CN219427555U - Pressure maintaining machine - Google Patents

Abstract

The utility model discloses a pressure maintaining machine which comprises a material moving support plate and a cylinder support plate fixed on the material moving support plate and parallel to the material moving support plate, wherein a first material moving mechanism and a second material moving mechanism which are arranged at intervals are slidably arranged on the material moving support plate, and a first shaping jig and a second shaping jig are arranged on the first material moving mechanism and the second material moving mechanism at intervals; the cylinder supporting plate is provided with a pressure maintaining mechanism which corresponds to the first shaping jig and the second shaping jig respectively; a material guide mechanism and a material grabbing and shifting mechanism are arranged at the material inlet end of the material shifting support plate; the material grabbing and shifting mechanism is used for intermittently grabbing materials positioned at the material guide mechanism to a first shaping jig on the first material shifting mechanism or a first shaping jig on the second material shifting mechanism; the process of adding the pressure maintaining stations to perform synchronous pressure maintaining processing is realized, so that the pressure maintaining processing efficiency is improved by at least 2 times compared with the prior art.

Description

Pressure maintaining machine

Technical Field

The utility model relates to the technical field of automatic production equipment, in particular to a pressure maintaining machine.

Background

In the nonstandard flow production line with the pressure maintaining process, semi-finished products finished in the previous process are continuously moved through the flow line conveying belt, pressure maintaining processing is carried out on materials at any position of the flow line conveying belt through an automatic pressure maintaining machine, and then the materials are continuously returned to the flow line conveying belt, so that a continuous production process, such as a process for continuously producing materials such as mobile phone shells and middle frames, is realized.

As in chinese patent CN217575751U, a pressure maintaining machine is disclosed, the publication date is 2022, 10 months and 14 days, and the specific disclosure includes: the device comprises a pressure maintaining workbench, a material changing mechanism, a pressure maintaining mechanism and a transfer device; the pressure maintaining workbench is provided with a pressure maintaining station and a material changing station, and the material changing mechanism is arranged at the material changing station; the pressure maintaining mechanism is arranged at the pressure maintaining station; the transfer device is used for moving the materials between the pressure maintaining station and the material changing station; the pressure maintaining mechanism is detachably connected to the pressure maintaining workbench and is used for maintaining pressure when the transfer device is positioned at a first preset position and fixing materials at the transfer device; the material changing mechanism is used for absorbing and lifting the material which is positioned at the material changing station and fixed on the transferring device when the transferring device is positioned at the second preset position. The utility model reduces the time for separating the material from the transfer device and improves the working efficiency of the pressure maintaining machine.

The pressure maintaining machine structure suitable for the assembly line conveyor belt is disclosed in the above patent, but the pressure maintaining machine structure is particularly suitable for the pressure maintaining processing process of materials, and only has the processes of independently grabbing, lifting and putting down the materials, and particularly can only simultaneously carry out the pressure maintaining process along two pressure maintaining positions in the same direction in the pressure maintaining process.

Disclosure of Invention

First technical problem

The utility model aims to provide a pressure maintaining machine, which solves the problem that materials on a production line are intermittently fed on a first shaping jig of a first material moving mechanism or a first shaping jig of a second material moving mechanism through a material grabbing mechanism, so that pressure maintaining procedures are carried out at four pressure maintaining positions in two directions at the same time.

(II) technical scheme

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

the pressure maintaining machine comprises a material moving support plate and a cylinder support plate which is fixed on the material moving support plate and is parallel to the material moving support plate, wherein a first material moving mechanism and a second material moving mechanism which are arranged at intervals are slidably arranged on the material moving support plate, and a first shaping jig and a second shaping jig are arranged on the first material moving mechanism and the second material moving mechanism at intervals; the cylinder supporting plate is provided with a pressure maintaining mechanism which corresponds to the first shaping jig and the second shaping jig respectively; a material guide mechanism and a material grabbing and shifting mechanism are arranged at the material inlet end of the material shifting support plate; the material grabbing and shifting mechanism is used for intermittently grabbing materials located at the material guide mechanism to the first shaping jig on the first material shifting mechanism or the first shaping jig on the second material shifting mechanism.

