CN109482757B - Copper tube bundle mouth equipment and bundle mouth method - Google Patents

Abstract

The invention provides copper pipe binding equipment which comprises a positioning plate, a tooling upper plate, a tooling lower plate, a first driving cylinder and a second driving cylinder, wherein the tooling upper plate and the tooling lower plate are positioned on two opposite sides of the positioning plate, the first driving cylinder and the second driving cylinder are used for respectively driving the tooling upper plate and the tooling lower plate to move in opposite directions, the tooling upper plate is provided with a binding groove, the binding groove is provided with a binding part, and the positioning plate is provided with a through positioning groove for positioning a copper pipe. The copper pipe bundling device utilizes the first driving air cylinder and the second driving air cylinder to drive the tool upper plate and the tool lower plate to move in opposite directions respectively, the tool upper plate and the tool lower plate carry out rolling friction rubbing on copper pipes in the positioning grooves, and bundling is carried out on the copper pipes by bundling parts to finish bundling. Because the binding opening of the copper pipe is completed through twisting, the deformation of the two ends of the copper pipe can not be caused, the size and the appearance are not influenced, the product quality is stable, and the yield is high. The invention also provides a method for the copper pipe bundle port by the copper pipe bundle port equipment.

Description

Copper tube bundle mouth equipment and bundle mouth method

Technical Field

The invention relates to the technical field of copper tube bundle ports, in particular to copper tube bundle port equipment and a bundle port method.

Background

With the improvement of various processes and equipment, more and more accessories need to use copper pipes after the beam ports, such as new energy charging target ports, and in the prior art, many beam port tools are performed through numerical control lathe type hardware copper pipe beam port processes, such as cutting or die casting, and deformation of two ends of a pipe can be caused under the process, so that the quality of a product is unstable and the yield is reduced.

Therefore, it is necessary to provide a copper tube bundle inlet device and a bundle inlet method to solve the above problems.

Disclosure of Invention

The invention aims to provide copper pipe binding opening equipment which can enable a tubular structure binding opening of a copper pipe to be in an arc-shaped structure, cannot deform two ends of the copper pipe, does not influence the size and appearance, and is stable in product quality and high in yield.

Another object of the invention is to provide a method for aligning copper tubing bundles using the copper tubing bundle inlet device described above.

In order to achieve the above purpose, the invention provides copper pipe bundling device which comprises a positioning plate, a tooling upper plate and a tooling lower plate which are positioned on two opposite sides of the positioning plate, and a first driving cylinder and a second driving cylinder which respectively drive the tooling upper plate and the tooling lower plate to move in opposite directions, wherein the tooling upper plate is provided with a bundling slot which is provided with a bundling part, the positioning plate is provided with a through positioning slot for positioning a copper pipe, the tooling upper plate and the tooling lower plate carry out rolling friction rubbing on the copper pipe when moving in opposite directions, and the bundling part carries out bundling on the copper pipe.

Compared with the prior art, the copper pipe bundling device has the advantages that the copper pipe is positioned in the positioning groove of the positioning plate, the first driving air cylinder and the second driving air cylinder are used for respectively driving the upper tool plate and the lower tool plate to move in opposite directions, the upper tool plate and the lower tool plate carry out rolling friction rubbing on the copper pipe in the positioning groove, and the bundling part bundles the copper pipe through rolling extrusion, so that bundling is completed. Because the binding opening of the copper pipe is completed through twisting, the deformation of the two ends of the copper pipe can not be caused, the size and the appearance are not influenced, the product quality is stable, and the yield is high.

Preferably, the positioning plate comprises two fixing plates and a plurality of positioning strips arranged at intervals and positioned between the two fixing plates, and the positioning grooves are formed between two adjacent positioning strips.

Preferably, the two fixing plates and the positioning strip form a first groove for the lower plate of the tool to move.

Preferably, the copper pipe binding equipment further comprises a workbench with a through groove and a connecting part fixedly connected with the lower plate of the tool, one end of the connecting part is connected with the driving end of the second driving cylinder, the first driving cylinder and the second driving cylinder are mounted on the workbench, and the second driving cylinder drives the lower plate of the tool to move in the through groove.

Preferably, the copper pipe binding equipment further comprises a guiding device, wherein the guiding device comprises a guiding part fixed on the workbench, and the guiding part is provided with a second groove for the upper plate of the tool to move.

Preferably, the guide device further comprises fixing parts located at two opposite sides of the guide part, lugs are arranged at two opposite sides of the guide part, and the guide part is fixed on the workbench through the action of the fixing parts and the lugs.

Preferably, the fixing portion is provided with a groove which cooperates with the lug.

Preferably, the beam mouth part is in a circular arc structure.

Correspondingly, the invention also provides a method for aligning the copper pipe bundle port by adopting the copper pipe bundle port equipment, which comprises the following steps:

(1) Positioning the copper pipe in a positioning groove of a positioning plate;

(2) The first driving cylinder and the second driving cylinder respectively drive the upper tool plate and the lower tool plate to move in opposite directions, the upper tool plate and the lower tool plate carry out rolling friction rubbing on the copper pipe in the positioning groove, and the bundling opening part bundles the copper pipe to finish bundling opening.

