CN208357659U - Condenser process units - Google Patents
Condenser process units Download PDFInfo
- Publication number
- CN208357659U CN208357659U CN201820026991.4U CN201820026991U CN208357659U CN 208357659 U CN208357659 U CN 208357659U CN 201820026991 U CN201820026991 U CN 201820026991U CN 208357659 U CN208357659 U CN 208357659U
- Authority
- CN
- China
- Prior art keywords
- assembly
- docking
- unloading
- tube expansion
- expansion die
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Landscapes
- Automatic Assembly (AREA)
Abstract
The utility model provides a kind of condenser process units, including docking unloading assembly (3), tube expansion die assembly (6), stepping splicing assembly (4), docking jacking assembly (11);When stepping splicing assembly (4) is located at the first station, docking unloading assembly (3) is received by the fin in stepping splicing assembly (4) of docking jacking assembly (11) jacking;When tube expansion die assembly (6) is located at second station, received fin is sent into tube expansion die assembly (6) in docking unloading assembly (3).Condenser process units provided by the utility model fundamentally changes the operating mode serially produced that existing condenser process units carries out inserted sheet and tube expansion using same set of fin die, by the way of multiple sets of molds docking switching, has high production efficiency;Can make inserted sheet have with tube expansion corresponding mold can independent synchronization action, to greatest extent improve condenser process units efficiency.
Description
Technical field
The utility model relates to a kind of process units, and in particular, to a kind of condenser process units.
Background technique
Currently, condenser device in the market, expansion tube process and inserted sheet craft separation open operation, production technology is caused to consume
Duration, the disadvantages such as production efficiency is low.
Patent document CN105855412A discloses a kind of condenser electric tube expander, comprising: is arranged in three on locating rack
Angle idler wheel, triangle idler wheel adjuster, three transmission shafts for driving the triangle idler wheel and the deceleration with the transmission axis connection
Case is provided with cutter on the triangle idler wheel, and the reduction gearbox is connect with a buncher, the buncher with it is electronic
Machine connection, the motor are connected with a frequency converter.Patent document CN105458703A discloses a kind of scattered suitable for blade inserting
The plug-in sheet machine of hot device, comprising: pallet;For placing the placing platform of base plate of radiator, it is set on pallet, along first level side
To being laid with multiple muscle piece slots;First driving mechanism, for driving placing platform to be moved along first level direction, and it is every
The displacement of secondary movement is equal to the spacing between two neighboring muscle piece slot;For placing the muscle piece frame of muscle piece, it is set to storing
The top of platform offers the off-chip slot of face muscle piece slot;Second driving mechanism, for driving muscle piece to fall simultaneously from off-chip slot
It is inserted into muscle piece slot.It drives muscle piece to fall and be inserted into muscle piece slot from off-chip slot by the second driving mechanism, then passes through the
One driving mechanism driving placing platform moves the displacement of the spacing between two muscle piece slots along first level direction, then passes through
A piece of muscle piece falls from off-chip slot and is inserted into muscle piece slot under the driving of second driving mechanism, realizes automatic inserted sheet.The two are specially
Sharp document individually discloses the relevant production units of expansion tube process, inserted sheet technique, and the two is serial even with being only able to obtain
Production model equipment.Currently, not searching in relation to being combined together two tube expansions and inserted sheet technique so as to realizing
The equipment of expansion tube process and fin technique while concurrent job.
Therefore, urgently a kind of at present that expansion tube process and inserted sheet technique can be made to combine simultaneously the condensation of separate operation parallel
Device process units.
Utility model content
For the defects in the prior art, the purpose of the utility model is to provide a kind of condenser process units.
The utility model provides a kind of condenser process units, including abutting joint mechanism, driving mechanism;
The abutting joint mechanism includes docking unloading assembly, tube expansion die assembly, stepping splicing assembly;
The driving mechanism includes docking jacking assembly;
When stepping splicing assembly is located at the first station, docking unloading assembly receives coming from by docking jacking assembly jacking
Fin in stepping splicing assembly;
When tube expansion die assembly is located at second station, it is total to dock received fin feeding tube expansion mold in unloading assembly
At.
Preferably, the first station, second station are the same stations being located at below docking unloading assembly;Alternatively, first
Station, second station are different station.
Preferably, further include rack, send and take discharge mechanism;
It is described connect installing mechanism, driving mechanism and send take discharge mechanism to be respectively provided on the rack;
It is described to send that take discharge mechanism include feeding assembly, feeding discharge assembly;
The abutting joint mechanism further includes amendment feeding pressure mechanism;
By feeding port to discharge port direction, the feeding assembly, feeding discharge assembly, docking unloading assembly, amendment binder
Mechanism is set gradually.
