CN112475855A - Automatic embedding device for spacer plug of liquid collecting pipe of condenser - Google Patents

Abstract

The invention discloses an automatic embedding device for a spacer plug of a liquid collecting pipe of a condenser, which comprises a workbench, a rotary pipe placing frame, a spacer embedding mechanism and a plug embedding mechanism, wherein the spacer embedding mechanism and the plug embedding mechanism are fixed on the rotary pipe placing frame, the rotary pipe placing frame consists of a rotary table, an installation platform fixed at the top of the rotary table, and two limiting and heating mechanisms fixed on the installation platform, the middle part of the installation platform is also provided with a pipe rotating mechanism, the spacer embedding mechanism and the plug embedding mechanism respectively comprise a top block, a top block driving mechanism and a material guide frame, the limiting and heating mechanisms comprise a fixed seat and two telescopic limiting blocks, the fixed seat and the limiting blocks are provided with corresponding limiting grooves, the liquid collecting pipe is provided with an outer limiting ring and an inner limiting ring, the middle part of the spacer is provided with an arc-shaped inwards concave transition part, and the spacer is in interference fit with the, the processed liquid collecting pipe has reliable connection of the spacer and the liquid collecting pipe, and the joint is not easy to leak.

Description

Automatic embedding device for spacer plug of liquid collecting pipe of condenser

Technical Field

The invention relates to an automatic embedding device for a spacer plug of a liquid collecting pipe of a condenser.

Background

The patent with publication number CN105537932A discloses a liquid collecting tube assembling machine, which can automatically press and rivet a spacer on a liquid collecting tube; the equipment of above-mentioned structure still adopts traditional pressfitting mode, and the spacer is not reliable enough with the junction of collector tube, produces the seepage easily, and follow-up still need install additional sealed pad or welding in order to guarantee the leakproofness of connecting.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides an automatic embedding device for a spacer plug of a condenser liquid collecting pipe.

The technical scheme of the invention is as follows: an automatic embedding device for a spacer plug of a condenser liquid collecting pipe comprises a workbench, a rotary transposition pipe frame arranged on the workbench, and a spacer embedding mechanism and a plug embedding mechanism which are respectively arranged at two ends of the rotary transposition pipe frame;

the rotary transposition pipe frame consists of a rotary table, an installation platform fixed at the top of the rotary table and two limiting and heating mechanisms symmetrically arranged on the installation platform, wherein the middle part of the installation platform is also provided with a pipe rotating mechanism, and the rotary table is driven by a positive and negative rotation motor arranged at the bottom of the workbench;

an inner limiting ring corresponding to the spacer is arranged in the liquid collecting pipe, and an outer limiting ring corresponding to the inner limiting ring is arranged on the outer side of the liquid collecting pipe;

the spacer consists of a spacer body and a matching end positioned at one end of the spacer body, the spacer body is connected with the matching end through an arc-shaped concave transition part, the radian of the transition part corresponds to that of the inner limiting ring, and the end part of the matching end is in a frustum shape;

after the assembly is finished, the spacer is in interference fit with the inner limiting ring, the periphery of the spacer body is abutted against the inner wall of the liquid collecting pipe, the end part of the matching end penetrates through the inner limiting ring, and the inner limiting ring is embedded between the transition part and the matching end;

the spacer embedding mechanism and the plug embedding mechanism respectively comprise a top block, a top block driving mechanism and a guide frame, a slide way corresponding to the spacer or the plug is arranged in each guide frame, the lower ends of the two guide frames are also provided with an outlet connected and communicated with the slide way, a plurality of spacers or plugs are sequentially stacked into the slide way from the top of each guide frame, the spacer or the plug positioned at the lowest end is positioned in the outlet, and the top block, the outlet and a processed liquid collecting pipe are coaxially arranged;

spacing and heating mechanism includes a fixing base and two stoppers, the fixing base top has an arc wall, have in the arc wall with the corresponding spacing groove of the outer spacing ring of collector tube, still have electric heater unit in the fixing base, two the stopper is sliding connection respectively in fixing base top both sides, two the stopper also has corresponding spacing groove towards one side at fixing base middle part, the both sides of fixing base still are fixed with a die clamping cylinder respectively, two die clamping cylinder's piston rod is connected with the outside of two stoppers respectively, and two stoppers cooperate with the fixing base and carry on spacingly to the outer spacing ring department of collector tube.