Preferably, the material moving support plate is provided with a first clamp corresponding to the first shaping jig and a second clamp corresponding to the second shaping jig; the first clamp and the second clamp are used for clamping or releasing a workpiece.

Preferably, the first clamp comprises a first lifting cylinder and a first connecting piece arranged on the first lifting cylinder, a first clamping cylinder is arranged on the first connecting piece, and two first clamping strips capable of sliding relatively are arranged on the first clamping cylinder.

Preferably, the second clamp comprises a second lifting cylinder and a second connecting piece arranged on the second lifting cylinder, a second clamping cylinder is arranged on the second connecting piece, two second clamping strips capable of sliding relatively are arranged on the second clamping cylinder, and one of the second clamping strips is provided with a sponge chuck arranged inwards.

Preferably, the first material moving mechanism comprises a first material moving plate which is slidably arranged on the material moving supporting plate and a first driving device for driving the first material moving plate to slide in a reciprocating manner; the second material moving mechanism comprises a second material moving plate which is slidably arranged on the material moving supporting plate, and a second driving device which is used for driving the second material moving plate to slide in a reciprocating manner.

Preferably, the material guiding mechanism comprises a fixed plate fixedly arranged on the material moving supporting plate, and a first connecting strip and a second connecting strip which are arranged on the fixed plate at intervals; the first connecting strip is provided with a first material blocking strip and a positioning strip positioned at the tail end of the first material blocking strip, the second connecting strip is provided with a second material blocking strip, and the first material blocking strip and the second material blocking strip form a material guiding channel; the fixed positions of the first connecting strip and the second connecting strip relative to the fixed plate are adjustable so that the width of the material guide channel is adjustable.

Preferably, the material grabbing and shifting mechanism comprises a third driving device and a fourth driving device, wherein a material grabbing connecting block and a mounting block arranged on the material grabbing connecting block are arranged on the fourth driving device; the mounting block is provided with a sucker fixing piece with an adjustable position, and the sucker fixing piece is provided with at least two vacuum suckers with adjustable positions; the third driving device is used for driving the fourth driving device to reciprocate between the first material moving mechanism and the second material moving mechanism, and the fourth driving device is used for driving the vacuum chuck to move up and down.

Preferably, the pressure maintaining mechanism comprises a fixed seat fixedly arranged on the cylinder supporting plate and an angle positioning plate arranged on the fixed seat, wherein the angle positioning plate is rotatably provided with a cylinder rotating plate and an angle adjusting piece for adjusting the cylinder rotating plate; the cylinder rotating plate is provided with a pressure maintaining cylinder and a pressure maintaining head arranged on the pressure maintaining cylinder, and the pressure maintaining head is provided with a pressure maintaining jig matched with the first shaping jig or the second shaping jig.

Preferably, the angle adjustment range of the cylinder rotating plate relative to the angle positioning plate is 0-45 degrees; the rotation adjusting angle range of the pressure maintaining head is 0-45 degrees.

Preferably, the automatic feeding device further comprises an electric control box and an operation box arranged on the electric control box through a linear bearing, wherein a bottom plate of the operation box is fixedly provided with the material moving support plate; the height of the operation box relative to the electric control box is adjustable; the PLC central control system is integrated in the electric control box, and the display panel, the control button, the power button and the scram switch are integrated on the operation box.

