CN209424857U - A kind of feeding-distribution device of fin component - Google Patents
A kind of feeding-distribution device of fin component Download PDFInfo
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- CN209424857U CN209424857U CN201821615972.1U CN201821615972U CN209424857U CN 209424857 U CN209424857 U CN 209424857U CN 201821615972 U CN201821615972 U CN 201821615972U CN 209424857 U CN209424857 U CN 209424857U
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- fin
- discharge port
- assembly
- feeding
- distribution device
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Abstract
The utility model discloses a kind of feeding-distribution devices of fin component, including disengagement chamber and vibration device, the disengagement chamber has feed inlet and discharge port, and the vibration device is to vibrate the fin component in the disengagement chamber, so that fin component is separated into assembly fin.By above-mentioned structure setting, since fin component is after completing punching press, is assembled between fin two-by-two and there is no rigid connections, fin separation will can be assembled two-by-two by certain external force.By above-mentioned structure setting, fin component can enter in disengagement chamber from feed inlet;At this point, imposing the external force of vibration to the fin component in disengagement chamber by vibration device, fin component is made to be separated into two assembly fins.
Description
Technical field
The utility model relates to automated production equipment field more particularly to a kind of feeding-distribution devices of fin component.
Background technique
With the development of technology, for the raising of production efficiency, the use of automatic production line is also more more and more universal.It is existing
In technology, heat exchanger core body generally comprises assembly fin and flat tube, by the way that flat tube to be caught in the card slot of assembly fin, with reality
Both existing assembling.But the manufacturing process of existing heat exchanger core body is mostly that manpower operation is more.For example, workpiece is in punching press
Several fin components can be obtained after completion, fin component includes asymmetric two assembly fin, is separated into dress in fin component
It is typically all to go to separate using manpower during with fin.In the prior art, often manpower will assemble fin arrangement it is good it
It is assembled again with flat tube afterwards.It should be evident that the assembling of existing heat exchanger core body mostly uses the mode of manpower to carry out, cause
Production efficiency is low.
Summary of the invention
The purpose of the utility model is to provide a kind of feeding-distribution device of fin component, which can make fin component
It is automatically separated into assembly fin, structure is simple, easy to use.
To achieve the above objectives, the present invention adopts the following technical solutions:
A kind of feeding-distribution device of fin component, including disengagement chamber and vibration device, the disengagement chamber have feed inlet with
And discharge port, the vibration device is to vibrate the fin component in the disengagement chamber, so that fin component is separated into assembly wing
Piece.
The feeding-distribution device further includes upper frame plate and lower frame plate, and the upper frame plate is oppositely arranged with the lower frame plate, with
The disengagement chamber is formed, the top of the upper frame plate is arranged in the vibration device.
The vibration device includes vibration source and shaker arm, and the vibration source is to drive the shaker arm to vibrate, institute
It states shaker arm and contacts setting with the upper frame plate.
The discharge port includes the first discharge port and the second discharge port, and first discharge port and described second discharges
Mouth is arranged side by side.
The quantity of first discharge port is four, and the quantity of second discharge port is four.
The feeding-distribution device further includes material guide channel, and the material guide channel is arranged in the discharge port.
The feed inlet and the discharge port are separately positioned on the two sides of the disengagement chamber, so that the feed inlet and institute
Discharge port is stated to be oppositely arranged.
The utility model has the beneficial effects that: by above-mentioned structure setting, due to fin component complete punching press it
Afterwards, it assembles two-by-two between fin and there is no rigid connection, fin separation will can be assembled two-by-two by certain external force.
By above-mentioned structure setting, fin component can enter in disengagement chamber from feed inlet;At this point, by vibration device to separation
Intracavitary fin component imposes the external force of vibration, and fin component is made to be separated into two assembly fins.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the utility model;
Fig. 2 is the structural schematic diagram of fin component;
Fig. 3 is the structural schematic diagram for assembling fin;
Fig. 4 is the structural schematic diagram of the feeding-distribution device of the utility model;
Fig. 5 is the side view of the feeding-distribution device of the utility model;
Fig. 6 is the structural schematic diagram of the turnover device of the utility model;
Fig. 7 is second conveying device of the utility model and the structural schematic diagram of assembling device;
Fig. 8 is that assembly fin is delivered to the structural schematic diagram of assembling station by the delivery area of the second conveying device;
Fig. 9 is that support bar snaps into the card slot of assembly fin and the structural schematic diagram of assembling station is left in delivery area;
Figure 10 is the structural schematic diagram for the guide part that flat tube snaps into assembly fin card slot;
Figure 11 is flat tube and assembly fin assembling relationship figure in Figure 10;
Figure 12 is the structural schematic diagram for the card-tight part that flat tube snaps into assembly fin fluting;
Figure 13 is flat tube and the structural schematic diagram for assembling fin assembly completion;
Figure 14 is flat tube and assembles fin after the assembly is completed, the structural schematic diagram of lifting device decline.