Specifically, the forward and reverse rotation motor drives the rotary table to rotate for 180 degrees in a reciprocating manner.

Further, the rotating tube mechanism comprises a rotating tube motor, a rotating tube frame and a rotating tube connected to the rotating tube frame in a rotating mode, a damping layer is bonded to the outer side of the rotating tube, one end of a connecting shaft of the rotating tube penetrates out of one end of the rotating tube frame and is connected with an output shaft of the rotating tube motor through a gear set, a fixed concave hole is formed in the rotating plate, and the rotating tube motor is fixed in the fixed concave hole.

Furthermore, a distance is kept between the spacer embedding mechanism and the plug embedding mechanism and the mounting platform, and the distance between the spacer embedding mechanism and the plug embedding mechanism corresponds to the length of the processed liquid collecting pipe.

Preferably, the liquid collecting pipe is provided with two pairs of inner limiting rings and two pairs of outer limiting rings, the two pairs of inner limiting rings and the two pairs of outer limiting rings are symmetrically arranged in the middle of the liquid collecting pipe, and the inner limiting rings and the outer limiting rings which are positioned at the same end are positioned at the same position on the liquid collecting pipe.

Preferably, the thickness of the inner limiting ring is larger than that of the outer limiting ring.

Specifically, the liquid collecting pipe, the inner limiting ring and the outer limiting ring are of an integrally formed structure.

Furthermore, the one end that transition portion was kept away from to the spacer and the outer end of end cap still all have an interface of indent, the tip of kicking block has the corresponding joint of interface on with spacer or end cap, and when spacer or end cap were moved in the kicking block top, the joint of kicking block inserted in the interface and fixes a position end cap or spacer.

Preferably, the length of the top block of the spacer embedding mechanism is greater than the distance between the guide frame outlet of the spacer embedding mechanism and the inner limiting ring, and the length of the top block of the plug embedding mechanism is greater than the distance between the guide frame outlet of the plug embedding mechanism and the end part of the liquid collecting pipe.

Specifically, the electric heating device is an electric heating wire or an electric heating rod, and the electric heating wire or the electric heating rod forms an arc shape and is arranged close to the limiting groove.

The invention has the following beneficial effects:

1. the spacer is in interference fit with the inner limiting ring of the liquid collecting pipe, the connection is firm and reliable, the sealing performance is good, and the media in two adjacent liquid collecting chambers separated by the spacer cannot leak mutually; an opening for pressing the spacer is not required to be formed in the liquid collecting pipe, so that the sealing performance of the joint of the spacer and the liquid collecting pipe is further ensured, and no outward seepage is generated at the position; because spacer body and cooperation end are the both sides of spacing ring including the cooperation respectively, the resistance to compression and the shock resistance of both sides are strong.

2. The rotary pipe frame is designed, the rotary pipe frame can be driven by a positive and negative rotation motor to reciprocate 180-degree rotation, and the spacer embedding mechanism and the plug embedding mechanism at the two ends of the mounting platform are matched to rapidly complete the assembly of the spacer and the plug.

3. Spacer embedding mechanism and end cap embedding mechanism have been equipped with the guide frame that can automatic unloading, and spacer or end cap in the guide frame can fall into appropriate position automatically to do benefit to the automation of production.

4. The mounting platform is provided with a limiting and heating mechanism, the outer limiting ring on the liquid collecting pipe is matched, the stability of the liquid collecting pipe during assembling of the spacer or the plug can be guaranteed, and the spacer is preheated for the interference fit process of the inner limiting ring and the spacer of the liquid collecting pipe.

