CN221158288U

CN221158288U - Multifunctional integrated machine

Info

Publication number: CN221158288U
Application number: CN202322530369.0U
Authority: CN
Inventors: 葛富民
Original assignee: Zhejiang Green Universe Air Conditioning And Refrigeration Fittings Co ltd
Current assignee: Zhejiang Green Universe Air Conditioning And Refrigeration Fittings Co ltd
Priority date: 2023-09-18
Filing date: 2023-09-18
Publication date: 2024-06-18
Anticipated expiration: 2033-09-18

Abstract

The utility model discloses a multifunctional integrated machine which comprises a middle frame, a base and an upper cover, wherein the base and the upper cover are arranged on two opposite sides of the middle frame; according to the utility model, the pipe fitting is conveyed to the supporting component by the automatic blanking component, the second transmission component works, so that the reaming component in the Z-axis direction acts towards the supporting component, and the pipe fitting on the supporting component is reamed relatively; the first transmission component works towards the X axis, so that the pipe fitting transmitted to the support is arranged opposite to the dotting component, and dotting work is completed; the first transmission component works towards the X axis, so that the pipe fitting after dotting work is moved to the bending component by the supporting component, and the pipe fitting is finished by the bending component arranged on the upper cover and the base; therefore, the flaring, forming dotting and bent pipe production devices which are independently arranged are integrated, the working procedures and the processing cost are effectively saved, and a large amount of labor force is saved; because of the mechanical preparation, compared with manual operation, the method effectively prevents the problem of unstable production quality.

Description

Multifunctional integrated machine

Technical Field

The utility model relates to the technical field of gas collecting tube production, in particular to a multifunctional integrated machine.

Background

Flaring, forming dotting and bent pipe production devices for gas collecting pipes in the prior art are all independently arranged, when in production, the lack of good coordination and linkage can lead to the reduction of the operation efficiency of a production line, the production rhythm is not coordinated, and the production process can need more manual operation and monitoring, so that the labor cost can be increased, and the production quality is unstable due to the influence of human factors.

Disclosure of Invention

The utility model aims to solve the technical problem of providing a multifunctional integrated machine so as to solve the technical problem in the background art.

The multifunctional integrated machine is realized by the following technical scheme: comprises a middle frame, a base and an upper cover which are arranged on two opposite sides of the middle frame;

The surface of the base is provided with a supporting component and a reaming component; an automatic blanking component is arranged on the middle frame; the upper cover surface is provided with a dotting component; the base and the upper cover are provided with bending components;

The reaming assembly is arranged in the Z-axis direction of the supporting assembly; the dotting component and the bending component are arranged in the X-axis direction of the supporting component; the automatic blanking component and the supporting component are arranged up and down oppositely;

a first transmission assembly is arranged between the base and the support assembly; a second transmission assembly is arranged between the base and the reaming assembly; a third transmission assembly and a fourth transmission assembly are arranged between the base and the bending assembly.

As a preferable technical scheme, the first transmission assembly comprises a first chute arranged on the surface of the base; the surface of the first chute is embedded with a first motor; a first screw motor shaft on the first motor is arranged in the first chute;

The support assembly comprises a first sliding block arranged in the first sliding groove; the surface of the first sliding block is provided with a first threaded hole; the first threaded motor shaft is arranged in the first threaded hole.

As a preferable technical scheme, the opposite surfaces of the first sliding blocks are respectively provided with a second motor; the two sides of the surface of the first sliding block are provided with third motor bases; the upper end of a motor shaft of a third thread on the third motor base supports a pipe fitting;

The surface of the third motor seat is provided with a third threaded hole; a second threaded motor shaft on the second motor is arranged in the third threaded hole; and guide pieces for guiding and limiting the third motor seat are arranged on two sides of the surface of the first sliding block.

As a preferable technical scheme, the first transmission assembly comprises a second chute arranged on the surface of the base; a fourth motor is embedded in the surface of the second chute; a fourth screw motor shaft on the fourth motor is arranged in the second chute;

The reaming assembly comprises a fixed bracket and a guide pipe which are arranged in the second chute; the fixed bracket is provided with an assembly hole; the guide pipe is arranged in the assembly hole; the surface of the fixed bracket is provided with a second threaded hole; the fourth screw motor shaft is installed in the second threaded hole.

As the preferable technical scheme, a fifth motor is arranged at one end of the guide tube, and a reaming column is inserted at the other end of the guide tube; one end of the reaming column is provided with a conical head;

a fourth threaded hole is formed in the other end of the reaming column; a fifth threaded motor shaft on the fifth motor is meshed and installed in the fourth threaded hole; the conical head is arranged opposite to the head and the tail of the pipe fitting.