Preferably, the abutting joint mechanism further includes stepping splicing assembly;
Stepping splicing assembly accommodation space is provided in the feeding discharge assembly;
When fin is placed in stepping splicing assembly by feeding discharge assembly, stepping splicing assembly is located at stepping splicing assembly
In accommodation space;
When the fin being currently received is sent to docking unloading assembly by the stepping splicing assembly, stepping splicing assembly
Positioned at the lower section of docking unloading assembly.
Preferably, when the stepping splicing assembly moves in stepping splicing assembly accommodation space, the abutting joint machine
The tube expansion die assembly of structure is located at the lower section of docking unloading assembly, receives the fin from docking unloading assembly;
When the stepping splicing assembly moves to the lower section of docking unloading assembly, tube expansion die assembly moves to amendment swager
The lower section of structure.
Preferably, the abutting joint mechanism further includes tube expansion system;
Pipe and tube expansion mould when the tube expansion die assembly moves to the lower section of amendment feeding pressure mechanism, in the tube expansion system
Has the fin docking in assembly.
Preferably, the docking unloading assembly includes docking support frame, docking unloading subassembly and docking unloading assembly
Guiding mechanism;
The docking unloading subassembly is by the setting of docking unloading assembly guiding mechanism on docking support frame;
The docking unloading assembly guiding mechanism includes longitudinally guiding portion;
The docking unloading subassembly is arranged on docking support frame by longitudinally guiding portion;
The docking unloading subassembly includes docking unloading assembly cylinder, abutting joint frame;
The longitudinally guiding portion constitutes the guiding position of abutting joint frame;
Docking unloading assembly cylinder guide part direction driving abutting joint frame longitudinal movement along longitudinal direction;
The docking unloading subassembly further includes absorbing unloading plate, opposed former seat;
The absorption unloading plate, opposed former seat are arranged on abutting joint frame;
The absorption unloading plate is arranged on opposed former seat;
The restriction position and guiding position for absorbing unloading plate and constituting fin;
When the stepping splicing assembly moves to the lower section of docking unloading assembly, the abutting joint frame, which drives to absorb, to be turned
Plate, the longitudinal movement of opposed former seat are deposited, so that absorbing unloading plate, opposed former seated connection receives the step from abutting joint mechanism
Into the fin of splicing assembly;
The quantity for absorbing unloading plate is multiple.
Preferably, the docking unloading assembly guiding mechanism further includes upper and lower guide part;
The one side of the guide part up and down is flexibly connected with abutting joint frame;
The absorption unloading plate, opposed former seat are arranged at the another side of upper and lower guide part;
The docking unloading subassembly, further includes pusher frame, pusher cylinder;
The absorption unloading plate, opposed former seat pass through the another side that upper and lower guide part is arranged in pusher frame;
When the tube expansion die assembly of the abutting joint mechanism moves to the lower section of docking unloading assembly, the pusher cylinder
Vertically guide part pushes pusher frame to move down, so that absorbing fin current in unloading plate is delivered to tube expansion mold
In assembly.
Preferably, the docking jacking assembly is arranged below stepping splicing assembly;
The docking jacking assembly includes cylinder, lifting-up support portion, straight line mandril and docking framework in parallel;
One end of the straight line mandril is arranged in lifting-up support portion;
The other end of the straight line mandril is connected with docking framework;
The parallel connection cylinder driving lifting-up support portion moves longitudinally;
The lifting-up support portion drives docking framework longitudinal movement by traction straight line mandril;
The docking framework acquisition is longitudinally propelling power, and then the fin in stepping splicing assembly is driven to move longitudinally, and
It is received by docking unloading assembly.
Preferably, tube expansion die assembly includes traction power cylinder, tube expansion die assembly bottom plate, dies holder, jacks up frame
And tube expansion die assembly bottom plate guide part;
The tube expansion die assembly bottom plate guide part constitutes the guiding position of tube expansion die assembly bottom plate;
The dies holder is arranged on tube expansion die assembly bottom plate;
Multiple subtemplates corresponding with the docking absorption unloading Board position of unloading subassembly are provided on the dies holder;
The traction power cylinder is along tube expansion die assembly bottom plate guide part direction driving tube expansion die assembly bottom plate along horizontal
To movement, and then the dies holder of tube expansion die assembly is made to move to the lower section for docking unloading assembly;
After tube expansion die assembly is with the completion docking of unloading assembly is docked, the traction power cylinder is along tube expansion die assembly
Bottom plate guide part direction driving tube expansion die assembly bottom plate laterally moves, so that tube expansion die assembly and tube expansion system pair
It connects, i.e., tube expansion die assembly moves to the lower section for correcting feeding pressure mechanism.
