CN218707527U - A unloading equipment in automation for cardboard humidification - Google Patents

Abstract

An automatic feeding and discharging device for humidifying paperboards comprises a feeding mechanism, a buffer bracket mechanism, a paperboard humidifier, a discharging mechanism and a paperboard supporting and moving mechanism which are sequentially arranged from right to left; the feeding mechanism comprises a feeding base, a feeding lifting platform arranged on the feeding base and a feeding assembly arranged on the feeding lifting platform; the buffer support mechanism comprises a support, the top of the support extends towards the direction of the feeding mechanism and forms a transverse support, a suction plate assembly is arranged on the transverse support, and a buffer carrier roller assembly is arranged on the support; the blanking mechanism comprises a blanking support and a blanking lifting platform arranged in the blanking support, a first transverse blanking slide rail and a second transverse blanking slide rail are arranged on two sides of the blanking support, and symmetrical paperboard clamping components are arranged on the first transverse blanking slide rail and the second transverse blanking slide rail; therefore, the utility model discloses can realize that the unloading is automatic on the cardboard, reduce the labour, improve production efficiency.

Description

A unloading equipment in automation for cardboard humidification

Technical Field

The utility model relates to a unloading technical field on the cardboard specifically is a unloading equipment in automation for cardboard humidification.

Background

After the insulating paper for the transformer is processed in a paper mill, certain moisture content is uniformly sprayed on a paperboard according to specific process requirements, and the insulating paper is used for bending and shaping the paperboard. The main process flow is as follows: paperboards (with different specifications of 4 meters in length, 1.05-1.15 meters in width and 0.8-4 mm in thickness) with different specifications are stacked and arranged at a feed port of a humidifier in order, then a single paperboard is conveyed to the humidifier, added with water (with the water content of 3-8 percent) and extruded evenly, taken out of the humidifier and stacked and arranged in order, and then conveyed to the next set of production process.

The existing humidifying process of a paper mill mainly has the following problems:

1) The paper boards are conveyed in and out of the humidifier in a roller mode at the earliest time, but the paper boards after being added with water are easy to adhere to the roller, so that the paper boards cannot be used.

2) The air floatation mode is changed to transport, but due to the fact that the thicknesses and weights of the paperboards with different specifications are different, the whole area of the paperboards is too large, air pressure is difficult to balance each air blowing point and is completely consistent, partial paperboards can hang down and scratch air nozzles, and the air floatation mode is not preferable.

3) At present, the paper board is manually fed and discharged, the paper board is pushed into the humidifier roller by people, the humidifier roller rolls to bring the paper board into the humidifier and water is added, and the paper board is discharged from the humidifier and is orderly stacked on the paper board support by 4-6 people for receiving the corners of the paper board.

4) Although the manual conveying material can meet the production quality requirement, the production rate is low, the feeding rhythm of the paperboard into the humidifier and the water adding rhythm of the humidifier cannot be controlled to be consistent, the blanking needs a large amount of manpower to be completed, the continuous 24-hour operation cannot be realized, and the production requirement cannot be met.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that an automatic feeding and discharging equipment for paperboard humidification is provided.

The utility model discloses the technical scheme that its technical problem adopted will be solved is:

an automatic feeding and discharging device for humidifying paperboards comprises a feeding mechanism, a buffer bracket mechanism, a paperboard humidifier, a discharging mechanism and a paperboard supporting and moving mechanism which are sequentially arranged from right to left;

the feeding mechanism comprises a feeding base, a feeding lifting platform arranged on the feeding base and a feeding assembly arranged on the feeding lifting platform;

the buffer support mechanism comprises a support, the top of the support extends towards the direction of the feeding mechanism to form a transverse support, a suction plate assembly is arranged on the transverse support, and a buffer carrier roller assembly is arranged on the support;

the blanking mechanism comprises a blanking support and a blanking lifting platform arranged in the blanking support, a first transverse blanking slide rail and a second transverse blanking slide rail are arranged on two sides of the blanking support, and symmetrical paperboard clamping components are arranged on the first transverse blanking slide rail and the second transverse blanking slide rail.

