CN217971944U - Energy-saving full-automatic paper towel divides takes out equipment - Google Patents

Abstract

The utility model relates to a paper handkerchief production facility technical field just discloses an energy-saving full-automatic paper handkerchief divides takes out equipment, comprising a base plate, the bottom plate top is provided with divides takes out the mechanism, divide and take out the mechanism and include bevel gear A, bevel gear A surface toothing has bevel gear B, bevel gear B inner wall fixed mounting has the gear pivot. According to the energy-saving full-automatic tissue separately-pumping device, the output end of a motor drives a rotating shaft A to rotate, so that a bevel gear A and a bevel gear B are driven to rotate, the rotating shaft of the gear is driven to rotate, a gear ring is driven to horizontally reciprocate through a half gear, so that two separately-pumping plates are driven to horizontally reciprocate, the separately-pumping plates sequentially push the non-overlapped parts of two tissues to be folded and are folded in a reciprocating manner, and full-automatic separate pumping of the tissues is realized; the conveying mechanism finishes the conveying process, and the conveying mechanism and the separate pumping mechanism are driven by one motor to work cooperatively, so that the energy consumption is lower than that of two machines, and the energy-saving production is facilitated.

Description

Energy-saving full-automatic paper towel divides takes out equipment

Technical Field

The utility model relates to a paper handkerchief production facility technical field specifically is an energy-saving full-automatic paper handkerchief divides takes out equipment.

Background

The paper towel is a daily necessity, and the components of the paper towel comprise chlorine, bleaching powder, alcohol, wood pulp and renewable resources; the tissue is various in types, and the tissue is one of the tissues, and the tissue is called box tissue, tissue, boxed facial tissue, tissue, tissue extraction, etc.; the paper extraction is an indispensable product in daily life of people, is visible everywhere in places with frequent activities such as offices, living rooms, restaurants, bedrooms and the like in life, and needs to be subjected to multiple processes such as slicing, sub-extraction, compression, sub-packaging, material arrangement, total packaging and the like in the production process; in the lamination process, a sub-pumping machine is generally used for sub-pumping;

however, the existing dividing and pumping machine cannot be fully automated, and the paper towel is folded manually and is not overlapped; in the process of separately pumping the paper towels, the paper towels are firstly conveyed into the separate pumping machine through the feeding equipment and then separately pumped, so that the separate pumping operation needs the feeding equipment and the separate pumping machine to be completed together, and the two machines consume more electric energy when being operated simultaneously, which is not beneficial to energy-saving production of the paper towels.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an energy-saving full-automatic paper handkerchief divides takes out equipment to solve the problem that provides among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: an energy-saving full-automatic tissue separate-pumping device comprises a bottom plate, wherein a separate-pumping mechanism is arranged at the top of the bottom plate and comprises a bevel gear A;

the bevel gear A is meshed with a bevel gear B, a gear rotating shaft is fixedly mounted on the inner wall of the bevel gear B, one side of the gear rotating shaft is rotatably connected with an upright post through a bearing, the bottom of the upright post is fixedly connected with the top of a bottom plate, a half gear is fixedly mounted on the surface of the gear rotating shaft, a toothed ring is meshed with the surface of the half gear, a connecting rod is fixedly mounted at the bottom of the toothed ring, a drawing plate is fixedly mounted at the bottom of the connecting rod, a vertical rod is fixedly mounted at the bottom of the toothed ring, a sliding groove is formed in the top of the bottom plate, a sleeve rod is fixedly mounted on the inner surface of the sliding groove, the surface of the sleeve rod is slidably connected with the inner wall of the vertical rod, and the surface of the vertical rod is slidably connected with the inner surface of the sliding groove;

and the top of the bottom plate is provided with a conveying mechanism.

Preferably, the bottom plate bottom fixed mounting has the supporting leg, bottom plate top fixed mounting has the branch to take out the platform, divide and take out a bench top fixed mounting and have anti-skidding granule.

Preferably, transport mechanism includes the backup pad, backup pad bottom and bottom plate top fixed connection, the backup pad openly fixed mounting has the motor, motor output end fixed mounting has pivot A, pivot A surface and bevel gear A inner wall fixed connection, pivot A fixed surface installs action wheel A, action wheel A with pass through the conveyer belt transmission from drive wheel A and be connected, from drive wheel A inner wall fixed mounting has pivot B, the pivot B back openly rotates through the bearing with the backup pad and is connected, pivot A fixed surface installs action wheel B, action wheel B passes through belt transmission with following drive wheel B and is connected, from drive wheel B inner wall fixed mounting has pivot C, the pivot C back openly rotates through the bearing with the backup pad and is connected.