Compared with prior art, the utility model have it is following the utility model has the advantages that
1, condenser process units provided by the utility model fundamentally changes existing condenser process units and uses together
A set of fin die carries out the operating mode of inserted sheet and tube expansion serially produced, condenser process units provided by the utility model
By the way of multiple sets of molds docking switching, thoroughly avoid sequentially acting using inserted sheet when same set of die operation and tube expansion
Time superposition so that inserted sheet have with tube expansion corresponding mold can independent synchronization action, and then realization inserted sheet separated with tube expansion
Concurrent job improves the efficiency of condenser process units to greatest extent.
2, condenser process units provided by the utility model has high production efficiency compared with prior art;It can make
Inserted sheet have with tube expansion corresponding mold can independent synchronization action, to greatest extent improve condenser process units efficiency.
3, it is big to be effectively divided into two by condenser process units provided by the utility model for stepping splicing and tube expansion system
Independent operating system makes existing equipment discharge and the big major function of tube expansion two act and can greatly have compressed life with concurrent job
The beat for producing single set product, has saved the time, the production efficiency of existing equipment can be improved 50%.Compared with prior art, originally
The beneficial effect of utility model, is as follows:
Detailed description of the invention
Upon reading the detailed description of non-limiting embodiments with reference to the following drawings, other spies of the utility model
Sign, objects and advantages will become more apparent upon:
Fig. 1 is the overall structure diagram of condenser process units provided by the utility model.
Fig. 2 is the structural schematic diagram of the docking jacking assembly of condenser process units provided by the utility model.
Fig. 3 is the structural schematic diagram of the docking unloading assembly of condenser process units provided by the utility model.
Fig. 4 is the structural schematic diagram of the tube expansion die assembly of condenser process units provided by the utility model.
It is as shown in the figure:
Specific embodiment
The utility model is described in detail combined with specific embodiments below.Following embodiment will be helpful to this field
Technical staff further understands the utility model, but does not limit the utility model in any form.It should be pointed out that ability
For the those of ordinary skill in domain, without departing from the concept of the premise utility, several changes and improvements can also be made.
These are all within the protection scope of the present invention.
The utility model provides a kind of condenser process units, including abutting joint mechanism, driving mechanism;The docking
Installing mechanism includes docking unloading assembly 3, tube expansion die assembly 6;The driving mechanism includes docking jacking assembly 11;Work as stepping
When splicing assembly 4 is located at the first station, docking unloading assembly 3 receive by docking jacking assembly 11 jack from stepping splicing
Fin in assembly 4, i.e. inserted sheet;When tube expansion die assembly 6 is located at second station, received fin in unloading assembly 3 is docked
It is sent into tube expansion die assembly 6.First station, second station are the same stations for being located at 3 lower section of docking unloading assembly;Alternatively,
First station, second station are different station, for example, docking unloading assembly 3 can be in the first station top position, the second work
Position is moved between top position, to dock unloading fin between the first station, second station.
Condenser process units provided by the utility model further includes rack 10, send and take discharge mechanism;The abutting joint
It mechanism, driving mechanism and send discharge mechanism is taken to be arranged in rack 10;It is described send take discharge mechanism include feeding assembly 1,
Feeding discharge assembly 2;The abutting joint mechanism further includes amendment feeding pressure mechanism 5;It is described by feeding port to discharge port direction
Feeding assembly 1, feeding discharge assembly 2, docking unloading assembly 3, amendment feeding pressure mechanism 5 are set gradually.
The abutting joint mechanism further includes stepping splicing assembly 4;Stepping is provided in the feeding discharge assembly 2 to connect
Expect assembly accommodation space;When stepping splicing assembly 4 moves in stepping splicing assembly accommodation space, feeding discharge assembly 2 is by wing
Piece is placed in stepping splicing assembly 4;When the fin being currently received is sent to docking unloading assembly by the stepping splicing assembly 4
When 3, stepping splicing assembly 4 moves to the lower section of docking unloading assembly 3.