Specific embodiment
In the following, being described further in conjunction with attached drawing and specific embodiment to the utility model:
Referring to figs. 1 to Fig. 3, a kind of assembling equipment of heat exchanger core body, including feeding-distribution device 1, the first conveying device 2, turn over
Rotary device 3, the second conveying device 4 and assembling device 5, the feeding-distribution device 1 fin component is separated into assembly fin,
And assembly fin level is directed into first conveying device 2, first conveying device 2 will be will assemble fin conveying
To the turnover device 3, the turnover device 3 is erect will assemble fin overturning, and assembly fin setting is directed into institute
The second conveying device 4 is stated, second conveying device 4 is delivered to the assembling device 5, the assembling will assemble fin
Device 5 is assembled will assemble fin 61 with flat tube 7, to obtain heat exchanger core body.
By above-mentioned structure setting, fin component is placed in feeding-distribution device, is divided fin component 6 by feeding-distribution device
The first conveying device is directed into from assembly fin 61, and by assembly fin level;It further, will by the first conveying device
Assembly fin is delivered to turnover device, and turnover device then erects assembly fin overturning, and assembles fin setting and be directed into second
Conveying device;Assembly fin is then delivered to assembling device by the second conveying device, will assemble fin and flat tube by assembling device
Assembling, to obtain heat exchanger core body, and then realizes the automatic assembling of heat exchanger core body, and structure is simple, easy to use, effectively
Ground improves production efficiency.
As the preferred embodiment of the utility model, referring to Fig. 4 and Fig. 5, the feeding-distribution device 1 include disengagement chamber 11 and
Vibration device 12, the disengagement chamber 11 have feed inlet 13 and a discharge port 14, the discharge port 14 to it is described first defeated
Device 2 is sent to be connected to, the vibration device 12 is to vibrate the fin component in the disengagement chamber 11, so that fin component is separated into
Assemble fin.Since fin component is after completing punching press, is assembled between fin two-by-two and there is no rigid connections, by certain
External force will can assemble two-by-two fin separation.By above-mentioned structure setting, fin component can enter from feed inlet
To disengagement chamber;At this point, imposing the external force of vibration to the fin component in disengagement chamber by vibration device, separate fin component
At two assembly fins.Wherein, the feed inlet 13 and the discharge port 14 are separately positioned on the two sides of the disengagement chamber 11,
So that the feed inlet 13 is oppositely arranged with the discharge port 14.
In the present embodiment, the feeding-distribution device 1 further includes upper frame plate 15 and lower frame plate 16, the upper frame plate 15 with it is described
Lower frame plate 16 is oppositely arranged, and to form the disengagement chamber 11, the top of the upper frame plate 15 is arranged in the vibration device 12,
Structure is simple, easy to assembly.
In the present embodiment, the vibration device 12 includes vibration source and shaker arm 17, and the vibration source is to drive
The vibration of shaker arm 17 is stated, the shaker arm 17 contacts setting with the upper frame plate 15.The vibration of shaker arm is driven by vibration source,
Shaker arm can transmit these vibrations to frame plate, to realize vibration device to the effect of vibration of disengagement chamber inner fin component, structure
Simply, easy to use.Wherein, vibration source can be the power device being arranged on press machine, and the press machine is to fins set
The press machine of part punching press.
The assembling equipment further includes material guide channel 19, and one end of the material guide channel 19 is connect with the discharge port 14, separately
One end is connect with first conveying device 2.By above-mentioned structure setting, the assembly fin after separation is from discharge port through guide
Channel is directed into the first conveying device, and structure is simple, easy to use.
Wherein, the discharge port 14 includes the first discharge port 141 and the second discharge port 142, and first discharge port
141 are arranged side by side with second discharge port 142.Fin component after the completion of punching press includes that there are two assembly wings arranged side by side
Piece;Therefore, the first discharge port and the second discharge port are arranged side by side, and arrange conducive to the assembly fin after separation from corresponding discharge port
Out.
