CN110722508A - Double-station air pipe press-in machine - Google Patents

Abstract

The invention discloses a double-station air pipe press-in machine which comprises a rack, an operating platform, four trundles, a power supply and a programmable controller, wherein the rack is provided with a bearing support, the operating platform is fixed on the bearing support, the operating platform forms an operating area, the four trundles are respectively arranged at four corners of the bottom of the rack, the power supply is electrically connected with the programmable controller, the double-station air pipe press-in machine also comprises two symmetrical air pipe gluing press-fitting mechanisms, each air pipe gluing press-fitting mechanism comprises a lower press, a clamp device and a gluing device, the lower press is arranged on the operating platform through a lower press base, and an air pipe is arranged at the bottom of the; the fixture device is arranged on the lower press base to clamp the compressor shell; the gluing device is arranged on the mounting seat of the clamp device to glue the bottom of the air pipe; the power supply provides electric energy for the pressing machine, the clamping device and the gluing device. The invention can improve the production efficiency, reduce safety accidents caused by human errors and ensure the assembly precision of the air pipe and the bearing shell.

Description

Double-station air pipe press-in machine

Technical Field

The invention relates to the technical field of workpiece assembling equipment, in particular to a double-station air pipe press-in machine.

Background

With the increase in automobile output, the demand for gas turbine engines is increasing, and the demand for gas compressors is also increasing. The compressor is a component which uses high-speed rotating blades to do work for air in a gas turbine engine to improve the air pressure, the shell of the compressor is provided with an air flow inlet and an air flow outlet, the inlet is generally axially arranged, a flow channel is slightly tapered to reduce air inlet resistance, and the outlet is generally designed into a volute shape with the flow channel gradually expanding along the circumference, so that the high-speed air flow is continuously expanded there, and the total efficiency of the supercharger is improved.

However, the assembly precision of the air compressor air pipe and the air compressor shell is low and the gluing is slow at present, so that the production efficiency is low, and safety accidents are easy to cause.

Therefore, it is an urgent problem to be solved by those skilled in the art to provide a double-station air pipe press with high efficiency assembly.

Disclosure of Invention

In view of this, the invention provides a double-station air pipe press-in machine, which can reduce safety accidents caused by human errors, ensure the assembly precision and quality of an air pipe and a bearing shell, improve the production efficiency, and ensure the high efficiency and safety of an assembly link.

In order to achieve the purpose, the invention adopts the following technical scheme:

a double-station air pipe press-in machine comprises a machine frame, an operating platform, four trundles, a power supply, a programmable controller and two symmetrical air pipe gluing press-fitting mechanisms, wherein the machine frame is provided with a bearing support, the operating platform is fixed on the bearing support, the four trundles are respectively arranged at four corners of the bottom of the machine frame, the power supply is electrically connected with the programmable controller,

the air pipe gluing and press-fitting mechanism comprises a lower press, a clamp device and a gluing device,

the lower press is arranged on the operating platform through a lower press base, and an air pipe is arranged at the bottom of the lower press;

the clamp device is arranged on the lower press base to clamp the compressor shell;

the gluing device is arranged on the mounting seat of the clamp device to glue the bottom of the air pipe;

the power supply provides electric energy for the lower press, the clamp device and the gluing device.

Further, the clamp device comprises an XY slipway, a backing plate, a clamp bottom plate, two vertical plates, a core shaft, a positioning column, a clamping mechanism, a supporting block base, a supporting block and a bolt,

the XY sliding table is arranged on the upper part of the lower press base; the mounting seat is fixed on the upper part of the XY sliding table; the base plate is fixed on the upper part of the mounting seat; the clamp bottom plate is fixed on the upper part of the base plate through the two vertical plates on the two sides of the clamp bottom plate; the mandrel and the positioning column are vertically arranged on the vertical plate, the mandrel penetrates through a central circular hole of the compressor shell, and the positioning column penetrates through a circular hole of the compressor shell close to the end edge; the clamping mechanism is arranged on the clamp bottom plate and is positioned on one side of the clamp bottom plate; the supporting block base is fixed on the mounting base and is positioned on the other side of the clamp bottom plate; the lower part of the supporting block is supported on the supporting block base through the bolt, and the upper part of the supporting block supports a pipe orifice of the compressor shell; the compressor shell is clamped among the clamp bottom plate, the clamping mechanism and the supporting block;

the XY sliding table and the clamping mechanism are electrically connected with the power supply.

