CN210791355U

CN210791355U - Full-automatic rubber coating line

Info

Publication number: CN210791355U
Application number: CN201921075714.3U
Authority: CN
Inventors: 李名涛
Original assignee: Shuyang Luxin Plate Machinery Factory
Current assignee: Shuyang Luxin Plate Machinery Factory
Priority date: 2019-07-10
Filing date: 2019-07-10
Publication date: 2020-06-19
Anticipated expiration: 2029-07-10

Abstract

The utility model relates to a full-automatic rubber coating line, include: a conveying station and a gluing station; the conveying station conveys the laths to a gluing station; the gluing station comprises a frame and gluing components symmetrically arranged on the frame, and is suitable for gluing two sides of the lath passing through the space between the 2 gluing components; the gluing component comprises: the glue storage box and the glue spreading roller are provided with openings at the top; the glue spreader is vertically arranged in the glue storage box, and one section of the upper part of the glue spreader leaks outside the side face of the glue storage box, so that glue on the glue spreader can be conveniently coated on two sides of the batten. To sum up, the utility model discloses a carry the station to have guaranteed that the directional orderly rubber coating station that enters into of lath can improve the rubber coating quality of rubber coating station, guaranteed that the lath all does not take place the incline in carrying and rubber coating work, improved the rubber coating homogeneity and the rubber coating efficiency of lath both sides greatly, reduce operating personnel's the work slightly and reduce work load, be worth promoting.

Description

Full-automatic rubber coating line

Technical Field

The utility model relates to a panel production technical field particularly, relates to a full-automatic rubber coating line of lath in machine makeup.

Background

In the machine splicing plate, glue is applied to two sides of the lath, and then the lath and the lath are spliced into a whole plate. At present, no special batten gluing line is used for gluing the side surface of the batten. In order to improve the production efficiency, most production enterprises assemble the conveying equipment and the gluing equipment, and form a conveying gluing production line so as to improve the production efficiency.

However, in the assembly production, the slats are not customized special for the slats, so that when the slats are conveyed, the slats are disorderly placed on the conveyor belt, and a plurality of manual auxiliary arrangements are needed to ensure that the slats enter the gluing equipment orderly, so that the production cost is increased although the production can be improved to a certain extent; and because current rubber coating machine is mainly to place the gluey case in the frame bottom, lead to glue to be difficult to the clearance, inconvenient maintenance, the problem of the easy off tracking of gluing machine to the lath in the rubber coating in-process among the prior art simultaneously also does not solve to it is inhomogeneous to make the rubber coating appear in the rubber coating of lath both sides, and the discontinuous shortcoming of rubber coating is unfavorable for the concatenation, reduces the joint strength between the lath.

How to solve the above problems is a need to be solved.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a full-automatic rubber coating line improves lath and carries stability and rubber coating quality, reduction in production cost, improves production efficiency.

In order to achieve the above object, the embodiment of the present invention adopts the following technical solutions:

the embodiment of the utility model provides a full-automatic rubber coating line, include:

a conveying station and a gluing station;

the conveying station conveys the laths to a gluing station;

the gluing station comprises a frame and gluing components symmetrically arranged on the frame, and is suitable for gluing two sides of the lath passing through the space between the 2 gluing components;

the gluing component comprises: the glue storage box and the glue spreading roller are provided with openings at the top;

the glue spreader is vertically arranged in the glue storage box, and one section of the upper part of the glue spreader leaks outside the side face of the glue storage box, so that glue on the glue spreader can be conveniently coated on two sides of the batten.

The top surface of the glue coating roller is higher than the top surface of the glue storage box, and the bottom surface of the glue coating roller penetrates through the glue storage box and is connected with a power part;

the power part is rotatably connected to the mounting seat.

The full-automatic glue spreader also comprises a first telescopic piece;

the first telescopic piece is connected with the gluing assemblies through the mounting seat, and is suitable for automatically adjusting the distance between the 2 gluing assemblies according to the width of the batten to adapt to gluing of battens with different widths.