(III) beneficial effects

After the first sizing jig and the second sizing jig are arranged on the first sizing mechanism and the second sizing mechanism which are arranged at intervals, four pressure maintaining stations are formed in two parallel directions, and the materials on the production line are intermittently grabbed by the material grabbing and shifting mechanism and then placed on the first sizing jig on the first sizing mechanism or the first sizing jig on the second sizing mechanism, so that the process of increasing the pressure maintaining stations to carry out synchronous pressure maintaining processing is realized, and the pressure maintaining processing efficiency is improved by at least 2 times compared with the prior art.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present utility model;

FIG. 2 is a schematic view of the rear view axis side structure of FIG. 1;

FIG. 3 is a schematic structural diagram of a first material moving mechanism and a second material moving mechanism in an embodiment of the present utility model;

FIG. 4 is a schematic structural view of a pressure protection mechanism according to an embodiment of the present utility model;

FIG. 5 is a schematic diagram of a material grabbing and shifting mechanism according to an embodiment of the present utility model;

FIG. 6 is a schematic structural view of a first fixture according to an embodiment of the present utility model;

FIG. 7 is a schematic structural view of a second fixture according to an embodiment of the present utility model;

FIG. 8 is a schematic diagram of an embodiment of the present utility model;

in fig. 1 to 8, the correspondence between the component names or lines and the drawing numbers is:

the material moving support plate 1, the air cylinder support plate 2, the first material moving mechanism 3, the first material moving plate 31, the first driving device 32, the second material moving mechanism 4, the second material moving plate 41, the second driving device 42, the first shaping jig 5, the second shaping jig 6, the pressure maintaining mechanism 7, the fixing seat 71, the angle positioning plate 72, the air cylinder rotating plate 73, the angle adjusting piece 74, the pressure maintaining air cylinder 75, the pressure maintaining head 76, the pressure maintaining jig 77, the material guiding mechanism 8, the fixing plate 81, the first connecting bar 82, the second connecting bar 83, the first material blocking bar 84, the positioning bar 85, the second material blocking bar 86, the material guiding channel 87, the material grabbing displacement mechanism 9, the third driving device 91, the fourth driving device 92, the material grabbing connecting block 93, the mounting block 94, the sucker fixing piece 95, the vacuum sucker 96, the first fixture 10, the first lifting air cylinder 101, the first connecting piece 102, the first clamping air cylinder 103, the first clamping bar 104, the second fixture 11, the second lifting air cylinder 111, the second connecting piece 112, the second clamping air cylinder 113, the second clamping bar 115, the second clamping head 115, the electric control box 114, and the electric control box 114.

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.

Referring to fig. 1-2, in the embodiment of the present utility model, a pressure maintaining machine is provided, which is installed on a production line, after the workpieces conveyed on the production line are maintained in pressure and continuously placed on the production line for removal, an automatic pressure maintaining process is completed, and the pressure maintaining machine specifically includes a material moving support plate 1 and a cylinder support plate 2 fixed on the material moving support plate 1 and parallel to the material moving support plate 1, a first material moving mechanism 3 and a second material moving mechanism 4 are slidably installed on the material moving support plate 1 at intervals, the first material moving mechanism 3 and the second material moving mechanism 4 can both implement reciprocating sliding, a cyclic motion is performed between two station positions, specifically, a first shaping jig 5 and a second shaping jig 6 are disposed on the first material moving mechanism 3 and the second material moving mechanism 4 at intervals, for example, in the actual operation process, the first shaping jig 5 can reciprocate between the material loading position and the first pressure maintaining station, and the second shaping jig 6 can reciprocate between the second station and the first pressure maintaining station, and the specific shaping jig 5 moves on the first shaping jig 6, and then the first shaping jig 6 is completed.

Specifically, the cylinder support plate 2 is provided with a pressure maintaining mechanism 7 corresponding to the first shaping jig 5 and the second shaping jig 6 respectively, and the pressure maintaining mechanism 7 at the corresponding positions is used for maintaining the pressure of the workpiece to complete the pressure maintaining process.

