CN214572977U - Paper support forming equipment with double hot pressing stations - Google Patents

Abstract

The utility model relates to a paper support forming device with double hot-pressing stations, which comprises a cold-pressing forming assembly, a conveying line assembly and more than two sets of hot-pressing forming assemblies, wherein the cold-pressing forming assembly, the hot-pressing forming assembly and the conveying line assembly are respectively arranged on a device frame; the two or more sets of hot press molding assemblies are respectively arranged on one side or two sides of the cold press molding assembly; the conveying line assembly conveys products to stations corresponding to the cold press molding assembly and the more than two sets of hot press molding assemblies through the cold press molding assembly and the more than two sets of hot press molding assemblies. This paper of two hot pressing stations holds in palm former can promote production efficiency, and degree of automation is high, reduces workman's intensity of labour, reduces occupation space.

Description

Paper support forming equipment with double hot pressing stations

Technical Field

The utility model relates to a paper holds in palm production facility specifically is a paper of two hot pressing stations holds in palm former.

Background

The paper holds in the palm needs to coldly press and hot pressing process in the production process, and corresponding cold press forming equipment need be applied to the cold pressing process, and corresponding hot press forming equipment need be applied to the hot pressing process, and traditional cold press forming equipment and hot press forming equipment all set up independently, and traditional production technology is: after the cold pressing process is completed, workers need to move semi-finished products from the cold pressing forming equipment to the hot pressing forming equipment for carrying out the hot pressing process, the production efficiency of the paper support can be influenced by the middle moving action, the labor intensity of the workers is high, the batch production is not facilitated, and the requirement on production places is high (the occupied space is large).

Therefore, further improvements are needed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the not enough of above-mentioned prior art existence, and provide a paper of two hot pressing stations holds in palm former, and this equipment can promote production efficiency, and degree of automation is high, reduces workman's intensity of labour, reduces occupation space.

The purpose of the utility model is realized like this:

a paper support forming device with double hot pressing stations comprises a cold pressing forming assembly, a conveying line assembly and more than two sets of hot pressing forming assemblies, wherein the cold pressing forming assembly, the hot pressing forming assembly and the conveying line assembly are respectively arranged on a device rack; the two or more sets of hot press molding assemblies are respectively arranged on one side or two sides of the cold press molding assembly; the conveying line assembly conveys products to stations corresponding to the cold press molding assembly and the more than two sets of hot press molding assemblies through the cold press molding assembly and the more than two sets of hot press molding assemblies.

The cold press molding assembly comprises a lower cold press support plate for mounting the lower cold press molding module, a first lifting component for driving the lower cold press support plate to move up and down relative to the equipment rack, an upper cold press support plate for mounting the upper cold press molding module, and a second lifting component for driving the upper cold press support plate to move up and down relative to the lower cold press support plate and/or the equipment rack; the first lifting assembly is connected with the lower cold pressing support plate; the second lifting assembly is connected with the cold pressing carrier plate; the upper cold-pressed support plate and the lower cold-pressed support plate correspond to each other up and down, and at least part of the conveying line assembly passes through the space between the upper cold-pressed support plate and the lower cold-pressed support plate; a storage barrel used for storing slurry is arranged below the lower cold pressing support plate, and the first lifting assembly drives the lower cold pressing support plate to lift into and out of the storage barrel.

The first lifting assembly comprises a first lifting cylinder and a first lifting support plate, a piston rod of the first lifting cylinder is connected with the equipment rack, a cylinder body of the first lifting cylinder is connected with the first lifting support plate, and the first lifting support plate is connected with the cold pressing support plate through a first connecting rod; the second lifting assembly is arranged on the first lifting support plate, and the second lifting assembly and the upper cold pressing support plate respectively move up and down along with the first lifting support plate.

A first displacement sensor is arranged on the first lifting support plate, a first chain wheel is arranged at the detection end of the first displacement sensor, a first chain extending vertically is arranged on the equipment rack, and the first chain wheel is meshed with the first chain; when the cold pressing support plate moves up and down relative to the equipment rack, the first displacement sensor moves up and down along with the cold pressing support plate, and the first chain wheel rolls on the first chain relatively.

The second lifting assembly comprises a second lifting cylinder and a second lifting support plate, a piston rod of the second lifting cylinder is connected with the second lifting support plate, a cylinder body of the second lifting cylinder is connected with the equipment rack, and the second lifting support plate is connected with the cold pressing support plate through a second connecting rod.