In one embodiment, the feeding assembly comprises a plurality of rollers, and the plurality of rollers are arranged on the feeding lifting platform through bearing seats; the both sides of material loading elevating platform are equipped with the railing, be equipped with vertical baffle on the railing.

In one embodiment, a gear is arranged at one end of each of the plurality of roll shafts, a rotating motor is arranged below the feeding lifting platform, and the rotating motor is rotatably connected with the gear through a chain.

In one embodiment, the suction plate assembly comprises a transverse support plate arranged in the middle of the upper surface of the transverse support, a transverse through groove is formed in the transverse support plate, transverse slide rails are arranged on the transverse support plate and on two sides of the transverse through groove, a longitudinal slide plate is arranged on each transverse slide rail, a first telescopic cylinder is arranged in the middle of each longitudinal slide plate, an output shaft of each first telescopic cylinder penetrates through the longitudinal slide plate and the transverse through groove to be connected with a longitudinal connecting plate, and a vacuum suction cup is arranged on one side of each longitudinal connecting plate, which is opposite to the first telescopic cylinder.

In one embodiment, a second telescopic cylinder is arranged on the transverse supporting plate and on one side of the transverse through groove, an output shaft of the second telescopic cylinder is fixedly connected with the longitudinal sliding plate, linear bearings are arranged at two ends of the longitudinal sliding plate, and output shafts of the linear bearings are fixedly connected with the longitudinal connecting plate.

In one embodiment, the buffer idler assembly comprises a first buffer idler set and a second buffer idler set which are arranged on the support, the first buffer idler set and the second buffer idler set respectively comprise a first idler and a second idler, and the first idler and the second idler are arranged on the support through bearing seats.

In one embodiment, the transverse bracket is further provided with a paper board height detection sensor and a paper board feeding detection sensor.

In one embodiment, the cardboard centre gripping subassembly all includes the centre gripping support frame, the both ends at centre gripping support frame top all are equipped with the cardboard holder, the cardboard holder includes the longitudinal connecting piece, the one end that the longitudinal connecting piece kept away from the centre gripping support frame is equipped with two finger centre gripping cylinders.

In one embodiment, the paperboard supporting and moving mechanism comprises a supporting and moving support, a plurality of supporting and moving roller shafts are arranged on two sides of the top of the supporting and moving support, the plurality of supporting and moving roller shafts are arranged on two sides of the top of the supporting and moving support through bearing seats, a gear is arranged at one end of each of the plurality of supporting and moving roller shafts, and a motor on one side of the supporting and moving support is rotatably connected with the gear through a chain.

Compared with the prior art, the beneficial effects of the utility model are as follows:

through the utility model discloses an automatic unloading equipment of going up for cardboard humidification can realize that the unloading is automatic on the cardboard, reduces the labour, improves production efficiency.

Drawings

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

fig. 2 is a schematic structural view of the feeding mechanism of fig. 1 according to the present invention;

fig. 3 is a schematic side view of the buffering support mechanism of fig. 1 according to the present invention;

fig. 4 is a schematic structural view of the buffering support mechanism of fig. 1 according to the present invention;

fig. 5 is a schematic structural view of the blanking mechanism shown in fig. 1 according to the present invention;

FIG. 6 is a schematic view of the cardboard clamping assembly of FIG. 1 according to the present invention;

fig. 7 is a schematic structural view of the cardboard supporting and moving mechanism shown in fig. 1 according to the present invention.

In the figure: 100. the feeding mechanism, 110, a feeding base, 120, a feeding lifting platform, 130, a roller shaft, 140, a railing, 145, a vertical baffle, 155, a rotating motor, 200, a buffer support mechanism, 210, a support, 211, a first carrier roller, 212, a second carrier roller, 215, a horizontal support, 216, a paper board height detection sensor, 217, a paper board feeding detection sensor, 220, a horizontal support plate, 225, a horizontal through groove, 230, a horizontal sliding rail, 235, a vertical sliding plate, 240, a first telescopic cylinder, 245, a vertical connecting plate, 250, a vacuum chuck, 260, a second telescopic cylinder, 265, a linear bearing, 300, a paper board humidifier, 400, a blanking mechanism, 410, a blanking support, 411, a right roller support, 412, a horizontal fixing plate, 413, a first roller, 414, a vertical fixing plate, 415, a second roller, 420, a blanking lifting platform, 430, a first horizontal blanking sliding rail, 435, a second horizontal blanking sliding rail, 450, a clamping support frame, 451, a vertical connecting block, 452, a double-finger clamping cylinder, 500, a paper board moving support mechanism, 510, a moving support frame, a roller shaft, 520, a moving motor, 515, and a motor.

