is arranged in the machine body, one end of the lead screw is axially connected with a first motor, and the first motor is arranged at the left side position outside the machine body; a screw rod sliding block is further sleeved on the screw rod in a threaded manner, a pushing block is horizontally arranged on the screw rod sliding block, the pushing block extends out of the upper edge of the rear wall of the machine body, and a horizontal wire groove for the pushing block to slide is formed in the upper edge of the rear wall; the rear wall of the machine body is also provided with a linear guide rail, the linear guide rail is parallel to the screw rod, two guide rail sliding blocks are connected onto the linear guide rail in a sliding manner, a push plate is fixed onto the two guide rail sliding blocks, and the upper end of the push plate is also fixed onto the push block; the left end and the right end of the push plate are respectively provided with a symmetrical rotating unit, the rotating units are axially connected with a material clamping unit, and the middle position of the push plate is also provided with a material clamping unit which clamps materials upwards.

Furthermore, the rotating unit comprises a second motor, a speed reducer, a motor base and a cylinder base; the second motor is fixed on the speed reducer and is axially connected with the speed reducer, the speed reducer is installed on the motor base, the motor base is installed on the push plate, the shaft of the speed reducer horizontally faces the outer side of the push plate, one end of the air cylinder base is fixed on the shaft of the speed reducer, the material clamping unit is installed on the air cylinder base, and the material clamping unit swings along the shaft of the speed reducer under the driving of the second motor; position switches are further respectively mounted on the upper wall and the rear wall of the motor base, and blocking pieces which drive the position switches to be driven by the position switches are further mounted on the side walls, where the material clamping unit and the motor base are attached, of the material clamping unit.

Furthermore, the material clamping unit comprises a material clamping cylinder and a clamp, and the clamp is arranged at the piston end of the material clamping cylinder; the fixture comprises a left clamping jaw, a right clamping jaw and a blocking strip, the middle position of the blocking strip is arranged at the fixed end of the clamping jaw, the blocking strip is perpendicular to the clamping jaw, and the fixed end of the clamping jaw is fixed at the piston end of the material clamping cylinder.

Furthermore, the material clamping units at the left end and the right end of the push plate are driven by the rotating unit to enable the material clamping units in the middle of the push plates of the material clamping units at the left side and the right side to be parallel to each other, and then the three material clamping units are located on the same plane.

Furthermore, the number of the linear guide rails is two, and guide rail sliding blocks on the linear guide rails are respectively positioned at four corners of the push plate.

Furthermore, buffer blocks are further installed at two ends of the linear guide rail.

Furthermore, two ends of the bottom of the machine body are respectively provided with a machine base.

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

three material clamping machines synchronous motion on driving the push pedal through first motor drive lead screw to realize the effect that the material is put in place one step, improved the work efficiency of silk screen printing machine.

The rotation of the clamping unit and the rotation angle of the clamping unit controlled by the position switch are realized through the second motor and the speed reducer, and the rotation angle of the feeding unit can be controlled more accurately.

The clamping jaws of the clamp are additionally provided with the blocking strips which are perpendicular to the clamping jaws, so that the clamping jaws can prop against the glass bottle through the blocking strips after clamping the glass bottle, and the glass bottle cannot deflect.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a schematic view of the external structure of the present invention.

Fig. 2 is a schematic diagram of the internal structure of the present invention.

Fig. 3 is a schematic view of the installation of the middle material clamping unit, the rotating unit and the push plate of the present invention.

Fig. 4 is an installation schematic diagram of the middle material clamping unit and the rotating unit of the present invention.

Fig. 5 is a schematic structural diagram of the middle clamping unit of the present invention.