As the preferable technical scheme, the dotting component comprises more than one first telescopic base which is arranged on the surface of the upper cover and arranged along the Z-axis array; the first telescopic base (23) is provided with a roller assembly;

The roller component is arranged in a vertically opposite manner with the pipe fitting; the surface of the upper cover is provided with more than one punching mechanical arm; more than one punching mechanical arm is respectively arranged at two sides of the roller assembly.

As a preferable technical scheme, the third transmission assembly comprises a third chute arranged on the surface of the base; a sixth motor is embedded in the surface of the third chute; a sixth threaded motor shaft on the sixth motor is arranged in the third chute;

The fourth transmission assembly comprises a fourth chute arranged on the surface of the upper cover; a seventh motor is embedded and installed on the surface of the fourth chute; a seventh thread motor shaft on the seventh motor is arranged in the fourth chute;

The fourth transmission assembly comprises a second sliding block arranged in the third sliding groove and a third sliding block arranged in the fourth sliding groove; the second sliding block and the third sliding block are respectively provided with a sixth threaded hole and a seventh threaded hole;

The motor shaft with the sixth thread is arranged in the sixth threaded hole; the seventh threaded motor shaft is mounted in the seventh threaded hole.

As an optimized technical scheme, a second telescopic base is arranged on the third sliding block, and guide rollers which are arranged up and down opposite to the pipe fittings are arranged on the second telescopic base;

A third telescopic base is arranged on the second sliding block, a hinged support is arranged on the third telescopic base, and a rotating piece is arranged between the hinged supports; an eighth motor is arranged on the side surface of the hinged support;

An eighth motor rotating shaft on the eighth motor penetrates through the hinged support and is connected with the rotating piece; the rotating piece is attached to the pipe fitting.

As an optimal technical scheme, a material returning groove is arranged on the surface of the base and is arranged on one side of the first chute;

The automatic blanking component comprises a guide plate obliquely arranged on the middle frame; the surface of the middle frame is provided with more than one limiting chute; a ninth motor is embedded in the limiting chute; a ninth threaded motor shaft of the ninth motor is arranged in the limiting chute;

The surface of the middle frame is vertically provided with more than one baffle, and one end of the baffle is provided with a limiting chute; the partition plate is provided with a ninth threaded hole, and a motor shaft with ninth threads is installed in the ninth threaded hole in a meshed mode.

The beneficial effects of the utility model are as follows:

The surface of the base is provided with a supporting component and a reaming component, an automatic blanking component is arranged on the middle frame, the surface of the upper cover is provided with a dotting component, the base and the upper cover are provided with bending components, and the reaming component is arranged in the Z-axis direction of the supporting component; the dotting assembly and the bending assembly are arranged in the X-axis direction of the supporting assembly, the automatic blanking assembly and the supporting assembly are arranged in a vertically opposite mode, and a first transmission assembly is arranged between the base and the supporting assembly; a second transmission assembly between the base and the reaming assembly; the third transmission assembly and the fourth transmission assembly are arranged between the base and the bending assembly;

The automatic blanking assembly transmits the pipe fitting to the supporting assembly, the second transmission assembly works, so that the reaming assembly in the Z-axis direction acts towards the supporting assembly, and the pipe fitting on the supporting assembly is reamed relatively; the first transmission component works towards the X axis, so that the pipe fitting transmitted to the support is arranged opposite to the dotting component, and dotting work is completed; the first transmission component works towards the X axis, so that the pipe fitting after dotting work is moved to the bending component by the supporting component, and the pipe fitting is finished by the bending component arranged on the upper cover and the base; therefore, the flaring, forming dotting and bent pipe production devices which are independently arranged are integrated, the working procedures and the processing cost are effectively saved, and a large amount of labor force is saved; because of the mechanical preparation, compared with manual operation, the method effectively prevents the problem of unstable production quality.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of a reaming assembly;

FIG. 2 is a schematic diagram of a multifunctional integrated machine according to the present utility model;

FIG. 3 is a second schematic diagram of the multifunctional integrated machine of the present utility model;

FIG. 4 is a third schematic diagram of the multifunctional integrated machine of the present utility model;

fig. 5 is a schematic illustration of the connection of the support assembly and the reamer assembly.

Detailed Description

All of the features disclosed in this specification, or all of the steps in a method or process disclosed, may be combined in any combination, except for mutually exclusive features and/or steps.