Preferably, the number of the connecting rods and the number of the separate drawing plates are two, and the two connecting rods and the separate drawing plates are distributed at the bottom of the toothed ring, so that the two connecting rods and the separate drawing plates are matched with each other, and paper towels which are not overlapped are folded in a reciprocating manner in sequence, and therefore the separate drawing effect is achieved.

Preferably, the montant is equipped with two, and two montant symmetric distributions are in the ring gear bottom, and the positive vertical cross sectional shape of montant and the positive vertical cross sectional shape looks adaptation of spout internal surface, make the montant gliding more stable and do not produce and rock in the spout, and two montants support the ring gear, thereby produce when avoiding ring gear and semi-gear meshing and rock and influence the meshing effect.

Preferably, the front vertical section of the sleeve rod is matched with the front vertical section of the inner wall of the vertical rod, the sleeve rod limits the vertical rod, and the vertical rod is prevented from shaking in the vertical direction, so that the meshing of the toothed ring and the half gear is influenced.

Preferably, the supporting legs are four, and the four supporting legs are distributed at the bottom of the bottom plate in an array mode.

Preferably, the driving wheel A, the driven wheel A, the conveyor belts and the rotating shaft B are arranged in two, the two driving wheels A are distributed on the surfaces of the rotating shaft A and the rotating shaft C in a staggered mode, so that partial areas of the paper towels conveyed by the two conveyor belts are overlapped when the paper towels fall onto the surface of the drawing table, and the paper towels of the non-overlapped parts can be folded by the subsequent drawing board conveniently.

The utility model provides an energy-saving full-automatic paper handkerchief divides takes out equipment. The energy-saving full-automatic tissue separating and extracting equipment has the following beneficial effects:

(1) According to the energy-saving full-automatic tissue separately-pumping equipment, the motor output end drives the rotating shaft A to rotate, so that the bevel gear A and the bevel gear B are driven to rotate, the gear rotating shaft is driven to rotate, the gear ring is driven to horizontally reciprocate through the half gear, two separately-pumping plates are driven to horizontally reciprocate, the separately-pumping plates sequentially push the non-overlapped parts of the two tissues to be folded and are folded in a reciprocating mode, and full-automatic tissue separately-pumping is achieved.

(2) This energy-saving full-automatic paper handkerchief divides takes out equipment, pivot A rotates and drives action wheel A and rotates, make conveyer belt conveying paper handkerchief to dividing and taking out bench top portion through following driving wheel A, pivot A rotates and drives action wheel B and rotates, make pivot C rotate through following driving wheel B and belt, make another conveyer belt conveying paper handkerchief to dividing and taking out bench top portion through another action wheel A and another from driving wheel A, thereby accomplish transfer process, because of a motor drives transport mechanism and divides and take out the collaborative work of mechanism, it is lower than two machine power consumptions, be favorable to energy-conserving production.

Drawings

Fig. 1 is a schematic plan view of the structure of the present invention;

fig. 2 is a right side view of the conveying mechanism according to the present invention;

FIG. 3 is a front view of the driving wheel A of the present invention;

fig. 4 is a schematic diagram of a right side section of the separate pumping mechanism of the structure of the present invention.

In the figure: 1, 2 support legs, 3 transmission mechanisms, 301 support plates, 302 motors, 303 rotating shafts A, 304 driving wheels A, 305 driven wheels A, 306 transmission belts, 307 rotating shafts B, 308 driving wheels B, 309 driven wheels B, 310 belts, 311 rotating shafts C, 4-division drawing mechanisms, 401 bevel gears A, 402 bevel gears B, 403 gear rotating shafts, 404 columns, 405 half gears, 406 toothed rings, 407 connecting rods, 408-division drawing plates, 409 vertical rods, 410 sliding chutes, 411 sleeve rods, 5-division drawing tables and 6 anti-skid particles.