Meanwhile, a material guide mechanism 8 and a material grabbing and shifting mechanism 9 are arranged at the material feeding end of the material moving support plate 1, and the material grabbing and shifting mechanism 9 is used for intermittently grabbing materials positioned at the material guide mechanism 8 to the first shaping jig 5 on the first material moving mechanism 3 or the first shaping jig 5 on the second material moving mechanism 4; the workpiece feeding device has the advantages that the pressure maintaining operation can be carried out on the first material moving mechanism 3 and the second material moving mechanism 4 when workpiece feeding is realized, so that the quantity of the pressure maintaining operation on the workpieces in the same time period is increased, at least 4 workpieces can be synchronously subjected to the pressure maintaining operation, continuous feeding switching operation can be realized through the material grabbing and shifting mechanism 9 according to the pressure maintaining processing condition of the workpieces at corresponding positions, and the automation level is improved.

When the position of a workpiece on a first shaping jig and a second shaping jig is switched, a first clamp 10 corresponding to the first shaping jig and a second clamp 11 corresponding to the second shaping jig are arranged on the material moving support plate 1, and the first clamp 10 and the second clamp 11 are used for clamping or releasing the workpiece; the first fixture 10 and the second fixture 11 are used for clamping the workpiece on the jig at the corresponding position, and when the first shaping fixture and the second shaping fixture follow the first material moving mechanism 3 or the second material moving mechanism 4 to change stations, the first fixture 10 is used for placing the workpiece on the first shaping fixture on the second shaping fixture, and the second fixture 11 is used for taking down the workpiece on the second shaping fixture and placing the workpiece on the production line, so that the workpiece position switching process is completed.

As shown in fig. 6, the first fixture 10 includes a first lifting cylinder 101 and a first connecting member 102 mounted on the first lifting cylinder 101, a first clamping cylinder 103 is mounted on the first connecting member 102, two first clamping strips 104 capable of sliding relatively are mounted on the first clamping cylinder 103, the lifting height of the first lifting cylinder 101 is adjusted, and the first clamping cylinder 103 drives the two first clamping strips 104 to approach or separate from each other to clamp or release a workpiece. Similarly, as shown in fig. 7, the second fixture 11 includes a second lifting cylinder 111 and a second connecting member 112 mounted on the second lifting cylinder 111, a second clamping cylinder 113 is mounted on the second connecting member 112, two second clamping strips 114 capable of sliding relatively are mounted on the second clamping cylinder 113, one of the second clamping strips 114 is provided with a sponge chuck 115 disposed inwards, and the principle of clamping the workpiece is the same, and the workpiece is driven to separate from the second clamping strip 114 by the sponge chuck 115 during release.

Specifically, as shown in fig. 3, the first material moving mechanism 3 includes a first material moving plate 31 slidably mounted on the material moving support plate 1, and a first driving device 32 for driving the first material moving plate 31 to slide reciprocally; the second material moving mechanism 4 comprises a second material moving plate 41 which is slidably arranged on the material moving supporting plate 1 and a second driving device 42 for driving the second material moving plate 41 to slide in a reciprocating manner; the first driving device 32 and the second driving device 42 both comprise a mounting structure, and a synchronous pulley and a synchronous belt which are arranged on the mounting structure, and realize reciprocating driving through a motor, and the synchronous belt drives the first material moving plate 31 and the second material moving plate 41 to move, and the specific constitution and principle adopt the conventional technology.

Further, as shown in fig. 3, the material guiding mechanism 8 includes a fixing plate 81 fixedly installed on the material moving support plate 1, and a first connecting bar 82 and a second connecting bar 83 installed on the fixing plate 81 at intervals; a first blocking strip 84 and a positioning strip 85 positioned at the tail end of the first blocking strip 84 are arranged on the first connecting strip 82, a second blocking strip 86 is arranged on the second connecting strip 83, and the first blocking strip 84 and the second blocking strip 86 form a material guiding channel 87; the fixing positions of the first connecting strip 82 and the second connecting strip 83 relative to the fixing plate 81 are adjustable, so that the width of the material guide channel 87 is adjustable, and workpieces conveyed on a production line can be matched by adjusting the width and the relative position of the material guide channel 87, so that the positioning and stopping of the workpieces can be realized through the positioning strip 85, and the material grabbing and shifting mechanism 9 can grab the workpieces reliably and stably.

