CN104625632B - A kind of stainless steel component for heating radiator and manufacture method thereof - Google Patents

Abstract

The invention discloses a kind of stainless steel component for heating radiator and manufacture method thereof, it comprises upper and lower two horizontal cross over pipes, also comprise multiple vertical standpipe arranged in parallel, the two ends of each vertical standpipe connect with upper and lower two horizontal cross over pipes are through respectively, horizontal cross over pipe is provided with inwardly protruded annular flange, in the end of horizontal cross over pipe, annular tie-plate is provided with plinth, horizontal cross over pipe, vertical standpipe, annular tie-plate all adopts thin-wall stainless steel material, soldered stainless steel part fits tightly, end face, there is suitable height, welding is implemented along end face, form circular weld or bar shaped weld seam, process sequence outer after is first adopted during welding, welding position is applicable to automatic welding, do not add the fusing of welding wire instantaneous high-temperature, fuse reliably non-leakage, weld seam straight uniform, be specially adapted to thin-walled material, circular weld in the present invention and bar shaped weld seam, adopt automatic welding, operating efficiency is high, welding quality is guaranteed.

Description

A kind of stainless steel component for heating radiator and manufacture method thereof

Technical field

The invention belongs to heat sink technology field, be specifically related to a kind of stainless steel component for heating radiator and manufacture method thereof.

Background technology

At present, the composite heating radiator adopting unlike material to make is widely used, its version has multiple, the component of wherein common a kind of composite heating radiator, it comprises upper and lower two horizontal cross over pipes and multiple vertical standpipe arranged in parallel, the two ends of each vertical standpipe are through with two horizontal cross over pipes respectively to be connected, and the end of horizontal cross over pipe is provided with plinth.The main member of above-mentioned composite heating radiator can adopt stainless steel material manufacture, in known a kind of prior art, horizontal cross over pipe is provided with the annular flange of outwardly convex, vertical standpipe plug-in mounting is also welded on outside the annular flange of horizontal cross over pipe, or vertical standpipe plug-in mounting is welded in the annular flange of horizontal cross over pipe, these two kinds of through connecting modes, weld seam is all at outer surface, affect stainless attractive in appearance, when welding temperature is unstable, particularly not prison welding very easily produced for thin-wall stainless steel material or puncture, heat-conducting medium can infiltrate in the gap between the annular flange of cross over pipe and vertical standpipe simultaneously, thus erosion may be produced by butt welded seam, a kind of prior art is in addition, inwardly be provided with or the annular flange of outwardly convex at horizontal cross over pipe, vertical standpipe is undertaken connecting or being pressed into connecting by screw thread with the annular flange of horizontal cross over pipe, in order to ensure that annular flange possesses certain mechanical strength, this just needs the thickness increasing the stainless steel material that horizontal cross over pipe uses, thus increasing material cost and product weight, thread connection poor sealing performance, easily produces leakage simultaneously.

Summary of the invention

The object of the invention is the deficiency for above-mentioned prior art, a kind of stainless steel component for heating radiator and manufacture method thereof of improvement are provided.

The present invention is achieved in that

A kind of stainless steel component for heating radiator, it comprises upper and lower two horizontal cross over pipes, also comprise multiple vertical standpipe arranged in parallel, the two ends of each vertical standpipe connect with upper and lower two horizontal cross over pipes are through respectively, horizontal cross over pipe is provided with inwardly protruded annular flange, the end of horizontal cross over pipe is provided with plinth, it is characterized in that: described through connection is that vertical standpipe inserts in the inwardly protruded annular flange of horizontal cross over pipe, the horizontal annular flange of cross over pipe and the tube wall of vertical standpipe fit tightly, the end face of the end face of vertical standpipe and horizontal cross over pipe annular flange flushes, circular weld is formed through end face welding, vertical standpipe makes with stainless-steel thin-wall pipe, horizontal cross over pipe is curled into closed cross-section shape by bar shaped stainless sheet steel and the length direction welding fabrication of transversely cross over pipe, the bar shaped stainless sheet steel of the horizontal cross over pipe of described making, the bar shaped flange of a pair outwardly convex is had along its length at the closed place being curled into closed cross-section shape, this is to gapless between bar shaped flange, upper surface flushes, upper surface along bar shaped flange is welded into bar shaped weld seam.

