CN107915028B

CN107915028B - Flat pipe cloth arranging device

Info

Publication number: CN107915028B
Application number: CN201711106451.3A
Authority: CN
Inventors: 潘立苗; 王元军; 丁仁宝
Original assignee: Jdm Jingda Machine Ningbo Co ltd
Current assignee: Jdm Jingda Machine Ningbo Co ltd
Priority date: 2017-11-10
Filing date: 2017-11-10
Publication date: 2024-06-18
Anticipated expiration: 2037-11-10
Also published as: CN107915028A

Abstract

A flat tube cloth arranging device comprises a flat tube guiding and falling mechanism, a layer number adjusting and conveying mechanism and a base; the flat pipe guiding mechanism is two sets of parallel arrangement about, connects on the base through flat pipe guiding mechanism's mount pad, the hold-in range of fall pipe mechanism sets up in flat pipe guiding mechanism's guide block inboard, and the guide way on the guide block is aimed at to the supporting shoe on the hold-in range, flat pipe transmission mechanism is two sets of parallel arrangement about, and flat pipe transmission mechanism's several layers of conveyer belt mechanism sets up in fall pipe mechanism's hold-in range outside, and the flat pipe of frame on the hold-in range supporting shoe can imbed between conveyer belt mechanism's the adjacent tooth. The invention can automatically arrange the flat pipes.

Description

Flat pipe cloth arranging device

Technical Field

The invention relates to a flat tube arranging device which can be used for arranging multi-layer flat tubes.

Background

The micro-channel heat exchanger core body is generally composed of flat tubes, fins, collecting pipes or main boards and side boards, the assembly of the core body is generally completed through an assembly machine, after the assembly is completed, the core body is placed into a brazing furnace for welding, so that all parts of the heat exchanger are effectively connected, and a finished core body is produced after the welding is completed.

In the process of assembly, the flat tubes and the fins are arranged at intervals to form a matrix, and the flat tubes are generally one layer, but in the actual use process, the flat tubes can be two layers or even three layers, as shown in fig. 1, which is a matrix arrangement diagram of three layers of flat tubes and fins, wherein 5 is the flat tubes, and 6 is the fins. The arrangement of the single-layer pipe is common and mature, but the arrangement of the multi-layer pipe cannot be automated, and the arrangement is generally finished manually, so that the production efficiency is low and the actual production requirement cannot be met.

Disclosure of Invention

The technical problem to be solved by the invention is to overcome the defects in the prior art and provide the flat tube arranging device which can automatically arrange the flat tubes.

The technical scheme adopted for solving the technical problems is as follows:

A flat tube cloth arranging device comprises a flat tube guiding and falling mechanism, a layer number adjusting and conveying mechanism and a base; the flat tube guiding mechanism comprises a mounting seat, a guiding block and a driver, wherein the front end of the guiding block is provided with a guiding groove slightly larger than the thickness of the flat tube, the driver is mounted on the mounting seat, and the driver is connected with the guiding block to drive the guiding block; the pipe dropping mechanism comprises a conveying belt, a supporting frame and a conveying belt driver, wherein the conveying belt is vertically arranged on the supporting frame, supporting blocks are arranged on the conveying belt, and the conveying belt driver is connected; the flat pipe conveying mechanism comprises a plurality of layers of conveying belt mechanisms, a flat pipe conveying driver and a mounting frame which are vertically arranged, wherein the plurality of layers of conveying belt mechanisms are arranged on the mounting frame, the flat pipe conveying driver drives the plurality of layers of conveying belts, and transmission teeth are uniformly arranged on the surfaces of the conveying belts; the layer number adjusting mechanism comprises a lifter and a movable seat, wherein the lifter is connected to the base, the movable seat is connected to the lifter and is lifted by the lifter, and the movable seat supports the mounting frame; the flat pipe guiding mechanism is two sets of parallel arrangement about, connects on the base through flat pipe guiding mechanism's mount pad, the conveyer belt setting of drop pipe mechanism is inboard at flat pipe guiding mechanism's guide block, and the guide way on the guide block is aimed at to the supporting shoe on the conveyer belt, flat pipe transmission mechanism is two sets of parallel arrangement about, and flat pipe transmission mechanism's several layers conveyer belt mechanism sets up in drop pipe mechanism's hold-in range outside, and the flat pipe of frame on the conveyer belt supporting shoe can imbed between the adjacent tooth of conveyer belt mechanism.

Preferably, the flat tube overturning mechanism comprises a rotator and a rotating block, wherein the rotator is installed on the installation seat, an output shaft of the rotator is connected with the rotating block, a flat tube guiding groove with the thickness identical to that of the flat tube is formed in the surface of the rotating block, and the guiding block is supported by the rotating block.