As shown in fig. 1 to 5, the multifunctional integrated machine of the present utility model comprises a middle frame 101, and a base 102 and an upper cover 100 mounted on opposite sides of the middle frame 101;

The surface of the base 102 is provided with a supporting component 2 and a reaming component 4; the middle frame 101 is provided with an automatic blanking component 3; the surface of the upper cover 100 is provided with a dotting component 5; the base 102 and the upper cover 100 are provided with a bending component 6;

the reaming assembly 4 is arranged in the Z-axis direction of the supporting assembly 2; the dotting component 5 and the bending component 6 are arranged in the X-axis direction of the supporting component 2; the automatic blanking component 3 and the supporting component 2 are arranged up and down oppositely;

a first transmission assembly between the base 102 and the support assembly 2; a second transmission assembly between the base 102 and the reaming assembly 4; a third transmission assembly and a fourth transmission assembly between the base 102 and the bending assembly 6.

In this embodiment, the first transmission assembly includes a first chute 36 disposed on a surface of the base 102; a first motor (not shown) is embedded and installed on the surface of the first chute 36; a first threaded motor shaft 35 on the first motor is arranged in the first chute 36;

The support assembly 2 comprises a first slider 13 arranged in a first chute 36; the surface of the first slider 13 is provided with a first threaded hole (not shown); the first threaded motor shaft 35 is disposed within the first threaded bore; thereby realizing that the supporting component can transmit the pipe fitting to the dotting component and the bending component.

In order to enable the support assembly to be suitable for pipe fittings with various pipe diameters, a second motor 14 is arranged on the first sliding block 13 in an opposite way; the third motor bases 7 are arranged on the two sides of the surface of the first sliding block 13; the upper end of a third threaded motor shaft 9 on the third motor base 7 supports a pipe fitting 8;

The surface of the third motor base 7 is provided with a third threaded hole 12; a second threaded motor shaft 10 on a second motor 14 is mounted in the third threaded bore 12; guide pieces 65 used for guiding and limiting the third motor base 7 are arranged on two sides of the surface of the first sliding block 13, and accuracy of movement of the third motor base is improved.

In this embodiment, in order to ensure the accuracy of the position of the pipe fitting on the support component, the third threaded motor shafts 9 on two sides rotate, so that the pipe fitting is displaced towards the third motor base and is propped against the third motor base, and the position of each pipe fitting on the third threaded motor shafts is ensured to be the same.

To achieve movement of the reamer assembly on the surface of the base, the reamer assembly includes a second runner 64 on the surface of the base 102; a fourth motor (not shown) is embedded on the surface of the second chute 64; a fourth threaded motor shaft 62 on the fourth motor is disposed within the second chute 64;

The reaming assembly 4 comprises a fixed bracket 66 and a guide tube 17 mounted in the second chute 64; the fixing bracket 66 is provided with an assembly hole 18; the guide tube 17 is arranged in the assembly hole 18; the surface of the fixed bracket 66 is provided with a second threaded hole 63; the fourth threaded motor shaft 62 is mounted in the second threaded bore 63.

In order to realize that the reaming device can be provided with holes with different diameters, a fifth motor 20 is arranged at one end of a guide pipe 17, and a reaming column 67 is inserted at the other end of the guide pipe 17; one end of the reaming column 67 is provided with a conical head 15;

The other end of the reaming column 67 is provided with a fourth threaded hole 16; a fifth threaded motor shaft 19 on the fifth motor 20 is engaged and mounted in the fourth threaded hole 16; the conical head 15 is arranged opposite to the head and the tail of the pipe fitting 8; replacement of the reamer posts 67 of the different diameter cone head 15 is achieved by removing the reamer posts 67 from the guide tube.

In this embodiment, the dotting assembly 5 includes one or more first telescopic bases 23 mounted on the surface of the upper cover 100 and arranged along the Z-axis array; the first telescopic base 23 is provided with a roller assembly 22;

The roller assembly 22 is arranged in an up-down opposite manner with the pipe fitting 8; the surface of the upper cover 100 is provided with more than one punching mechanical arm 21; more than one punching mechanical arm 21 is respectively arranged at two sides of the roller component 22; the punching robot 21 is a common technical means in the prior art.

In this embodiment, the third transmission assembly includes a third chute 70 disposed on the surface of the base 102; a sixth motor (not shown) is embedded in the surface of the third chute 70; a sixth threaded motor shaft 88 on the sixth motor is disposed within the third chute 70;

The fourth transmission assembly comprises a fourth chute 80 arranged on the surface of the upper cover 100; a seventh motor (not shown) is embedded and installed on the surface of the fourth chute 80; a seventh screw motor shaft 81 on the seventh motor is arranged in the fourth chute 80;

The fourth drive assembly includes a second slide 270 mounted in the third chute 70 and a third slide 24 mounted in the fourth chute 80; the second slider 270 and the third slider 24 are respectively provided with a sixth screw hole 71 and a seventh screw hole 82;

a sixth threaded motor shaft 88 is mounted within the sixth threaded bore 71; the seventh threaded motor shaft 81 is mounted in the seventh threaded bore 82.