Detailed Description

The present invention will be further explained with reference to the drawings and examples.

Example 1

As shown in fig. 1, the present embodiment includes a feeding mechanism 100, a buffer bracket mechanism 200, a cardboard humidifier 300, a blanking mechanism 400, and a cardboard moving mechanism 500, which are arranged in sequence from right to left; thereby mutually support through feed mechanism 100, buffering gimbal mechanism 200, cardboard humidification machine 300, unloading mechanism 400, cardboard and move between the mechanism 500 and move and carry out the operation and realize the unloading automation on the cardboard to reduce the labour, improve production efficiency.

It is to be noted that; the cardboard humidifier 300 is an existing cardboard humidifier, which is commercially available and is a cardboard humidifying device for humidifying cardboard.

The structure and mechanism of action of the main components of the present invention will be further described below.

Feeding mechanism

As shown in fig. 2, the feeding mechanism 100 includes a feeding base 110, a feeding lifting platform 120 disposed on the feeding base 110, and a feeding assembly disposed on the feeding lifting platform 120; in this embodiment, the feeding lifting platform 120 is disposed in the feeding base 110 and can perform lifting motion on the feeding base 110;

the feeding assembly comprises a plurality of roller shafts 130, and the plurality of roller shafts 130 are arranged on the feeding lifting platform 120 through bearing seats; the railings 140 are arranged on two sides of the feeding lifting platform 120, and the vertical baffle plates 145 are arranged on the railings 140, so that the paper boards to be humidified are lifted to the plurality of roll shafts 130 through the supporting plates (the stacking thickness of the paper boards is about 800 mm) and are positioned in the railings 140 and the vertical baffle plates 145;

in this embodiment, gears are disposed at one end of each of the plurality of roller shafts 130, a rotating motor 155 is disposed below the loading lifting platform 120, and the rotating motor 155 is rotatably connected to the gears through chains; in this embodiment, the one end of a plurality of roller 130 all is equipped with two gears, from this, rotate through the chain between per two roller 130 and connect, thereby after the cardboard handling that needs the humidification to a plurality of roller 130 on and lie in railing 140, vertical baffle 145, through the operation of rotating motor 155, make the cardboard that needs the humidification transmit to buffering gimbal mechanism 200 below through a plurality of roller 130, the lift through material loading elevating platform 120 can make the humidification cardboard that lies in a plurality of roller 130 go up and down simultaneously, and lie in buffering gimbal mechanism 200 below, carry out subsequent handling.

Buffering support mechanism

As shown in fig. 3-4, the buffering support mechanism 200 includes a support 210, the top of the support 210 extends toward the feeding mechanism 100 and forms a transverse support 215, a suction plate assembly is disposed on the transverse support 215, and a buffering carrier roller assembly is disposed on the support 210;

the buffer carrier roller assembly comprises a first buffer carrier roller group and a second buffer carrier roller group which are arranged on the bracket 210, the first buffer carrier roller group and the second buffer carrier roller group respectively comprise a first carrier roller 211 and a second carrier roller 212, and the first carrier roller 211 and the second carrier roller 212 are arranged on the bracket 210 through bearing seats; in this embodiment, the first buffer idler group and the second buffer idler group are disposed on the upper portion of the bracket 210, and the first idler 211 and the second idler 212 of the first buffer idler group and the first idler 211 and the second idler 212 of the second buffer idler group are disposed on the upper portion of the bracket 210 in parallel.