Preferably, the pipe dropping mechanism is two sets of parallel arranged left and right, so that the flat pipe can be supported more stably.

Preferably, one of the two flat tube guiding mechanisms is slidably connected to the base, so that the distance between the two flat tube guiding mechanisms can be adjusted.

Preferably, one of the two drop tube mechanisms is slidably coupled to the base, so that the distance between the two drop tube mechanisms can be adjusted.

Preferably, one of the two flat tube transmission mechanisms is slidably connected to the movable seat, so that the distance between the two flat tube transmission mechanisms can be adjusted.

Preferably, the uppermost layer of the conveyor belt is a guiding layer, and the flat pipe is better guided into the conveyor belt below the guiding layer.

Specifically, the rotator is a motor, and the motor is connected with the rotating block through a motor shaft of the motor to enable the rotating block to rotate.

Specifically, the driver is an air cylinder, and can also be a motor, an oil cylinder and other similar driving mechanisms, and a piston rod of the air cylinder is connected with the guide block to drive the guide block to move forwards and backwards.

Specifically, the lifter is a lifting cylinder, and can also be a motor, an oil cylinder and other similar driving mechanisms, and a piston rod of the lifting cylinder is connected with the movable seat.

Preferably, a guide mechanism is arranged between the movable seat and the side edge of the base.

Preferably, the flat tube transition mechanism comprises a transition plate driver, a transition plate and a guide strip, wherein the transition plate driver is arranged on the support frame and is connected with the transition plate to drive the transition plate to move, and the guide strip is arranged below the conveyor belt and is on the same plane with the transition plate.

Specifically, the transition plate driver is a transition plate cylinder, a piston rod of the transition plate cylinder is connected with the transition plate, and the transition plate is driven to move back and forth through the expansion and contraction of the piston rod, so that the transition plate stops or leaves a falling path of the flat pipe and contacts or leaves the guide strip.

Preferably, a wing blocking strip mechanism is further arranged on the inner side of the conveyor belt, the wing blocking strip mechanism comprises wing blocking strips and a wing blocking strip lifting mechanism, the wing blocking strips are connected to the linear motor, and the wing blocking strips are lifted by the linear motor and fall into teeth of the conveyor belt.

Specifically, the fin blocking strip lifting mechanism is a linear motor and can also be other driving mechanisms such as an air cylinder, an oil cylinder and the like.

Compared with the prior art, the invention has the following effects: the flat pipes can be automatically arranged.

Drawings

FIG. 1 is a schematic diagram of an arrangement of three layers of flat tubes and fins.

FIG. 2 is a schematic structural view of the flat tube arranging device of the present invention.

Fig. 3 is a schematic structural view of a flat tube turnover mechanism of the flat tube cloth device of the invention.

Fig. 4 is a schematic structural view of a pipe dropping mechanism of the flat pipe arranging device.

Fig. 5 is a schematic structural view of a layer number adjusting and transmitting mechanism and a base of the flat tube arranging device.

Fig. 6 is a side view of fig. 5.

Fig. 7 is a partial cross-sectional view of fig. 2 at A-A.

Detailed Description

The invention is described in further detail below with reference to the embodiments of the drawings.

As shown in fig. 2, a flat tube arranging device includes: the device comprises a flat tube overturning mechanism 1, a tube falling mechanism 2, a layer number adjusting and transmitting mechanism 3 and a base 4.

As shown in fig. 3, the flat tube turnover mechanism 1 is installed on the base 4, and includes: motor 101, mount 102, rotary block 103, guide block 104, cylinder 105. The motor 101 is arranged on the mounting seat 102, the rotating block 103 is arranged on the output shaft of the motor, the rotating block 103 is provided with a slot 1031 with the same thickness as the flat pipe, the slot 1031 is sleeved with the guide block 104, the front end of the guide block 104 is provided with a guide slot 1041 slightly larger than the thickness of the flat pipe, the cylinder 105 is arranged on the mounting seat 102, and the piston rod of the cylinder 105 is connected with the guide block 104 through a cylinder joint 106.

The flat tube turnover mechanism 1 is two sets of parallel arranged left and right, and is connected to the base 4 through the mounting seat 102 of the flat tube turnover mechanism 1, and the flat tube can be arranged between the grooves 1031 of the two sets of flat tube turnover mechanisms 1 and between the two guide grooves 1041 of the guide block 104.