The gluing assembly further comprises a transmission assembly for driving the gluing roller to rotate;

the transmission assembly comprises a glue extruding roller and a first driving piece, wherein the glue extruding roller is extruded with the excircle of the glue coating roller;

the first driving piece comprises a driving motor and a transmission gear;

the transmission gear is meshed with the power part and is suitable for driving the rubber extruding roller to rotate and driving the rubber coating roller to rotate.

The full-automatic glue spreader also comprises an anti-bounce component which is suitable for pressing down from the upper part of the lath and ensures that the two sides of the lath do not shake in the gluing process;

the anti-bounce component comprises a lower pressing plate and a second telescopic piece for longitudinally stretching and fixing the lower pressing plate.

Wherein the conveying station comprises a base and a conveying belt arranged on the base,

a limiting piece is arranged above the conveying belt;

the locating part is suitable for carrying out the vertical direction to the lath through on the conveyer belt and pushes down spacing, is suitable for when lath thickness changes the time guarantee to the lath push down.

Wherein, still be provided with the feed bin that the export is located directly over the conveyer belt on the base.

Wherein the conveying station further comprises an auxiliary transmission assembly;

the auxiliary transmission assembly comprises a rotating piece and a pressing piece;

a channel for conveying the battens is formed between the pressing piece and the rotating piece;

the rotating part comprises a roller and a second driving part for driving the roller to rotate;

the driving piece drives the transmission shaft of the conveying belt to rotate through the chain.

The pressing piece comprises a pressing wheel arranged above the roller and a third telescopic piece driving the pressing wheel to move up and down.

The third telescopic piece comprises a sliding piece and a third driving piece for driving the sliding piece to slide up and down;

the sliding part is connected with the pressing wheel.

The embodiment of the utility model provides a following beneficial effect has:

1. through the mutual structure of the conveying station and the gluing station, the conveying gluing production line special for the laths is realized, and the gluing quality and the gluing efficiency of the laths are improved;

2. the conveying station stacks the laths in layers according to the widths of the laths through the stock bin, only one lath is ensured to fall onto the conveying belt to enter the glue spreader each time, so that the plates enter the glue spreader orderly, and the use of the stock bin reduces the manual input; the limiting piece is used for limiting the downward pressing of the plates in the thickness direction, so that the downward pressing transmission device is suitable for downward pressing transmission of the plates with different thicknesses and prevents the plates from tilting longitudinally; through auxiliary transmission mechanism, realize that the conveyer belt carries and the double dynamical of gyro wheel extrusion transport is carried, ensure the conveying power that panel carried, and then improve the stability that the lath was carried.

3. The traditional glue spreader which is horizontally arranged is changed into a vertically arranged glue spreader, then the glue spreader is directly arranged in a glue storage box, so that the glue storage box is suitable for gluing two sides of a lath, the glue storage box is arranged above a rack, the glue in the glue storage box is convenient to clean, and the cleaning and the maintenance are convenient; through the arrangement of the first elastic piece, when the width of the batten changes, the two glue coating rollers are extruded to two sides by the batten, the change of the gap between the two glue coating rollers is realized through the elastic expansion and contraction of the first elastic piece in cooperation with the movement of the glue coating rollers, and the glue coating device is further suitable for coating two sides of battens with different widths and has good applicability; the batten is pressed down through the anti-bouncing component, so that the side gluing of the batten caused by inclination in the gluing process of the batten is prevented from being uneven, and the gluing quality is improved.

Drawings

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

Fig. 1 is a preferred structure diagram of the present invention.

Fig. 2 is a schematic perspective view of the gluing station.

Fig. 3 is a front view of fig. 2.

Fig. 4 is a schematic structural diagram of the glue storage box.

Fig. 5 is a schematic structural diagram of the anti-bounce component 9.

Fig. 6 is a perspective view of the transfer station.

Fig. 7 is a front view of fig. 6.

Fig. 8 is a perspective view of the pressing member.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

Examples

As shown in fig. 1, the present embodiment provides a full-automatic glue applying line, including: a conveying station 1 and a gluing station 2; and the conveying station 1 conveys the laths to the gluing station 2, and the laths are automatically conveyed and glued.

