CN215921527U - Composite board manufacturing equipment - Google Patents

Abstract

The utility model belongs to the technical field of composite board processing equipment, and particularly relates to composite board manufacturing equipment.A gluing device in the composite board manufacturing equipment comprises a gluing frame arranged on a first conveying device, wherein a first induction part, a first glue spraying part, a second induction part and a second glue spraying part which are arranged in front and back are arranged on the gluing frame, so that when a first board passes through the lower part of the gluing frame, the first glue spraying part and the second glue spraying part can sequentially coat A type glue solution and B type glue solution on the first board, and can bond a subsequent second board, and because two glue solutions are coated, A, B glue solution mixed foaming can bond the two boards more firmly; because the second conveying device is provided with the first positioning mechanism for positioning the first plate, and the third conveying device is provided with the second positioning mechanism for positioning the second plate, the first plate and the second plate cannot be obviously dislocated in the splicing process, and the two plates can be accurately superposed.

Description

Composite board manufacturing equipment

Technical Field

The utility model belongs to the technical field of composite board processing equipment, and particularly relates to composite board manufacturing equipment.

Background

The fireproof heat-insulation board is a board used for exterior decoration of buildings, has heat-insulation and fireproof functions, comprises fireproof heat-insulation boards made of different materials such as foam concrete heat-insulation boards, perlite heat-insulation boards and rock wool heat-insulation boards, and is compared with a board body made of a single material, and the composite fireproof heat-insulation board has more advantages in indexes such as hardness, fireproof heat-insulation performance, decorativeness and cost.

Composite fireproof insulation board is that the plate body of different performance is piled up together to splice through sticky or the mode of physics connection, generally through production line processing preparation, for example, among the prior art, chinese patent document with publication number CN205871248U describes a production device of PVC foaming PLASTIC LAMINATED, the device includes conveying mechanism, sand light mechanism, windrow mechanism, rubber coating mechanism and cold pressing machine construct, this rubber coating mechanism is paintd glue in plate body raw materials both sides through the roller, also can only paint a glue, single glue adhesion strength is not enough, the panel of processing out ftractures easily, AB glue is a composite glue, it is great to mix there is bonding strength, the difficult fracture of composite fireproof insulation board of preparation, but present production line does not possess the function of paining AB glue.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide composite board manufacturing equipment, which solves the technical problem that the production line of a composite fireproof insulation board in the prior art can only be coated with a single glue solution, so that the bonding effect is poor.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the utility model provides a composite board preparation equipment, includes main controller, still includes:

the first conveying device is used for conveying a first plate;

the glue spreading device comprises a glue spreading frame arranged on the first conveying device, and the glue spreading frame is provided with a first induction part, a first glue spraying part, a second induction part and a second glue spraying part which are arranged in a front-back manner;

the second conveying device is arranged at the rear side of the first conveying device and used for continuously conveying the first plate on the first conveying device, and a first positioning mechanism used for positioning the first plate is arranged on the second conveying device;

the third conveying device is used for conveying a second plate, and a second positioning mechanism for positioning the second plate is arranged on the third conveying device;

the grabbing device is arranged above the third conveying device and used for grabbing the second plate positioned on the third conveying device to be superposed on the first plate positioned by the first positioning mechanism;

and the pressing device is arranged at the tail end of the second conveying device and is used for pressing the first plate and the second plate which are overlapped together.

Preferably, the first glue spraying part and the second glue spraying part are short pipes with closed tail ends, the other ends of the short pipes are provided with joints, and the bottoms of the short pipes are provided with a plurality of glue spraying holes at intervals; or the first glue spraying component and the second glue spraying component are a plurality of nozzles arranged side by side.