The closed cross-section shape of described horizontal cross over pipe is circular, or semicircle, or oval, or triangle, or square, or trapezoidal.

The inwardly protruded annular flange of described horizontal cross over pipe is annular flange, or oval ring flange, and the cross sectional shape of described vertical standpipe is corresponding with the shape of the inwardly protruded annular flange of horizontal cross over pipe.

The end of described horizontal cross over pipe arranges plinth by annular tie-plate, the annular tie-plate adopting stainless sheet steel to make is processed with the identical in-flanges in direction and flanging, band female plinth one end of stainless steel pipe processing is adopted to insert the middle in-flanges of annular tie-plate, plinth outer wall and annular tie-plate in-flanges fit tightly, plinth end face and annular tie-plate in-flanges end face flush, circular weld in end face welding is formed; Annular tie-plate inserts the port of horizontal cross over pipe, and the flanging of annular tie-plate and the port of horizontal cross over pipe fit tightly, and the end face of horizontal cross over pipe and the flanging end face of annular tie-plate flush, and forms outer ring weld seam through end face welding.

The annular flange of described horizontal cross over pipe and the height of bar shaped flange be 1 to 5 millimeter between arbitrary size.

The in-flanges of described annular tie-plate and the height of flanging be 1 to 5 millimeter between arbitrary size.

For a manufacture method for the stainless steel component of above-mentioned heating radiator, comprise following processing step:

The first step: the stainless steel sheet strip of the scale for making horizontal cross over pipe is put in mould, strike out along its length both sides with the shape of bar shaped flange.

Second step: by finished for previous step section bar along its length in middle punching press, make its lower end formed U-shaped, or be a mouthful shape for word upper end open.

3rd step: by finished for second step section bar punching stretching on the medium line of bottom surface along its length, forms the inwardly protruded annular flange coordinated with vertical standpipe end.

4th step: the stainless steel tube two ends punching of the scale for making vertical standpipe, makes the shape adaptation of the shape of its end face and the inwardly protruded annular flange end face of horizontal cross over pipe.

5th step: the two ends of each vertical standpipe are inserted respectively in the inwardly protruded annular flange of upper and lower two horizontal cross over pipe section bars, the tube wall of inwardly protruded annular flange and vertical standpipe fits tightly, the end face of the end face of vertical standpipe and the annular flange of horizontal cross over pipe section bar flushes, and forms circular weld through end face welding.

6th step: will there is the inner spindle of setting section configuration, the position belonged to bottom horizontal cross over pipe after transversely the length direction of cross over pipe has inserted the 5th process steps, two outer fixture relative movements under pressure support function with setting section configuration clamp, the both sides of the section bar belonging to horizontal cross over pipe are extruded closed, two bar shaped flange are mediated closely, end face, forms bar shaped weld seam through end face welding.

7th step: outer fixture shrinks with pressure pillar and exits, and extracts inner spindle out.

8th step: make annular tie-plate with corrosion resistant plate and with the female plinth of stainless steel pipe processing belt, distinguish welding ring shape tie-plate and plinth in the end of horizontal cross over pipe.

Beneficial effect of the present invention and advantage as follows:

Stainless steel component for heating radiator of the present invention, under the prerequisite not increasing parts and change structure, only change grafting and welding manner, vertical standpipe is inserted in the inwardly protruded annular flange with suitably height of horizontal cross over pipe, the horizontal annular flange of cross over pipe and the tube wall of vertical standpipe fit tightly, the end face of the end face of vertical standpipe and horizontal cross over pipe annular flange flushes, circular weld is formed through end face welding, thus achieve that weld seam is built-in not to be exposed, eliminate heat-conducting medium and infiltrate the annular flange of cross over pipe and the gap vertically between standpipe, the welding position of the horizontal end face of cross over pipe annular flange and the end face composition of vertical standpipe is applicable to automatic welding, and do not add the fusing of welding wire instantaneous high-temperature, fuse reliably non-leakage, weld seam straight uniform, is specially adapted to thin-walled material.