In this embodiment, a second telescopic base 25 is installed on the third slider 24, and a guide roller 26 disposed opposite to the pipe 8 up and down is installed on the second telescopic base 25;

The second slider 270 is provided with a third telescopic base 29, the third telescopic base 29 is provided with a hinged support 271, and a rotating member 28 is arranged between the hinged supports 271; an eighth motor 27 is mounted on the side of the hinge bracket 271;

An eighth motor rotating shaft on the eighth motor 27 penetrates through the hinged support 271 and is connected with the rotating member 28; the rotating piece 28 is attached to the pipe fitting 8;

The guide roller 26 is controlled to move up and down through the second telescopic base, so that pipe diameters with different diameters are adapted; meanwhile, when the bending work is performed, the guide roller presses and holds the pipe fitting, and the eighth motor works to enable the rotating bracket to bend the pipe fitting; and the bending position of the pipe fitting is adjusted by the third transmission assembly and the fourth transmission assembly.

In this embodiment, a material returning groove 30 is disposed on the surface of the base 102, and the material returning groove 30 is disposed on one side of the first chute 36;

The automatic blanking assembly 3 comprises a guide plate 201 obliquely arranged on the middle frame 101; the surface of the middle frame 101 is provided with more than one limit sliding groove 203; a ninth motor (not shown) is embedded in the limit chute 203; a ninth threaded motor shaft of the ninth motor is arranged in the limit chute 203;

More than one partition plate 202 is vertically arranged on the surface of the middle frame 101, and one end of the partition plate 202 is provided with a limit chute 203; the partition 202 is provided with a ninth threaded hole (not shown), and a motor shaft with ninth threads is meshed and installed in the ninth threaded hole;

The pipe fitting prevents to open by left side baffle first on the deflector, and the pipe fitting rolls to on the right side baffle, and when pipe fitting needs down, the left side baffle is closed, and the right side baffle is opened to realize automatic unloading.

In the embodiment, the side face of the middle frame is provided with a PLC control device, and all the electric appliances in the device are connected with the PLC control device.

The beneficial effects of the utility model are as follows: the pipe fitting of different pipe diameters can be suitable for according to customer's actual demand, the reaming work of different diameters can be carried out to the pipe fitting, can adjust the angle of buckling in length simultaneously.

The foregoing is merely illustrative of specific embodiments of the present utility model, and the scope of the utility model is not limited thereto, but any changes or substitutions that do not undergo the inventive effort should be construed as falling within the scope of the present utility model. Therefore, the protection scope of the present utility model should be subject to the protection scope defined by the claims.

Claims

1. The utility model provides a multifunctional integrated machine which characterized in that: comprises a middle frame (101), a base (102) and an upper cover (100) which are arranged on two opposite sides of the middle frame (101);

The surface of the base (102) is provided with a supporting component (2) and a reaming component (4); an automatic blanking component (3) is arranged on the middle frame (101); the surface of the upper cover (100) is provided with a dotting component (5); the base (102) and the upper cover (100) are provided with bending components (6);

The reaming assembly (4) is arranged in the Z-axis direction of the supporting assembly (2); the dotting component (5) and the bending component (6) are arranged in the X-axis direction of the supporting component (2); the automatic blanking component (3) and the supporting component (2) are arranged up and down oppositely;

A first transmission assembly is arranged between the base (102) and the supporting assembly (2); a second transmission assembly is arranged between the base (102) and the reaming assembly (4); a third transmission assembly and a fourth transmission assembly are arranged between the base (102) and the bending assembly (6).

2. The multi-function all-in-one machine according to claim 1, wherein: the first transmission assembly comprises a first chute (36) arranged on the surface of the base (102); the surface of the first chute (36) is embedded and provided with a first motor; a first screw motor shaft (35) on the first motor is arranged in the first chute (36);

The support assembly (2) comprises a first sliding block (13) arranged in a first sliding groove (36); the surface of the first sliding block (13) is provided with a first threaded hole; the first threaded motor shaft (35) is arranged in the first threaded hole.

