CN211110260U - Proton membrane shaping material feeding unit - Google Patents

Proton membrane shaping material feeding unit Download PDF

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Publication number
CN211110260U
CN211110260U CN201922166300.8U CN201922166300U CN211110260U CN 211110260 U CN211110260 U CN 211110260U CN 201922166300 U CN201922166300 U CN 201922166300U CN 211110260 U CN211110260 U CN 211110260U
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CN
China
Prior art keywords
fixedly connected
motor
proton membrane
linear guide
plate
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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.)
Expired - Fee Related
Application number
CN201922166300.8U
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Chinese (zh)
Inventor
刘三定
周明元
谭辰中
鲍占林
龚建南
莫正山
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Shengshi Laser Technology Shenzhen Co ltd
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Shengshi Laser Technology Shenzhen Co ltd
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Priority to CN201922166300.8U priority Critical patent/CN211110260U/en
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Publication of CN211110260U publication Critical patent/CN211110260U/en
Expired - Fee Related legal-status Critical Current
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Abstract

The utility model discloses a proton membrane shaping material feeding unit, comprises a workbench, the top fixedly connected with of workstation is put and is rolled up the board, the rear side of putting the book board runs through and is provided with motor one, the output shaft of motor one runs through to the front side of putting the book board and fixedly connected with puts the rolling rod, the equal fixedly connected with fixed plate in both sides at workstation top, and two relative one sides of fixed plate have the dwang through bearing swing joint. The utility model discloses an open the motor and drive the membrane rotation that unreels the pole surface, carry out the blowing, motor two drives the actuating lever and rotates, the driven effect has been played, the structure of rectifying plays the effect of rectifying, carry the platform to the multicavity sucking disc under the guide effect of guide bar, open air pump and lift cylinder, the air in the air pump with multicavity sucking disc inner chamber is siphoned away, form the negative pressure, adsorb proton membrane on the surface of multicavity sucking disc, lift cylinder drive clamp plate is the downstream, it is further fixed to the proton membrane model, can use laser to cut.