Detailed Description

As shown in fig. 1-4, the utility model provides a technical solution: an energy-saving full-automatic tissue separate-drawing device comprises a bottom plate 1, wherein supporting legs 2 are fixedly mounted at the bottom of the bottom plate 1, the number of the supporting legs 2 is four, the four supporting legs 2 are distributed at the bottom of the bottom plate 1 in an array mode, a separate-drawing table 5 is fixedly mounted at the top of the bottom plate 1, anti-skid particles 6 are fixedly mounted at the top of the separate-drawing table 5, a separate-drawing mechanism 4 is arranged at the top of the bottom plate 1, and the separate-drawing mechanism 4 comprises a bevel gear A401;

the surface of the bevel gear A401 is engaged with a bevel gear B402, the inner wall of the bevel gear B402 is fixedly provided with a gear rotating shaft 403, one side of the gear rotating shaft 403 is rotatably connected with an upright post 404 through a bearing, the bottom of the upright post 404 is fixedly connected with the top of the bottom plate 1, the surface of the gear rotating shaft 403 is fixedly provided with a half gear 405, the surface of the half gear 405 is engaged with a toothed ring 406, the bottom of the toothed ring 406 is fixedly provided with two connecting rods 407, the connecting rods 407 and the divided drawing plates 408 are respectively distributed at the bottom of the toothed ring 406, the bottom of the connecting rods 407 is fixedly provided with the divided drawing plates 408, the bottom of the toothed ring 406 is fixedly provided with two vertical rods 409, the two vertical rods 409 are symmetrically distributed at the bottom of the toothed ring 406, and the vertical section shape of the front face of the vertical rods 409 is matched with the vertical section shape of the front face of the sliding chute 410, the top of the bottom plate 1 is provided with a sliding groove 410, the inner surface of the sliding groove 410 is fixedly provided with a sleeve rod 411, the vertical cross section of the front surface of the sleeve rod 411 is matched with the vertical cross section of the front surface of the inner wall of a vertical rod 409, the surface of the sleeve rod 411 is slidably connected with the inner wall of the vertical rod 409, the surface of the vertical rod 409 is slidably connected with the inner surface of the sliding groove 410, the output end of a motor 302 drives a rotating shaft A303 to rotate, so that a bevel gear A401 and a bevel gear B402 are driven to rotate, a gear rotating shaft 403 is driven to rotate, a gear ring 406 is driven to horizontally reciprocate through a half gear 405, so that two sub-drawing plates 408 are driven to horizontally reciprocate, the non-overlapped parts of two tissues are sequentially pushed to be folded and folded in a reciprocating manner by the sub-drawing plates 408, and therefore full-automatic sub-drawing of the tissues is realized;

the top of the bottom plate 1 is provided with a transmission mechanism 3, the transmission mechanism 3 comprises a support plate 301, the bottom of the support plate 301 is fixedly connected with the top of the bottom plate 1, the front surface of the support plate 301 is fixedly provided with a motor 302, the output end of the motor 302 is fixedly provided with a rotating shaft A303, the surface of the rotating shaft A303 is fixedly connected with the inner wall of a bevel gear A401, the surface of the rotating shaft A303 is fixedly provided with a driving wheel A304, the driving wheel A304 is in transmission connection with a driven wheel A305 through a transmission belt 306, the inner wall of the driven wheel A305 is fixedly provided with a rotating shaft B307, two driving wheels A304, driven wheel A305, the transmission belt 306 and the rotating shaft B307 are respectively arranged, the two driving wheels A304 are distributed on the surfaces of the rotating shaft A303 and the rotating shaft C311 in a staggered manner, the back surface of the rotating shaft B307 is rotatably connected with the front surface of the support plate 301 through a bearing, and the surface of the rotating shaft A303 is fixedly provided with a driving wheel B308, the driving wheel B308 is in transmission connection with the driven wheel B309 through a belt 310, a rotating shaft C311 is fixedly installed on the inner wall of the driven wheel B309, the back face of the rotating shaft C311 is in rotation connection with the front face of the supporting plate 301 through a bearing, the rotating shaft A303 rotates to drive the driving wheel A304 to rotate, the conveying belt 306 conveys paper towels to the top of the separate drawing table 5 through the driven wheel A305, the rotating shaft A303 rotates to drive the driving wheel B308 to rotate, the rotating shaft C311 rotates through the driven wheel B309 and the belt 310, and the other conveying belt 306 conveys the paper towels to the top of the separate drawing table 5 through the other driving wheel A304 and the other driven wheel A305, so that the conveying process is completed.

When the energy-saving full-automatic tissue separately-drawing device is used, the output end of the motor 302 drives the rotating shaft A303 to rotate to drive the driving wheel A304 to rotate, the conveying belt 306 conveys tissues to the top of the separately-drawing table 5 through the driven wheel A305, the rotating shaft A303 rotates to drive the driving wheel B308 to rotate, the driven wheel B309 and the belt 310 rotate the rotating shaft C311, the other conveying belt 306 conveys the tissues to the top of the separately-drawing table 5 through the other driving wheel A304 and the other driven wheel A305, so that the conveying process is completed, the conveyed tissues are partially overlapped due to the staggered position of the two conveying belts 306, the rotating shaft A303 rotates to drive the bevel gear A401 and the bevel gear B402 to rotate, the gear rotating shaft 403 rotates, the gear ring 406 is driven to horizontally reciprocate through the half gear 405, so that the two separately-drawing plates 408 are driven to horizontally reciprocate, and the separately-drawing plates 408 sequentially push the non-overlapped parts of the two tissues to be folded to reciprocate.