When the stepping splicing assembly 4 moves in stepping splicing assembly accommodation space, the abutting joint mechanism it is swollen
The dies holder 603 of pipe mold assembly 6 moves to the lower section of docking unloading assembly 3, receives the fin from docking unloading assembly 3;When
When the stepping splicing assembly 4 moves to the lower section of docking unloading assembly 3, the dies holder 603 of tube expansion die assembly 6 moves to amendment pressure
Expect the lower section of mechanism 5.
The abutting joint mechanism further includes tube expansion system 7;
When the dies holder 603 of the tube expansion die assembly 6 moves to the lower section of amendment feeding pressure mechanism 5, the tube expansion system 7
Interior pipe is docked with the fin in the dies holder 603 of tube expansion die assembly 6.
The docking unloading assembly 3 includes docking support frame 301, docking unloading subassembly and docking unloading assembly guiding
Mechanism;The docking unloading subassembly is by the setting of docking unloading assembly guiding mechanism on docking support frame 301;The docking
Unloading assembly guiding mechanism includes longitudinally guiding portion 303;The docking unloading subassembly is arranged by longitudinally guiding portion 303 right
It connects on support frame 301;The docking unloading subassembly includes docking unloading assembly cylinder 302, abutting joint frame 304;It is described
The guiding position of the composition abutting joint frame 304 of longitudinally guiding portion 303;The docking unloading assembly cylinder 302 guide part along longitudinal direction
303 directions drive abutting joint frame 304 to vertically move;The docking unloading subassembly further includes absorption unloading plate 306, right
Connect dies holder 307;The absorption unloading plate 306, opposed former seat 307 are arranged on abutting joint frame 304;The absorption
Unloading plate 306 is arranged on opposed former seat 307;The restriction position and guiding position for absorbing unloading plate 306 and constituting fin;Work as institute
When stating stepping splicing assembly 4 and moving to the lower section of docking unloading assembly 3, the abutting joint frame 304, which drives, absorbs unloading plate
306, opposed former seat 307 vertically moves so that the absorption unloading plate 306 extended by opposed former seat 307 receive Lai
From the fin of the stepping splicing assembly 4 of abutting joint mechanism.
The docking unloading assembly guiding mechanism further includes upper and lower guide part 305;The one side of the guide part 305 up and down
It is flexibly connected with abutting joint frame 304;The absorption unloading plate 306, opposed former seat 307 are arranged at guide part up and down
305 another side;The docking unloading subassembly further includes pusher frame 308, pusher cylinder 309;The absorption unloading plate
306, the another side of upper and lower guide part 305 is arranged in opposed former seat 307 by pusher frame 308;When the abutting joint
When the tube expansion die assembly 6 of mechanism moves to the lower section of docking unloading assembly 3, vertically guide part 305 pushes away the pusher cylinder 309
Dynamic pusher frame 308 moves down so that absorb unloading plate 306, opposed former seat 307 it is current in fin be delivered to it is swollen
In the dies holder 603 of pipe mold assembly 6.
In particular, it is preferred that ground, docking unloading assembly 3 drives abutting joint frame 304 by docking unloading assembly cylinder 302
303 direction of guide part moves up and down along longitudinal direction, and the opposed former seat 307 and absorption being fixed on abutting joint frame 304 turn
Depositing plate 306 will be absorbed by the fin in the jacking stepping splicing assembly 4 of docking framework 1104, when stepping splicing assembly 4 is removed
Afterwards, when the dies holder 603 of tube expansion die assembly 6 is in the docking location of docking unloading assembly 2, pusher frame 308 is in pusher gas
Vertically fin is fully inserted into the dies holder 603 of tube expansion die assembly 6 by guide part 305 under the impetus of cylinder 309, real
The docking unloading of existing fin.
Specifically, the material for absorbing unloading plate 306 is preferably elastic material, and more specifically, the absorption
The material of unloading plate 306 is more preferably elastic damping material.Fin is clamped so as to deform, wherein is not being absorbed
Clamp fin under natural conditions, the adjacent gap absorbed between unloading plate 306 is less than the thickness of fin, when receiving fin
When, the fin which is located therein struts, to can clamp wing from normal direction between adjacent absorption unloading plate 306
Piece.
The docking jacking assembly 11 is arranged in 4 lower part of stepping splicing assembly;The docking jacking assembly 11 includes parallel connection
Cylinder 1101, lifting-up support portion 1102, straight line mandril 1103 and docking framework 1104;One end of the straight line mandril 1103 is set
It sets in lifting-up support portion 1102;The other end of the straight line mandril 1103 is connected with docking framework 1104;The parallel connection gas
Cylinder 1101 drives lifting-up support portion 1102 to move longitudinally;The lifting-up support portion 1102 is driven by traction straight line mandril 1103
Docking framework 1104 vertically moves;The acquisition of docking framework 1104 is longitudinally propelling power, and then drives in stepping splicing assembly 4
Fin moves longitudinally, and is received by docking unloading assembly 3.