Further, the quantity of first discharge port 141 is four, and the quantity of second discharge port 142 is four.
It include four of two groups after separation towards consistent assembly fin since the fin component after the completion of punching press generally has four groups.
Wherein one group of assembly fin is discharged from the first discharge port, and another assembly fin is discharged from the second discharge port.Also, first goes out
Material mouth and the second discharge port are that compartment of terrain is distributed.Corresponding first conveying devices of four the first discharge ports, four the
Two discharge ports correspond to first conveying device.
In the present embodiment, referring to Fig. 6, the setting of turnover device 3 is in first conveying device 2 and second conveying
The junction of device 4, the turnover device 3 include liftable vertical cutter 31, when will to assemble fin defeated for first conveying device 2
When sending to the top of the vertical cutter 31, the vertical cutter 31, which rises, to be simultaneously caught in the card slot of assembly fin, so that assembly fin overturning
It erects.It can be made under gravity by above-mentioned structure setting when vertical cutter rises and is caught in the card slot of assembly fin
Horizontal assembly fin erects, to realize that the overturning of assembly fin is erect.Also, it is also provided on turnover device
Whether baffle, detection device etc. are conveyed with to judge to assemble fin and promote the reliability of product in place.
Further, the turnover device 3 further includes driving means 32, and gib block 41 is arranged in second conveying device 4,
The gib block 41 is to be caught in the card slot of assembly fin, when the vertical cutter 31 rises so as to assemble fin overturning when standing upright,
The vertical cutter 31 is aligned with the gib block 41, and the driving means 32 pushes to the assembly fin setting of the vertical cutter 31
The gib block 41 realizes assembly fin setting being directed into the second conveying device, and structure is simple, easy to use.
In the present embodiment, referring to Fig. 7 to Figure 14, the second conveying device 4 is divided into storing area 42 and delivery area 43, storing
Gib block is provided in area and delivery area, the gib block and vertical cutter of storing area align.In the effect of driving means
Under, fin is assembled in vertical cutter to be pushed to storing area.When assembly fin in storing area is stored into a certain amount of, delivery area is slid into
It is connect with storing area, assembly fin is pushed to delivery area, and assembly fin can be then delivered to assembling station by delivery area.Certainly,
Delivery area can also play the role of storing, and striker plate can also be arranged in the end of delivery area, realize storing to cooperate
Effect;Also, delivery area by assemble fin be delivered to assembling station when, only need to rise striker plate, structure is simple, user
Just.
In the present embodiment, the assembling device 5 includes assembling station 51, and second conveying device 4 will be will assemble wing
Piece setting is delivered to the assembling station 51, and the assembling station 51 is provided with clamping device 52, the clamping device 52 to
Clamp assembly fin, the lower section of the assembling station 51 is provided with lifting device 53, the lifting device 53 to carry flat tube,
When the clamping device 52 clamps assembly fin in the assembling station 51, the lifting device 53 drives flat tube to rise, with
Make to assemble fin and flat tube assembles., can be relatively fixed using the position of assembly fin by above-mentioned structure setting, and flat tube
The mode of rising realizes the assembling of the two;On the one hand assembly fin position is relatively fixed, it can be ensured that between each assembly fin
It will not be subjected to displacement, be placed in conducive to flat tube in the card slot of assembly fin;On the other hand, using assembling mode from the bottom up,
Ensure situations such as fin in top will not be fallen, make assembling can it is smooth, be reliably completed.
Wherein, the lifting device 53 includes work stage, and the two sides of the work stage are respectively arranged with sliding clamp, described
Sliding clamp clamps flat tube from the left and right sides, and structure is simple, reliable.Also, after flat tube and assembly fin complete assembly,
Assembly fin follows flat tube (lifting device) to decline, that is, can be made into heat exchanger core body.
Specifically, the assembling station 51 is provided with support bar 54 and detaches device, and the support bar 54 is to be caught in
In the card slot for assembling fin, to realize the support of the assembly fin to the assembling station 51, and when flat tube snaps into assembly wing
When the card slot of piece, the device that detaches detaches the support bar 54 in assembly fin.Wherein, support bar is opposite with gib block
Together, it is that support bar can be caught in the card slot of assembly fin that delivery area, which will assemble fin and be delivered to assembling station,.Referring to Fig.1 1,
The card slot of assembly fin includes the guide part 62 of front end and the card-tight part 63 of rear end, and guide part is horn-like in expanding outwardly,
Card-tight part is straight fluting;When specifically used, flat tube should snap into guide part, due to guide part during rising in advance
In horn-like, micro-adjustment can be played the role of to the relative position between assembly fin and flat tube, it is ensured that assembly fin and
Flat tube is in suitable rigging position;Support bar is detached in assembly fin at this point, detaching device, flat tube continues to rise, and blocks
Enter the card-tight part of assembly fin, realizes the assembling of assembly fin and flat tube.