As shown in fig. 5, the material grabbing and shifting mechanism 9 includes a third driving device 91 and a fourth driving device 92, and the fourth driving device 92 is provided with a material grabbing connection block 93 and a mounting block 94 mounted on the material grabbing connection block 93; the mounting block 94 is provided with a sucker fixing piece 95 with an adjustable position, the sucker fixing piece 95 is provided with at least two vacuum suckers 96 with adjustable positions, and the vacuum suckers 96 can realize negative pressure suction on a workpiece after being connected with an air source; specifically, the third driving device 91 is configured to drive the fourth driving device 92 to reciprocate between the first material moving mechanism 3 and the second material moving mechanism 4, and the fourth driving device 92 is configured to drive the vacuum chuck 96 to move up and down; the third driving device 91 and the fourth driving device 92 also comprise a mounting structure, and a synchronous pulley and a synchronous belt which are arranged on the mounting structure, and realize reciprocating driving through a motor, and specifically, the mounting structure in the fourth driving device 92 is mounted on the mounting structure in the third driving device 91 through a guide rail and a sliding block.

Further, as shown in fig. 4, the pressure maintaining mechanism 7 includes a fixing base 71 fixedly installed on the cylinder support plate 2 and an angle positioning plate 72 installed on the fixing base 71, and a cylinder rotating plate 73 and an angle adjusting member 74 for adjusting the cylinder rotating plate 73 are rotatably installed on the angle positioning plate 72; specifically, the angle adjustment range of the cylinder rotating plate 73 with respect to the angle positioning plate 72 is 0-45 degrees. A pressure maintaining cylinder 75 and a pressure maintaining head 76 mounted on the pressure maintaining cylinder 75 are mounted on the cylinder rotating plate 73, a pressure maintaining jig 77 matched with the first shaping jig 5 or the second shaping jig 6 is mounted on the pressure maintaining head 76, the pressure maintaining head 76 also has an angle adjusting structure, and the rotation adjusting angle range of the pressure maintaining head 76 is 0-45 degrees; the dwell mechanism 7 in this embodiment has been described in detail in applicant's prior patent and the specific principles are not described in detail herein.

Specifically, as shown in fig. 8, the automatic feeding device further comprises an electric cabinet 12 and an operation cabinet 13 installed on the electric cabinet 12 through a linear bearing, wherein a bottom plate of the operation cabinet 13 is installed and fixed on the material moving support plate 1, so that the height of the operation cabinet 13 relative to the electric cabinet 12 is adjustable, the operation cabinet 13 is convenient to adjust and adapt according to the height of a production line, meanwhile, a PLC central control system is integrated in the electric cabinet 12, and a display panel, a control button, a power button and a scram switch are integrated on the operation cabinet 13; the electrical connection and control principles and the like of the whole pressure maintaining machine based on the PLC hollow system are already described in the conventional technology in the field, and the embodiment is not described in detail, mainly for clearly describing and explaining the structural constitution and the action association.

In the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In the description of the present utility model, it should be noted that, directions or positional relationships indicated by terms such as "center", "upper", "lower", "left", "right", "inner", "outer", etc., are directions or positional relationships based on those shown in the drawings, or are directions or positional relationships conventionally put in use of the inventive product, are merely for convenience of describing the present utility model and simplifying the description, and are not indicative or implying that the apparatus or element to be referred to must have a specific direction, be constructed and operated in a specific direction, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and the like, are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance.

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.

Claims (10)

1. The utility model provides a pressurize machine, includes and moves the material backup pad and fixes move the material backup pad in and rather than parallel cylinder backup pad, its characterized in that:

the first material moving mechanism and the second material moving mechanism are arranged on the material moving support plate in a sliding manner, and a first shaping jig and a second shaping jig are arranged on the first material moving mechanism and the second material moving mechanism at intervals;

the cylinder supporting plate is provided with a pressure maintaining mechanism which corresponds to the first shaping jig and the second shaping jig respectively;

a material guide mechanism and a material grabbing and shifting mechanism are arranged at the material inlet end of the material shifting support plate;

the material grabbing and shifting mechanism is used for intermittently grabbing materials located at the material guide mechanism to the first shaping jig on the first material shifting mechanism or the first shaping jig on the second material shifting mechanism.