5. Still designed the commentaries on classics pipe mechanism on the mounting platform, at the collector tube by the tight heating process of stopper clamp, make the collector tube rotate, make more even being heated of interior spacing ring department of collector tube to do benefit to the interference fit of spacer and interior spacing ring.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a top view of the present invention;

FIG. 3 is a schematic structural view of a heat exchange tube of the present invention;

FIG. 4 is a schematic view of the construction of the spacer of the present invention;

FIG. 5 is an enlarged view of portion A of FIG. 3;

FIG. 6 is an enlarged view of portion B of FIG. 1;

FIG. 7 is a schematic view of the rotary tube rack of the present invention;

fig. 8 is a schematic structural view of the limiting and heating mechanism of the present invention.

Detailed Description

The technical scheme of the invention is further specifically described by the following embodiments and the accompanying drawings.

Referring to fig. 1 and 2, an automatic insertion device for a spacer plug 14 of a condenser collecting tube comprises a workbench 1, a rotary tube placing frame arranged on the workbench 1, and a spacer insertion mechanism 16 and a plug insertion mechanism 17 respectively arranged at two ends of the rotary tube placing frame;

the rotary pipe placing frame consists of a rotary table 2, a mounting platform 3 fixed at the top of the rotary table 2 and two limiting and heating mechanisms 4 symmetrically arranged on the mounting platform 3, wherein the middle part of the mounting platform 3 is also provided with a pipe rotating mechanism 5, the rotary table 2 is driven by a forward and reverse rotating motor 6 arranged at the bottom of the working table 1, and the forward and reverse rotating motor 6 can drive the rotary table 2 to rotate for 180 degrees in a reciprocating manner;

the mounting platform 3 is a rectangular platform, a distance is kept between the spacer embedding mechanism 16 and the plug embedding mechanism 17 and the mounting platform 3, and the distance between the spacer embedding mechanism 16 and the plug embedding mechanism 17 corresponds to the length of the processed liquid collecting pipe 7;

as shown in fig. 3, an inner limiting ring 9 corresponding to the spacer 8 is arranged in the header pipe 7, and an outer limiting ring 10 corresponding to the inner limiting ring 9 is arranged outside the header pipe 7;

in the embodiment, the liquid collecting pipe 7 is provided with two pairs of inner limiting rings 9 and outer limiting rings 10, the two pairs of inner limiting rings 9 and the two pairs of outer limiting rings 10 are symmetrically arranged in the middle of the liquid collecting pipe 7, and the inner limiting rings 9 and the outer limiting rings 10 which are positioned at the same end are positioned at the same position on the liquid collecting pipe 7;

the thickness of the inner limiting ring 9 is greater than that of the outer limiting ring 10, the thicker inner limiting ring 9 can ensure the combination stability with the spacer 8, and the outer limiting ring 10 is only used for limiting in the machining process, so that the manufacturing cost can be reduced and the assembly of the liquid collecting pipe 7 and the heat exchange pipe in the later period is facilitated due to the fact that the outer limiting ring 10 is thinned;

specifically, the liquid collecting pipe 7, the inner limiting ring 9 and the outer limiting ring 10 are of an integrally formed structure;

as shown in fig. 4 and 5, the spacer 8 is composed of a spacer body 11 and a mating end 12 at one end of the spacer body 11, the spacer body 11 and the mating end 12 are connected by an arc-shaped concave transition part 13, and both the end of the spacer 8 far away from the transition part 13 and the outer end of the plug 14 are provided with a concave interface 15;

the radian of the transition part 13 corresponds to that of the inner limiting ring 9, and the end part of the matching end 12 is frustum-shaped; after assembly, the spacer 8 is in interference fit with the inner limiting ring 9, the periphery of the spacer body 11 is abutted against the inner wall of the liquid collecting pipe 7, the end part of the matching end 12 penetrates through the inner limiting ring 9, and the inner limiting ring 9 is embedded between the transition part 13 and the matching end 12;