Also, the device that detaches includes the sliding rail being arranged along the length direction of the support bar 54, is set on the sliding rail
It is equipped with sliding block, the sliding block is fixedly connected with the support bar 54.It is slided by sliding block along sliding rail, to realize being caught in for support bar
Or it detaches.
Further, the clamping device 52 includes the left sliding clamp for being separately positioned on assembling 51 two sides of station
521 and right sliding clamp 522, when second conveying device 4, which will assemble fin setting, is delivered to the assembling station 51,
The left sliding clamp 521 and the right sliding clamp 522 will assemble fin from the left and right sides respectively and clamp;And the folder
Tight device 52 further includes that fixed plate 523 is arranged above the assembling station 51, when assembly fin and flat tube assembling, assembles fin
It is resisted against the fixed plate 523.By above-mentioned structure setting, clamping device can from the left side of assembly fin, right side and
Upside is defined assembly fin, it is ensured that assembly fin will not be subjected to displacement during assembly, effectively promote product
Reliability.
Wherein, the left sliding clamp 521 be liftable sliding clamp, the second conveying device delivery area enter or
When person leaves assembling station, left sliding clamp is in the state of rising, it is ensured that delivery area will not be touched with left sliding clamp
It hits, promotes the reliability of product.
It will be apparent to those skilled in the art that can make various other according to the above description of the technical scheme and ideas
Corresponding change and deformation, and all these changes and deformation all should belong to the protection of the utility model claims
Within the scope of.
Claims (7)
1. a kind of feeding-distribution device of fin component, which is characterized in that including disengagement chamber (11) and vibration device (12), described point
There is feed inlet (13) and discharge port (14) from chamber (11), the vibration device (12) is to vibrate in the disengagement chamber (11)
Fin component so that fin component is separated into assembly fin.
2. feeding-distribution device according to claim 1, which is characterized in that the feeding-distribution device (1) further includes upper frame plate (15)
And lower frame plate (16), the upper frame plate (15) is oppositely arranged with the lower frame plate (16), to form the disengagement chamber (11), institute
Vibration device (12) are stated to be arranged in the top of the upper frame plate (15).
3. feeding-distribution device according to claim 2, which is characterized in that the vibration device (12) includes vibration source and vibration
Swing arm (17), the vibration source is to drive the shaker arm (17) to vibrate, the shaker arm (17) and the upper frame plate (15)
Contact setting.
4. feeding-distribution device according to claim 3, which is characterized in that the discharge port (14) include the first discharge port and
Second discharge port, and first discharge port and second discharge port are arranged side by side.
5. feeding-distribution device according to claim 4, which is characterized in that the quantity of first discharge port is four, described
The quantity of second discharge port is four.
6. feeding-distribution device according to claim 1, which is characterized in that further include material guide channel (19), the material guide channel
(19) it is arranged in the discharge port (14).
7. feeding-distribution device according to claim 1, which is characterized in that the feed inlet (13) and the discharge port (14)
The two sides of the disengagement chamber (11) are separately positioned on, so that the feed inlet (13) is oppositely arranged with the discharge port (14).
Priority Applications (1)
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CN201821615972.1U CN209424857U (en) | 2018-09-30 | 2018-09-30 | A kind of feeding-distribution device of fin component |
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Application Number | Priority Date | Filing Date | Title |
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CN201821615972.1U CN209424857U (en) | 2018-09-30 | 2018-09-30 | A kind of feeding-distribution device of fin component |
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CN209424857U true CN209424857U (en) | 2019-09-24 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109158852A (en) * | 2018-09-30 | 2019-01-08 | 奥美森智能装备股份有限公司 | A kind of feeding-distribution device |
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2018
- 2018-09-30 CN CN201821615972.1U patent/CN209424857U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN109158852A (en) * | 2018-09-30 | 2019-01-08 | 奥美森智能装备股份有限公司 | A kind of feeding-distribution device |
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