Specifically, docking jacking assembly 11 passes through cylinder 1101 in parallel, 1101 output end of cylinder in parallel is fixed in promotion
Lifting-up support portion 1102, the straight line mandril 1103 being provided thereon directly is drawn in lifting-up support portion 1102, by straight line mandril 1103
Docking framework 1104 can be jacked up, docking framework 1104 can eject upwards the fin in stepping splicing assembly 4, total by docking unloading
Fin is received at 3 and is kept in.
The tube expansion die assembly 6 includes traction power cylinder 601, tube expansion die assembly bottom plate 602, dies holder 603, top
Play frame 604 and tube expansion die assembly bottom plate guide part 605;The tube expansion die assembly bottom plate guide part 605 constitutes tube expansion
The guiding position of die assembly bottom plate 602;The dies holder 603 is arranged on tube expansion die assembly bottom plate 602;The dies holder
Multiple subtemplates corresponding with docking 306 position of absorption unloading plate of unloading subassembly are provided on 603;The traction power
Cylinder 601 is laterally moved along 605 direction of tube expansion die assembly bottom plate guide part driving tube expansion die assembly bottom plate 602, in turn
The dies holder 603 of tube expansion die assembly 6 is set to move to 306 lower section of absorption unloading plate of docking unloading assembly 3;When tube expansion die assembly
6 complete after docking with unloading assembly 3 is docked, and the traction power cylinder 601 is along 605 direction of tube expansion die assembly bottom plate guide part
Driving tube expansion die assembly bottom plate 602 laterally moves, so that tube expansion die assembly 6 is docked with tube expansion system 7, i.e. tube expansion
Die assembly 6 moves to the lower section of amendment feeding pressure mechanism 5.
In particular, it is preferred that ground, it is tube expansion die assembly bottom that the traction power cylinder 601 was drawn, which is directly connected to part,
Plate 602, tube expansion die assembly bottom plate 602, along linear running, and lead under the limitation of tube expansion die assembly bottom plate guide part 605
The position that the dies holder 603 being fixed on tube expansion die assembly bottom plate 602 is moved to docking unloading assembly 3 is crossed, unloading will be docked
The fin docking that assembly 3 is released is inserted into tube expansion die assembly 6, then be dragged to by traction power cylinder 601 it is right with tube expansion system 7
Position is connect, realizes fin tube expansion, is finally released product under the jacking effect of product jacking assembly 9 by jack-up frame 604.
For the hydraulic workstation 8 for driving product jacking assembly 9, docking jacking assembly 11, as product jacks assembly
9, the power source of docking jacking assembly 11.
The quantity for absorbing unloading plate 306 is multiple.
Preferably aluminum pipe becomes product, as condenses after the aluminum pipe is connected to each other with fin in the tube expansion system 7
Device.
Aluminum pipe in the tube expansion system 7 as shown in Figure 1 can transversely be put, and then be docked with fin, can also be with
It is placed in tube expansion system 7 along longitudinal direction, completes grafting with fin, it is within the protection scope of the present utility model.
In the description of the present invention, it should be understood that term " on ", "lower", "front", "rear", "left", "right",
The orientation or positional relationship of the instructions such as "vertical", "horizontal", "top", "bottom", "inner", "outside" be orientation based on the figure or
Positional relationship is merely for convenience of describing the present invention and simplifying the description, rather than the device or member of indication or suggestion meaning
Part must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as the limitation to the application.
It should be noted that ordinal adjectives " first ", " second " and " third " that the utility model uses etc. are used to retouch
Common object is stated, only indicates the different instances for referring to same object, and is not intended to imply that the object described in this way must be adopted
With given sequence, either temporally, spatially, sequence ground or any other mode.
