CN107983813A - A kind of method of belt restraining pipe axis pressure synchronous forming plate heat exchanger grommet - Google Patents

Abstract

Tubing, is first assemblied in the endoporus of plate heat exchanger pressing plate, ensures plate heat exchanger press plate position in the centre of two pipe axis belling moulds by a kind of method of belt restraining pipe axis pressure synchronous forming plate heat exchanger grommet；Two pipe axis belling moulds are fed in opposite directions in the axial direction with identical speed, until tubing free end is contacted with plate heat exchanger pressing plate, are deformed into the identical circular arc of shape, size；If plate heat exchanger pressing plate fillet is required without specific size, two pipe axis belling moulds continue to feed in opposite directions in the axial direction with identical speed, until semicircle free end is completely attached to plate heat exchanger pressing plate, complanation；If plate heat exchanger pressing plate fillet has specific requirement, two pipe axis belling moulds are changed to two flattening punchs, two flattening punchs are fed in opposite directions in the axial direction with identical speed, until semicircle free end is completely attached to plate heat exchanger pressing plate, complanation；The present invention simplifies forming process, shortens curring time, improves processing efficiency.

Description

A kind of method of belt restraining pipe axis pressure synchronous forming plate heat exchanger grommet

Technical field

The invention belongs to advanced plastic forming technology field, and in particular to synchronous forming is board-like changes for a kind of belt restraining pipe axis pressure The method of hot device grommet.

Background technology

Plate heat exchanger is a series of a kind of high-performance heat exchanger formed by sheet metal closed assemblies with certain corrugated shape, Plate heat exchanger grommet is the important part on plate heat exchanger.It is on active service in the cycle, heat exchanger plate needs periodic cleaning, but serves as a contrast Ring can not be dismantled, clean difficulty, and the metal grommet of cold and hot fluid/gas import and export wishes to be served in the whole Life Cycle of heat exchanger Phase.

But plate heat exchanger grommet is manufactured using the method on both ends flange splicing side more at present, or grommet end flange Processed using plastic methods such as punching presses, another end flanges use welding forming technique after being assembled with plate heat exchanger pressing plate.Metal The weld seam on lined flange side not only influences product appearance, but also influences product quality, and especially commissure easily goes out during service Now corrode, influence the service life of heat exchanger, increase the maintenance difficulties of heat exchanger, the middle promulgated by the State Council of Publication No. CN105945110A Bright patent proposes a kind of device of two end flanges of synchronous processing, its essence or a punching press flanging forming, and is only applicable to The less flange shaping of size, if shaping flange size is larger, it is still necessary to carry out multi-pass punching press flanging forming.

The content of the invention

In order to overcome disadvantages mentioned above, it is an object of the invention to provide a kind of belt restraining pipe axis to press synchronous forming plate-type heat-exchange The method of device grommet, shapes plate heat exchanger metal grommet both ends flange, so as to be simplified at the same time during once-forming Shape process, shortens curring time, improves processing efficiency.

In order to achieve the above object, the technical solution taken of the present invention is：

A kind of method of belt restraining pipe axis pressure synchronous forming plate heat exchanger grommet, comprises the following steps：

1), tubing 100 is assemblied in the endoporus of plate heat exchanger pressing plate 2,2 endoporus fillet of plate heat exchanger pressing plate is R0,100 free end length of tubing are L, thickness t, and fixed plate heat exchanger pressing plate 2, ensures that 2 position of plate heat exchanger pressing plate exists The centre of first pipe axis belling mould 1 and the second pipe axis belling mould 3, constrains 100 outer wall of tubing；

2), the first pipe axis belling mould 1 and the second pipe axis belling mould 3 are fed in opposite directions in the axial direction with identical speed, pipe 100 free end of material takes place Texturized after touch with the first pipe axis belling mould 1 and 3 fillet part of the second pipe axis belling mould tap；

3) the first pipe axis belling mould 1 and the second pipe axis belling mould 3 continue to feed, and 100 front end of tubing will be disengaged from fillet Free Transform, until 100 free end of tubing is contacted with plate heat exchanger pressing plate 2, is deformed into the identical circular arc of shape, size, stops Only feed；Its circular arc central angle should be less than 180 ° before 100 free end of tubing is contacted with plate heat exchanger pressing plate 2, the first pipe axis pressure The fillet R and 100 free end length L of tubing of 1 and second pipe axis belling mould 3 of punch-pin need to meet relation R >=L/t；

4), two end flanges of synchronous pressure Heisei shape：

4.1), if 2 fillet R0 of plate heat exchanger pressing plate is required without specific size, plate heat exchanger pressing plate fillet is takenR0=R- t, the first pipe axis belling mould 1 and the second pipe axis belling mould 3 continue to feed in opposite directions in the axial direction with identical speed, tubing 100 Free end starts to deform after contacting with plate heat exchanger pressing plate 2, until semicircle free end connects completely with plate heat exchanger pressing plate 2 Touch, complanation；