A second displacement sensor is arranged on the equipment rack, a second chain wheel is arranged at the detection end of the second displacement sensor, a second chain extending vertically is arranged on the second lifting support plate, and the second chain wheel is meshed with the second chain; when the upper cold pressing support plate moves up and down relative to the equipment rack, the second chain moves up and down along with the upper cold pressing support plate, and the second chain wheel rolls on the second chain relatively.

The hot-press forming assembly comprises a lower hot-press carrier plate for mounting the lower hot-press module, an upper hot-press carrier plate for mounting the upper hot-press module, and a third lifting assembly for driving the upper hot-press carrier plate to lift; the lower hot pressing support plate is arranged on the equipment rack; the third lifting assembly is connected with the hot-pressing carrier plate; the upper hot-pressing support plate and the lower hot-pressing support plate correspond to each other up and down, and at least part of the conveying line assembly passes through the space between the upper hot-pressing support plate and the lower hot-pressing support plate.

The third lifting assembly comprises a third lifting cylinder and a third lifting support plate, a piston rod of the third lifting cylinder is connected with the third lifting support plate, a cylinder body of the third lifting cylinder is arranged on the equipment rack, and the third lifting support plate is connected with the hot pressing support plate through a third connecting rod.

A third displacement sensor is arranged on the equipment rack, a third chain wheel is arranged at the connecting end of the third displacement sensor, a third vertically extending chain is arranged on the third lifting support plate, and the third chain wheel is meshed with the third chain; when the upper hot-pressing carrier plate moves up and down relative to the equipment rack, the third chain moves up and down along with the upper hot-pressing carrier plate, and the third chain wheel rolls on the third chain relatively.

The conveying line assembly comprises a conveying carrier plate for carrying a product, a conveying power assembly for driving the conveying carrier plate to move to stations corresponding to the cold press molding assembly and more than two sets of hot press molding assemblies, and conveying supports arranged on the cold press molding assembly and more than two sets of hot press molding assemblies; the conveying power assembly drives the conveying support plate to slide on the conveying support in a reciprocating mode.

The utility model has the advantages as follows:

the cold press molding assembly and more than two sets of hot press molding assemblies are integrated on one device, and the products are sequentially conveyed to the corresponding cold press station and the corresponding hot press station by arranging the conveying line assembly, so that the cold press and the hot press working procedures of the paper support can be completed on one set of device, and the semi-finished product of the paper support does not need to be transferred among a plurality of devices, so that the production efficiency is improved, the labor intensity of workers is reduced, and the occupied volume is reduced; in addition, the cold pressing time is shorter than the hot pressing time, so that more than two sets of hot pressing forming equipment are arranged to be matched with one set of cold pressing forming equipment, the cold pressing time is balanced with the hot pressing time, the production idle time is reduced, and the production efficiency is further improved.

Drawings

Fig. 1 is a perspective view of a paper holder forming apparatus according to an embodiment of the present invention.

Fig. 2 is a front view of the paper holder forming apparatus according to an embodiment of the present invention.

Fig. 3 is a perspective view of a cold press molding assembly according to an embodiment of the present invention.

Fig. 4 is a perspective view of a hot press molding assembly according to an embodiment of the present invention.

Fig. 5 is a perspective view of the conveyor line assembly according to an embodiment of the present invention.

Detailed Description

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

Referring to fig. 1-5, the paper holder forming equipment with double hot-pressing stations comprises a cold-pressing forming assembly a, a conveying line assembly D and two sets of hot-pressing forming assemblies C, wherein the cold-pressing forming assembly a, the hot-pressing forming assembly C and the conveying line assembly D are respectively arranged on an equipment rack E; two sets of hot press molding assemblies C are respectively arranged on two sides of the cold press molding assembly A; and the conveying line assembly D conveys the product to the stations corresponding to the cold press molding assembly A and the two sets of hot press molding assemblies C through the cold press molding assembly A and the two sets of hot press molding assemblies C. When the hot-press forming device works, the conveying line assembly D alternately conveys cold-press formed products to different hot-press forming assemblies C to execute a hot-press working procedure. According to the paper holder forming equipment, the cold press forming assembly A and the two sets of hot press forming assemblies C are integrated on one equipment, and the products are sequentially conveyed to the corresponding cold press station and the corresponding hot press station through the conveying line assembly D, so that the cold press and the hot press processes of the paper holder can be completed on one set of equipment, and the semi-finished paper holder does not need to be transferred among multiple sets of equipment, so that the production efficiency is improved, the labor intensity of workers is reduced, and the occupied volume is reduced; in addition, the cold pressing time is shorter than the hot pressing time, so that two sets of hot pressing forming equipment are arranged to be matched with one set of cold pressing forming equipment, the cold pressing time is balanced with the hot pressing time, the production idle time is reduced, and the production efficiency is further improved.