Further, the gluing device comprises a vertical column, a pushing cylinder, a right-angle base plate, a gluing cylinder and a gluing claw,

the upright post is arranged on the upper part of the mounting seat through a base of the upright post; the pushing cylinder is arranged at the top of the upright post; the right-angle base plate is fixed on the extension end of the telescopic rod of the pushing cylinder; the gluing cylinder is arranged on the upper part of the right-angle base plate; the gluing claw is arranged on the gluing cylinder;

the pushing cylinder and the gluing cylinder are electrically connected with the power supply respectively.

Further, the downward pressing machine comprises a downward pressing machine body, a guide rod and an air pipe clamping part, and the downward pressing machine body is fixed to the top of the downward pressing machine base; the guide rod is arranged at the bottom of the lower press body; the air pipe clamping part is arranged at the bottom of the guide rod.

Further, the air pipe clamping part comprises a lower pressure head clamp, a first clamping air cylinder, an air cylinder positioning plate and a clamping block, and the lower pressure head clamp is arranged at the bottom of the guide rod; the first clamping cylinder is connected with the lower pressure head clamp through the cylinder positioning plate; the clamping block is arranged on the first clamping cylinder; the air pipe is clamped between the lower pressure head clamp and the clamping block.

Further, the clamping mechanism comprises a second clamping cylinder and a pressure plate,

the second clamping cylinder is arranged on the clamp bottom plate; the pressing plate is fixed at the cylinder shaft extending end of the second clamping cylinder; the compressor shell is clamped among the clamp bottom plate, the pressing plate and the supporting block;

the second clamping cylinder is electrically connected with the power supply.

Further, still include cylinder gasket and guard plate, the propelling movement cylinder pass through the cylinder gasket with the stand is connected, the guard plate sets up between cylinder gasket and the stand.

Further, the model of the programmable controller is CP 1H.

By adopting the scheme, the invention has the beneficial effects that:

the invention has double stations, the two sets of air pipe gluing press-fitting mechanisms work simultaneously and do not interfere with each other, the working efficiency can be improved, the market demand can be met, glue is manually coated in a gluing claw of the gluing device, the air pipe is arranged in a lower pressure head clamp of an air pipe clamping part of a lower press and is clamped by a first clamping cylinder, then clamping the compressor shell on a fixture device, driving a pressure plate to clamp and press the compressor shell by a second clamping cylinder, pushing a gluing cylinder to a corresponding position of an air pipe by a pushing cylinder in a gluing device, then the gluing cylinder drives the gluing claw to clamp and finish gluing the bottom end of the air pipe, after gluing, the gluing device returns to the original position, the lower press works to press the air pipe into the shell of the compressor, therefore, safety accidents caused by human errors can be reduced, the assembly precision and quality of the air pipe and the bearing shell can be ensured, and the high efficiency and safety of the assembly link are ensured.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings 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 embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is a front view of a dual-station air tube compressor according to the present invention;

FIG. 2 is an isometric view of a dual station tube compressor provided in accordance with the present invention;

FIG. 3 is a front isometric view of the clamp device provided by the present invention;

FIG. 4 is a rear isometric view of the clamp device provided by the present invention;

FIG. 5 is a schematic view of the structure of the lower press according to the present invention;

FIG. 6 is a schematic structural diagram of a glue spreading device provided by the invention;

FIG. 7 is a schematic structural view of the trachea cannula holding device according to the present invention;

fig. 8 is a schematic structural diagram of a gluing claw provided by the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1-8, the embodiment of the invention discloses a double-station air pipe press-in machine, which comprises a rack 1, an operation table 2, four casters 3, a power supply and a programmable controller, wherein the rack 1 is provided with a bearing support 11, the operation table 2 is fixed on the bearing support 11, the four casters 3 are respectively installed at four corners of the bottom of the rack 1, the power supply is electrically connected with the programmable controller, the double-station air pipe press-in machine further comprises two symmetrical air pipe gluing press-in mechanisms 4, each air pipe gluing press-in mechanism 4 comprises a lower press 41, a fixture device 42 and a gluing device 43, the lower press 41 is installed on the operation table 2 through a lower press base 411, and an air pipe is installed at the bottom of the; the fixture device 42 is mounted on the lower press base 411 to clamp the compressor housing; the gluing device 43 is arranged on the mounting seat 4231 of the clamping device 42 to glue the bottom of the air pipe; the power supply supplies electric power to the down press 41, the jig device 42, and the glue application device 43. The invention has double stations, two sets of air pipe gluing press-fitting mechanisms 4 work simultaneously without mutual interference, can improve the working efficiency and meet the market demand, glue is manually smeared in a gluing claw 435 of a gluing device 43, an air pipe is arranged in a lower pressure head clamp 4141 of an air pipe clamping part 414 of a lower press 41 and is clamped by a first clamping cylinder 4142, then a compressor shell is clamped on the clamp device 42, a second clamping cylinder 4271 drives a pressure plate 4272 to clamp the compressor shell, a pushing cylinder 432 in the gluing device 43 pushes the gluing cylinder 434 to the corresponding position of the air pipe, then the gluing cylinder 434 drives the gluing claw 435 to clamp and finish gluing the bottom end of the air pipe, after gluing, the gluing device 43 returns to the original position, the air pipe is pressed into the compressor shell by the operation of the lower press 41, thereby reducing the safety accident caused by the human error and ensuring the assembly precision and quality of the air pipe and the bearing shell, the high efficiency and the safety of the assembly link are ensured.