The suction plate assembly comprises a transverse support plate 220 arranged in the middle of the upper surface of the transverse support 215, a transverse through groove 225 is formed in the transverse support plate 220, transverse slide rails 230 are arranged on the transverse support plate 220 and on two sides of the transverse through groove 225, a longitudinal slide plate 235 is arranged on each transverse slide rail 230, and in the embodiment, each longitudinal slide plate 235 is connected with each transverse slide rail 230 in a sliding manner through a slide block;

a second telescopic cylinder 260 is arranged on the transverse supporting plate 220 and on one side of the transverse through groove 225, and an output shaft of the second telescopic cylinder 260 is fixedly connected with the longitudinal sliding plate 235, so that the longitudinal sliding plate 235 can reciprocate left and right on the transverse sliding rail 230 through the extension and retraction of the second telescopic cylinder 260;

a first telescopic cylinder 240 is arranged in the middle of the longitudinal sliding plate 235, an output shaft of the first telescopic cylinder 240 penetrates through the longitudinal sliding plate 235 and the transverse through groove 225 to be connected with a longitudinal connecting plate 245, and a vacuum suction cup 250 is arranged on the surface, opposite to the first telescopic cylinder 240, of the longitudinal connecting plate 245; in this embodiment, four vacuum suction cups 250 are provided, the four vacuum suction cups 250 are uniformly distributed on the surface of the longitudinal connecting plate 245 opposite to the first telescopic cylinder 240, and the lateral bracket 215 is further provided with a paper board height detection sensor 216 and a paper board feeding detection sensor 217;

thus, the feeding lifting platform 120 positions the uppermost paperboard to be humidified between the first idler roller 211 and the second idler roller 212 by the sensing of the paperboard height detecting sensor 216; the first telescopic cylinder 240 is telescopic, so that the four vacuum suction cups 250 on the longitudinal connecting plate 245 adsorb the paper boards to be humidified on the feeding lifting platform 120; then, the paperboard feeding detection sensor 217 detects the paperboard to be humidified, the four vacuum suction cups 250 on the longitudinal sliding plate 235 convey the paperboard to be humidified to a position between the first carrier roller 211 and the second carrier roller 212 through the extension and retraction of the second telescopic cylinder 260, so that the first carrier roller 211 and the second carrier roller 212 roll and are matched with the extension and retraction of the second telescopic cylinder 260, and the paperboard to be humidified is conveyed to the humidifier 300; the cardboard humidified by the humidifier 300 is conveyed to the blanking mechanism 400;

in addition, linear bearings 265 are arranged at two ends of the longitudinal sliding plate 235, and an output shaft of each linear bearing 265 is fixedly connected with the longitudinal connecting plate 245, so that the stability of the longitudinal connecting plate 245 can be strengthened through the linear bearings 265.

In this embodiment, the output ports of the first carrier roller 211 and the second carrier roller 212 are on the same horizontal line with the input port of the humidifier 300, so that the first carrier roller 211 and the second carrier roller 212 roll and cooperate with the second telescopic cylinder 260 to convey the paper board to be humidified into the humidifier 300 for humidification.

Blanking mechanism

The blanking mechanism 400 comprises a blanking support 410 and a blanking lifting platform 420 arranged in the blanking support 410, a first transverse blanking slide rail 430 and a second transverse blanking slide rail 435 are arranged on two sides of the blanking support 410, and symmetrical paperboard clamping components are arranged on the first transverse blanking slide rail 430 and the second transverse blanking slide rail 435; in this embodiment, the first lateral feeding slide rail 430 and the second lateral feeding slide rail 435 are both linear motors, so that the cardboard clamping assembly can reciprocate by the operation of the linear motors; and the lengths of the first transverse blanking slide rail 430 and the second transverse blanking slide rail 435 are longer than the lengths of the blanking lifting platform 420 and the paper boards.