Horizontal cross over pipe in the present invention is the length direction welding fabrication being curled into closed cross-section shape transversely cross over pipe by stainless steel sheet strip, the stainless steel sheet strip making horizontal cross over pipe has the bar shaped flange of a pair outwardly convex at the closed place being curled into closed cross-section shape, gapless between two bar shaped flange, upper surface flushes, there is suitable height, upper surface along bar shaped flange is welded, form bar shaped weld seam, welding position is applicable to automatic welding, do not add the fusing of welding wire instantaneous high-temperature, fuse reliably non-leakage, weld seam straight uniform, be specially adapted to thin-walled material.

Equally, the end of horizontal cross over pipe arranges plinth by annular tie-plate, have employed identical Welding Structure and method, is specially adapted to thin-walled material.The closed cross-section shape of described horizontal cross over pipe has multiple choices, and structure is simple, is convenient to processing and manufacturing, various shapes, adapts to different esthetic requirements.

The manufacture method of the stainless steel component for heating radiator of the present invention, formulate according to the feature of product structure, wherein first, second and third step is the formation of horizontal cross over pipe section bar, 4th step is the formation of vertical standpipe, the technical process of above-mentioned two aspects also can synchronously be carried out, for ensuing assembly welding lays the first stone, in process for assembling and welding step, five, six liang of steps are key problem in technology, and must order be observed, could realize first interior (circular weld) afterwards outside (bar shaped weld seam) implement automatic welding.This manufacture method job content is reasonable in design, and device therefor, number of molds are few, reliable for effect; This manufacture method sequence of steps is reasonable in design, is conducive to implementing automatic welding outside after first, thus ensures weldquality.

Manufacture method of the present invention, meets the manufacture requirements of product structure completely, both can ensure product quality, is applicable to batch production again.In addition, in time adopting stainless steel component of the present invention to produce composite heating radiator, only need between the 4th step of processing step and the 5th step, heat-dissipating fin is closely bushed on vertical standpipe, when heat-dissipating fin be can the splicing structure of folding time, after whole processing step completes, again heat-dissipating fin can be assembled in the assembling that vertical standpipe can complete composite heating radiator, technique adjustment is very convenient.

By implementing the present invention, can make full use of the performance of thin-wall stainless steel material, for market provides the composite heating radiator of various ways and multiple material, the present invention also can directly use as radiator product.

The radiator product adopting the technology of the present invention to produce has reliable service life, good looking appearance, lightweight, saves material and cost of labor, and be applicable to producing in enormous quantities, market prospects are good.

Accompanying drawing explanation

Fig. 1 is the structural representation of the Compound radiator of stainless steel and aluminium adopting stainless steel component of the present invention assembling.

Fig. 2 is vertical standpipe and horizontal cross over pipe grafting Welding Structure sectional view in the present invention.

Fig. 3 is the structure sectional view that in the present invention, horizontal cross over pipe and vertical standpipe are linked together.

Fig. 4 is that in the present invention, horizontal cross over pipe connects partial structurtes schematic diagram with plinth.

Fig. 5 is the end face structure schematic diagram that in the present invention, horizontal cross over pipe is formed after the first processing step.

Fig. 6 is the end face structure schematic diagram that in the present invention, horizontal cross over pipe is formed after the second processing step.

Fig. 7 is the 6th process steps comparison structure schematic diagram in the present invention.