Specifically, the fixture device 42 includes an XY sliding table 421, a backing plate 422, a fixture bottom plate 423, two vertical plates 424, a mandrel 425, a positioning column 426, a clamping mechanism 427, a supporting block base 428, a supporting block 429 and a bolt 4230, wherein the XY sliding table 421 is installed on the upper portion of the lower press base 411; the mounting seat 4231 is fixed on the upper part of the XY sliding table 421; the backing plate 422 is fixed on the upper part of the mounting seat 4231; the clamp bottom plate 423 is fixed on the upper part of the backing plate 422 through two vertical plates 424 on two sides of the clamp bottom plate; the mandrel 425 and the positioning column 426 are vertically arranged on the vertical plate 424, the mandrel 425 penetrates through a central circular hole of the compressor shell, and the positioning column 426 penetrates through a circular hole close to the end edge of the compressor shell; the clamping mechanism 427 is mounted on and on one side of the clamp base plate 423; the supporting block base 428 is fixed on the mounting seat 4231 and is positioned at the other side of the clamp bottom plate 423; the lower part of the supporting block 429 is supported on a supporting block base 428 through a bolt 4230, and the upper part of the supporting block 429 supports a pipe orifice of the compressor shell; the compressor housing is clamped between the clamp bottom plate 423, the clamping mechanism 427 and the supporting block 429; the XY slide table 421 and the clamping mechanism 427 are electrically connected to a power supply.

Specifically, the gluing device 43 comprises a column 431, a pushing cylinder 432, a right-angle base plate 433, a gluing cylinder 434 and a gluing claw 435, wherein the column 431 is arranged at the upper part of the mounting seat 4231 through a base thereof; the pushing cylinder 432 is arranged at the top of the upright post 431; the right-angle base plate 433 is fixed on the extension end of the telescopic rod of the pushing cylinder 432; the gluing cylinder 434 is arranged on the upper part of the right-angle base plate 433; the gluing claw 435 is mounted on the gluing cylinder 434; the pushing cylinder 432 and the gluing cylinder 434 are electrically connected with a power supply respectively.

Specifically, the hold-down press 41 includes a hold-down press body 412, a guide rod 413 and a pneumatic clamping portion 414, and the hold-down press body 412 is fixed on the top of the hold-down press base 411; the guide rod 413 is installed at the bottom of the lower press body 412; the trachea gripping portion 414 is mounted to the bottom of the guide 413.

Specifically, the air pipe clamping part 414 comprises a lower pressure head clamp 4141, a first clamping air cylinder 4142, an air cylinder positioning plate 4143 and a clamping block 4144, wherein the lower pressure head clamp 4141 is arranged at the bottom of the guide rod 413; the first clamping cylinder 4142 is connected with the lower pressure head clamp 4141 through a cylinder positioning plate 4143; the clamp block 4144 is mounted on the first clamp cylinder 4142; the air tube is clamped between the lower ram holder 4141 and the clamp block 4144.

Specifically, the clamping mechanism 427 comprises a second clamping cylinder 4271 and a pressure plate 4272, wherein the second clamping cylinder 4271 is mounted on the clamp base plate 423; the pressure plate 4272 is fixed at the cylinder shaft extending end of the second clamping cylinder 4271; the compressor shell is clamped among the clamp bottom plate 423, the pressing plate 4272 and the supporting block 429; the second clamping cylinder 4271 is electrically connected with a power supply.

Specifically, the device further comprises a cylinder gasket 436 and a protection plate 437, wherein the pushing cylinder 432 is connected with the upright post 431 through the cylinder gasket 436, and the protection plate 437 is arranged between the cylinder gasket 436 and the upright post 431.

Specifically, the model of the programmable controller is CP 1H.