Fig. 6 is a working principle diagram of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below, and it should be understood that the described embodiments are only some embodiments of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 6, a material clamping mechanism for a screen printing machine includes a long strip-shaped machine body 1, a screw rod 10 is installed inside the machine body 1, one end of the screw rod 10 is axially connected with a first motor 11, and the first motor 11 is installed at the left side position outside the machine body 1; a screw rod sliding block 12 is further sleeved on the screw rod 10 in a threaded manner, a pushing block 13 is horizontally arranged on the screw rod sliding block 12, the pushing block 13 extends out from the upper edge of the rear wall of the machine body 1, and a horizontal wire slot 14 for the pushing block 13 to slide is formed in the upper edge of the rear wall; the rear wall of the machine body 1 is also provided with a linear guide rail 15, the linear guide rail 15 is parallel to the screw rod 10, the linear guide rail 15 is connected with two guide rail sliding blocks 16 in a sliding way, the two guide rail sliding blocks 16 are fixed with a push plate 17, and the upper end of the push plate 17 is also fixed on a push block 13; the left end and the right end of the push plate 17 are respectively provided with a rotating unit 20 which are symmetrical to each other, the rotating unit 20 is axially connected with a material clamping unit 30, and the material clamping unit 30 which clamps materials upwards is also arranged in the middle of the push plate 17.

In this embodiment, through first motor 11 drive lead screw 10, make lead screw 10 drive ejector pad 13 on the lead screw slider 12 move along lead screw 10, thereby promote push pedal 17 and remove about, make three clamping material unit 30 on the push pedal 17 can synchronous motion, the clamping material unit 30 that is located the right-most end is used for pressing from both sides glass bottle 6 from unloading district 4 and gets and carry out primary processing on a station 3, middle clamping material unit 30 is used for pressing from both sides glass bottle 6 and gets and go on another station 3 and further process, the clamping material unit 30 that is located the left-most end is used for pressing from both sides the glass bottle 6 that is processed and gets ejection of compact district 5.

As further shown in fig. 4, the rotating unit 20 includes a second motor 21, a speed reducer 22, a motor base 23, and a cylinder base 24; the second motor 21 is fixed on the speed reducer 22, the second motor 21 is axially connected with the speed reducer 22, the speed reducer 22 is installed on the motor base 23, the motor base 23 is installed on the push plate 17, the shaft of the speed reducer 22 horizontally faces the outer side of the push plate 17, one end of the cylinder base 24 is fixed on the shaft of the speed reducer 22, the material clamping unit 30 is installed on the cylinder base 24, and the material clamping unit 30 swings along the shaft of the speed reducer 22 under the driving of the second motor 21; the upper wall and the rear wall of the motor base 23 are respectively provided with a position switch 25, and the side wall of the clamping unit 30, which is attached to the motor base 23, is also provided with a baffle 26 which drives the position switch 25 with the position switch 25; the rotation of the clamping unit 30 is realized through the second motor 21 and the speed reducer 22, and the rotation angle of the clamping unit 30 is controlled through the position switch 25, so that the rotation angle of the feeding unit can be controlled more accurately.

As further shown in fig. 5, the material clamping unit 30 includes a material clamping cylinder 31 and a clamp 32, wherein the clamp 32 is installed at a piston end of the material clamping cylinder 31; the clamp 32 comprises a left clamping jaw 321, a right clamping jaw 321 and a blocking strip 322, the middle position of the blocking strip 322 is installed at the fixed end of the clamping jaw 321, the blocking strip 322 is perpendicular to the clamping jaw 321, and the fixed end of the clamping jaw 321 is also fixed at the piston end of the material clamping cylinder 31; by additionally arranging a stop strip 322 which is perpendicular to the clamping jaws 321 on the clamping jaws 321 of the clamp 32, the clamping jaws 321 can press against the glass bottle 6 through the stop strip 322 after clamping the glass bottle 6, so that the glass bottle 6 cannot deflect.

As further shown in fig. 2, the material clamping units 30 at the left and right ends of the push plate 17 are driven by the rotating unit 20 to make the material clamping units 30 in the middle of the push plate 17 of the material clamping units 30 at the left and right sides parallel to each other, and then the three material clamping units 30 are located on the same plane.

As further shown in fig. 3, there are two linear guide rails 15, and the rail sliders 16 on the linear guide rails 15 are respectively located at four corners of the push plate 17.

As further shown in fig. 3, two ends of the linear guide 15 are further provided with a buffer block.

As further shown in fig. 1, two ends of the bottom of the machine body 1 are respectively provided with a machine base.