Detailed description of the invention

Below in conjunction with drawings and Examples, the present invention is further described in detail:

As shown in Figure 1, Figure 2, Figure 3 shows, a kind of stainless steel component for heating radiator, it comprises the horizontal cross over pipe 1 and 2 of two identical upper and lower correspondences of structure, also comprise multiple vertical standpipe 4 arranged in parallel, the two ends of each vertical standpipe 4 connect with upper and lower two horizontal cross over pipes 1 and 2 are through respectively, horizontal cross over pipe is provided with the annular flange 3 of inwardly protruded circle, and this annular flange 3 has suitable height.Described through connection is that vertical standpipe 4 inserts in the inwardly protruded annular flange 3 of horizontal cross over pipe, the annular flange 3 of horizontal cross over pipe fits tightly with the tube wall of vertical standpipe 4, the end face of the end face of vertical standpipe 4 and horizontal cross over pipe annular flange 3 flushes, form circular weld through end face welding, vertical standpipe 4 have employed circular stainless-steel thin-wall pipe in the present embodiment.

Horizontal cross over pipe 1 is identical with 2 planforms, it is all the length direction welding fabrication being curled into closed cross-section shape transversely cross over pipe by stainless steel sheet strip, wherein, stainless steel sheet strip adopts bar shaped stainless sheet steel, and the closed cross-section shape of horizontal cross over pipe can be circular, or it is semicircle, or oval, or triangle, or square, or trapezoidal, the present embodiment have employed circle.Make the stainless steel sheet strip of horizontal cross over pipe, when being curled into closed cross-section shape along its length, there is the bar shaped flange 7 of the outwardly convex a pair with suitably height at closed place, this does not stay gap between bar shaped flange 7, upper surface height flushes, along the upper surface welding fabrication of bar shaped flange 7, the weld seam formed is bar shaped weld seam.

In addition, the inwardly protruded annular flange 3 of horizontal cross over pipe also can be oval annular flange, and now, the cross sectional shape of the vertical standpipe 4 corresponded also is oval.

As shown in Figure 4, the end of horizontal cross over pipe arranges plinth 5 by annular tie-plate 8, the identical in-flanges in direction 9 and flanging 10 is processed with the annular tie-plate 8 of stainless sheet steel punching, the in-flanges 9 in the middle of annular tie-plate is inserted with band female plinth 5 one end of stainless steel pipe processing, plinth 5 outer wall and annular tie-plate in-flanges 9 fit tightly, plinth 5 end face and annular tie-plate in-flanges 9 end face flush, circular weld in end face welding is formed; Annular tie-plate 8 inserts the port of horizontal cross over pipe 1 or 2, the flanging 10 of annular tie-plate fits tightly with the port of horizontal cross over pipe, the end face of the horizontal end face of cross over pipe and the flanging 10 of annular tie-plate flushes, and forms outer ring weld seam through end face welding.When the closed cross-section alteration of form of horizontal cross over pipe, the peripheral shape of annular tie-plate flanging 10 also will make corresponding change.

The horizontal annular flange 3 of cross over pipe and the in-flanges 9 of bar shaped flange 7 and annular tie-plate and flanging 10, its be highly 1 to 5 millimeter between arbitrary size, such as 3.5 millimeters.

The corrosion resistant plate of usual below 2mm is called stainless sheet steel, and the thickness of stainless-steel thin-wall pipe is also within 2 millimeters.The stainless steel material thickness that the present invention uses can control within 1mm, such as 0.5mm.Require that soldered thin-wall stainless steel part fits tightly, end face, have suitable height, weld from end face, welding position does not add the fusing of welding wire instantaneous high-temperature, and welded part fuses into one, weld seam straight uniform, fuses reliably non-leakage.Circular weld in the present invention and bar shaped weld seam, be applicable to adopting automatic welding, operating efficiency is high, and welding quality is guaranteed.

According to the manufacture method of a kind of stainless steel component for heating radiator that the feature of the said goods structure is formulated, comprise following processing step:

Wherein first, second and third step is the formation of horizontal cross over pipe section bar.

The first step: the stainless steel sheet strip of the scale for making horizontal cross over pipe 1 or 2 is put in mould, strikes out along its length that both sides are with the shape of bar shaped flange 7, and its end surface shape is shown in Fig. 5.

