CN205464044U - Fin poling location structure and automatic poling device - Google Patents

Abstract

The utility model relates to a fin poling location structure and automatic poling device. The fin tube-penetrating positioning structure is fixed on the frame and comprises a guiding part and a positioning part, the guiding part is mounted on the frame through a first driving mechanism, the positioning part is mounted on the frame through a second driving mechanism, and the positioning part is positioned close to the fins; the guide part and the positioning part play a role in guiding and positioning the heat exchange pipe in the pipe penetrating process of the fin. The automatic tube penetrating device comprises a rack, a tube pushing mechanism and a fin tube penetrating positioning structure. The utility model provides a fin poling location structure and automatic poling device utilizes guide portion, location portion and guide bar to mutually support and leads, fixes a position the poling process of heat transfer pipe, has overcome the deformation problem that the flexibility of longer heat exchange tube especially longer U-shaped pipe performance produced when automatic poling, and the concentricity of accurate control heat exchange tube and fin hole in the process of wearing to make simultaneously improves the success rate of automatic poling.

Description

A kind of fin poling location structure and automatic tube-penetrating device

Technical field

This utility model relates to the manufacture field of heat exchanger, particularly a kind of fin poling location structure And automatic tube-penetrating device.

Background technology

Typically by being accomplished manually poling operation after fin punching at present, labor intensity is big, working environment Badly, artificial poling can bring again the hidden danger of constant product quality difference；The production effect of artificial poling Rate is low, needs to put into a large amount of manpower and solves, directly increases cost of goods manufactured；At heat exchanger Production process in, substantially realize full-automatic production model, but be in the fin in interstage The effect of automatic tube-penetrating technology is undesirable, becomes the bottleneck of heat exchanger automated production.

Utility model content

In view of this, the purpose of this utility model be to provide a kind of fin poling location structure and from Dynamic pipe lining device, to solve the above-mentioned technical problem that prior art exists.

According to first aspect of the present utility model, it is provided that a kind of fin poling location structure, it is fixed on In frame, including guide portion and location division, described guide portion is installed to machine by the first drive mechanism On frame, described location division is installed in frame by the second drive mechanism, and described location division is positioned against The position of nearly fin；Described guide portion and location division are risen at the poling process exchange heat pipe of described fin Guide and positioning action.

Preferably, described guide portion includes guiding and lower guiding, described upper guiding and lower guiding energy Enough move under the driving of described first drive mechanism, and described upper guiding and lower guiding can be mutual Contact or separation.

Preferably, described first drive mechanism includes guiding drive mechanism and lower guiding drive mechanism； Described upper guiding drive mechanism and lower guiding drive mechanism are fixed in described frame, described upper guiding It is fixed in described upper guiding drive mechanism；Described lower guiding is fixed on described lower guiding drive mechanism On.

Preferably, described upper guiding and lower guiding are provided with gathering sill, on described guide with During lower guiding contact, the described gathering sill of relative position forms pilot hole.

Preferably, described location division includes location division and lower location division, described upper location division and under Location division can be moved under the driving of described second drive mechanism.

Preferably, described second drive mechanism includes that location division drive mechanism and lower location division drive Mechanism；Described upper location division drive mechanism and lower location division drive mechanism are fixed in described frame, Described upper location division is fixed in the drive mechanism of described upper location division；Described lower location division is fixed to institute State in the drive mechanism of lower location division.

Preferably, described upper location division is provided with positioning tooth, described lower location division is provided with Lower positioning tooth, described upper positioning tooth and lower positioning tooth can be with described upper location division and lower location divisions Move and contact with each other or separate；It is provided with locating slot, institute on described upper positioning tooth and lower positioning tooth The described locating slot stating relative position when positioning tooth contacts with lower positioning tooth forms hole, location.

Preferably, hole, described location is one end diameter through hole more than other end diameter, and diameter is relatively Little one end is near described fin.

Preferably, also include that stop portion, described stop portion are arranged on described lower location division or upper fixed In the portion of position.

Preferably, also including guiding bar, one end of described guiding bar is positioned at the fin hole of described fin In, the other end is positioned at described heat exchanger tube.

According to second aspect of the present utility model, it is provided that a kind of automatic tube-penetrating device, including frame and Ejector sleeve mechanism, also includes that above-mentioned fin poling location structure, described fin poling location structure also wrap Including fin supporting part, described fin supporting part is located close to the side of described location division, described fin Poling location structure is fixed in described frame.

The fin poling location structure that this utility model provides, utilizes guide portion, location division and guiding Bar cooperate exchange heat pipe poling process carry out guiding, positioning, overcome longer heat exchanger tube The problem on deformation that the flexibility of the longest U-tube performance produces when automatic tube-penetrating, essence simultaneously Really control heat exchanger tube and fin hole concentricity during piercing, improve the success rate of automatic tube-penetrating.