Drawings

FIG. 1 is a schematic diagram of a copper tube bundle inlet apparatus according to the present invention.

Fig. 2 is a partially exploded view of the copper tube bundle inlet apparatus of fig. 1.

Fig. 3 is a schematic structural view of an upper plate of a tooling in the copper tube bundle inlet device of the present invention.

Fig. 4 is a schematic structural view of a positioning plate in the copper tube bundle inlet device of the present invention.

Fig. 5 is a cross-sectional view of the copper tube bundle mouth apparatus KK shown in fig. 1.

Fig. 6 is an enlarged view at a in fig. 5.

Fig. 7 is a cross-sectional view of the copper tube bundle inlet apparatus HH shown in fig. 1.

Fig. 8 is an enlarged view at B in fig. 7.

Description of element reference numerals

100 copper tube bundle mouth equipment, 10 locating plates, 11 fixing plates, 13 locating strips, 15 locating grooves, 17 first grooves, 20 tool upper plates, 21 bundle mouth grooves, 211 bundle mouth parts, 30 tool lower plates, 40 first driving cylinders, 50 second driving cylinders, 60 work tables, 61 through grooves, 70 connecting parts, 80 guiding devices, 81 guiding parts, 811 second grooves, 813 lugs, 83 fixing parts, 831 grooves and 90 copper tubes.

Detailed Description

Embodiments of the present invention will now be described with reference to the drawings, wherein like reference numerals represent like elements throughout.

Referring to fig. 1 to 3, the copper tube bundle inlet apparatus 100 of the present invention includes a table 60, a positioning plate 10, a tool upper plate 20, a tool lower plate 30, a first driving cylinder 40 and a second driving cylinder 50. The first driving cylinder 40 and the second driving cylinder 50 are installed on the workbench 60, the upper tooling plate 20 and the lower tooling plate 30 are located on two opposite sides of the positioning plate 10, and the first driving cylinder 40 and the second driving cylinder 50 respectively drive the upper tooling plate 20 and the lower tooling plate 30 to move in opposite directions, that is to say, the first driving cylinder 40 drives the upper tooling plate 20 to move towards the second driving cylinder 50, and the second driving cylinder 50 drives the lower tooling plate 30 to move towards the first driving cylinder 40. The upper tooling plate 20 is provided with a binding groove 21, the binding groove 21 is provided with a binding part 211, the positioning plate 10 is provided with a through positioning groove 15 for positioning the copper pipe 90, the copper pipe is rubbed and rubbed by rolling when the upper tooling plate 20 and the lower tooling plate 30 move in opposite directions, and the binding part 211 is used for binding the copper pipe. In this embodiment, the collar 211 has a circular arc structure, which is also referred to as an R-shaped structure, so that the copper tube 90 can be formed into an R-shaped structure from a tubular collar by rubbing the copper tube 90 with the upper and lower tool plates 20 and 30. Of course, the shape of the collar 211 is not limited to this, and the collar shape of the copper pipe 90 may be determined according to the specific structure of the collar 211 and may be set according to actual needs.

Referring to fig. 5 to 8, the table 60 has a through slot 61, and the second driving cylinder 50 drives the tool lower plate 30 to move in the through slot 61, so that the length of the through slot 61 is longer than that of the tool lower plate 30. For the stability of the driving of the lower tooling plate 30, the copper tube bundle port device 100 further comprises a connecting portion 70, the lower tooling plate 30 is fixedly connected with the connecting portion 70, one end of the connecting portion 70 is connected with the driving end of the second driving cylinder 50, the second driving cylinder 50 drives the connecting portion 70 to move, and the connecting portion 70 drives the lower tooling plate 30 to move in the through groove 61 to roll and squeeze the copper tube 90. Further, the copper pipe bundling apparatus 100 further comprises a guiding device 80, the guiding device 80 comprises a guiding part 81 fixed on the workbench 60, the guiding part 81 is provided with a second groove 811 for the tool upper plate 20 to move, and the first driving cylinder 40 drives the tool upper plate 20 to move in the second groove 811 to roll and squeeze the copper pipe 90. In order to stabilize the fixing of the guide portion 81, the guide device 80 further includes fixing portions 83 located at opposite sides of the guide portion 81, lugs 813 are provided at opposite sides of the guide portion 81, and the guide portion 81 is fixed to the table 60 by the fixing portions 83 and the lugs 813. That is, the fixing portion 83 is fixedly mounted with the lug 813 and the fixing portion 83 is mounted on the table 60. Since the guide portion 81 is located between the two fixing portions 83, the driving path of the first driving cylinder 40 is accurate and stable. Further, in order to increase the fixing area, the fixing portion 83 is provided with a recess 831 engaged with the lug 813, so that the fixing portion 83 is fixed with the guide portion 81 in a concave-convex engagement, increasing the stability of the fixation.