In this embodiment, the two sides of the blanking support 410 facing one end of the humidifier 300 are provided with blanking roller assemblies, each of the two blanking roller assemblies includes a left roller support and a right roller support 411, and the top of each of the left roller support and the right roller support 411 is provided with a transverse fixing plate 412, wherein the two ends of the transverse fixing plate on the top of the left roller support and the two ends of the transverse fixing plate 412 on the top of the right roller support 411 are connected through a first roller 413; specifically, both ends of the first roller 413 are rotatably connected to the transverse fixing plate 412;

vertical fixing plates 414 are respectively arranged on the transverse fixing plate at the top of the left roller bracket and the transverse fixing plate 412 at the top of the right roller bracket 411, and the vertical fixing plate on the transverse fixing plate at the top of the left roller bracket is connected with the vertical fixing plate 414 on the transverse fixing plate 41 at the top of the right roller bracket 411 through a second roller 415; specifically, two ends of the second roller 415 are rotatably connected with the vertical fixing plate 414; the first roller 413 and the second roller 415 at both ends of the transverse fixing plate 412 are arranged in a triangular shape; therefore, after the humidified paperboard in the humidifier 300 passes through the first roller 413 and the second roller 415, the humidified paperboard can be clamped by the paperboard clamping components on the first transverse blanking slide rail 430 and the second transverse blanking slide rail 435, and the humidified paperboard can move to the left through the operation of the linear motor (meanwhile, the blanking lifting platform 420 rises to the lower part of the paperboard clamping components), then the paperboard clamping components are loosened, and the humidified paperboard falls onto the blanking lifting platform 420.

In this embodiment, the discharging lifting platform 420 is provided with a plurality of discharging rollers, and the plurality of discharging rollers are arranged on the discharging lifting platform 420 through bearing seats; and two sides of the blanking lifting platform 420 are provided with baffles; one end of each of the plurality of blanking roller shafts is provided with two gears, and the gears between every two blanking roller shafts are rotationally connected through a chain; in addition, a servo motor is arranged below the blanking lifting platform 420, and the servo motor is in transmission connection with a gear through a chain; when the humidified paperboard on the discharging lifting platform 420 is full, the humidified paperboard is conveyed to the paperboard supporting and moving mechanism 500 through the operation of the servo motor;

the cardboard clamping assemblies each comprise a clamping support 450, and in this embodiment, the clamping support 450 drives the clamping support 450 to reciprocate on the first transverse blanking slide rail 430 and the second transverse blanking slide rail 435 through the operation of the linear motor;

the two ends of the top of the clamping support frame 450 are both provided with a paperboard clamping piece, the paperboard clamping piece comprises a longitudinal connecting block 451, and one end of the longitudinal connecting block 451, which is far away from the clamping support frame 450, is provided with a double-finger clamping cylinder 452; therefore, the clamping blocks on the double-finger clamping cylinder 452 can clamp the humidified paperboard through the operation of the double-finger clamping cylinder 452, in this embodiment, the double-finger clamping cylinder 452 is a 90-degree double-finger clamping cylinder 452, so that the humidified paperboard can be clamped, and the humidified paperboard can be loosened.

Paperboard supporting and moving mechanism

The paperboard supporting and moving mechanism 500 comprises a supporting and moving support 510, a plurality of supporting and moving roll shafts 515 are arranged at the top of the supporting and moving support 510, the plurality of supporting and moving roll shafts 515 are arranged at two sides of the top of the supporting and moving support 510 through bearing seats, gears are arranged at one ends of the plurality of supporting and moving roll shafts 515, a motor 520 at one side of the supporting and moving support 510 is connected with the gears in a rotating mode through chains, and the motor 520 is connected with the gears in a rotating mode through the chains;

in this embodiment, two gears are disposed at one end of each of the plurality of supporting roller shafts 515, and therefore, each two supporting roller shafts 515 are rotatably connected through a chain, so that after the paper board to be humidified is conveyed from the discharging mechanism to the supporting roller shafts 515, the paper board to be humidified is conveyed to the next process through the plurality of supporting roller shafts 515 by the operation of the motor 520.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the technical solutions of the present invention have been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that the technical solutions described in the foregoing embodiments can be modified or some technical features can be replaced equally; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (9)

1. The utility model provides a go up unloading equipment in automation for cardboard humidification which characterized in that: comprises a feeding mechanism (100), a buffer bracket mechanism (200), a paperboard humidifier (300), a blanking mechanism (400) and a paperboard supporting and moving mechanism (500) which are arranged from right to left in sequence;

the feeding mechanism (100) comprises a feeding base (110), a feeding lifting platform (120) arranged on the feeding base (110), and a feeding assembly arranged on the feeding lifting platform (120);

the buffer support mechanism (200) comprises a support (210), the top of the support (210) extends towards the direction of the feeding mechanism (100) and forms a transverse support (215), a suction plate assembly is arranged on the transverse support (215), and a buffer carrier roller assembly is arranged on the support (210);

the blanking mechanism (400) comprises a blanking support (410) and a blanking lifting platform (420) arranged in the blanking support (410), a first transverse blanking slide rail (430) and a second transverse blanking slide rail (435) are arranged on two sides of the blanking support (410), and symmetrical paperboard clamping components are arranged on the first transverse blanking slide rail (430) and the second transverse blanking slide rail (435).