The sliding block and sliding rail guiding mechanism is arranged between one mounting seat 102 and the base 4 of the two flat tube turnover mechanisms 1, so that the distance between the two flat tube turnover mechanisms can be adjusted to adapt to flat tubes with different lengths.

The flat pipe is conveyed from the front procedure and falls into the slot 1031 of the rotating block 103, the motor 101 works to drive the rotating block 103 to rotate, so that the flat pipe in the slot 1031 can be driven to rotate by a certain angle, the welding interfaces of the flat pipe are consistent in orientation, the welding quality of the core body is ensured, and the core body is assembled attractive.

The piston rod of the cylinder 105 retreats to drive the guide block 104 to retreat, so that the guide groove 1041 is communicated with the groove 1031, and the flat tube can fall into the guide groove 1041 from the groove 1031 and enter the flat tube conveying mechanism 2 through the guide groove 1041. Then, the piston rod of the cylinder 105 extends to drive the guide block 104 to reset, so that the guide groove 1041 and the slot 1031 are not connected, and the above actions are continuously repeated.

If the flat tube does not need to be turned over, the guide groove 1041 and the groove 1031 are always in a communicating state.

As shown in fig. 4, the pipe dropping mechanism 2 includes: the motor 201 is mounted on the support frame 202, the synchronous pulley 203 is mounted on an output shaft of the motor 201, the synchronous pulleys 204 and 205 are mounted on the rotary shaft 208, the rotary shaft 208 is supported by the support frame 202 in a rolling mode, the fixed shaft 209 is mounted on the support frame 202, the synchronous pulley 206 is supported on the fixed shaft 209 in a rolling mode, the conveyor belt 207 is connected with transmission between the synchronous pulleys 205 and 206, a supporting block 2071 is arranged on the conveyor belt, and is used for supporting flat tubes falling from the turnover mechanism 1, and the whole drop tube mechanism 2 is vertically mounted on the base 4 through the support frame 202.

The conveyor belt 207 of the pipe dropping mechanism 2 is arranged on the inner sides of the guide blocks 104 of the two sets of flat pipe guide mechanisms, and the supporting blocks 2071 on the conveyor belt 207 are aligned with the guide grooves 1041 on the guide blocks.

The drop tube mechanism 2 is two sets of the drop tube mechanisms which are arranged in parallel left and right, the supporting frame 202 of the passing drop tube mechanism 2 is connected to the base 4, and the flat tube can be placed on the supporting blocks 2071 of the conveying belt 207 of the two sets of the drop tube mechanisms 2 for supporting.

A sliding block and sliding rail guiding mechanism is arranged between the supporting frame 102 and the base 4 of one of the two pipe dropping mechanisms 2, so that the distance between the supporting frame and the base can be adjusted to adapt to flat pipes with different lengths.

When the device is used, the motor 201 is started to drive the synchronous pulley 203 to rotate, then the synchronous pulley 204 drives the synchronous pulley 205 to rotate, the conveyor belt 207 is moved through the synchronous pulley 206, the flat pipe falls onto the supporting block 2071 of the conveyor belt from the guide groove 1041, and one flat pipe is supported through the movement of the conveyor belt 207, so that the flat pipe falls into the layer number adjusting and conveying mechanism 3 stably.

As shown in fig. 5 and 6, the layer number adjustment transmission mechanism 3 includes: the layer number adjusting mechanism and the transmission mechanism.

The transmission mechanism includes: a motor 301, a motor mount 302, a pulley set 303, a drive shaft set 304, a short conveyor belt 305, and a long conveyor belt 306.

The motor 301 is mounted on a motor mounting frame 302, an output shaft of the motor is connected with a transmission shaft group 304, and the upper end and the lower end of the transmission shaft group 304 are respectively supported by the motor mounting frame 302 in a rolling way.

The surfaces of the short conveying belt 305 and the long conveying belt 306 are uniformly provided with driving teeth, flat pipes can be correspondingly arranged between the driving teeth, and fins can be correspondingly inserted in the positions of the fin thickness.

The motor 301 drives the transmission shaft group 304 to rotate, so that the short conveyor belt 305 and the long conveyor belt 306 are driven, the short conveyor belt 305 in this embodiment is a mechanism for guiding flat tubes, and is not a necessary mechanism, the long conveyor belt 306 in this embodiment is provided with three groups, each group of conveyor belts corresponds to a layer of flat tubes according to the need, and each flat tube is located between two teeth of the long conveyor belt and is transmitted through the transmission of the conveyor belt.