If 4.2), 2 fillet R0 of plate heat exchanger pressing plate has specific requirement, by the first pipe axis belling mould 1 and the second pipe axis pressure Punch-pin 3 is changed to the first flattening punch 4 and the second flattening punch 5,5 fillet R1=of the first flattening punch 4 and the second flattening punch R0+t, the first flattening punch 4 and the second flattening punch 5 are fed in opposite directions in the axial direction with identical speed, 100 free end of tubing Start to deform after contacting with plate heat exchanger pressing plate 2, until semicircle free end is completely attached to plate heat exchanger pressing plate 2, become Into plane；

5), mould exits, and completes the processing of two end flanges of plate heat exchanger grommet.

Beneficial effects of the present invention：The present invention uses belt restraining pipe axis pressing formation mode, realizes plate heat exchanger bushing The synchronous forming of two end flanges, is effectively simplified the process of plate heat exchanger grommet, improves processing efficiency and morphoplasm Amount.

Brief description of the drawings

Fig. 1 is 100 schematic diagram of tubing.

Fig. 2 is schematic diagram before pipe axis pressing formation.

Fig. 3 is pipe axis pressing formation process schematic.

Fig. 4 is schematic diagram after pipe axis pressing formation.

Fig. 5 is molded flat schematic diagram for pipe axis belling.

Fig. 6 is pipe axis belling molding 100 schematic diagram of flat rear tubing.

Fig. 7 is schematic diagram after replacement flattening punch.

Fig. 8 is the convex pressing schematic diagram of flattening die.

100 schematic diagram of tubing after Fig. 9 flattens for flattening punch.

Embodiment

The present invention is described in detail with reference to the accompanying drawings and examples:, 2 fillet of plate heat exchanger pressing plate in embodiment 1 R0 is without specific requirement, and 2 fillet R0 of plate heat exchanger pressing plate has specific requirement in embodiment 2.

Embodiment 1：A kind of method of belt restraining pipe axis pressure synchronous forming plate heat exchanger grommet, comprises the following steps：

1), referring to Figures 1 and 2, tubing 100 is assemblied in the endoporus of plate heat exchanger pressing plate 2, plate heat exchanger pressing plate 2 endoporus fillets are R0, and 100 free end length of tubing is L, thickness t, and fixed plate heat exchanger pressing plate 2, ensures plate heat exchanger 2 position of pressing plate constrains 100 outer wall of tubing in the centre of the first pipe axis belling mould 1 and the second pipe axis belling mould 3；

2), with reference to Fig. 3, the first pipe axis belling mould 1 and the second pipe axis belling mould 3 are opposite in the axial direction with identical speed Volume takes place with the first pipe axis belling mould 1 and 3 fillet part of the second pipe axis belling mould tap in feeding, 100 free end of tubing after touch Song deformation；

3) continue to feed with reference to Fig. 4, the first pipe axis belling mould 1 and the second pipe axis belling mould 3,100 front end of tubing will be disengaged from Free Transform occurs for fillet, until 100 free end of tubing is contacted with plate heat exchanger pressing plate 2, it is identical to be deformed into shape, size Circular arc, feed-disabling, in order to ensure the shaping on plate heat exchanger lined flange side, 100 free end of tubing is the same as plate heat exchanger pressure Its circular arc central angle should be less than 180 ° before plate 2 contacts, the fillet R and tubing of the first pipe axis belling mould 1 and the second pipe axis belling mould 3 100 free end length L need to meet relation R >=L/t；

4), two end flanges of synchronous pressure Heisei shape：2 fillet R0 of plate heat exchanger pressing plate will without specific size in this embodiment Ask, take 2 fillet of plate heat exchanger pressing plateR0=R-t, with reference to Fig. 5, the first pipe axis belling mould 1 and the second pipe axis belling mould 3 continue Being fed in opposite directions in the axial direction with identical speed, 100 free end of tubing starts to deform after contacting with plate heat exchanger pressing plate 2, Until semicircle free end is completely attached to plate heat exchanger pressing plate 2, complanation；

5), the first pipe axis belling mould 1 and the second pipe axis belling mould 2 exit, and with reference to Fig. 6, obtain the plate-type heat-exchange with grommet Device pressing plate.