Preferably, the gripping device comprises a suction cup and a gripping rack, the bottom of the suction cup is provided with a plurality of suction nozzles for connecting a negative pressure system, and the gripping rack is arranged on the second conveying device and the third conveying device in a spanning manner; the automatic lifting device is characterized in that a guide rail is arranged on the grabbing rack, a sliding block is arranged on the guide rail, a first lifting part is arranged on the sliding block, the sucker is arranged at the bottom of the first lifting part, and a driving part which drives the sliding block to move along the guide rail is further arranged on the grabbing rack.

Preferably, the first conveying device is a roller conveyor; the second conveying device and the third conveying device are belt conveyors.

Preferably, the first positioning mechanism comprises a first baffle, a lifting baffle and a third induction part, the third induction part is arranged on the grabbing device, the first baffle is arranged on one side of a conveying belt of the second conveying device, the first baffle is gradually narrowed from front to back, the grabbing device is provided with the second lifting part, and the lifting baffle is arranged at the bottom of the second lifting part; the second positioning mechanism is a second baffle arranged on one side of the conveying belt of the third conveying device, and the second baffle comprises a front baffle part and a side baffle part gradually narrowed from the front to the back.

Preferably, the pressing device comprises an upper row of pressing rollers, a lower row of pressing rollers and a power mechanism for driving the pressing rollers to rotate.

Preferably, a plate stacking mechanism is arranged on the rear side of the pressing device.

Preferably, the plate stacking mechanism is an electrically controlled scissor lift table electrically connected to the main controller.

Compared with the prior art, the utility model has the beneficial effects that:

1. the gluing device in the composite board manufacturing equipment comprises a gluing frame arranged on a first conveying device, wherein a first sensing component, a first glue spraying component, a second sensing component and a second glue spraying component which are arranged in tandem are arranged on the gluing frame, so that when a first board passes through the lower part of the gluing frame, the first glue spraying component and the second glue spraying component can sequentially coat A-type glue solution and B-type glue solution on the first board, and can bond a subsequent second board, and the A, B glue solution is mixed and foamed to bond the two boards more firmly due to the coating of the two glue solutions;

2. because the second conveying device is provided with the first positioning mechanism for positioning the first plate, and the third conveying device is provided with the second positioning mechanism for positioning the second plate, the first plate and the second plate cannot be obviously dislocated in the splicing process, and the two plates can be accurately superposed.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model. In the drawings:

fig. 1 is a schematic overall structure diagram of an embodiment of the composite board manufacturing apparatus of the present invention.

Fig. 2 is a schematic positional relationship diagram of a second conveying device and a third conveying device in one embodiment of the composite board manufacturing apparatus of the present invention.

Fig. 3 is a schematic structural diagram of a first glue spraying component and a second glue spraying component in one embodiment of the composite board manufacturing equipment.

Fig. 4 is a schematic positional relationship diagram of the gripping device and the third conveying device in an embodiment of the composite board manufacturing apparatus of the present invention.

Fig. 5 is a schematic positional relationship diagram of a second positioning mechanism and a third conveying device in an embodiment of the composite board manufacturing apparatus of the present invention.

In the drawings, each reference numeral means: the device comprises a first conveying device 1, a second conveying device 2, a first baffle 21, a lifting baffle 22, a second lifting component 23, a third conveying device 3, a front baffle 31, a side baffle 32, a gluing device 4, a gluing frame 41, a first sensing component 42, a first glue spraying component 43, a second sensing component 44, a second glue spraying component 45, a grabbing device 5, a grabbing rack 51, a sucking disc 52, a guide rail 53, a sliding block 54, a connecting plate 541, a first lifting component 55, a driving component 56, a pressing device 6, a pressing roller 61, a fifth sensing component 62, a plate stacking mechanism 7, a first plate 100 and a second plate 200.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

A composite board manufacturing apparatus, please refer to fig. 1 to 5.