Second step: by finished for previous step section bar along its length in middle punching press, make its lower end formed U-shaped, or be a mouthful shape for word upper end open, U-shaped end surface shape is shown in Fig. 6.

3rd step: by finished for second step section bar punching stretching on the medium line of bottom surface along its length, form the inwardly protruded annular flange 3 coordinated with vertical standpipe 4 end, its planform is shown in Fig. 2.

Wherein the 4th step is the formation of vertical standpipe.

4th step: the stainless steel tube two ends punching of the scale for making vertical standpipe 4, makes the shape adaptation of the shape of its end face and inwardly protruded annular flange 3 end face of horizontal cross over pipe.Cross-section structure is shown in Fig. 2.

Wherein the 5th, six step two steps are assembly weldings.

5th step: the two ends of each vertical standpipe 4 are inserted respectively in the inwardly protruded annular flange 3 of upper and lower two horizontal cross over pipe section bars, inwardly protruded annular flange 3 fits tightly with the tube wall of vertical standpipe 4, the end face of the end face of vertical standpipe 4 and the annular flange 3 of horizontal cross over pipe section bar flushes, and forms circular weld through end face welding.Cross-section structure is shown in Fig. 2.

6th step: will there is the inner spindle 12 of setting section configuration, the position belonged to bottom horizontal cross over pipe after transversely the length direction of cross over pipe has inserted the 5th process steps, two have the outer fixture 14 and 15 setting section configuration, under pressure pillar 11 and 13 acts on, relative movement steps up, the both sides of the section bar belonging to horizontal cross over pipe 2 are made to be extruded closed, by kneading closely, end face, forms bar shaped weld seam through end face welding to a pair bar shaped flange 7.See Fig. 2 and Fig. 7.

7th step: outer fixture 14 and 15 shrinks with pressure pillar 11 and 13 and exits, and extracts inner spindle 12 out.See Fig. 7, Fig. 3 show be after structure section.

8th step: with corrosion resistant plate punching annular tie-plate 8 with stainless steel pipe machining internal thread plinth 5, at the end of horizontal cross over pipe difference welding ring shape tie-plate 8 and plinth 5.Structure is shown in Fig. 4.

Namely the product now completed can use as heating radiator after surface treatment, also may be used for continuing assembling, becomes composite heating radiator product.In time adopting stainless steel component of the present invention to produce composite heating radiator, only need between the 4th step of processing step and the 5th step, by the heat-dissipating fin of other material, as the heat-dissipating fin 6 of aluminium material, closely be bushed on vertical standpipe 4, when heat-dissipating fin 6 be can the splicing structure of folding time, again heat-dissipating fin 6 can be assembled on vertical standpipe after whole processing step completes.

The invention is not restricted to above-mentioned detailed description of the invention; above-mentioned detailed description of the invention is only schematic; be not restrictive; those skilled in the art are under enlightenment of the present invention; when not departing from the claims in the present invention protection domain; can also make the concrete conversion of other form, these all belong within protection scope of the present invention.

Claims (7)

1. the stainless steel component for heating radiator, it comprises upper and lower two horizontal cross over pipes (1, 2), also comprise multiple vertical standpipe (4) arranged in parallel, the two ends of each vertical standpipe (4) respectively with upper and lower two horizontal cross over pipes (1, 2) through connection, horizontal cross over pipe is provided with inwardly protruded annular flange (3), plinth (5) is provided with in the end of horizontal cross over pipe, it is characterized in that: described through connection is that vertical standpipe (4) inserts in the inwardly protruded annular flange (3) of horizontal cross over pipe, the horizontal annular flange (3) of cross over pipe fits tightly with the tube wall of vertical standpipe (4), the end face of the end face of vertical standpipe (4) and horizontal cross over pipe annular flange (3) flushes, circular weld is formed through end face welding, vertical standpipe (4) makes with stainless-steel thin-wall pipe, horizontal cross over pipe is curled into closed cross-section shape by bar shaped stainless sheet steel and the length direction welding fabrication of transversely cross over pipe, the bar shaped stainless sheet steel of the horizontal cross over pipe of described making, the bar shaped flange (7) of a pair outwardly convex is had along its length at the closed place being curled into closed cross-section shape, this is to gapless between bar shaped flange (7), upper surface flushes, upper surface along bar shaped flange is welded into bar shaped weld seam.