Embodiment 2：A kind of method of belt restraining pipe axis pressure synchronous forming plate heat exchanger grommet, comprises the following steps：

1), referring to Figures 1 and 2, tubing 100 is assemblied in the endoporus of plate heat exchanger pressing plate 2, plate heat exchanger pressing plate 2 endoporus fillets are R0, and 100 free end length of tubing is L, thickness t, and fixed plate heat exchanger pressing plate 2, ensures plate heat exchanger 2 position of pressing plate constrains 100 outer wall of tubing in the centre of the first pipe axis belling mould 1 and the second pipe axis belling mould 3；

2), with reference to Fig. 3, the first pipe axis belling mould 1 and the second pipe axis belling mould 3 are opposite in the axial direction with identical speed Volume takes place with the first pipe axis belling mould 1 and 3 fillet part of the second pipe axis belling mould tap in feeding, 100 free end of tubing after touch Song deformation；

3) continue to feed with reference to Fig. 4, the first pipe axis belling mould 1 and the second pipe axis belling mould 3,100 front end of tubing will be disengaged from Free Transform occurs for fillet, until 100 free end of tubing is contacted with plate heat exchanger pressing plate 2, it is identical to be deformed into shape, size Circular arc, feed-disabling, in order to ensure the shaping on plate heat exchanger lined flange side, 100 free end of tubing is the same as plate heat exchanger pressure Its circular arc central angle should be less than 180 ° before plate 2 contacts, the fillet R and tubing of the first pipe axis belling mould 1 and the second pipe axis belling mould 3 100 free end length L need to meet relation R >=L/t；

4), two end flanges of synchronous pressure Heisei shape：2 fillet R0 of plate heat exchanger pressing plate has specific requirement in this embodiment, ginseng According to Fig. 7, the first pipe axis belling mould 1, the second pipe axis belling mould 2 are changed to the first flattening punch 4 and the second flattening punch 5, the 5 fillet of one flattening punch 4 and the second flattening punchR1=R0+t, with reference to Fig. 8, the first flattening punch 4 and the second flattening punch 5 with Identical speed is fed in opposite directions in the axial direction, and 100 free end of tubing starts to deform after contacting with plate heat exchanger pressing plate 2, directly Completely attached to semicircle free end and plate heat exchanger pressing plate 2, complanation；

5), the first flattening punch 4 and the second flattening punch 5 exit, and with reference to Fig. 9, obtain the plate heat exchanger pressure with grommet Plate.

Claims (1)

1. A kind of 1. method of belt restraining pipe axis pressure synchronous forming plate heat exchanger grommet, it is characterised in that comprise the following steps：

   1), tubing (100) is assemblied in the endoporus of plate heat exchanger pressing plate (2), plate heat exchanger pressing plate (2) endoporus fillet is R0, tubing (100) free end length are L, thickness t, and fixed plate heat exchanger pressing plate (2), ensures plate heat exchanger pressing plate (2) Position constrains tubing (100) outer wall in the centre of the first pipe axis belling mould (1) and the second pipe axis belling mould (3)；

   2), the first pipe axis belling mould (1) and the second pipe axis belling mould (3) are fed in opposite directions in the axial direction with identical speed, pipe Curling takes place with the first pipe axis belling mould (1) and second pipe axis belling mould (3) fillet part tap in material (100) free end after touch Deformation；

   3) the first pipe axis belling mould (1) and the second pipe axis belling mould (3) continue to feed, and tubing (100) front end will be disengaged from fillet hair Raw Free Transform, until tubing (100) free end is contacted with plate heat exchanger pressing plate (2), is deformed into the identical circle of shape, size Arc, feed-disabling；Its circular arc central angle should be less than 180 ° before tubing (100) free end is contacted with plate heat exchanger pressing plate (2), the The fillet R of one pipe axis belling mould (1) and the second pipe axis belling mould (3) and 100 free end length L of tubing need to meet relation R >=L/ t；

   4), two end flanges of synchronous pressure Heisei shape：

   4.1), plate heat exchanger pressing plate if (2) fillet R0 is required without specific size, plate heat exchanger pressing plate fillet is takenR0=R-t, First pipe axis belling mould (1) and the second pipe axis belling mould (3) continue to feed in opposite directions in the axial direction with identical speed, tubing (100) free end starts to deform after contacting with plate heat exchanger pressing plate (2), until semicircle free end and plate heat exchanger pressing plate (2) completely attach to, complanation；

   If 4.2), plate heat exchanger pressing plate (2) fillet R0 has specific requirement, by the first pipe axis belling mould (1) and the second pipe axis pressure Punch-pin (3) is changed to the first flattening punch (4) and the second flattening punch (5), the first flattening punch (4) and the second flattening punch (5) filletR1=R0+t, the first flattening punch (4) and the second flattening punch (5) with identical speed in the axial direction in opposite directions into Give, tubing (100) free end starts to deform after contacting with plate heat exchanger pressing plate (2), until semicircle free end is changed with board-like Hot device pressing plate (2) completely attaches to, complanation；

   5), mould exits, and completes the processing of two end flanges of plate heat exchanger grommet.