The working principle of condenser process units provided by the utility model is described further below:
Fin is put into feeding assembly 1 by staff, and feeding assembly 1 includes multiple fin magazines, and fin at this time can be from
Feeding assembly 1 is transported in feeding discharge assembly 2, and the feeding discharge assembly 2 arranges fin, such as by default
The corresponding guide frame of the parameters such as quantity and fin predetermined sequence arranges fin;After the completion of arrangement, fin can be from feeding
Hold in discharge assembly 2 according to the stepping splicing assembly that the parameters such as predetermined sequence, quantity are delivered to positioned at 2 lower section of feeding discharge assembly
On the stepping splicing assembly 4 received in space;Then, it after the stepping splicing assembly 4 receives the fin arranged, is moved to pair
Switch through the lower section for depositing assembly 3;Fin current in stepping splicing assembly 4 is pushed into docking unloading by docking jacking assembly 11
Between multiple absorption unloading plates 306 of assembly 3, meanwhile, the abutting joint frame 304 for docking unloading assembly 3 is total in docking unloading
At along 303 direction of longitudinally guiding portion, the fin in stepping splicing assembly 4 being received downwards, thus complete under the driving of cylinder 302
Assembly 4 and the docking of docking unloading assembly 3 at stepping splicing;When docking stepping splicing assembly 4 completion and dock unloading assembly 3
Afterwards, the return of stepping splicing assembly 4, which is moved back in other words in stepping splicing assembly accommodation space, continues from feeding discharge assembly 2
Obtain fin;Meanwhile the traction power cylinder 601 of the tube expansion die assembly 6 is along 605 side of tube expansion die assembly bottom plate guide part
In other words the lower section for moving to docking unloading assembly 3 to traction tube expansion die assembly bottom plate 602 makes dies holder 603 move to docking
The lower section of unloading assembly 3, meanwhile, the pusher frame 308 of unloading assembly 3 is docked under the driving of pusher cylinder 309, is vertically led
The fin to come will be received from stepping splicing assembly 4 to 305 direction of portion to be sent in tube expansion die assembly 6;Then again by drawing
Tube expansion die assembly 6 is dragged to the lower section of amendment feeding pressure mechanism 5 by actuating cylinder 601;When tube expansion die assembly 6 moves to amendment pressure
When expecting the lower section of mechanism 5, the amendment feeding pressure mechanism 5 carries out position correction to the fin being placed in tube expansion die assembly 6, makes
Fin can be accurately placed on the predeterminated position of tube expansion die assembly 6, thus avoid tube expansion die assembly 6 with to switching through
When depositing the docking of assembly 3, the positional shift of some or individual fins, and the fin in the tube expansion die assembly 6 are caused
When carrying out abutting joint with the aluminum pipe in tube expansion system 7, the amendment feeding pressure mechanism 5 plays the role of a fixed fin, from
And the aluminum pipe in tube expansion system 7 can be enable accurately to be interspersed in fin, and then form product.After the completion of product,
The product being installed is released from the jack-up frame 604 of tube expansion die assembly 6 by product jacking assembly 9;Complete production.
Specific embodiment of the utility model is described above.It is to be appreciated that the utility model not office
It is limited to above-mentioned particular implementation, those skilled in the art can make a variety of changes or modify within the scope of the claims,
This has no effect on the substantive content of the utility model.In the absence of conflict, the spy in embodiments herein and embodiment
Sign can be arbitrarily combined with each other.
Claims (10)
1. a kind of condenser process units, which is characterized in that including abutting joint mechanism, driving mechanism;
The abutting joint mechanism includes docking unloading assembly (3), tube expansion die assembly (6), stepping splicing assembly (4);
The driving mechanism includes docking jacking assembly (11);
When stepping splicing assembly (4) is located at the first station, docking unloading assembly (3) is received by docking jacking assembly (11) jacking
The fin in stepping splicing assembly (4);
When tube expansion die assembly (6) is located at second station, it is total to be sent into tube expansion mold for received fin in docking unloading assembly (3)
At (6).
2. condenser process units according to claim 1, which is characterized in that the first station, second station are same
Station below docking unloading assembly (3);Alternatively, the first station, second station are different station.
3. condenser process units according to claim 1, which is characterized in that further include rack (10), send and take material discharging machine
Structure;
It is described connect installing mechanism, driving mechanism and send take discharge mechanism to be arranged on rack (10);
It is described to send that take discharge mechanism include feeding assembly (1), feeding discharge assembly (2);
The abutting joint mechanism further includes amendment feeding pressure mechanism (5);
By feeding port to discharge port direction, the feeding assembly (1), feeding discharge assembly (2), docking unloading assembly (3), amendment
Feeding pressure mechanism (5) is set gradually.
4. condenser process units according to claim 3, which is characterized in that the abutting joint mechanism further includes step
Into splicing assembly (4);
Stepping splicing assembly accommodation space is provided in the feeding discharge assembly (2);
When fin is placed in stepping splicing assembly (4) by feeding discharge assembly (2), stepping splicing assembly (4) connects positioned at stepping
Expect in assembly accommodation space;
When the fin being currently received is sent to docking unloading assembly (3) by the stepping splicing assembly (4), stepping splicing is total
It is located at the lower section of docking unloading assembly (3) at (4).