Referring to fig. 4, the positioning plate 10 includes two fixing plates 11 and a plurality of positioning strips 13 disposed between the two fixing plates 11 at intervals, and positioning slots 15 are formed between two adjacent positioning strips 13. The two fixing plates 11 are fixed to the table 60 and located on both sides of the through groove 61. Among them, the positioning strips 13 are preferably arranged at equal intervals. The length of the positioning groove 15 is set according to the length of the copper pipe 90, and the length of the copper pipe 90 is smaller than the length of the positioning groove 15, so that rolling can be performed under the rubbing of the tool upper plate 20 and the tool lower plate 30. Further, the two fixing plates 11 and the positioning strip 13 form a first groove 17 for the movement of the lower tool plate 30, the second driving cylinder 50 drives the connecting part 70 to move, and the connecting part 70 drives the lower tool plate 30 to move in the first groove 17 to roll and squeeze the copper pipe 90.

The method for adopting the copper pipe bundle opening device 100 to perform bundle opening on the copper pipe 90 is described with reference to fig. 1-8, and is specifically as follows:

(1) Positioning the copper tube 90 in the positioning groove 15 of the positioning plate 10;

(2) The first driving cylinder 40 and the second driving cylinder 50 respectively drive the upper tool plate 20 and the lower tool plate 30 to move in opposite directions, the upper tool plate 20 moves in the second groove 811 to perform rolling extrusion on the copper pipe 90, the lower tool plate 30 moves in the first groove 17 to perform rolling extrusion on the copper pipe 90, and the upper tool plate 20 and the lower tool plate 30 simultaneously move, so that the upper tool plate 20 and the lower tool plate 30 perform rolling friction rubbing on the copper pipe 90 in the positioning groove 15, the bundling part 211 performs rolling extrusion on the copper pipe 90, and the pipe orifice of the copper pipe 90 is formed into an R-shaped structure from a tubular bundling opening.

Compared with the prior art, the copper pipe bundling device 100 of the invention positions the copper pipe 90 in the positioning groove 15 of the positioning plate 10, and utilizes the first driving cylinder 40 and the second driving cylinder 50 to respectively drive the upper tooling plate 20 and the lower tooling plate 30 to move in opposite directions, the upper tooling plate 20 and the lower tooling plate 30 perform rolling friction and rubbing on the copper pipe 90 in the positioning groove 15, and the bundling part 211 bundles the copper pipe 90 to finish bundling. Because the binding opening of the copper pipe 90 is completed by rubbing, the deformation of the two ends of the copper pipe 90 is avoided, the size and the appearance are not influenced, the product quality is stable, and the yield is high.

The invention has been described in connection with the preferred embodiments, but the invention is not limited to the embodiments disclosed above, but it is intended to cover various modifications, equivalent combinations according to the essence of the invention.

Claims (6)

1. The utility model provides a copper pipe beam mouth equipment, its characterized in that, include the locating plate, be located frock upper plate and frock hypoplastron of the relative both sides of locating plate, drive respectively the frock upper plate with first drive cylinder and second drive cylinder, the guider of frock hypoplastron opposite movement, have link to each other the workstation of link to each other with frock hypoplastron is fixed, the frock upper plate has beam mouth groove, beam mouth groove has beam mouth, the locating plate has the constant head tank that is used for location copper pipe that link to each other, the frock upper plate with carry out rolling friction to copper pipe when the frock hypoplastron moves opposite, beam mouth carries out beam mouth to copper pipe, the locating plate includes two fixed plates and is located two a plurality of intervals setting's between the fixed plate locating strip forms between the adjacent two the constant head tank, the drive end of second drive cylinder is connected to the one end of connecting portion, first drive cylinder with the second drive cylinder install in the workstation, the second drive cylinder drives down in the frock hypoplastron is in the motion is had for the guide part in the frock has the motion, the guide part is in the frock has.

2. The copper tube bundle mouth device according to claim 1, wherein the two fixing plates and the positioning strip form a first groove for the movement of the tooling lower plate.

3. The copper tube bundle mouth apparatus according to claim 1, wherein the guide means further includes fixing portions at opposite sides of the guide portion, lugs being provided at opposite sides of the guide portion, the guide portion being fixed to the table by the fixing portions acting with the lugs.

4. A copper tube bundle mouth device according to claim 3, wherein the fixing portion is provided with a groove cooperating with the lug.

5. The copper tube bundle inlet device according to claim 1, wherein the bundle inlet is in a circular arc shape.

6. A method of copper tubing bundle port according to any one of claims 1-5, comprising:

(1) Positioning the copper pipe in a positioning groove of a positioning plate;

(2) The first driving cylinder and the second driving cylinder respectively drive the upper tool plate and the lower tool plate to move in opposite directions, the upper tool plate and the lower tool plate carry out rolling friction rubbing on the copper pipe in the positioning groove, and the bundling opening part bundles the copper pipe to finish bundling opening.