As an alternative embodiment of the gluing station.

See fig. 2, comprising: the gluing device comprises a frame 1 and gluing components 3 symmetrically arranged on the frame 1, wherein the gluing components 3 are provided with 2 groups to form a gap through which a batten passes, and the gluing device is suitable for gluing two sides of the batten passing through the gluing components 3 of 2 groups; the gluing assembly 3 comprises: a glue storage box 31 with an open top and a glue spreading roller 32; the glue spreader 32 is vertically arranged in the glue storage box 31, and a section of the upper part of the glue spreader 32 leaks outside the lateral surface of the glue storage box 31, so that glue on the glue spreader 32 can be conveniently coated on two sides of the batten.

In this application, place glue spreader 32 by traditional level and more change vertical installation into, the rubber coating of the strake both sides of being convenient for will store up gluey case 31 and install in the frame top, the inside of the case is glued in the clearance storage of being convenient for, makes things convenient for the operator to clear up and maintain it.

Referring to fig. 3 and 4, a gap is formed between the glue rollers 32, and in order to coat the glue on the glue rollers 32 on the two side surfaces of the slab, the glue rollers 32 need to be in pressing contact with the side surfaces of the slab, so that a notch 311 is formed in the adjacent wall of the glue storage tank 31 to ensure that the glue rollers 32 can smoothly coat the slab.

As shown in fig. 2 and 3, the top surface of the glue spreader 32 is higher than the top surface of the glue storage tank 31, and the bottom surface of the glue spreader is connected with the power component 4 after passing through the glue storage tank 31; the power member 4 is rotatably connected to the mounting seat 5 and is slidably connected with the bracket through the mounting seat 5. Concretely, power 4 passes through the bearing frame and connects in 5 tops of mount pad, and power 4 drives glue spreader 32 and rotates, and then coats the glue on glue spreader 32 surface on the lath, and when the width widen of lath, glue spreader 32 is with following the outside removal of mount pad 5, is suitable for the lath of widen, and when the lath narrows down, glue spreader 32 follows the mount pad and inwards slides, is suitable for the lath rubber coating that narrows down, and the suitability is good.

Preferably, the full-automatic glue spreader further comprises a first telescopic piece 6; the first telescopic piece 6 is connected with the gluing assemblies 2 through the mounting base 4, is suitable for automatically adjusting the distance between the 2 gluing assemblies 2 according to the width of the batten and is suitable for gluing the battens with different widths. Specifically, first extensible member 6 is connected with mount pad 5, becomes the inside gliding power supply of mount pad 6, has guaranteed that mount pad 5 follows the lath width change and flexible change, is suitable for the lath of different widths.

In this application, pneumatic cylinder can be selected to first extensible member 6, also can choose the spring for use, in order to realize the gliding stability of mount pad 5, preferentially chooses the pneumatic cylinder for use, has guaranteed that the width is unanimous around the clearance between two glue spreader 22, prevents the clearance slope strictly, leads to the lath side rubber coating inhomogeneous, improves the rubber coating quality.

Preferably, the two sides of the bottom of the mounting seat 5 are provided with sliding parts 7, and the sliding parts 7 are suitable for moving left and right along with the sliding parts 7 when the width of the batten changes. Specifically, the sliding part 7 adopts a guide rail pair, the sliding stability is high, the mounting seat 5 is kept balanced and does not deflect in the sliding process, and the front and back uniformity of the width of the interval of the plates between the glue coating rollers 32 is further ensured.

As an alternative embodiment of the gluing assembly.

As shown in fig. 3, the gluing assembly 3 further comprises a transmission assembly 8 for driving the glue roller to rotate 32; the transmission assembly 8 comprises a glue extruding roller 81 extruded with the excircle of the glue coating roller 32 and a first driving piece 82 for driving the glue extruding roller 81 to rotate.