The working principle is as shown in fig. 6: firstly, a screw rod 10 is driven by a first motor 11 to drive a clamping unit 30 located at the rightmost end on a push plate 17 to move to a blanking area 4 to horizontally clamp a glass bottle 6 on the blanking area 4, a rotating unit 20 rotates the clamping unit 30 to enable the glass bottle 6 to leave the blanking area 4 and then rotate 90 degrees, the screw rod 10 is driven by the first motor 11 to drive the glass bottle 6 to move to a station 3 at the right end to perform primary processing, the clamping unit 30 recovers in the processing process, the feeding unit 30 located in the middle of the push plate 17 after the primary processing clamps the glass bottle 6 to the station 3 at the left end in the same mode to perform further processing, and the clamping unit 30 located at the rearmost end of the push plate 17 after the processing clamps the processed glass bottle 6 to the discharging area 5 in the same mode, so that the operations of blanking, processing and further in place are realized, and the working efficiency of a screen printing machine is improved.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention 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.

Claims (7)

1. A material clamping mechanism for a screen printing machine comprises a long strip-shaped machine body and is characterized in that a lead screw is installed inside the machine body, one end of the lead screw is axially connected with a first motor, and the first motor is installed at the left side position outside the machine body; a screw rod sliding block is further sleeved on the screw rod in a threaded manner, a pushing block is horizontally arranged on the screw rod sliding block, the pushing block extends out of the upper edge of the rear wall of the machine body, and a horizontal wire groove for the pushing block to slide is formed in the upper edge of the rear wall; the rear wall of the machine body is also provided with a linear guide rail, the linear guide rail is parallel to the screw rod, two guide rail sliding blocks are connected onto the linear guide rail in a sliding manner, a push plate is fixed onto the two guide rail sliding blocks, and the upper end of the push plate is also fixed onto the push block; the left end and the right end of the push plate are respectively provided with a symmetrical rotating unit, the rotating units are axially connected with a material clamping unit, and the middle position of the push plate is also provided with a material clamping unit which clamps materials upwards.

2. The material clamping mechanism for the screen printing machine as claimed in claim 1, wherein the rotating unit comprises a second motor, a speed reducer, a motor base and a cylinder block; the second motor is fixed on the speed reducer and is axially connected with the speed reducer, the speed reducer is installed on the motor base, the motor base is installed on the push plate, the shaft of the speed reducer horizontally faces the outer side of the push plate, one end of the air cylinder base is fixed on the shaft of the speed reducer, the material clamping unit is installed on the air cylinder base, and the material clamping unit swings along the shaft of the speed reducer under the driving of the second motor; position switches are further respectively mounted on the upper wall and the rear wall of the motor base, and blocking pieces which drive the position switches to be driven by the position switches are further mounted on the side walls, where the material clamping unit and the motor base are attached, of the material clamping unit.

3. The material clamping mechanism for the screen printing machine as claimed in claim 1, wherein the material clamping unit comprises a material clamping cylinder and a clamp, the clamp is mounted at a piston end of the material clamping cylinder; the fixture comprises a left clamping jaw, a right clamping jaw and a blocking strip, the middle position of the blocking strip is arranged at the fixed end of the clamping jaw, the blocking strip is perpendicular to the clamping jaw, and the fixed end of the clamping jaw is fixed at the piston end of the material clamping cylinder.

4. The material clamping mechanism for the screen printing machine as claimed in claim 1, wherein the material clamping units at the left and right ends of the push plate are driven by the rotating unit to make the material clamping units in the middle of the push plates of the material clamping units at the left and right sides parallel to each other, and then the three material clamping units are located on the same plane.

5. The material clamping mechanism for the screen printing machine as claimed in claim 1, wherein the number of the linear guide rails is two, and the guide rail sliding blocks on the linear guide rails are respectively positioned at four corners of the pushing plate.

6. The material clamping mechanism for the screen printing machine as claimed in claim 1, wherein two ends of the linear guide rail are further provided with buffer blocks.

7. The material clamping mechanism for the screen printing machine as claimed in claim 1, wherein two ends of the bottom of the machine body are respectively provided with a machine base.

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