Specifically, the gluing claw 435 includes a gluing claw body 4351, four studs 4352, four springs 4353, two baffles 4354 and four nuts 4355, the gluing claw body 4351 is mounted on the gluing cylinder 434, the four studs 4352 are respectively and symmetrically mounted on two sides of the gluing claw body 4351 to form two stud sets, the four springs 4353 are respectively sleeved on the four studs 4352, the two baffles 4354 are respectively sleeved on the two stud sets, and the four nuts 4355 are respectively screwed into the four studs 4352 to press the baffles 4354 and the springs 4353.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. A double-station air pipe press-in machine comprises a machine frame, an operation table, four trundles, a power supply and a programmable controller, wherein the machine frame is provided with a bearing support, the operation table is fixed on the bearing support, the four trundles are respectively arranged at four corners of the bottom of the machine frame, the power supply is electrically connected with the programmable controller, the double-station air pipe press-in machine is characterized by further comprising two symmetrical air pipe gluing press-fitting mechanisms,

the air pipe gluing and press-fitting mechanism comprises a lower press, a clamp device and a gluing device,

the lower press is arranged on the operating platform through a lower press base, and an air pipe is arranged at the bottom of the lower press;

the clamp device is arranged on the lower press base to clamp the compressor shell;

the gluing device is arranged on the mounting seat of the clamp device to glue the bottom of the air pipe;

the power supply provides electric energy for the lower press, the clamp device and the gluing device.

2. The double-station air pipe pressing machine according to claim 1, wherein the fixture device comprises an XY slipway, a backing plate, a fixture bottom plate, two vertical plates, a mandrel, a positioning column, a clamping mechanism, a support block base, a support block and a bolt,

the XY sliding table is arranged on the upper part of the lower press base; the mounting seat is fixed on the upper part of the XY sliding table; the base plate is fixed on the upper part of the mounting seat; the clamp bottom plate is fixed on the upper part of the base plate through the two vertical plates on the two sides of the clamp bottom plate; the mandrel and the positioning column are vertically arranged on the vertical plate, the mandrel penetrates through a central circular hole of the compressor shell, and the positioning column penetrates through a circular hole of the compressor shell close to the end edge; the clamping mechanism is arranged on the clamp bottom plate and is positioned on one side of the clamp bottom plate; the supporting block base is fixed on the mounting base and is positioned on the other side of the clamp bottom plate; the lower part of the supporting block is supported on the supporting block base through the bolt, and the upper part of the supporting block supports a pipe orifice of the compressor shell; the compressor shell is clamped among the clamp bottom plate, the clamping mechanism and the supporting block;

the XY sliding table and the clamping mechanism are electrically connected with the power supply.

3. The double-station air pipe press-in machine according to claim 1, wherein the gluing device comprises a column, a pushing cylinder, a right-angle base plate, a gluing cylinder and a gluing claw,

the upright post is arranged on the upper part of the mounting seat through a base of the upright post; the pushing cylinder is arranged at the top of the upright post; the right-angle base plate is fixed on the extension end of the telescopic rod of the pushing cylinder; the gluing cylinder is arranged on the upper part of the right-angle base plate; the gluing claw is arranged on the gluing cylinder;

the pushing cylinder and the gluing cylinder are electrically connected with the power supply respectively.

4. The double-station air pipe press-in machine according to claim 1, wherein the lower press comprises a lower press body, a guide rod and an air pipe clamping part, and the lower press body is fixed on the top of the lower press base; the guide rod is arranged at the bottom of the lower press body; the air pipe clamping part is arranged at the bottom of the guide rod.

5. The double-station air pipe pressing machine according to claim 4, wherein the air pipe clamping part comprises a lower pressure head clamp, a first clamping air cylinder, an air cylinder positioning plate and a clamping block, and the lower pressure head clamp is installed at the bottom of the guide rod; the first clamping cylinder is connected with the lower pressure head clamp through the cylinder positioning plate; the clamping block is arranged on the first clamping cylinder; the air pipe is clamped between the lower pressure head clamp and the clamping block.

6. The double-station air pipe press-in machine according to claim 2, wherein the clamping mechanism comprises a second clamping cylinder and a pressure plate,

the second clamping cylinder is arranged on the clamp bottom plate; the pressing plate is fixed at the cylinder shaft extending end of the second clamping cylinder; the compressor shell is clamped among the clamp bottom plate, the pressing plate and the supporting block;

the second clamping cylinder is electrically connected with the power supply.

7. The double-station air pipe press-in machine according to claim 3, further comprising a cylinder gasket through which the pushing cylinder is connected with the upright, and a protection plate disposed between the cylinder gasket and the upright.

8. The double-station air pipe press according to claim 1, wherein the programmable controller is model CP 1H.

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