As shown in fig. 1, the composite board manufacturing equipment comprises a first conveying device 1, a second conveying device 2, a third conveying device 3, a gluing device 4, a grabbing device 5, a pressing device 6 and a main controller, wherein the first conveying device 1 is used for conveying a first board, the second conveying device 2 is arranged on the rear side of the first conveying device 1 and used for continuously conveying the first board on the first conveying device 1, as shown in fig. 2, the third conveying device 3 is vertically arranged beside the first conveying device, the third conveying device is used for conveying a second board, the first board and the second board are respectively a fireproof board and a heat-insulation board, and the fireproof heat-insulation composite board is obtained after overlapping and bonding.

As shown in fig. 1, in this embodiment, the glue spreading device 4 includes a glue spreading frame 41 disposed on the frame of the first conveying device 1, the glue spreading frame 41 is provided with a first sensing component 42, a first glue spraying component 43, a second sensing component 44, and a second glue spraying component 45, which are arranged in tandem, and the first sensing component 42 and the second sensing component 44 are photoelectric sensors, and can send a sensing signal to the main controller when the first plate is conveyed.

As shown in fig. 3, in this embodiment, the first glue spraying component 43 and the second glue spraying component 45 are short pipes with closed ends, a joint is arranged at the other end of the short pipe, the joint is communicated with a glue solution supply system controlled by a main controller, and a plurality of glue spraying holes are arranged at intervals at the bottom of the short pipe, so that glue a and glue B can be sequentially sprayed on the first plate conveyed through the first glue spraying component 43 and the second glue spraying component 45 respectively, and the mixed glue AB has strong adhesion performance.

In this embodiment, the first conveying device 1 is a roller conveyor, so that the glue solution sprayed onto the first plate by the first glue spraying component 43 and the second glue spraying component 45 is not transferred to other rollers after being sprayed out, which is convenient for maintenance of the first conveying device, the second conveying device 2 and the third conveying device 3 are belt conveyors, the second conveying device 2 is provided with a first positioning mechanism for positioning the first plate, and the third conveying device 3 is provided with a second positioning mechanism for positioning the second plate, so that the first plate and the second plate can be positioned, and the first plate and the second plate can be stacked and bonded conveniently.

The grabbing device 5 is arranged above the third conveying device 3, the grabbing device 5 is used for grabbing a second plate positioned on the third conveying device 3 and overlapping the second plate positioned on the first plate positioned by the first positioning mechanism, the grabbing device 5 comprises a grabbing rack 51, the grabbing rack 51 is arranged on racks of the second conveying device 2 and the third conveying device 3 in a spanning mode, as shown in fig. 4, the grabbing device 5 further comprises a suction cup 52, a plurality of suction nozzles used for being connected with a negative pressure system are arranged at the bottom of the suction cup 52, and the negative pressure system is controlled through a main controller, so that the suction nozzles at the bottom of the suction cup 52 can be controlled to achieve the functions of sucking and releasing the plates; a guide rail 53 is arranged on the grabbing rack 51, one half of the guide rail 53 is positioned above the second conveying device 2, the other half of the guide rail 53 is positioned above the third conveying device 3, the guide rail 53 is two parallel polished rods, a sliding block 54 is arranged on the guide rail 53, a first lifting part 55 is arranged on the front side of the sliding block 54, the sucker 52 is installed at the bottom of the first lifting part 55, a fourth sensing part is arranged on the grabbing rack 51, and when the second plate is sensed to be conveyed, the sucker 52 is driven to descend through the first lifting part 55 to suck the second plate 200; the grabbing frame 51 is further provided with a driving part 56 for driving the sliding block 54 to move along the guide rail 53, a connecting plate 541 is integrally arranged at the rear side of the sliding block 54, and the front end of the driving part 56 is connected to the connecting plate 541.

The first lifting unit 55 and the driving unit 56 are both air cylinders, air sources are provided for the first lifting unit 55 and the driving unit 56 through an air pressure system, and the air pressure system is controlled by the main controller to perform corresponding air supply steps.