Preferably, the first driving member 82 includes a driving motor 821 and a transmission gear 822; the transmission gear 822 is engaged with the power member 4 and adapted to drive the glue roller 81 and the glue roller 32 to rotate. Specifically, the driving motor 821 drives the glue extruding roller 81 to rotate, and simultaneously drives the glue coating roller 32 to rotate through the engagement of the transmission gear 822 and the power part 4, so that glue in the glue storage box 31 is extruded out of the upper section of the glue coating roller through the two mutually extruded glue extruding rollers 81 and the glue coating roller 32, and then is coated on the side surface of the lath through the glue coating roller 32 which is partially leaked out of the glue storage box 31.

Preferably, the full-automatic glue spreader also comprises an anti-bounce component 9 which is suitable for being pressed down from the upper part of the batten and ensuring that the two sides of the batten are not shaken in the gluing process.

As an alternative embodiment of the anti-bounce assembly.

As shown in fig. 1 and 5, the anti-bounce assembly 9 comprises a lower pressing plate 91 and a second telescopic member 92 for longitudinally and telescopically fixing the lower pressing plate 91.

In the application, the anti-bounce component 9 is connected above the gluing gap through which the batten passes through the bracket 90, and the connection is firm and reliable.

The pneumatic cylinder is selected for use equally to second extensible member 92 of this embodiment, has adjusted and has pushed down the required atmospheric pressure of clamp plate 91, and when the lath passed through between two glue spreader 32, clamp plate 91 pressed on the lath upper surface, when guaranteeing that the lath passes through two glue spreader 32, does not take place skew and perk, and then guarantees the rubber coating quality.

As an alternative embodiment of the transport station.

Referring to fig. 6, the conveying station includes a base 20 and a conveying belt 30 disposed on the base 20, and a limiting member 40 is disposed above the conveying belt 30; the limiting part 40 is suitable for vertically pressing and limiting the slats on the conveying belt, is suitable for ensuring the downward pressing of the slats at any time when the thickness of the slats changes, meets the downward pressing transmission of slats with different thicknesses, and is good in applicability.

Preferably, the base 20 is further provided with a bin 50 with an outlet above the conveyor belt 30, the slats to be conveyed are placed in the bin 50 for storage, and the width of the slats passing through the bin 50 is consistent with the width of the slats, so that the slats are all fed in parallel.

As an alternative embodiment of the silo.

Referring to fig. 6, the storage bin 50 includes a first storage bin plate 51 and a second storage bin plate 52, the first storage bin plate 51 and the second storage bin plate 52 are oppositely disposed on two sides of the conveyor belt 30, the slats are limited and stored on two sides of the slats, the slats can be stacked and stored along the height of the storage bin 50, an operator does not need to stand beside the conveyor all the time to operate, labor intensity is reduced, and labor is saved.

Preferably, in order to ensure that the slats in the magazine can be transported only one at a time, a baffle 511 arranged at an angle of 90 degrees to the first magazine plate is arranged at one end of the first magazine plate 51 in the transport direction of the conveyor belt, and the height between the bottom of the baffle 511 and the surface of the conveyor belt 30, namely the passing height of one slat, ensures that the slats are transported individually and orderly.

Further, the both sides of conveyer belt 30 are provided with prevent the strake 60 that prevents the lath off tracking, and when the lath fell on the conveyer belt 30 through feed bin 50, it was spacing to carry out the off tracking from 2 both sides of conveyer belt to the lath through preventing strake 60, and the homogeneous phase is not squinted to the level before guaranteeing the entering spreading machine of lath, can improve the spreading quality of spreading machine to the lath both sides.

As an alternative embodiment of the limit stop.

Referring to fig. 8, the limiting member 40 includes a pressing member 41 and an elastic member 42 for adjusting the pressure of the pressing member 41, when the slat is lifted or the thickness of the slat is changed during the conveying process, the slat exerts an upward pressing force on the pressing member 41, and the elastic member 42 exerts a reaction force on the slat, thereby preventing the slat from being lifted and deviating from the conveying belt and being suitable for the pressing conveying of slats with different thicknesses.

Preferably, the pressing member 41 is a rolling wheel, so that the pressing member 41 is pressed down by rotating the plate bar, and the clamping is prevented.