2. a kind of stainless steel component for heating radiator according to claim 1, is characterized in that: the closed cross-section shape of described horizontal cross over pipe is circular, or semicircle, or it is oval, or triangle, or square, or trapezoidal.

3. a kind of stainless steel component for heating radiator according to claim 1, it is characterized in that: the inwardly protruded annular flange (3) of described horizontal cross over pipe is annular flange, or oval ring flange, the cross sectional shape of described vertical standpipe (4) is corresponding with the shape of the inwardly protruded annular flange of horizontal cross over pipe (3).

4. a kind of stainless steel component for heating radiator according to claim 1, it is characterized in that: the end of described horizontal cross over pipe arranges plinth (5) by annular tie-plate (8), the annular tie-plate (8) adopting stainless sheet steel to make is processed with the identical in-flanges in direction (9) and flanging (10), the female plinth of band (5) one end of stainless steel pipe processing is adopted to insert the middle in-flanges (9) of annular tie-plate, plinth (5) outer wall and annular tie-plate in-flanges (9) fit tightly, plinth (5) end face and annular tie-plate in-flanges (9) end face flush, circular weld in end face welding is formed, annular tie-plate (8) inserts the port of horizontal cross over pipe, the annular flanging (10) of tie-plate fits tightly with the port of horizontal cross over pipe, the horizontal end face of cross over pipe and flanging (10) end face of annular tie-plate flush, and form outer ring weld seam through end face welding.

5. a kind of stainless steel component for heating radiator according to claim 1, is characterized in that: the annular flange (3) of described horizontal cross over pipe and the height of bar shaped flange (7) be 1 to 5 millimeter between arbitrary size.

6. a kind of stainless steel component for heating radiator according to claim 4, is characterized in that: the in-flanges (9) of described annular tie-plate and the height of flanging (10) be 1 to 5 millimeter between arbitrary size.

7., for a manufacture method for the stainless steel component of heating radiator as claimed in claim 1, it is characterized in that comprising following processing step:

The first step: the stainless steel sheet strip of the scale for making horizontal cross over pipe is put in mould, strike out along its length both sides with the shape of bar shaped flange.

Second step: by finished for previous step section bar along its length in middle punching press, make its lower end formed U-shaped, or be a mouthful shape for word upper end open.

3rd step: by finished for second step section bar punching stretching on the medium line of bottom surface along its length, forms the inwardly protruded annular flange coordinated with vertical standpipe end.

4th step: the stainless steel tube two ends punching of the scale for making vertical standpipe, makes the shape adaptation of the shape of its end face and the inwardly protruded annular flange end face of horizontal cross over pipe.

5th step: the two ends of each vertical standpipe are inserted respectively in the inwardly protruded annular flange of upper and lower two horizontal cross over pipe section bars, the tube wall of inwardly protruded annular flange and vertical standpipe fits tightly, the end face of the end face of vertical standpipe and the annular flange of horizontal cross over pipe section bar flushes, and forms circular weld through end face welding.

6th step: will there is the inner spindle of setting section configuration, the position belonged to bottom horizontal cross over pipe after transversely the length direction of cross over pipe has inserted the 5th process steps, two outer fixture relative movements under pressure support function with setting section configuration clamp, the both sides of the section bar belonging to horizontal cross over pipe are extruded closed, two bar shaped flange are mediated closely, end face, forms bar shaped weld seam through end face welding.

7th step: outer fixture shrinks with pressure pillar and exits, and extracts inner spindle out.

8th step: make annular tie-plate with corrosion resistant plate and with the female plinth of stainless steel pipe processing belt, distinguish welding ring shape tie-plate and plinth in the end of horizontal cross over pipe.