Further, as shown in fig. 5, the first positioning mechanism includes a first baffle 21, a lifting baffle 22 and a third sensing component, the lifting baffle 22 is L-shaped, the first baffle 21 is disposed on one side of the conveying belt of the second conveying device 2, the first baffle 21 is connected to the frame of the second conveying device 2 through screws, the first baffle 21 is narrowed gradually from front to back, under the constraint of the first baffle 21, the first plate 100 moves to the side position along the second conveying device 2, the size of the first baffle 21 is set according to the width of the first plate 100, so that the first plate is positioned by the first baffle 21 in the left-right direction.

The second lifting part 23 is arranged on the grabbing rack 51 of the grabbing device 5, the lifting baffle 22 is arranged at the bottom of the second lifting part 23, and when a first plate 100 is conveyed, the third sensing part is arranged on the grabbing rack 51 to sense a signal, the second lifting part 23 drives the lifting baffle 22 to fall and block, so that the first plate 100 is positioned in the front-back direction. The second elevating unit 23 is a cylinder, and an air source is provided to the second elevating unit through an air pressure system, and the air pressure system is controlled by the main controller to perform a corresponding air supply step.

As shown in fig. 4, the second positioning mechanism is a second flap provided on the side of the conveyor belt of the third conveyor 3, the second flap includes a front flap portion 31 and a side flap portion 32 that gradually narrows from the front to the back, the second flap is connected to the frame of the third conveyor 3 by screws, the front flap portion 31 restricts the position of the second plate material 200 in the front-back direction, the side flap portion 32 restricts the position of the second plate material 200 from the left and right sides, and finally the second plate material 200 is conveyed to a position fixed directly below the suction pad 52.

As shown in fig. 1, the pressing device 6 is disposed at the end of the second conveying device 2, in this embodiment, the pressing device 6 includes two rows of upper and lower pressing rollers 61, a power mechanism for driving the pressing rollers 61 to rotate is disposed in a housing of the pressing device 6, and the power mechanism includes a motor and a chain, and can drive each pressing roller 61 to rotate along an arrow in fig. 1, so as to press and bond the first plate 100 and the second plate 200 stacked together.

Further, as shown in fig. 1, a plate stacking mechanism 7 is disposed at the rear side of the pressing device 6, in this embodiment, the plate stacking mechanism 7 is an electrically controlled scissors type lifting table, the scissors type lifting table is electrically connected to the main controller, and a fifth sensing component 62 in signal connection with the main controller is disposed at the rear side of the pressing device 6, when the fifth sensing component 62 senses that the composite plate is conveyed, the main controller controls the scissors type lifting table to descend, and the descending height is the thickness of the composite plate.

The composite board manufacturing equipment is provided with a glue solution supply system, an air pressure system and a negative pressure system in the working process, and the working process of the composite board manufacturing equipment is as follows:

(1) the first plate 100 is placed on the first conveying device 1 through a manipulator or manually and conveyed forwards, the first plate 100 is conveyed to the position below the gluing device 4, the first sensing component 42 sends a signal to the main controller, the main controller controls a relevant electromagnetic valve on the glue solution supply system to be opened, the first glue spraying component 43 sprays A-type glue solution, when the second sensing component 44 senses the first plate 100, the main controller correspondingly controls the second glue spraying component 45 to spray B-type glue solution, and when the first plate is conveyed to the position outside the sensing range of the first sensing component 42 and the second sensing component 44, the first glue spraying component 43 and the second glue spraying component 45 are sequentially closed;

(2) when the fourth sensing component senses the second plate 200, the main controller controls the first lifting component 55 to drive the suction cup 52 to descend onto the second plate 200, and at the same time, the main controller controls the corresponding electromagnetic valve on the negative pressure system to be opened, the suction nozzle at the bottom of the suction cup 52 generates negative pressure to suck the second plate, the main controller controls the first lifting component 55 to drive the suction cup 52 to ascend, and the main controller controls the driving component 56 in the grabbing device 5 to move the sliding block 54 to a side close to the second conveying device 2;