as shown in fig. 1, 2 and 6, each of the spacer embedding mechanism 16 and the plug embedding mechanism 17 includes a top block 18, a top block driving mechanism 19 and a guide frame 20, the end of the top block 18 has a connector 21 corresponding to the interface 15 on the spacer 8 or the plug 14, both the guide frames 20 have a slide way 22 corresponding to the spacer 8 or the plug 14, the lower ends of the two guide frames 20 also have an outlet 23 connected and communicated with the slide way 22, a plurality of spacers 8 or plugs 14 are stacked in the slide way 22 from the top of the guide frame 20 in sequence, the spacer 8 or the plug 14 at the lowest end is positioned in the outlet 23, and the top block 18, the outlet 23 and the processed collecting pipe 7 are coaxially arranged;

when the spacer 8 or the plug 14 is assembled, the spacer 8 or the plug 14 at the outlet 23 is pushed towards the liquid collecting pipe 7 by the top block 18 so that the plug 14 is combined with the end part of the liquid collecting pipe 7 or the spacer 8 is combined with the inner limiting ring 9, after the combination is finished, the top block 18 retracts, and the spacer 8 or the plug 14 located at the previous station in the slide way 22 falls into the outlet 23;

it is worth integratedly, when the top block 18 pushes the spacer 8 or the plug 14, the joint 21 of the top block 18 is inserted into the spacer 8 or the interface 15 of the plug 14 to position the plug 14 or the spacer 8, which is a structure to avoid the spacer 8 or the plug 14 from generating deviation when passing through the gap between the outlet 23 and the liquid collecting pipe 7 and being unable to be combined smoothly;

the length of the top block 18 of the spacer embedding mechanism 16 is greater than the distance between the outlet 23 of the material guide frame 20 of the spacer embedding mechanism 16 and the inner limiting ring 9, and the length of the top block 18 of the plug embedding mechanism 17 is greater than the distance between the outlet 23 of the material guide frame 20 of the plug embedding mechanism 17 and the end of the liquid collecting pipe 7, so that the situation that the top block 18 is clamped in the outlet 23 due to the fact that the spacer 8 or the plug 14 at the previous station falls in advance in the process that the spacer 8 or the plug 14 is jacked by the top block 18 is avoided;

specifically, the ejector block driving mechanism 19 is a hydraulic cylinder or an air cylinder;

referring to fig. 7 and 8, the limiting and heating mechanism 4 includes a fixing seat 24 and two limiting blocks 25, an arc-shaped groove 26 is formed in the top of the fixing seat 24, a limiting groove 27 corresponding to the outer limiting ring 10 of the liquid collecting pipe 7 is formed in the arc-shaped groove 26, an electric heating device 28 is further arranged in the fixing seat 24, the two limiting blocks 25 are respectively connected to two sides of the top of the fixing seat 24 in a sliding manner, the corresponding limiting grooves 27 are also formed in one side of the two limiting blocks 25 facing the middle of the fixing seat 24, clamping cylinders 29 are respectively fixed to two sides of the fixing seat 24, piston rods of the two clamping cylinders 29 are respectively connected to the outer sides of the two limiting blocks 25, and the two limiting blocks 25 are matched with the fixing seat 24 to limit the outer limiting ring 10 of the liquid collecting pipe 7;

the electric heating device 28 is an electric heating wire or an electric heating rod, and the electric heating wire or the electric heating rod forms an arc shape and is arranged close to the limiting groove 27, so that the limiting ring 9 in the clamped liquid collecting pipe 7 is rapidly heated;

the pipe rotating mechanism 5 comprises a pipe rotating motor 30, a rotating cylinder frame and a rotating cylinder 31 which is rotatably connected to the rotating cylinder frame, a damping layer is bonded on the outer side of the rotating cylinder 31, one end of a connecting shaft of the rotating cylinder 31 penetrates out of one end of the rotating cylinder frame and is connected with an output shaft of the pipe rotating motor 30 through a gear set, a fixed concave hole is formed in the rotating table 2, and the pipe rotating motor 30 is fixed in the fixed concave hole so as to prevent the top of the pipe rotating motor 30 from rubbing with a processed liquid collecting pipe 7;

the rotating tube motor 30 drives the rotating tube 31 to rotate, the rotating tube 31 is abutted to the processed liquid collecting tube 7 and drives the liquid collecting tube 7 to rotate, and the inner limiting ring 9 of the liquid collecting tube 7 can be uniformly heated.