In conclusion, although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made herein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides an energy-saving full-automatic paper handkerchief divides takes out equipment, includes bottom plate (1), its characterized in that: the top of the bottom plate (1) is provided with a separate pumping mechanism (4), and the separate pumping mechanism (4) comprises a bevel gear A (401);

the bevel gear A (401) is meshed with a bevel gear B (402) in surface, a gear rotating shaft (403) is fixedly mounted on the inner wall of the bevel gear B (402), an upright post (404) is rotatably connected to one side of the gear rotating shaft (403) through a bearing, the bottom of the upright post (404) is fixedly connected with the top of a bottom plate (1), a half gear (405) is fixedly mounted on the surface of the gear rotating shaft (403), a toothed ring (406) is meshed with the surface of the half gear (405), a connecting rod (407) is fixedly mounted at the bottom of the toothed ring (406), a split plate (408) is fixedly mounted at the bottom of the connecting rod (407), a vertical rod (409) is fixedly mounted at the bottom of the toothed ring (406), a sliding groove (410) is formed in the top of the bottom plate (1), a sleeve rod (411) is fixedly mounted on the inner surface of the sliding groove (410), the surface of the sleeve rod (411) is slidably connected with the inner wall of the vertical rod (409);

and the top of the bottom plate (1) is provided with a conveying mechanism (3).

2. The energy-saving full-automatic tissue separating and pumping device according to claim 1, characterized in that: bottom plate (1) bottom fixed mounting has supporting leg (2), bottom plate (1) top fixed mounting has the branch to take out platform (5), divide and take out platform (5) top fixed mounting to have anti-skidding granule (6).

3. The energy-saving full-automatic tissue separating and drawing equipment as claimed in claim 1, characterized in that: transport mechanism (3) are including backup pad (301), backup pad (301) bottom and bottom plate (1) top fixed connection, backup pad (301) openly fixed mounting has motor (302), motor (302) output end fixed mounting has pivot A (303), pivot A (303) surface and bevel gear A (401) inner wall fixed connection, pivot A (303) fixed surface mounting has action wheel A (304), action wheel A (304) are connected through conveyer belt (306) transmission with following wheel A (305), from driving wheel A (305) inner wall fixed mounting have pivot B (307), pivot B (307) back is connected through the bearing rotation with backup pad (301) openly, pivot A (303) fixed surface mounting has action wheel B (308), action wheel B (308) and follow driving wheel B (309) pass through belt (310) transmission connection, from driving wheel B (309) inner wall fixed mounting has pivot C (311), pivot C (311) back and backup pad (301) openly pass through the bearing rotation and are connected.

4. The energy-saving full-automatic tissue separating and drawing equipment as claimed in claim 1, characterized in that: the number of the connecting rods (407) and the number of the divided drawing plates (408) are two, and the two connecting rods (407) and the divided drawing plates (408) are distributed at the bottom of the gear ring (406).

5. The energy-saving full-automatic tissue separating and pumping device according to claim 1, characterized in that: the number of the vertical rods (409) is two, the two vertical rods (409) are symmetrically distributed at the bottom of the gear ring (406), and the front vertical section of each vertical rod (409) is matched with the front vertical section of the inner surface of the sliding groove (410).

6. The energy-saving full-automatic tissue separating and pumping device according to claim 1, characterized in that: the front vertical section of the loop bar (411) is matched with the front vertical section of the inner wall of the vertical bar (409).

7. The energy-saving full-automatic tissue separating and pumping device according to claim 2, characterized in that: the number of the supporting legs (2) is four, and the four supporting legs (2) are distributed in an array at the bottom of the bottom plate (1).

8. The energy-saving full-automatic tissue separating and pumping device according to claim 3, characterized in that: the number of the driving wheels A (304), the number of the driven wheels A (305), the number of the conveyor belts (306) and the number of the rotating shafts B (307) are two, and the two driving wheels A (304) are distributed on the surfaces of the rotating shafts A (303) and the rotating shafts C (311) in a staggered mode.

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