(3) the first conveying device 1 conveys the first plate 100 after gluing to the second conveying device 2, when the third sensing component senses the first plate 100, the main controller controls the corresponding electromagnetic valve in the air pressure system to be opened, and the second lifting component 23 drives the lifting baffle plate 22 to descend to block the first plate 100; meanwhile, the main controller controls the first lifting member 55 to drive the suction cup 52 to descend, so that the second plate 200 falls on the first plate 100, and at this time, the main controller controls the lifting baffle 22 to rise;

(4) the second conveying device 2 conveys the composite boards to the pressing device 6 for pressing, the top plate of the board stacking mechanism 7 is located at the outlet height of the pressing device 6, when the fifth sensing component 62 senses that the pressing device 6 outputs the composite boards, the main controller controls the board stacking mechanism 7 to descend, and the descending height is the thickness of the composite boards.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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

Claims (8)

1. The utility model provides a composite board preparation equipment, includes main controller, its characterized in that still includes:

the first conveying device is used for conveying a first plate;

the glue spreading device comprises a glue spreading frame arranged on the first conveying device, and the glue spreading frame is provided with a first induction part, a first glue spraying part, a second induction part and a second glue spraying part which are arranged in a front-back manner;

the second conveying device is arranged at the rear side of the first conveying device and used for continuously conveying the first plate on the first conveying device, and a first positioning mechanism used for positioning the first plate is arranged on the second conveying device;

the third conveying device is used for conveying a second plate, and a second positioning mechanism for positioning the second plate is arranged on the third conveying device;

the grabbing device is arranged above the third conveying device and used for grabbing the second plate positioned on the third conveying device to be superposed on the first plate positioned by the first positioning mechanism;

and the pressing device is arranged at the tail end of the second conveying device and is used for pressing the first plate and the second plate which are overlapped together.

2. The composite board manufacturing device according to claim 1, wherein the first glue spraying part and the second glue spraying part are short pipes with closed ends, the other ends of the short pipes are provided with joints, and the bottoms of the short pipes are provided with a plurality of glue spraying holes at intervals; or the first glue spraying component and the second glue spraying component are a plurality of nozzles arranged side by side.

3. The composite board manufacturing equipment according to claim 1, wherein the gripping device comprises a suction cup and a gripping rack, the bottom of the suction cup is provided with a plurality of suction nozzles for connecting a negative pressure system, and the gripping rack is spanned on the second conveying device and the third conveying device; the automatic lifting device is characterized in that a guide rail is arranged on the grabbing rack, a sliding block is arranged on the guide rail, a first lifting part is arranged on the sliding block, the sucker is arranged at the bottom of the first lifting part, and a driving part which drives the sliding block to move along the guide rail is further arranged on the grabbing rack.

4. The composite board manufacturing apparatus of claim 1, wherein the first conveying device is a roller conveyor; the second conveying device and the third conveying device are belt conveyors.

5. The composite board manufacturing equipment according to claim 4, wherein the first positioning mechanism comprises a first baffle, a lifting baffle and a third induction component, the third induction component is arranged on the grabbing device, the first baffle is arranged on one side of a conveying belt of the second conveying device, the first baffle is gradually narrowed from front to back, a second lifting component is arranged on the grabbing device, and the lifting baffle is arranged at the bottom of the second lifting component; the second positioning mechanism is a second baffle arranged on one side of the conveying belt of the third conveying device, and the second baffle comprises a front baffle part and a side baffle part gradually narrowed from the front to the back.

6. The composite board manufacturing device according to claim 1, wherein the pressing device comprises an upper row of pressing rollers and a lower row of pressing rollers and a power mechanism for driving the pressing rollers to rotate.

7. The composite board manufacturing apparatus according to claim 1, wherein a board stacking mechanism is provided on a rear side of the pressing device.

8. The composite board making apparatus of claim 7, wherein said board stacking mechanism is an electrically controlled scissor lift table electrically connected to said main controller.

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