The working principle of the invention is as follows: the liquid collecting pipe 7 is placed on the rotary transposition pipe frame through manpower or a mechanical arm, and the two outer limiting rings 10 of the liquid collecting pipe 7 are respectively matched on the limiting grooves 27 of the two fixing seats 24; the electric heating device 28 in the fixing seat 24 heats the inner limiting ring 9 of the liquid collecting pipe 7, and the rotating pipe mechanism 5 drives the liquid collecting pipe 7 to rotate, so that the inner limiting ring 9 is uniformly heated; in the step, because continuous processing is adopted, the fixed seat 24 always keeps higher temperature, the liquid collecting pipe 7 is generally made of aluminum or copper and has better heat conductivity, heating generally lasts for only 5-15 seconds, the outer limiting ring 10 is matched with the limiting groove 27, and the liquid collecting pipe 7 cannot deviate and only rotates radially in the pipe rotating process; after heating, the two ends of the liquid collecting pipe 7 are limited by clamping of the limiting blocks 25, the electric heating device 28 keeps heating and heat preservation of the liquid collecting pipe 7, the spacer is embedded into the jacking block 18 of the mechanism 16 to stretch once, and a spacer 8 is jacked into the liquid collecting pipe 7, so that the spacer 8 is in interference fit with the adjacent inner limiting ring 9; then, the forward and reverse rotation motor 6 drives the rotary table 2 to rotate for 180 degrees, the top block 18 of the plug embedding mechanism 17 stretches and retracts once to assemble the plug 14 on one end of the liquid collecting pipe 7 which is installed with the spacer 8, meanwhile, the top block 18 of the spacer embedding mechanism 16 stretches and retracts once again, and the other spacer 8 is in interference fit with the inner limiting ring 9 at the other end of the liquid collecting pipe 7; finally, the forward and reverse rotation motor 6 drives the rotary table 2 to reset, and the spacer embedding mechanism 16 is provided with a plug 14 at the other end of the liquid collecting pipe 7; after the assembly is completed, the two limit blocks 25 reset, and the liquid collecting pipe 7 is taken down manually or by a mechanical arm.

And when only need assemble a slice spacer 8 in the collector tube 7, after the collector tube 7 heats spacing, spacer embedding mechanism 16 and end cap embedding mechanism 17's kicking block 18 once stretches out and draws back simultaneously, assembles one end cap 14 and spacer 8 simultaneously, and the revolving stage 2 once rotates after the assembly finishes, and end cap embedding mechanism 17 assembles other end cap 14, accomplishes processing promptly.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (10)

1. The utility model provides an automatic embedding device of condenser collector tube spacer end cap which characterized in that: the device comprises a workbench, a rotary transposition pipe frame arranged on the workbench, and a spacer embedding mechanism and a plug embedding mechanism which are respectively arranged at two ends of the rotary transposition pipe frame;

the rotary transposition pipe frame consists of a rotary table, an installation platform fixed at the top of the rotary table and two limiting and heating mechanisms symmetrically arranged on the installation platform, wherein the middle part of the installation platform is also provided with a pipe rotating mechanism, and the rotary table is driven by a positive and negative rotation motor arranged at the bottom of the workbench;

an inner limiting ring corresponding to the spacer is arranged in the liquid collecting pipe, and an outer limiting ring corresponding to the inner limiting ring is arranged on the outer side of the liquid collecting pipe;

the spacer consists of a spacer body and a matching end positioned at one end of the spacer body, the spacer body is connected with the matching end through an arc-shaped concave transition part, the radian of the transition part corresponds to that of the inner limiting ring, and the end part of the matching end is in a frustum shape;

after the assembly is finished, the spacer is in interference fit with the inner limiting ring, the periphery of the spacer body is abutted against the inner wall of the liquid collecting pipe, the end part of the matching end penetrates through the inner limiting ring, and the inner limiting ring is embedded between the transition part and the matching end;