2. The automatic loading and unloading equipment for humidifying paperboards as claimed in claim 1, wherein: the feeding assembly comprises a plurality of roll shafts (130), and the roll shafts (130) are arranged on the feeding lifting platform (120) through bearing seats; both sides of material loading elevating platform (120) are equipped with railing (140), be equipped with vertical baffle (145) on railing (140).

3. The automatic loading and unloading equipment for humidifying paperboards as claimed in claim 2, wherein: gears are arranged at one ends of the roll shafts (130), a rotating motor (155) is arranged below the feeding lifting platform (120), and the rotating motor (155) is rotatably connected with the gears through chains.

4. The automatic loading and unloading equipment for humidifying paperboards as claimed in claim 3, wherein: the suction plate assembly comprises a transverse supporting plate (220) arranged in the middle of the upper surface of a transverse support (215), a transverse through groove (225) is formed in the transverse supporting plate (220), transverse sliding rails (230) are arranged on the two sides of the transverse through groove (225) on the transverse supporting plate (220), a longitudinal sliding plate (235) is arranged on the transverse sliding rails (230), a first telescopic cylinder (240) is arranged in the middle of the longitudinal sliding plate (235), an output shaft of the first telescopic cylinder (240) penetrates through the longitudinal sliding plate (235) and the transverse through groove (225) and is connected with a longitudinal connecting plate (245), and a vacuum suction cup (250) is arranged on one side, opposite to the first telescopic cylinder (240), of the longitudinal connecting plate (245).

5. The automatic loading and unloading equipment for humidifying paperboards as claimed in claim 4, wherein: a second telescopic cylinder (260) is arranged on one side of the transverse through groove (225) on the transverse supporting plate (220), an output shaft of the second telescopic cylinder (260) is fixedly connected with the longitudinal sliding plate (235), linear bearings (265) are arranged at two ends of the longitudinal sliding plate (235), and output shafts of the linear bearings (265) are fixedly connected with the longitudinal connecting plate (245).

6. The automatic loading and unloading equipment for humidifying paperboards as claimed in claim 5, wherein: the buffer idler assembly comprises a first buffer idler set and a second buffer idler set which are arranged on the support (210), the first buffer idler set and the second buffer idler set respectively comprise a first idler (211) and a second idler (212), and the first idler (211) and the second idler (212) are respectively arranged on the support (210) through bearing seats.

7. The automatic loading and unloading equipment for humidifying paperboards as claimed in claim 6, wherein: the transverse bracket (215) is also provided with a paperboard height detection sensor (216) and a paperboard feeding detection sensor (217).

8. The automatic loading and unloading equipment for humidifying paperboards as claimed in claim 7, wherein: the cardboard centre gripping subassembly all includes centre gripping support frame (450), the both ends at centre gripping support frame (450) top all are equipped with the cardboard holder, the cardboard holder includes longitudinal connecting block (451), longitudinal connecting block (451) are kept away from the one end of centre gripping support frame (450) is equipped with two finger centre gripping cylinders (452).

9. The automatic loading and unloading equipment for humidifying paperboards as claimed in claim 8, wherein: the cardboard asks to move mechanism (500) and moves support (510) including holding in the palm, ask to move support (510) top both sides and be equipped with a plurality of holds in the palm and move roller (515), a plurality of holds in the palm and moves roller (515) and all establish through the bearing frame ask to move support (510) top both sides, and a plurality of the one end that holds in the palm and move roller (515) all is equipped with the gear, ask to move one side motor (520) of support (510), motor (520) are connected with gear revolve through the chain.

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