Description

Proton membrane shaping material feeding unit
Technical Field
The utility model relates to a proton membrane fuel cell technical field specifically is a proton membrane shaping material feeding unit.
Background
The proton exchange membrane fuel cell is a new type of fuel cell, its electrolyte is a solid organic membrane, under the condition of humidification, the membrane can conduct proton, the proton exchange membrane fuel cell monomer mainly consists of membrane electrode, sealing ring and flow field plate with gas guide channel, the membrane electrode is the core portion of the proton exchange membrane fuel cell, and its middle layer is a very thin membrane, i.e. proton exchange membrane, said membrane does not conduct electron, and is an excellent conductor of hydrogen ion, it not only can be used as electrolyte to provide hydrogen ion channel, but also can be used as diaphragm to isolate two-pole reaction gas, two sides of the membrane are gas electrodes, and are formed from carbon paper and catalyst, its anode is hydrogen electrode, and its cathode is oxygen electrode, and the flow field plate is usually made from graphite, the proton fuel cell uses hydrogen as fuel, and several cell monomers are series-connected or parallel-connected according to the requirements, and formed into cell groups with different powers.
Frame membrane and proton membrane shaping traditionally adopt the punch press to cut the roll-to-roll feeding, include a set of unreel, rectify and roll the organization, the product needs to make the grinding apparatus again in remodelling, the expense is long in cycle; the traditional laser cutting and discharging mode has two types, namely roll-to-roll discharging and cutting and cut-part post-forming cutting, the problem of high price still exists in the roll-to-roll mode, the remaining materials are required to be reserved for four sides in the cut-part post-forming cutting, the problems of serious waste and low efficiency can be caused, and the film cutting device is not suitable for the requirement of high-cost film cutting.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a proton membrane shaping material feeding unit possesses the advantage that facilitates the use, has solved the volume and has still had the problem of high price to the volume mode, and the cutting of moulding after the cut-parts need remain the clout to the four sides, then can cause extravagant serious, the problem of inefficiency, the unsuitable problem that high-cost membrane cutting required.
In order to achieve the above object, the utility model provides a following technical scheme: a proton membrane forming and feeding device comprises a workbench, wherein a first motor is arranged on the top of the workbench in a penetrating mode, an output shaft of the first motor penetrates through the front side of a first unwinding plate and is fixedly connected with a unwinding rod, two fixing plates are fixedly connected on the two sides of the top of the workbench, rotating rods are movably connected to one sides, opposite to the two fixing plates, of the two rotating plates through bearings, the number of the rotating rods is two, mounting seats are fixedly connected to the two sides of the top of the workbench, the mounting seats are located on the right sides of the rotating rods, a second motor is fixedly connected to the back surface of the rear mounting seat, an output shaft of the second motor penetrates through one side of the mounting seats and is fixedly connected with a driving rod, a deviation rectifying structure is arranged on the front surface of the front mounting seat, guide rods are fixedly connected to one sides, opposite to the two mounting seats, and the number of the guide, the right side fixedly connected with linear guide at workstation top, linear guide's quantity is three, the spacing groove has all been seted up to the both sides on linear guide surface, and the surperficial swing joint of front side and rear side linear guide has the adjustable shelf, the top fixedly connected with lift cylinder of adjustable shelf, the output of lift cylinder runs through to the bottom and the fixedly connected with clamp plate of adjustable shelf, the inner chamber fixedly connected with multicavity sucking disc of adjustable shelf, the bottom and the linear guide swing joint of multicavity sucking disc, the right side intercommunication of multicavity sucking disc has the air pump, the absorption hole has been seted up at the top of multicavity sucking disc.
Preferably, the structure of rectifying includes the support with front side mount pad fixed connection, the back of the body surface of support has the rotary rod through pivot swing joint, the surface of rotary rod is provided with solid fixed ring, gu fixed ring's fixed surface is connected with the dead lever, the positive surface of dead lever runs through and is provided with the damping bearing, the inner wall fixedly connected with of damping bearing frame of rectifying.
Preferably, the top of the workbench is fixedly connected with a front limiting plate, and the front limiting plate is positioned on the right side of the mounting seat.
Preferably, the right side of the workbench is fixedly connected with a rear limiting plate, and one side of the rear limiting plate is in contact with the linear guide rail.
Preferably, the surface of the unwinding rod is fixedly connected with an anti-skidding convex area, and the surface of the anti-skidding convex area is provided with anti-skidding lines.
Compared with the prior art, the beneficial effects of the utility model are as follows:
1. the utility model discloses a membrane rotation of unwinding rod surface is driven to drive to carry out the blowing through opening the motor, motor two drives the actuating lever rotation, played the driven effect, the structure of rectifying plays the effect of rectifying, carry the platform to the multicavity sucking disc under the guide effect of guide bar, open air pump and lift cylinder, the air pump sucks away the air in the multicavity sucking disc inner chamber, form the negative pressure, adsorb proton membrane on the surface of multicavity sucking disc, lift cylinder drive clamp plate moves down, further fix the proton membrane model, can use laser to cut, this proton membrane shaping material feeding unit possesses the advantage that facilitates the use, adopt whole roll blowing, whole piece cutting's mode, the efficiency of roll to roll blowing cutting is promptly kept, the expense and the space of rolling part have been practiced thrift again, convenient user uses, solved the roll to roll mode and still had the problem of high price, the residual materials of the four sides are required to be reserved for the forming cutting after the cutting piece cutting, so that the problems of serious waste and low efficiency are caused, and the film cutting machine is not suitable for the problem of high cost film cutting requirement.
2. The utility model discloses a setting of structure of rectifying, the effect of rectifying in to proton membrane transportation has been played, the user of having made things convenient for uses, setting through preceding limiting plate, spacing effect has been played, the multicavity sucking disc of having avoided excessively moves left and bumps with the mount pad, setting through back limiting plate, spacing effect has been played, the excessive motion right of adjustable shelf and multicavity sucking disc has been avoided, break away from the meshing with linear guide, setting through anti-skidding subregion, frictional force between rolling rod and the proton membrane has been increased, be favorable to unreeling.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a perspective view of the present invention;
fig. 3 is a top sectional view of the multi-cavity suction cup structure of the present invention.
In the figure: 1. a work table; 2. placing the rolled plate; 3. a first motor; 4. unwinding the rod; 5. a fixing plate; 6. rotating the rod; 7. a mounting seat; 8. a second motor; 9. a drive rod; 10. a deviation rectifying structure; 101. a support; 102. rotating the rod; 103. a fixing ring; 104. fixing the rod; 105. a damping bearing; 106. a deviation rectifying frame; 11. a guide bar; 12. a linear guide rail; 13. a limiting groove; 14. a movable frame; 15. a lifting cylinder; 16. pressing a plate; 17. an anti-skid convex region; 18. a multi-cavity sucker; 19. an air pump; 20. an adsorption hole; 21. a rear limiting plate; 22. a front limiting plate.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Referring to fig. 1-3, the present invention provides a technical solution: a proton membrane forming and feeding device comprises a workbench 1, wherein the top of the workbench 1 is fixedly connected with an unwinding plate 2, the rear side of the unwinding plate 2 is provided with a motor I3 in a penetrating manner, the output shaft of the motor I3 penetrates to the front side of the unwinding plate 2 and is fixedly connected with an unwinding rod 4, the surface of the unwinding rod 4 is fixedly connected with an anti-skidding convex area 17, the surface of the anti-skidding convex area 17 is provided with anti-skidding grains, the friction force between the unwinding rod 4 and a proton membrane is increased through the arrangement of the anti-skidding convex area 17, the unwinding is facilitated, two sides of the top of the workbench 1 are fixedly connected with fixing plates 5, one opposite sides of the two fixing plates 5 are movably connected with rotating rods 6 through bearings, the number of the rotating rods 6 is two, two sides of the top of the workbench 1 are fixedly connected with mounting seats 7, a deviation rectifying structure 10 comprises a support 101 fixedly connected with the front side mounting seat 7, the back surface of the, the surface of the rotating rod 102 is provided with a fixing ring 103, the surface of the fixing ring 103 is fixedly connected with a fixing rod 104, the front surface of the fixing rod 104 is provided with a damping bearing 105 in a penetrating way, the inner wall of the damping bearing 105 is fixedly connected with a deviation rectifying frame 106, the deviation rectifying function in the proton membrane transportation process is realized through the arrangement of a deviation rectifying structure 10, the use by a user is facilitated, the mounting seat 7 is positioned at the right side of the rotating rod 6, the back surface of the rear mounting seat 7 is fixedly connected with a motor II 8, the output shaft of the motor II 8 penetrates to one side of the mounting seat 7 and is fixedly connected with a driving rod 9, the front surface of the front mounting seat 7 is provided with the deviation rectifying structure 10, one side of the two opposite mounting seats 7 is fixedly connected with two guide rods 11, the right side of the top of the workbench 1 is fixedly connected with linear guide rails 12, the number of the linear guide rails, the surface of the front and rear linear guide rails 12 is movably connected with a movable frame 14, the top of the movable frame 14 is fixedly connected with a lifting cylinder 15, the output end of the lifting cylinder 15 penetrates to the bottom of the movable frame 14 and is fixedly connected with a pressing plate 16, the inner cavity of the movable frame 14 is fixedly connected with a multi-cavity suction cup 18, the top of the workbench 1 is fixedly connected with a front limiting plate 22, the front limiting plate 22 is positioned at the right side of the mounting seat 7, the limiting effect is achieved through the arrangement of the front limiting plate 22, the multi-cavity suction cup 18 is prevented from excessively moving leftwards and colliding with the mounting seat 7, the right side of the workbench 1 is fixedly connected with a rear limiting plate 21, one side of the rear limiting plate 21 is contacted with the linear guide rails 12, the limiting effect is achieved through the arrangement of the rear limiting plate 21, the movable frame 14 and the multi-cavity suction cup 18 are prevented from excessively moving rightwards and are disengaged from the linear guide rails 12, the bottom of the multi-, the right side of the multi-cavity sucker 18 is communicated with an air pump 19, and the top of the multi-cavity sucker 18 is provided with an adsorption hole 20.
The working principle is as follows: when the utility model is used, a user moves the movable frame 14, the movable frame 14 drives the multi-cavity sucker 18 to slide to a proper position on the surface of the linear guide rail 12, the first motor 3 is started to drive the film on the surface of the unwinding rod 4 to rotate, the second motor 8 drives the driving rod 9 to rotate, the proton film advancing driving function is realized, the proton film advancing driving device is conveyed to the platform of the multi-cavity sucker 18 under the guiding function of the guide rod 11, the air pump 19 and the lifting cylinder 15 are started, the air in the inner cavity of the multi-cavity sucker 18 is sucked away by the air pump 19 to form negative pressure, the proton film is adsorbed on the surface of the multi-cavity sucker 18, the lifting cylinder 15 drives the pressing plate 16 to move downwards, the proton film model is further fixed, namely, the laser can be used for cutting, wherein the rotary rod 102 is rotated, the rotary rod 102 drives the, the correction can be finished, and the purpose of convenient use is achieved.
In summary, the following steps: the proton membrane forming and feeding device drives a membrane on the surface of a unwinding rod 4 to rotate by starting a motor I3 to discharge materials, a motor II 8 drives a driving rod 9 to rotate to play a driving role, a deviation rectifying structure 10 plays a role in rectifying deviation, the proton membrane forming and feeding device is conveyed to a platform of a multi-cavity sucker 18 under the guiding role of a guide rod 11, an air pump 19 and a lifting air cylinder 15 are started, the air pump 19 sucks air in the inner cavity of the multi-cavity sucker 18 to form negative pressure, the proton membrane is adsorbed on the surface of the multi-cavity sucker 18, a pressure plate 16 is driven by the lifting air cylinder 15 to move downwards, the proton membrane machine type is further fixed, laser can be used for cutting, the proton membrane forming and feeding device has the advantage of convenience in use, the mode of whole roll unwinding and whole sheet cutting is adopted, the efficiency of reel unwinding and winding is kept, the cost and the space of a winding part are saved, and the, the problem of still having the price high in the roll-to-roll mode is solved, the cutting piece back shaping cutting needs to remain the clout to the four sides, then can cause extravagant serious, the inefficiency, is not fit for the problem that high-cost membrane cutting required.
It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a proton membrane shaping material feeding unit, includes workstation (1), its characterized in that: the coil plate (2) is placed to the top fixedly connected with of workstation (1), the rear side of placing coil plate (2) is run through and is provided with motor one (3), the output shaft of motor one (3) runs through to the front side of unreeling plate (2) and fixedly connected with unreels pole (4), the equal fixedly connected with fixed plate (5) in both sides at workstation (1) top, one side that two fixed plates (5) are relative has dwang (6) through bearing swing joint, the quantity of dwang (6) is two, the equal fixedly connected with mount pad (7) in both sides at workstation (1) top, mount pad (7) are located the right side of dwang (6), the back of the body surface fixedly connected with motor two (8) of rear side mount pad (7), the output shaft of motor two (8) runs through to one side of mount pad (7) and fixedly connected with actuating lever (9), the front surface of the front side mounting seat (7) is provided with a deviation rectifying structure (10), one side of the two side mounting seats (7) opposite to each other is fixedly connected with two guide rods (11), the right side of the top of the workbench (1) is fixedly connected with a linear guide rail (12), the number of the linear guide rails (12) is three, two sides of the surface of each linear guide rail (12) are respectively provided with a limiting groove (13), the surfaces of the front side linear guide rail (12) and the rear side linear guide rail (12) are movably connected with a movable frame (14), the top of each movable frame (14) is fixedly connected with a lifting cylinder (15), the output end of each lifting cylinder (15) penetrates through the bottom of each movable frame (14) and is fixedly connected with a pressing plate (16), the inner cavity of each movable frame (14) is fixedly connected with a multi-cavity sucking disc (18), and the bottom of each multi-cavity sucking disc (18) is movably connected, the right side of the multi-cavity sucker (18) is communicated with an air pump (19), and the top of the multi-cavity sucker (18) is provided with an adsorption hole (20).
2. The proton membrane forming and feeding device as claimed in claim 1, wherein: structure (10) of rectifying includes support (101) with front side mount pad (7) fixed connection, the back surface of support (101) has rotary rod (102) through pivot swing joint, the surface of rotary rod (102) is provided with solid fixed ring (103), the fixed surface of solid fixed ring (103) is connected with dead lever (104), the positive surface of dead lever (104) is run through and is provided with damping bearing (105), the inner wall fixedly connected with of damping bearing (105) frame (106) of rectifying.
3. The proton membrane forming and feeding device as claimed in claim 1, wherein: the top of the workbench (1) is fixedly connected with a front limiting plate (22), and the front limiting plate (22) is located on the right side of the mounting seat (7).
4. The proton membrane forming and feeding device as claimed in claim 1, wherein: the right side of the workbench (1) is fixedly connected with a rear limiting plate (21), and one side of the rear limiting plate (21) is in contact with the linear guide rail (12).
5. The proton membrane forming and feeding device as claimed in claim 1, wherein: the surface of the unwinding rod (4) is fixedly connected with an anti-skidding convex area (17), and anti-skidding lines are arranged on the surface of the anti-skidding convex area (17).
CN201922166300.8U 2019-12-04 2019-12-04 Proton membrane shaping material feeding unit Expired - Fee Related CN211110260U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201922166300.8U CN211110260U (en) 2019-12-04 2019-12-04 Proton membrane shaping material feeding unit

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201922166300.8U CN211110260U (en) 2019-12-04 2019-12-04 Proton membrane shaping material feeding unit

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CN211110260U true CN211110260U (en) 2020-07-28

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CN201922166300.8U Expired - Fee Related CN211110260U (en) 2019-12-04 2019-12-04 Proton membrane shaping material feeding unit

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111822281A (en) * 2020-07-29 2020-10-27 无锡先导智能装备股份有限公司 Proton membrane coating equipment and thin film material transfer device

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111822281A (en) * 2020-07-29 2020-10-27 无锡先导智能装备股份有限公司 Proton membrane coating equipment and thin film material transfer device
CN111822281B (en) * 2020-07-29 2021-09-03 无锡先导智能装备股份有限公司 Proton membrane coating equipment and thin film material transfer device

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CF01 Termination of patent right due to non-payment of annual fee
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Granted publication date: 20200728

Termination date: 20211204