3. The multi-function all-in-one machine according to claim 1, wherein: the opposite surfaces of the first sliding blocks (13) are respectively provided with a second motor (14); the two sides of the surface of the first sliding block (13) are provided with third motor bases (7); the upper end of a third threaded motor shaft (9) on a third motor base (7) supports a pipe fitting (8);

A third threaded hole (12) is formed in the surface of the third motor base (7); a second threaded motor shaft (10) on the second motor (14) is arranged in the third threaded hole (12); and guide pieces (65) for guiding and limiting the third motor base (7) are arranged on two sides of the surface of the first sliding block (13).

4. The multi-function all-in-one machine according to claim 1, wherein: the second transmission assembly comprises a second chute (64) arranged on the surface of the base (102); a fourth motor is embedded in the surface of the second chute (64); a fourth threaded motor shaft (62) on the fourth motor is arranged in the second chute (64);

The reaming assembly (4) comprises a fixed bracket (66) and a guide pipe (17) which are arranged in the second chute (64); the fixed bracket (66) is provided with an assembly hole (18); the guide pipe (17) is arranged in the assembly hole (18); the surface of the fixed bracket (66) is provided with a second threaded hole (63); a fourth threaded motor shaft (62) is mounted in the second threaded bore (63).

5. The multi-function all-in-one machine according to claim 1, wherein: one end of the guide pipe (17) is provided with a fifth motor (20), and the other end of the guide pipe (17) is provided with a reaming column (67) in an inserting connection manner; one end of the reaming column (67) is provided with a conical head (15);

The other end of the reaming column (67) is provided with a fourth threaded hole (16); a fifth screw motor shaft (19) on the fifth motor (20) is meshed and installed in the fourth screw hole (16); the conical head (15) and the pipe fitting (8) are arranged in a head-to-tail opposite mode.

6. The multi-function all-in-one machine according to claim 1, wherein: the dotting assembly (5) comprises more than one first telescopic base (23) which is arranged on the surface of the upper cover (100) and is arranged along the Z-axis array; the first telescopic base (23) is provided with a roller assembly (22);

The roller assembly (22) is arranged in an up-down opposite manner with the pipe fitting (8); the surface of the upper cover (100) is provided with more than one punching mechanical arm (21); more than one punching mechanical arm (21) are respectively arranged at two sides of the roller assembly (22).

7. The multi-function all-in-one machine according to claim 1, wherein: the third transmission assembly comprises a third chute (70) arranged on the surface of the base (102); a sixth motor is embedded in the surface of the third chute (70); a sixth threaded motor shaft (88) on the sixth motor is arranged in the third chute (70);

The fourth transmission assembly comprises a fourth chute (80) arranged on the surface of the upper cover (100); a seventh motor is embedded and installed on the surface of the fourth chute (80); a seventh thread motor shaft (81) on the seventh motor is arranged in the fourth chute (80);

The fourth transmission assembly comprises a second sliding block (270) arranged in the third sliding groove (70) and a third sliding block (24) arranged in the fourth sliding groove (80); the second sliding block (270) and the third sliding block (24) are respectively provided with a sixth threaded hole (71) and a seventh threaded hole (82);

A sixth threaded motor shaft (88) is mounted in the sixth threaded hole (71); a seventh threaded motor shaft (81) is mounted in the seventh threaded bore (82).

8. The multi-function all-in-one machine according to claim 1, wherein: a second telescopic base (25) is arranged on the third sliding block (24), and a guide roller (26) which is arranged opposite to the pipe fitting (8) up and down is arranged on the second telescopic base (25);

A third telescopic base (29) is arranged on the second sliding block (270), a hinged support (271) is arranged on the third telescopic base (29), and a rotating piece (28) is arranged between the hinged supports (271); an eighth motor (27) is arranged on the side surface of the hinged support (271);

An eighth motor rotating shaft on the eighth motor (27) penetrates through the hinged support (271) and is connected with the rotating piece (28); the rotating piece (28) is attached to the pipe fitting (8).

9. The multi-function all-in-one machine according to claim 1, wherein: the surface of the base (102) is provided with a material returning groove (30), and the material returning groove (30) is arranged at one side of the first chute (36);

The automatic blanking component (3) comprises a guide plate (201) obliquely arranged on the middle frame (101); more than one limit sliding groove (203) is arranged on the surface of the middle frame (101); a ninth motor is embedded on the limiting chute (203); a ninth threaded motor shaft of the ninth motor is arranged in the limit chute (203);

more than one partition board (202) is vertically arranged on the surface of the middle frame (101), and one end of the partition board (202) is provided with a limit chute (203); a ninth threaded hole is formed in the partition plate (202), and a motor shaft with the ninth threads is installed in the ninth threaded hole in a meshed mode.