2. A pressure maintaining machine according to claim 1, characterized in that: a first clamp corresponding to the first shaping jig and a second clamp corresponding to the second shaping jig are arranged on the material moving supporting plate;

the first clamp and the second clamp are used for clamping or releasing a workpiece.

3. A pressure maintaining machine according to claim 2, characterized in that: the first clamp comprises a first lifting cylinder and a first connecting piece arranged on the first lifting cylinder, a first clamping cylinder is arranged on the first connecting piece, and two first clamping strips which can slide relatively are arranged on the first clamping cylinder.

4. A pressure maintaining machine according to claim 2, characterized in that: the second clamp comprises a second lifting cylinder and a second connecting piece arranged on the second lifting cylinder, a second clamping cylinder is arranged on the second connecting piece, two second clamping strips capable of sliding relatively are arranged on the second clamping cylinder, and one of the second clamping strips is provided with a sponge chuck which is arranged inwards.

5. A pressure maintaining machine according to claim 1, characterized in that: the first material moving mechanism comprises a first material moving plate which is slidably arranged on the material moving supporting plate, and a first driving device for driving the first material moving plate to slide in a reciprocating manner;

the second material moving mechanism comprises a second material moving plate which is slidably arranged on the material moving supporting plate, and a second driving device which is used for driving the second material moving plate to slide in a reciprocating manner.

6. A pressure maintaining machine according to claim 1, characterized in that: the material guide mechanism comprises a fixed plate fixedly arranged on the material moving support plate, and a first connecting strip and a second connecting strip which are arranged on the fixed plate at intervals;

the first connecting strip is provided with a first material blocking strip and a positioning strip positioned at the tail end of the first material blocking strip, the second connecting strip is provided with a second material blocking strip, and the first material blocking strip and the second material blocking strip form a material guiding channel;

the fixed positions of the first connecting strip and the second connecting strip relative to the fixed plate are adjustable so that the width of the material guide channel is adjustable.

7. A pressure maintaining machine according to claim 1, characterized in that: the material grabbing and shifting mechanism comprises a third driving device and a fourth driving device, wherein a material grabbing connecting block and a mounting block arranged on the material grabbing connecting block are arranged on the fourth driving device;

the mounting block is provided with a sucker fixing piece with an adjustable position, and the sucker fixing piece is provided with at least two vacuum suckers with adjustable positions;

the third driving device is used for driving the fourth driving device to reciprocate between the first material moving mechanism and the second material moving mechanism, and the fourth driving device is used for driving the vacuum chuck to move up and down.

8. A pressure maintaining machine according to claim 1, characterized in that: the pressure maintaining mechanism comprises a fixed seat fixedly mounted on the cylinder supporting plate and an angle positioning plate mounted on the fixed seat, and the angle positioning plate is rotatably provided with a cylinder rotating plate and an angle adjusting piece for adjusting the cylinder rotating plate;

the cylinder rotating plate is provided with a pressure maintaining cylinder and a pressure maintaining head arranged on the pressure maintaining cylinder, and the pressure maintaining head is provided with a pressure maintaining jig matched with the first shaping jig or the second shaping jig.

9. The pressure maintaining machine according to claim 8, wherein: the angle adjusting range of the cylinder rotating plate relative to the angle positioning plate is 0-45 degrees; the rotation adjusting angle range of the pressure maintaining head is 0-45 degrees.

10. A pressure maintaining machine according to any one of claims 1-8, wherein: the automatic feeding device also comprises an electric control box and an operation box arranged on the electric control box through a linear bearing, wherein a bottom plate of the operation box is fixedly provided with the material moving support plate;

the height of the operation box relative to the electric control box is adjustable;

the PLC central control system is integrated in the electric control box, and the display panel, the control button, the power button and the scram switch are integrated on the operation box.