5. condenser process units according to claim 4, which is characterized in that when the stepping splicing assembly (4) moves to
When in stepping splicing assembly accommodation space, the tube expansion die assembly (6) of the abutting joint mechanism is located at docking unloading assembly (3)
Lower section, receive from docking unloading assembly (3) fin;
When the stepping splicing assembly (4) moves to the lower section of docking unloading assembly (3), tube expansion die assembly (6) moves to amendment
The lower section of feeding pressure mechanism (5).
6. condenser process units according to claim 5, which is characterized in that the abutting joint mechanism, further includes swollen
Guard system (7);
When the tube expansion die assembly (6) moves to the lower section of amendment feeding pressure mechanism (5), pipe in the tube expansion system (7) with
Fin docking in tube expansion die assembly (6).
7. condenser process units according to claim 1, which is characterized in that the docking unloading assembly (3) includes pair
Connect support frame (301), docking unloading subassembly and docking unloading assembly guiding mechanism;
The docking unloading subassembly is by docking unloading assembly guiding mechanism setting in docking support frame (301);
The docking unloading assembly guiding mechanism includes longitudinally guiding portion (303);
The docking unloading subassembly is arranged in docking support frame (301) by longitudinally guiding portion (303);
The docking unloading subassembly includes docking unloading assembly cylinder (302), abutting joint frame (304);
The longitudinally guiding portion (303) constitutes the guiding position of abutting joint frame (304);
Guide part (303) direction driving abutting joint frame (304) longitudinally moves the docking unloading assembly cylinder (302) along longitudinal direction
It is dynamic;
The docking unloading subassembly further includes absorbing unloading plate (306), opposed former seat (307);
The absorption unloading plate (306), opposed former seat (307) are arranged on abutting joint frame (304);
The absorption unloading plate (306) is arranged on opposed former seat (307);
The restriction position and guiding position for absorbing unloading plate (306) and constituting fin;
When the stepping splicing assembly (4) moves to the lower section of docking unloading assembly (3), abutting joint frame (304) band
It is dynamic to absorb unloading plate (306), opposed former seat (307) longitudinal movement, so that absorbing unloading plate (306), opposed former seat
(307) fin of the stepping splicing assembly (4) from abutting joint mechanism is received;
The quantity for absorbing unloading plate (306) is multiple.
8. condenser process units according to claim 7, which is characterized in that the docking unloading assembly guiding mechanism,
Guide part (305) above and below further including;
The one side of the guide part (305) up and down is flexibly connected with abutting joint frame (304);
Absorption unloading plate (306), opposed former seat (307) are arranged at the another side of guide part (305) up and down;
The docking unloading subassembly further includes pusher frame (308), pusher cylinder (309);
The absorption unloading plate (306), opposed former seat (307) are arranged by pusher frame (308) in upper and lower guide part
(305) another side;
When the tube expansion die assembly (6) of the abutting joint mechanism moves to the lower section of docking unloading assembly (3), the pusher gas
Vertically guide part (305) pushes pusher frame (308) to move down to cylinder (309), works as in unloading plate (306) so that absorbing
Preceding fin is delivered in tube expansion die assembly (6).
9. condenser process units according to claim 1, which is characterized in that docking jacking assembly (11) setting exists
Below stepping splicing assembly (4);
Docking jacking assembly (11) include cylinder (1101) in parallel, lifting-up support portion (1102), straight line mandril (1103) with
And docking framework (1104);
One end of the straight line mandril (1103) is arranged on lifting-up support portion (1102);
The other end of the straight line mandril (1103) is connected with docking framework (1104);
The parallel connection cylinder (1101) drives lifting-up support portion (1102) to move longitudinally;
The lifting-up support portion (1102) drives docking framework (1104) longitudinal movement by traction straight line mandril (1103);
The docking framework (1104), which obtains, is longitudinally propelling power, and then the fin in stepping splicing assembly (4) is driven to move along longitudinal direction
It is dynamic, and received by docking unloading assembly (3).