Accompanying drawing explanation

By description to this utility model embodiment referring to the drawings, of the present utility model above-mentioned And other objects, features and advantages will be apparent from, in the accompanying drawings:

Fig. 1 is this utility model fin poling location structure schematic front view；

Fig. 2 is enlarged drawing at A in Fig. 1；

Fig. 3 is guide portion structural representation；

Fig. 4 is location division structural representation；

Fig. 5 be heat exchanger tube installation process with each several part coordinate schematic diagram.

Detailed description of the invention

It is more fully described various embodiment of the present utility model hereinafter with reference to accompanying drawing.Attached at each In figure, identical element uses same or similar reference to represent.For the sake of clarity, Various piece in accompanying drawing is not necessarily to scale.

As shown in Figure 1, 2, the fin poling location structure 2 that this utility model provides is fixed to frame On 1, fin 3 is fixed on described fin poling location structure 2, and heat exchanger tube 4 is by described wing The location of sheet poling location structure 2 and guiding, and under certain thrust, it is inserted into described fin 3 On fin hole in.Described fin poling location structure 2 includes guide portion 24, location division 25 and Fin supporting part 26, described guide portion 24, location division 25 and fin supporting part 26 fit into institute State on support 1, and described location division 25 be between described guide portion 24 and fin supporting part 26, And described location division 25 is near described fin supporting part 26.It is provided with lower shoe on described support 1 21, upper plate 22 and supporting part 23, it is preferable that described lower shoe 21, upper plate 22 and support Portion 23 is integrally formed with described frame 1, described lower shoe 21, upper plate 22 and supporting part 23 A part for described frame 1；Or, described lower shoe 21, upper plate 22 and supporting part 23 Formed with described frame 1 split, be then fixedly installed in described frame 1.Described lower shoe 21 It is parallel to each other and keeps at a certain distance away setting with upper plate 22, described supporting part 23 and lower shoe 21 Vertical with upper plate 22 is arranged between, and with described lower shoe 21 and upper plate 22 It is fixedly connected with.Described guide portion 24 and location division 25 are arranged at described lower shoe 21 and Shang Ding Between plate 22, it is respectively used to described heat exchanger tube 4 is guided and positioned.

As shown in Figure 2 and Figure 3, described guide portion 24 includes guiding 241, lower guiding 242 and First drive mechanism, described first drive mechanism includes that guiding drive mechanism 243 and lower guiding are driven Motivation structure 244, described upper guiding drive mechanism 243 and lower guiding drive mechanism 244 are fixed respectively On described upper plate 22 and lower shoe 21, described upper guiding 241 and lower guiding 242 are solid respectively Fixed in described upper guiding drive mechanism 243 and lower guiding drive mechanism 244, and described upper guiding 241 and lower guiding 242 can guide drive mechanism 243 and lower guiding drive mechanism respectively on described Vertically move under the driving of 244.It is respectively provided with in described upper guiding 231 and lower guiding 242 There are gathering sill 245, described upper guiding 241 and lower guiding 242 to move to away from described upper top simultaneously During the primary importance of plate 22 and lower shoe 21, both contacts, described upper guiding 241 and lower guiding On 242 relative to two described gathering sills 245 form pilot hole, described pilot hole is manhole, And make the axis of described pilot hole and the axis collinear in the fin hole on described fin 3, such as Fig. 3 Shown in, the installation of described heat exchanger tube 4 is play the guiding role by the pilot hole that described gathering sill 245 is formed (hereafter can describe in detail).

As in figure 2 it is shown, described location division 25 includes location division 251, lower location division 252 and Two machine drive mechanisms, described second drive mechanism includes location division drive mechanism 255 and lower location Portion's drive mechanism 256, described upper location division drive mechanism 255 and lower positioning drive mechanisms 256 points It is not fixed on described upper plate 22 and lower shoe 21, described upper location division 251 and lower location division 252 are respectively fixed in described upper location division drive mechanism 255 and lower location division drive mechanism 256, Described upper location division 251 and lower location division 252 can location division drive mechanisms 255 on described respectively Move in a vertical and horizontal direction under driving with lower location division driving means 256, described fixed Positioning tooth 253 and lower positioning tooth 254 it is respectively arranged with in position portion 251 and lower location division 252, Described upper positioning tooth 253 and lower positioning tooth 254 are simultaneously moved into away from described upper plate 22 and go to the bottom Contact both during the primary importance of plate 21, as shown in Figure 4, described upper positioning tooth 253 and lower location Locating slot 258 it is provided with, when described upper positioning tooth 253 and lower positioning tooth 254 connect on tooth 254 When touching, two relative described locating slots 258 form hole, location, and hole, described location is the first end Diameter more than the through hole of the second end diameter, the direction that its first end inserts near described heat exchanger tube 4, Second end is near described fin 3, hole, described location and the fin hole on described fin 3 and guide portion The axis collinear of the pilot hole on 24, it is preferable that hole, described location with the axiality in fin hole is 0.04-0.06.After described upper positioning tooth 253 contacts with lower positioning tooth 254, described second drives machine Structure drives described location division 25 to move, by described wing to the direction near described fin supporting part 26 Sheet 3 is pressed on described fin supporting part 26 and (hereafter can describe in detail).