The layer number adjusting mechanism comprises: the cylinder 307, remove seat 308, the cylinder is installed on base 4, and its piston rod is connected with remove seat 308, transmission mechanism installs on removing seat 308, through the flexible of piston rod, drives and removes the seat and the transmission mechanism on it reciprocates. The number of layers of the flat tube can be controlled by moving the transmission mechanism up and down, as shown in fig. 5 and 6, in order to transmit a state diagram of three layers of flat tubes, if two layers or one layer of flat tubes are to be transmitted, the transmission mechanism only needs to be lowered by a corresponding distance.

In order to make the moving seat 308 move stably up and down, a sliding block sliding seat guiding mechanism 309 is added between the side edge of the base 4 and the moving seat 308, and the moving seat 308 is better guided to move by the sliding block sliding seat guiding mechanism 309.

In this embodiment, the transmission mechanism of flat pipe transmission mechanism 3 is two sets of horizontal parallel arrangement, and flat pipe transmission mechanism's several layers of conveyer belt mechanism set up in the hold-in range outside of drop tube mechanism, and flat pipe on hold-in range supporting shoe can imbed between the adjacent tooth of conveyer belt mechanism so can support the flat pipe of transmission better.

In order to adapt to flat pipes with different lengths, one of the two sets of transmission mechanisms can move relative to the movable seat 308, that is, a sliding block and sliding rail guiding mechanism 310 is arranged between the mounting seat 302 and the movable seat 308, so that the distance between the two sets of transmission mechanisms can be adjusted.

As shown in fig. 7, the flat tube arranging device further includes a flat tube transition mechanism 7 for enabling the flat tube to stably enter the layer number adjusting and conveying mechanism 3, and includes: a cylinder 701, a transition plate 702 and a guide bar 703.

The transition plate 702 is telescopically arranged below the rack of each long conveying belt 306, the air cylinder 701 is arranged on the support frame 202, the head of the piston rod of the air cylinder 701 is connected with the transition plate 702, and the transition plate 702 can be driven to move back and forth to leave the guide strip 703 or be connected with the guide strip 703 through the expansion and contraction of the piston rod, so that a flat pipe falling on the transition plate 702 is moved onto the guide strip 703 through the long conveying belts 306.

The guide strip 703 is fixedly arranged below the rack of each long conveyor belt 306, and can support a flat tube embedded between the teeth of the long conveyor belt 306.

In this embodiment, the transition plate 702 and the guide bar 703 are not provided under the lowermost long conveyor 306, and are supported by the table 8. A transition plate 702 and a guide bar 703 are arranged below the racks of the second long conveyor belt 306 and below the racks of the third long conveyor belt 306.

The embodiment is arranged in three layers, so that the flat tube turnover mechanism 1, the tube falling mechanism 2 and the layer number adjusting and conveying mechanism 3 work once for each group of three layers arranged, and if two layers are arranged, one group of two layers arranged works once.

Taking three layers of flat pipes as an example, as shown in fig. 7, the flat pipes 5 fall from the turnover mechanism 1, are transmitted through the auxiliary support of the pipe falling mechanism 2, enter the layer number adjusting and transmitting mechanism 3, firstly, the third layer of flat pipes fall between two teeth of the bottommost layer of conveyor belt 306, then the lower transition plate 702 stretches out under the action of the piston rod of the cylinder 701 to hold the falling second layer of flat pipes, and when the second layer of flat pipes fall, the upper transition plate 702 stretches out under the action of the piston rod of the cylinder 701 to hold the falling first layer of flat pipes; then the motor 301 of the transmission mechanism is started to drive the conveyor belts 305 and 306 to rotate forwards by a tooth pitch, so that the flat pipes move forwards by a tooth pitch, the flat pipes smoothly transition into the guide strip 703, the purpose of the guide strip is to prevent the flat pipe at the upper layer from entering the conveyor belt at the lower layer, the flat pipe at the bottommost layer is supported by the workbench 8 arranged on the base, then the motor 301 stops working, the piston rod of the cylinder 701 withdraws to drive the transition plate 702 to withdraw, and then the above action process is repeated.

In this embodiment, a fin blocking mechanism is further disposed on the inner side of the long conveying belt 306, where the fin blocking mechanism includes a fin blocking strip 9 and a linear motor 91, the fin blocking strip 9 is fixed on the linear motor 91, see fig. 7, and the fin blocking strip 9 is driven by the linear motor 91 to rise to the inner side of the rack of the long conveying belt 306, so that the fin can be prevented from being blocked in the teeth of the long conveying belt 306 in the falling process. When the flat pipes are arranged, the wing blocking strips 9 can move downwards by the linear motor 91 to leave the inner side of the long conveyor belt 306, so that the wing blocking strips 9 are prevented from blocking the arrangement of the flat pipes.