Specifically, the lower pressing member 41 is rotatably connected with a swing arm 43, the middle of the swing arm 43 is rotatably connected to a mounting plate 44, the upper end of the swing arm 43 is connected with an elastic member 42 by a pin, and the mounting plate 44 is fixed on a deviation preventing plate on one side of the conveying belt 30, so that the lower pressing member 41, the swing arm 43 and the elastic member 42 are assembled.

Preferably, the elastic member 42 includes a screw 421 and a compression spring 422 sleeved outside the screw 421, when the swing arm 43 is subjected to the thickness variation of the slat, the swing arm 43 swings and extrudes on the screw 421, and the compression spring acts to press down the pressing member 31, so that the elastic member can adapt to slats with different thicknesses and can keep extruding with the slat at any time.

Further, the automatic glue spreader conveying equipment also comprises an auxiliary transmission assembly 10; the auxiliary transmission assembly 10 includes a rotation member 101 and a pressing member 102; the pressing piece 102 and the rotating piece 101 form a channel for conveying the battens, the battens are pressed and pulled forwards, and the phenomenon that the battens slip in the conveying process and influence the conveying of the subsequent battens is avoided.

As an alternative embodiment of the rotating member.

Referring to fig. 6 and 7, the rotating member 101 includes a roller 103 and a second driving member for driving the roller 103 to rotate, and the second driving member is a driving motor (not shown in the figure); the rollers 103 are the main driving force for driving the strip, and the strip is conveyed from the conveying belt 30 to the strip on the rollers 103, so that the conveying force is improved, and the speed of entering the glue spreader is ensured.

The driving motor drives the transmission shaft of the conveying belt 30 to rotate through a chain, and the conveying belt 30 and the roller 103 are driven to rotate simultaneously through one driving motor, so that a one-drive-two structure is formed, and synchronous conveying of the roller 103 and the conveying belt 30 is kept.

As an alternative embodiment of the pressure element.

Referring to fig. 6, the pressing member 102 includes a pressing wheel 104 disposed above the roller 103 and an expansion member 105 for driving the pressing wheel 104 to move up and down, so that the gap between the pressing wheel 104 and the roller 103 changes along with the thickness of the slats, and the pressing member is suitable for the slats with different thicknesses to pass through, and has good applicability.

Preferably, the telescopic member 105 includes a sliding member 106 and a third driving member 107 for driving the sliding member 106 to slide up and down; a slider 106 is coupled to puck 104. Specifically, the sliding member 106 employs a guide block and a guide slot to cooperate, so as to ensure the stability of the up-and-down movement of the pressing wheel 104.

In this embodiment, the third driving member 107 is a pneumatic cylinder, and the pressure of the third driving member 107 is adjusted to ensure that the third driving member 107 can be pushed up smoothly when the thickness of the slat is increased.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims

1. A full-automatic gluing line is characterized by comprising:

a conveying station and a gluing station;

the conveying station conveys the laths to a gluing station;

2. The fully automatic gluing line of claim 1,

the power part is rotatably connected to the mounting seat.

3. The fully automatic glue line of claim 2,

the full-automatic gluing line further comprises a first telescopic piece;

4. The fully automatic gluing line of claim 1,

the gluing assembly also comprises a transmission assembly for driving the gluing roller to rotate;

the first driving piece comprises a driving motor and a transmission gear;

5. The fully automatic gluing line of claim 1,

the full-automatic gluing line also comprises an anti-bounce component which is suitable for being pressed down from the upper part of the lath, so that the two sides of the lath are not shaken in the gluing process;

6. The fully automatic gluing line of claim 1,

the conveying station comprises a base and a conveying belt arranged on the base,

a limiting piece is arranged above the conveying belt;

7. The fully automatic gluing line of claim 6,

and a bin with an outlet positioned right above the conveying belt is also arranged on the base.

8. The fully automatic gluing line of claim 6,

the conveying station further comprises an auxiliary transmission assembly;

9. The fully automatic gluing line of claim 8,

10. The fully automatic glue line of claim 9,

the sliding part is connected with the pressing wheel.