In another preferred embodiment, described location division 25 is additionally provided with stop portion 257, described Stop portion 257 is fixed in stop portion drive mechanism, and described stop portion drive mechanism is fixed on described (for being fixed to described lower location division 252 shown in Fig. 2 on lower location division 252 or upper location division 251 On), described stop portion 257 can move under the driving of described stop portion drive mechanism, and can clamp Described heat exchanger tube 4 (hereafter can describe in detail).

The fin poling location structure 2 that this utility model provides is by arranging described guide portion 24 and determining Position portion 25, and make the pilot hole in described guide portion 24, the hole, location on location division 25 and described The axis collinear of the fin hole three on fin 3, thus utilize the pilot hole in described guide portion 24 With the hole, location on described location division 25, described heat exchanger tube 4 is guided and positions so that it is install Process is more smooth and easy.The location of the most described heat exchanger tube 4 poling process, and preferably ensure Described heat exchanger tube 4 and the axiality of described fin 3 upper fin film perforation, it is preferable that this utility model wing Sheet poling location structure 2 is additionally provided with guiding bar 5, and described guiding bar 5 connects with described heat exchanger tube 4 The one end touched is the first end, as it is shown in figure 5, the first end of described guiding bar 5 is taper, described The first end guiding bar 5 through described fin hole and is exposed at the outside in described fin hole, and described in draw Guide rod 5 can move along the axis direction in described fin hole.First end of described guiding bar 5 can Insert in described heat exchanger tube 4, and form interference fit with described heat exchanger tube 4 so that it is at certain force Effect under could come off in described heat exchanger tube 4.Described guiding bar 5 is to described heat exchanger tube 4 Poling process plays guiding function.

The fin poling location structure work process that this utility model provides is:

Described fin 3 is placed on described fin supporting part 26, controls described second drive mechanism Make described upper positioning tooth 253 and lower positioning tooth 254 close, then control described location division 25 to leaning on The direction of nearly described fin 3 is moved, by described upper positioning tooth 253 and lower positioning tooth 254 by institute State fin to be pressed on described fin supporting part 26, and make hole, location on described location division 25 with Fin hole on described fin 3 is coaxial.Make described guide portion 24, the most described upper guiding 241 with under Guide 242 to separate, utilize feeding device that described heat exchanger tube 4 is put into leading of described lower guiding 242 In groove 245, then control described upper guiding drive mechanism 243 and lower guiding drive mechanism 244 Make described upper guiding 241 and lower guiding 242 move to primary importance, make described upper guiding 241 with Gathering sill 245 in lower guiding 242 closes, and utilizes heat exchanger tube 4 described in ejector sleeve mechanism urges to institute The direction stating fin 3 is moved.Described guiding bar 5 is positioned at the fin hole of described fin 3, and its First end is through the hole, location on described location division 25, and described heat exchanger tube 4 moves to described guiding bar 5 end time the end of described guiding bar 5 is inserted in described heat exchanger tube 4, and with described Heat exchanger tube 4 forms interference fit, and one end that described heat exchanger tube 4 coordinates with described guiding bar 3 is institute Stating the first end of heat exchanger tube 4, described guiding bar 5 moves together with heat exchanger tube 4, described heat exchanger tube First end of 4 is through the hole, location of described location division 25 and in entering the fin hole of described fin 3.

In order to completely described heat exchanger tube 4 is inserted in described fin hole, described heat exchanger tube 4 away from Second end of its first end needs to switch the way of propelling of ejector sleeve mechanism when described guide portion 24, Make described ejector sleeve mechanism by clamping ejector sleeve, i.e. clamp described heat exchanger tube 4, switch to end Ejector sleeve, the most described ejector sleeve mechanism unclamps the clamping to described heat exchanger tube 4, moves to described heat exchanger tube The end of 4, promotes its end to move, and the clamping to described heat exchanger tube 4 is unclamped by described ejector sleeve mechanism While, described stop portion 257 moves up and is clamped by described heat exchanger tube 4, prevents it to be carried over. After the switching way of propelling, described ejector sleeve mechanism continues to press on described heat exchanger tube 4 and moves, meanwhile, and institute State guiding 241 and lower guiding 242, upper positioning tooth 253 and lower positioning tooth 254 successively separate, Avoid thrust structure to be in contact with it, make described ejector sleeve mechanism that described heat exchanger tube 4 is fully advanced into institute Stating in fin hole, the most described guiding bar 5 continues to move to, and departs from described heat exchanger tube 4.Complete After the poling of described fin 3, all parts return to initial position, are ready for poling next time Operation.

The fin poling location structure 2 that this utility model provides utilizes described guide portion 24 and location division The installation of 25 pairs of described heat exchanger tubes 4 plays location and guide effect, and utilizes described guiding bar 5 to institute The installation stating heat exchanger tube 4 plays guiding function, and the installation process making described heat exchanger tube 4 is more smooth and easy. Described heat exchanger tube 4 is taken out of when avoiding way of propelling conversion by the setting of described stop portion 257, enters One step ensure that the reliability that described heat exchanger tube 4 is installed.

It should be noted that, in this article, the relational terms of such as first and second or the like is only It is used for separating an entity or operation with another entity or operating space, and not necessarily requires Or imply relation or the order that there is any this reality between these entities or operation.

Last it is noted that obvious, above-described embodiment is only new for clearly demonstrating this practicality Type example, and not restriction to embodiment.Ordinary skill people for art For Yuan, can also make other changes in different forms on the basis of the above description. Here without also cannot all of embodiment be given exhaustive.And thus amplified out aobvious and easy The change seen or variation still in protection domain of the present utility model among.

Claims (11)

1. a fin poling location structure, it is fixed in frame (1), it is characterized in that, including guide portion (24) and location division (25), described guide portion (24) is installed in frame (1) by the first drive mechanism, described location division (25) is installed in frame (1) by the second drive mechanism, and described location division (25) are located close to the position of fin (3)；Heat pipe (4) guiding and positioning action are exchanged in the poling process of described fin (3) in described guide portion (24) and location division (23).

Fin poling location structure the most according to claim 1, it is characterized in that, described guide portion (24) includes guiding (241) and lower guiding (242), described upper guiding (241) and lower guiding (242) can be moved under the driving of described first drive mechanism, and described upper guiding (241) and lower guiding (242) can contact with each other or separate.

Fin poling location structure the most according to claim 2, it is characterised in that described first drive mechanism includes guiding drive mechanism (243) and lower guiding drive mechanism (244)；Described upper guiding drive mechanism (243) and lower guiding drive mechanism (244) are fixed in described frame (1), and described upper guiding (241) is fixed on described upper guiding drive mechanism (243)；Described lower guiding (242) is fixed on described lower guiding drive mechanism (244).

Fin poling location structure the most according to claim 3, it is characterized in that, it is provided with gathering sill (245) on described upper guiding (241) and lower guiding (242), when guiding (241) to contact with lower guiding (242) on described, the described gathering sill (245) of relative position forms pilot hole.

Fin poling location structure the most according to claim 1, it is characterized in that, described location division (25) includes that location division (251) and lower location division (252), described upper location division (251) and lower location division (252) can be moved under the driving of described second drive mechanism.

Fin poling location structure the most according to claim 5, it is characterised in that described second drive mechanism includes location division drive mechanism (255) and lower location division drive mechanism (256)；Described upper location division drive mechanism (255) and lower location division drive mechanism (256) are fixed in described frame (1), and described upper location division (251) is fixed on described upper location division drive mechanism (255)；Described lower location division (252) is fixed on described lower location division drive mechanism (256).

Fin poling location structure the most according to claim 6, it is characterized in that, it is provided with positioning tooth (253) on described upper location division (251), it is provided with lower positioning tooth (254), described upper positioning tooth (253) and lower positioning tooth (254) on described lower location division (252) to contact with each other with the movement of described upper location division (251) and lower location division (252) or separate；Being provided with locating slot (258) on described upper positioning tooth (253) and lower positioning tooth (254), when described upper positioning tooth (253) contacts with lower positioning tooth (254), the described locating slot (258) of relative position forms hole, location.

Fin poling location structure the most according to claim 7, it is characterised in that hole, described location is one end diameter more than the through hole of other end diameter, and the less one end of diameter is near described fin (3).

Fin poling location structure the most according to claim 5, it is characterized in that, also include that stop portion (257), described stop portion (257) are arranged on described lower location division (252) or upper location division (251).

10. according to the fin poling location structure according to any one of claim 1-9, it is characterized in that, also include guiding bar (5), one end of described guiding bar (5) is positioned at the fin hole of described fin (3), and the other end is positioned at described heat exchanger tube (4).

11. 1 kinds of automatic tube-penetrating devices, including frame (1) and ejector sleeve mechanism, it is characterized in that, also include the fin poling location structure according to any one of claim 1-10, described fin poling location structure also includes fin supporting part (26), described fin supporting part (26) is located close to the side of described location division (25), and described fin poling location structure is fixed in described frame (1).