In this embodiment, the linear motor 91 is fixed on the mounting frame 302, and the linear motor 91 may be fixed on the base 4 according to actual needs.

The linear motor 91 may be another driving mechanism such as an air cylinder or an oil cylinder.

The movement height of the fin blocking strip 9 can also move up and down relative to the base 4 according to the number of layers of the flat pipes, and can be specifically adjusted by the linear motor 91 or the layer adjusting and conveying mechanism 3.

When the flat tubes are used, the flat tubes are well distributed through the flat tube overturning mechanism 1, the tube falling mechanism 2 and the layer number adjusting and conveying mechanism 3, fins are also placed between the flat tubes through corresponding mechanisms, the flat tubes and the fins are well distributed, and then the flat tubes and the fins gradually fall onto the workbench 8 through other conveying mechanisms to be conveyed onto the assembling workbench for core assembly.

Claims

1. The utility model provides a flat pipe arranges cloth device which characterized in that: the device comprises a flat pipe guiding mechanism, a pipe dropping mechanism, a layer number adjusting and transmitting mechanism and a base; the flat tube guiding mechanism comprises a mounting seat, a guiding block and a driver, wherein the front end of the guiding block is provided with a guiding groove slightly larger than the thickness of the flat tube, the driver is mounted on the mounting seat, and the driver is connected with the guiding block to drive the guiding block; the pipe dropping mechanism comprises a synchronous belt, a supporting frame and a synchronous belt driver, wherein the synchronous belt is vertically arranged on the supporting frame, supporting blocks are arranged on the synchronous belt, and the synchronous belt driver is connected; the flat pipe conveying mechanism comprises a plurality of layers of conveying belt mechanisms, a flat pipe conveying driver and a mounting frame which are vertically arranged, wherein the plurality of layers of conveying belt mechanisms are arranged on the mounting frame, the flat pipe conveying driver drives the plurality of layers of conveying belts, and transmission teeth are uniformly arranged on the surfaces of the conveying belts; the layer number adjusting mechanism comprises a lifter and a movable seat, wherein the lifter is connected to the base, the movable seat is connected to the lifter and is lifted by the lifter, and the movable seat supports the mounting frame; the flat pipe guiding mechanism is two sets of parallel arrangement about, connect on the base through flat pipe guiding mechanism's mount pad, the hold-in range of falling pipe mechanism sets up in flat pipe guiding mechanism's guide block inboard, and the guide slot on the guide block is aimed at to the supporting shoe on the hold-in range, flat pipe transmission mechanism is two sets of parallel arrangement about, and flat pipe transmission mechanism's several layers of conveyer belt mechanism set up in falling pipe mechanism's hold-in range outside, and the flat pipe of frame on hold-in range supporting shoe can imbed between the adjacent tooth of conveyer belt mechanism, still sets up flat pipe transition mechanism, and it includes transition plate driver, transition plate, deflector, transition plate driver is installed on the support frame, and transition plate driver is connected and drives the transition plate and remove, deflector and transition plate set up the guide slot on every layer conveyer belt to deflector and transition plate are on the coplanar, set up flat pipe tilting mechanism in the flat pipe guiding mechanism, it includes the circulator, the circulator is installed on the mount pad, and the rotator output shaft connects between the rotatory piece, the flat pipe thickness of deflector is the same with the flat pipe of deflector, and the deflector is rotated by the flat pipe thickness.

2. The flat tube arrangement device as claimed in claim 1, wherein: the pipe dropping mechanism is two sets which are arranged in parallel left and right.

3. The flat tube arrangement device as claimed in claim 1, wherein: one of the two flat tube guiding mechanisms is connected on the base in a sliding way.

4. The flat tube arrangement device as claimed in claim 2, wherein: one of the two drop tube mechanisms is connected on the base in a sliding way.

5. The flat tube arrangement device as claimed in claim 1, wherein: one of the two flat tube transmission mechanisms is connected on the movable seat in a sliding way.

6. The flat tube arrangement device as claimed in claim 1, wherein: the uppermost layer of the conveyor belt is a guiding layer.

7. The flat tube arrangement device as claimed in claim 1, wherein: and a guide mechanism is arranged between the movable seat and the side edge of the base.

8. The flat tube arrangement device as claimed in claim 1, wherein: the inner side of the conveyor belt is provided with a wing blocking strip mechanism, the wing blocking strip mechanism comprises wing blocking strips and a wing blocking strip lifting mechanism, the wing blocking strips are connected to the wing blocking strip lifting mechanism, and the wing blocking strips are lifted by the wing blocking strip lifting mechanism and fall into teeth of the conveyor belt.