the spacer embedding mechanism and the plug embedding mechanism respectively comprise a top block, a top block driving mechanism and a guide frame, a slide way corresponding to the spacer or the plug is arranged in each guide frame, the lower ends of the two guide frames are also provided with an outlet connected and communicated with the slide way, a plurality of spacers or plugs are sequentially stacked into the slide way from the top of each guide frame, the spacer or the plug positioned at the lowest end is positioned in the outlet, and the top block, the outlet and a processed liquid collecting pipe are coaxially arranged;

spacing and heating mechanism includes a fixing base and two stoppers, the fixing base top has an arc wall, have in the arc wall with the corresponding spacing groove of the outer spacing ring of collector tube, still have electric heater unit in the fixing base, two the stopper is sliding connection respectively in fixing base top both sides, two the stopper also has corresponding spacing groove towards one side at fixing base middle part, the both sides of fixing base still are fixed with a die clamping cylinder respectively, two die clamping cylinder's piston rod is connected with the outside of two stoppers respectively, and two stoppers cooperate with the fixing base and carry on spacingly to the outer spacing ring department of collector tube.

2. The automatic embedding device for the spacer plug of the condenser liquid collecting tube according to claim 1, which is characterized in that: the forward and reverse rotation motor drives the rotary table to rotate for 180 degrees in a reciprocating mode.

3. The automatic embedding device for the spacer plug of the condenser liquid collecting tube according to claim 2, which is characterized in that: the rotating tube mechanism comprises a rotating tube motor, a rotating tube frame and a rotating tube connected to the rotating tube frame in a rotating mode, a damping layer is bonded to the outer side of the rotating tube, one end of a connecting shaft of the rotating tube penetrates out of one end of the rotating tube frame and is connected with an output shaft of the rotating tube motor through a gear set, a fixed concave hole is formed in the rotating plate, and the rotating tube motor is fixed in the fixed concave hole.

4. The automatic embedding device for the spacer plug of the condenser liquid collecting tube according to claim 3, wherein the automatic embedding device comprises: and a distance is kept between the spacer embedding mechanism and the plug embedding mechanism and between the mounting platform and the plug embedding mechanism, and the distance between the spacer embedding mechanism and the plug embedding mechanism corresponds to the length of the processed liquid collecting pipe.

5. The automatic embedding device for the spacer plug of the condenser liquid collecting tube according to claim 4, wherein the automatic embedding device comprises: the liquid collecting pipe is provided with two pairs of inner limiting rings and two pairs of outer limiting rings, the two pairs of inner limiting rings and the two pairs of outer limiting rings are symmetrically arranged in the middle of the liquid collecting pipe, and the inner limiting rings and the outer limiting rings which are positioned at the same end are positioned at the same position on the liquid collecting pipe.

6. The automatic embedding device for the spacer plug of the condenser liquid collecting tube according to claim 5, wherein the automatic embedding device comprises: the thickness of the inner limiting ring is larger than that of the outer limiting ring.

7. The automatic embedding device for the spacer plug of the condenser liquid collecting tube according to claim 6, wherein the automatic embedding device comprises: the liquid collecting pipe, the inner limiting ring and the outer limiting ring are of an integrally formed structure.

8. The automatic embedding device for the spacer plug of the condenser liquid collecting tube according to claim 7, which is characterized in that: the one end that transition portion was kept away from to the spacer and the outer end of end cap all still have the interface of indent, the tip of kicking block has the joint corresponding with spacer or end cap upper interface, and when kicking block top moved spacer or end cap, the joint of kicking block inserted in the interface and fixes a position end cap or spacer.

9. The automatic embedding device for the spacer plug of the condenser liquid collecting tube according to claim 8, wherein the automatic embedding device comprises: the length of the top block of the spacer embedding mechanism is larger than the distance between the outlet of the material guide frame of the spacer embedding mechanism and the inner limiting ring, and the length of the top block of the plug embedding mechanism is larger than the distance between the outlet of the material guide frame of the plug embedding mechanism and the end part of the liquid collecting pipe.

10. The automatic embedding device for the spacer plug of the condenser liquid collecting tube according to claim 9, which is characterized in that: the electric heating device is an electric heating wire or an electric heating rod, and the electric heating wire or the electric heating rod forms an arc shape and is arranged close to the limiting groove.

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