10. condenser process units according to claim 1, which is characterized in that tube expansion die assembly (6) includes that traction is dynamic
Strength cylinder (601), dies holder (603), jacks up frame (604) and tube expansion die assembly bottom at tube expansion die assembly bottom plate (602)
Plate guide part (605);
The tube expansion die assembly bottom plate guide part (605) constitutes the guiding position of tube expansion die assembly bottom plate (602);
The dies holder (603) is arranged on tube expansion die assembly bottom plate (602);
It is provided on the dies holder (603) multiple corresponding with docking absorption unloading plate (306) position of unloading subassembly
Subtemplate;
The traction power cylinder (601) drives tube expansion die assembly bottom along tube expansion die assembly bottom plate guide part (605) direction
Plate (602) laterally moves, and then moves to the dies holder (603) of tube expansion die assembly (6) under docking unloading assembly (3)
Side;
After tube expansion die assembly (6) is with unloading assembly (3) completion docking is docked, the traction power cylinder (601) is along tube expansion
Die assembly bottom plate guide part (605) direction driving tube expansion die assembly bottom plate (602) laterally moves, so that tube expansion mould
Tool assembly (6) is docked with tube expansion system (7), i.e., tube expansion die assembly (6) moves to the lower section for correcting feeding pressure mechanism (5).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820026991.4U CN208357659U (en) | 2018-01-08 | 2018-01-08 | Condenser process units |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820026991.4U CN208357659U (en) | 2018-01-08 | 2018-01-08 | Condenser process units |
Publications (1)
Publication Number | Publication Date |
---|---|
CN208357659U true CN208357659U (en) | 2019-01-11 |
Family
ID=64914043
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201820026991.4U Active CN208357659U (en) | 2018-01-08 | 2018-01-08 | Condenser process units |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN208357659U (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110369622A (en) * | 2019-04-24 | 2019-10-25 | 苏州新元电器有限公司 | A kind of circulating water swelling machine |
CN110844548A (en) * | 2019-11-27 | 2020-02-28 | 珠海格力电器股份有限公司 | Pipe penetrating station and heat exchanger production line |
CN111299431A (en) * | 2020-02-14 | 2020-06-19 | 芜湖仅一机械有限公司 | Fin inserting assembly equipment of radiator shell for 5G base station |
-
2018
- 2018-01-08 CN CN201820026991.4U patent/CN208357659U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110369622A (en) * | 2019-04-24 | 2019-10-25 | 苏州新元电器有限公司 | A kind of circulating water swelling machine |
CN110844548A (en) * | 2019-11-27 | 2020-02-28 | 珠海格力电器股份有限公司 | Pipe penetrating station and heat exchanger production line |
CN111299431A (en) * | 2020-02-14 | 2020-06-19 | 芜湖仅一机械有限公司 | Fin inserting assembly equipment of radiator shell for 5G base station |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN208357659U (en) | Condenser process units | |
CN208070772U (en) | A kind of charging tray transfer mechanism | |
CN108447927A (en) | A kind of solar photovoltaic assembly package system | |
CN202278547U (en) | Feeding device of pipe twister | |
CN216462846U (en) | Automatic inserting corner connector and riveting device for aluminum profile frame | |
CN108188302A (en) | Condenser process units and its control method | |
CN104552763B (en) | Feeding mechanism and loading and unloading system using robot | |
CN212638997U (en) | Longitudinal steel bar feeding device for steel bar welding net forming machine | |
CN206010332U (en) | The rotor of motor and the automatic assembling of bearing | |
CN115566108B (en) | Manufacturing method of bus bar | |
CN216335711U (en) | High efficiency low loss connects material area production facility | |
CN210677126U (en) | Automatic unloading stacking equipment of plate shearing machine | |
CN107994274A (en) | A kind of full-automatic pole group enters the whole earphone of shell | |
CN208622876U (en) | Tab apparatus for bending and up- coiler | |
CN211728024U (en) | Feeding device for photovoltaic welding strip for series welding machine | |
CN208249358U (en) | A kind of multi-functional automatic subpackaging brick stacking machine de-stacking device | |
CN206948815U (en) | A kind of automatism card machine transformer feed mechanism | |
CN112676449A (en) | Two branch pipes punch a hole and go up unloading mechanism in automation | |
CN206022321U (en) | For manufacturing the automatic test of semiconductor module, printing, tubulature all-in-one | |
CN209614208U (en) | A kind of battery group automation cast welding machine discharging device | |
CN213135727U (en) | Condenser assembling machine | |
CN212886086U (en) | Tail end connector assembly machine of power battery cooling pipe | |
CN214569156U (en) | Positioning device applied to plate stacking machine | |
CN219383917U (en) | Storage battery pole piece feeding device | |
CN221092736U (en) | NG receiving device |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant |