CN220086084U

CN220086084U - Tubular battery tube arranging and preparing machine

Info

Publication number: CN220086084U
Application number: CN202321408866.7U
Authority: CN
Inventors: 黄超; 林春旺; 李献
Original assignee: Xiamen Beiteli Technology Group Co ltd
Current assignee: Xiamen Beiteli Technology Group Co ltd
Priority date: 2023-06-05
Filing date: 2023-06-05
Publication date: 2023-11-24
Anticipated expiration: 2033-06-05

Abstract

The utility model discloses a tubular battery row tube manufacturing machine, which relates to the technical field of battery row tube production. According to the utility model, through the arrangement of the recovery assembly, when the calandria is machined, part of heat in the heating box enters the heat insulation box to be absorbed by the phase change heat storage filler, the phase change heat storage filler absorbs heat and is fully phase-changed, the motor drives the first movable disc and the second movable disc to rotate, so that the heat in the heat insulation box is sealed to be insulated, and when the calandria is machined next time, the motor drives the first movable disc and the second movable disc to rotate, so that part of heat is recovered, the waste is reduced, and the recovered heat is used for solidifying the calandria, so that the heating time of heating equipment is not required to wait, the waste is reduced, and the production efficiency is improved.

Description

Tubular battery tube arranging and preparing machine

Technical Field

The utility model relates to the technical field of battery tube production, in particular to a tubular battery tube manufacturing machine.

Background

The polyester calandria is woven to achieve a very close interval tolerance, is favorable for automatic insertion of pens, allows manufacturing of positive plates with equal weights of any kind of filling systems, has the thickness of the pipe wall of 0.25-0.30 mm, can reduce the interval and increase the capacitance of the surface unit of the positive plate, is made of chemical polyester fiber, has high toughness, acid resistance and traction strength, is soaked in glue after being woven, and is then put into a manufacturing machine for heating, solidifying and forming.

The existing tubular battery row tube manufacturing machine generally adopts heating equipment to bake glue in polyester cloth at a high temperature, the glue is baked at a high temperature to lose moisture and is matched with the inside of a mandrel to support the polyester cloth, so that a calandria is solidified and formed, but the heating equipment needs a certain time to heat, if the production interval time is longer, the temperature in a heating box is easy to drop, for example, the equipment is stopped and overhauled for a long time, or the rubber roller needs to be regulated and the mandrel needs to be replaced for a long time to cause two production intervals because of customer customization, so that the polyester cloth in the next batch possibly needs to wait until the heating equipment is heated again before solidification, and the time is consumed.

Disclosure of Invention

Based on the above, the utility model aims to provide a tubular battery tube manufacturing machine so as to solve the technical problem that the heating equipment needs to be waited for heating up in the restarting process under specific conditions.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the tubular battery row tube preparation machine comprises a machine main body, be provided with recovery subassembly in the machine main body, recovery subassembly includes the insulation can, the insulation can is connected with the heat conduction frame, the intussuseption of heat conduction frame is filled with phase transition heat accumulation filler, install the motor on the insulation can, the motor output is connected with first movable dish, the gear has been cup jointed to first movable dish outside, the insulation can is connected with first fixed disk and second fixed disk, the insulation can is connected with the second movable disk, the toothed rim has been cup jointed to second movable disk outside, install the fan in the insulation can.

Through adopting above-mentioned technical scheme, when the machine tooling calandria heat in the heating cabinet gets into the insulation can in by the phase change heat storage filler absorption, and the motor drive first movable disk and the rotation of second movable disk after the full phase change of phase change heat storage filler absorption heat makes the insulation can in by sealed heat preservation.

Further, motor and speed reducer are installed respectively in the machine main part, be provided with lead screw adjustment mechanism in the machine main part, all be connected with the rubber roll on the lead screw adjustment mechanism and in the machine main part, be connected with the compression roller in the machine main part, sprocket has all been cup jointed to machine main part, motor output, speed reducer input, speed reducer output, compression roller outside and the rubber roll outside, be provided with the plug in the machine main part, the material has been cup jointed on the plug surface, install the heating cabinet on the machine main part.

Through adopting above-mentioned technical scheme, make the speed reducer input through chain drive after the motor starts rotatory, then the speed reducer output drives rubber roller and compression roller through the chain and rotates, sends out the calandria of solidification shaping through the rubber roller, and it produces the skew to avoid the plug position to spacing the plug through the compression roller, and the heating equipment start-up from taking in the heating cabinet begins to heat gradually.

Further, a plurality of through holes are formed in the first movable disc, the first fixed disc, the second movable disc and the second fixed disc, and the through holes are distributed in an annular array shape.

Through adopting above-mentioned technical scheme, motor drive first movable disk and second movable disk rotate to make the insulation can end sealedly, later the fan is bloied to the heat conduction frame, makes the heat in the phase change heat storage filler blown into the curing cloth in the heating cabinet.

Further, the first movable disc and the second movable disc are movably connected with the heat insulation box, and the first fixed disc and the second fixed disc are fixedly connected with the heat insulation box.

Further, a plurality of grooves are formed in the press roller, the plurality of core rods are arranged, and the plurality of core rods are respectively matched with the plurality of grooves.

Through adopting above-mentioned technical scheme, can clip the plug through a plurality of compression roller cooperation, make the plug can not drop from the machine main part, it is spacing to be convenient for block the plug through the setting of recess simultaneously to avoid the plug to follow compression roller axis displacement.

Further, the fan, the second movable disc, the second fixed disc and the toothed rings are all provided with two, and the two toothed rings are all meshed with the gear.

Further, the heating box is connected with an access door, and the access door is rotationally connected with the machine body through a rotating shaft.

Through adopting above-mentioned technical scheme, when the machine goes wrong, thereby the staff can open the access door and make the structure in the heating cabinet expose to the staff of being convenient for maintains the change work to the structure in the heating cabinet.

In summary, the utility model has the following advantages:

according to the utility model, through the arrangement of the recovery assembly, when the calandria is machined, part of heat in the heating box enters the heat insulation box to be absorbed by the phase-change heat storage filler, the motor drives the first movable disc and the second movable disc to rotate after the phase-change heat storage filler absorbs the heat and is fully phase-changed, so that the heat in the heat insulation box is sealed to be insulated, and when the calandria is machined next time, the motor drives the first movable disc and the second movable disc to rotate, so that the heat insulation box is sealed, then the fan blows air to the heat conduction frame, so that the heat in the phase-change heat storage filler is blown into the heating box to solidify cloth, part of heat is recovered, waste is reduced, and the recovered heat is used for solidifying the calandria, so that the heating time of heating equipment is not required to wait, the waste is reduced, and the production efficiency is improved.

Drawings

FIG. 1 is a schematic cross-sectional view of a machine according to the present utility model;

FIG. 2 is a schematic diagram of the front structure of the machine of the present utility model;

FIG. 3 is a schematic view of the machine back construction of the present utility model;

FIG. 4 is a schematic cross-sectional view of the incubator of the present utility model;

FIG. 5 is a schematic diagram of an exploded view of a first movable disk according to the present utility model;

fig. 6 is a schematic diagram of a top-down structure of a heat conducting rack according to the present utility model.

In the figure: 1. a machine body; 2. a motor; 3. a speed reducer; 4. a sprocket; 5. a core rod; 6. distributing materials; 7. a press roller; 8. a rubber roller; 9. a recovery assembly; 901. an insulation box; 902. a motor; 903. a first movable tray; 904. a first fixed plate; 905. a heat conduction frame; 906. a fan; 907. a gear; 908. a second movable plate; 909. a second fixed disk; 910. a toothed ring; 911. phase change heat storage filler; 10. a screw rod adjusting mechanism; 11. a heating box.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the utility model.

Hereinafter, an embodiment of the present utility model will be described in accordance with its entire structure.

The tubular battery row tube manufacturing machine, as shown in fig. 1, 4, 5 and 6, comprises a machine body 1, wherein a recovery assembly 9 is arranged on the machine body 1.

Specifically, retrieve subassembly 9 including connect in the insulation can 901 at heating cabinet 1 top, be connected with the heat conduction frame 905 that is used for transferring heat in the middle of the insulation can 901 inside, the inside phase transition heat storage filler 911 that is used for storing heat that is filled with of heat conduction frame 905, install the motor 902 that is used for driving insulation can 901 switching in the middle of the insulation can 901 top, the motor 902 output is connected with the first movable disk 903 that is used for controlling heat business turn over, gear 907 has been cup jointed to the outside of first movable disk 903, the inside below of insulation can 901 is connected with first fixed disk 904, the inside one side of insulation can 901 is connected with second fixed disk 909, the inside opposite side of insulation can 901 is connected with the second movable disk 908 that is used for controlling the air current break-make, a plurality of through-holes have all been seted up on first movable disk 903, first fixed disk 904, a plurality of through-holes all are annular array form distribution, the tooth ring 910 has been cup jointed to the outside to the second movable disk 908, the fan 906 that is used for producing the air current is installed to the inside top of insulation can 901, thereby be used for solidifying calandria waiting for heating equipment heating time, waste is reduced, production efficiency is improved.

Referring to fig. 1, 2 and 3, in the above embodiment, the motor 2 and the speed reducer 3 are respectively installed below the inner portion of the machine body 1, four screw rod adjusting mechanisms 10 are provided on the inner wall of the machine body 1, each screw rod adjusting mechanism 10 comprises a hand wheel, screw rods, a thread sleeve and a sliding block, four rubber rollers 8 are respectively connected between the four screw rod adjusting mechanisms 10 and the machine body 1 for drawing out the calandria, a plurality of press rollers 7 for limiting the mandrel 5 are connected in the machine body 1, a plurality of grooves are formed in the press rollers 7, the mandrel 5 is provided in a plurality of grooves, the mandrel 5 is respectively matched with the grooves, the sprocket 4 is sleeved on the machine body 1, the output end of the motor 2, the input end of the speed reducer 3, the output end of the press rollers 7 and the outer portion of the rubber rollers 8, the sprockets 4 are driven by chains, the mandrel 5 is provided in the machine body 1, the cloth 6 is sleeved on the surface of the mandrel 5, a heating box 11 is mounted on the top of the machine body 1, the outer surface of the heating box 11 is connected with the access door, and the access door is rotationally connected with the machine body 1 through the rotating shaft, so that the access door is convenient to process the positive electrode of the battery cloth 6.

Referring to fig. 4 and 5, in the above embodiment, the first movable plate 903 and the second movable plate 908 are both rotatably connected with the thermal insulation box 901, the first movable plate 903 is rotatably connected with the first fixed plate 904, the second movable plate 908 is rotatably connected with the second fixed plate 909, and the first fixed plate 904 and the second fixed plate 909 are both fixedly connected with the thermal insulation box 901, the fan 906, the second movable plate 908, the second fixed plate 909 and the toothed ring 910 are both provided with two, and the two toothed rings 910 are both engaged with the gear 907, and the recovered heat is used for solidifying the gauntlet without waiting for the heating time of the heating apparatus.

The implementation principle of the embodiment is as follows: firstly, a worker sleeves a dipped polyester cloth 6 on a mandrel 5 through chain transmission between a motor 2 and a speed reducer 3 and between the speed reducer 3 and a rubber roller 8 and a press roller 7 to enable the cloth 6 to be in a tubular shape, then the worker starts a heating device, a motor 902 and a fan 906 which are arranged in a heating box 11, the motor 2 starts to rotate an input end of the speed reducer 3 through chain transmission after starting, an output end of the speed reducer 3 drives the rubber roller 8 and the press roller 7 to rotate through a chain, the rubber roller 8 is used for sending out cured and formed calandria, the press roller 7 is used for limiting the mandrel 5 to avoid position deviation of the mandrel 5, and the heating device arranged in the heating box 11 starts to gradually heat;

recycling, the output end drives the first movable disk 903 to rotate after the motor 902 is started, so that through holes on the first movable disk 903 correspond to through holes on the first fixed disk 904, meanwhile, the first movable disk 903 is meshed with the toothed ring 910 through a gear 907 to drive the second movable disk 908 to rotate, so that through holes on the second movable disk 908 correspond to through holes on the second fixed disk 909, after the fan 906 is started, blowing air to the heat conduction frame 905, meanwhile, radiating heat in the phase change heat storage filler 911 into the heat preservation box 901 through the heat conduction frame 905, blowing the heat in the heat preservation box 901 into the heating box 11 through the fan 906 to solidify glue on the cloth 6, solidifying the cloth 6 into a calandria, and after self-contained heating equipment in the heating box 11 reaches a preset temperature, stopping the operation of the fan 906, and solidifying and forming the cloth by the self-contained heating equipment in the heating box 11;

and heat recovery, when a heating device provided in the heating box 11 processes a calandria, part of heat in the heating box 11 enters the heat insulation box 901 and is absorbed by the phase change heat storage filler 911, the phase change heat storage filler 911 absorbs the heat to be fully and completely phase-changed, and the motor 902 drives the first movable disk 903 and the second movable disk 908 to rotate, so that through holes on the first movable disk 903 are staggered with through holes on the first fixed disk 904, and meanwhile, through holes on the second movable disk 908 are staggered with through holes on the second fixed disk 909, so that the heat insulation box 901 is sealed to insulate heat.

Although embodiments of the utility model have been shown and described, the detailed description is to be construed as exemplary only and is not limiting of the utility model as the particular features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples, and modifications, substitutions, variations, etc. may be made in the embodiments as desired by those skilled in the art without departing from the principles and spirit of the utility model, provided that such modifications are within the scope of the appended claims.

Claims

1. Tubular battery row pipe preparation machine, including machine main part (1), its characterized in that: the heat preservation box comprises a machine body (1), wherein a recovery component (9) is arranged on the machine body (1), the recovery component (9) comprises a heat preservation box (901), a heat conduction frame (905) is connected in the heat preservation box (901), a phase change heat storage filler (911) is filled in the heat conduction frame (905), a motor (902) is arranged on the heat preservation box (901), a first movable disc (903) is connected to the output end of the motor (902), a gear (907) is sleeved outside the first movable disc (903), a first fixed disc (904) and a second fixed disc (909) are connected in the heat preservation box (901), a second movable disc (908) is connected in the heat preservation box (901), and a toothed ring (910) is sleeved outside the second movable disc (908), and a fan (906) is arranged in the heat preservation box (901).

2. The tubular cell array pipe manufacturing machine according to claim 1, wherein: install motor (2) and speed reducer (3) in machine main part (1) respectively, be provided with lead screw adjustment mechanism (10) in machine main part (1), all be connected with rubber roller (8) on lead screw adjustment mechanism (10) and in machine main part (1), be connected with compression roller (7) in machine main part (1), on machine main part (1), motor (2) output, speed reducer (3) input, speed reducer (3) output, compression roller (7) outside and rubber roller (8) outside all cup joint sprocket (4), be provided with plug (5) in machine main part (1), plug (5) surface cup joint cloth (6), install heating cabinet (11) on machine main part (1).

3. The tubular cell array pipe manufacturing machine according to claim 1, wherein: a plurality of through holes are formed in the first movable disc (903), the first fixed disc (904), the second movable disc (908) and the second fixed disc (909), and the through holes are distributed in an annular array.

4. A tubular cell array fabrication machine as claimed in claim 3, wherein: the first movable plate (903) and the second movable plate (908) are both movably connected with the heat insulation box (901), and the first fixed plate (904) and the second fixed plate (909) are both fixedly connected with the heat insulation box (901).

5. The tubular cell array pipe manufacturing machine according to claim 2, wherein: the press roller (7) is provided with a plurality of grooves, the core rods (5) are provided with a plurality of grooves, and the plurality of core rods (5) are respectively matched with the plurality of grooves.

6. The tubular cell array pipe manufacturing machine according to claim 1, wherein: the fan (906), the second movable disc (908), the second fixed disc (909) and the toothed rings (910) are all provided with two, and the two toothed rings (910) are all meshed with the gear (907).

7. The tubular cell array pipe manufacturing machine according to claim 2, wherein: the heating box (11) is connected with an access door, and the access door is rotationally connected with the machine body (1) through a rotating shaft.