Further, referring to fig. 3, the cold press molding assembly a includes a lower cold press carrier plate 4 for mounting the lower cold press molding module, a first lifting assembly for driving the lower cold press carrier plate 4 to move up and down relative to the equipment rack E, an upper cold press carrier plate 11 for mounting the upper cold press molding module, and a second lifting assembly for driving the upper cold press carrier plate 11 to move up and down relative to the lower cold press carrier plate 4 and the equipment rack E; the first lifting assembly is connected with the lower cold-pressing carrier plate 4; the second lifting assembly is connected with the cold pressing carrier plate 11; the upper cold-pressed support plate 11 corresponds to the lower cold-pressed support plate 4 up and down, and at least part of the conveying line assembly D passes through the space between the upper cold-pressed support plate 11 and the lower cold-pressed support plate 4; a storage barrel B for storing slurry is arranged below the lower cold pressing support plate 4, and the first lifting assembly drives the lower cold pressing support plate 4 to lift in and out of the storage barrel B; the upper cold-pressed carrier plate 11 is provided with a first vacuum adsorption part (not labeled in the figure) for adsorbing a product and a first vacuum tube 16 connected with a vacuum pump, and the first vacuum tube 16 is connected with the first vacuum adsorption part to provide vacuum adsorption force for the first vacuum adsorption part.

Further, the first lifting assembly comprises a first lifting cylinder 1 and a first lifting support plate 2, a piston rod of the first lifting cylinder 1 is connected with the equipment rack E, a cylinder body of the first lifting cylinder 1 is connected with the first lifting support plate 2, the first lifting support plate 2 is connected with a lower cold-pressing support plate 4 through four first connecting rods 3, the first connecting rods 3 are guide pillars, and the lower cold-pressing support plate 4 can be effectively guided to move up and down by matching with corresponding guide sleeves; the second lifting assembly is arranged on the first lifting support plate 2, and the second lifting assembly and the upper cold pressing support plate 11 respectively move up and down along with the first lifting support plate 2; specifically, a first bracket component E1 is arranged on the equipment rack E, the cold press molding assembly a is arranged on the first bracket component E1, a piston rod of the first lifting cylinder 1 is fixedly connected with the first bracket component E1, the first lifting carrier plate 2 is located above the first bracket component E1, and the telescopic action of the first lifting cylinder 1 can effectively drive the lower cold press carrier plate 4 to move up and down.

Further, a first displacement sensor 5 is arranged on the first lifting carrier plate 2, a first chain wheel 6 is arranged at a rotatable detection end of the first displacement sensor 5, a first chain 7 extending vertically is arranged on the equipment rack E (specifically the first rack component E1) through the corresponding first rack component, and the first chain wheel 6 is meshed with the first chain 7; when the cold pressing support plate 4 moves up and down relative to the equipment rack E, the first displacement sensor 5 moves up and down along with the cold pressing support plate 4, the first chain wheel 6 rolls on the first chain 7 relatively, the first displacement sensor 5 calculates the lifting distance of the cold pressing support plate 4 according to the rolling condition of the first chain wheel 6, and then the lifting amplitude of the cold pressing support plate 4 is effectively controlled.

Further, the second lifting assembly comprises a second lifting cylinder 8 and a second lifting support plate 9, a piston rod of the second lifting cylinder 8 is connected with the second lifting support plate 9, a cylinder body of the second lifting cylinder 8 is connected with the equipment rack E (specifically, the first support part E1), the second lifting support plate 9 is connected with the upper cold-pressing support plate 11 through four second connecting rods 10, the second connecting rods 10 are screw rods, and the distance between the second lifting support plate 9 and the upper cold-pressing support plate 11 can be adjusted by matching with corresponding nuts so as to adaptively adjust the position of the upper cold-pressing support plate 11.

Further, a second displacement sensor (not shown in the drawings) is arranged on the equipment rack E (specifically, the first frame component E1), a second sprocket 14 is arranged at a rotatable detection end of the second displacement sensor, a second chain 15 extending vertically is arranged on the second lifting carrier plate 9 through a corresponding second frame component, the second frame component includes a second support plate 12 and a second support rod 13, the second support plate 12 is supported on the second lifting carrier plate 9 through the second support rod 13, two ends of the second chain 15 are respectively connected to the second support plate 12 and the second lifting carrier plate 9, and the second sprocket 14 is meshed with the second chain 15; when the upper cold-pressing carrier plate 11 moves up and down relative to the equipment rack E, the second chain 15 moves up and down along with the upper cold-pressing carrier plate 11, the second chain wheel 14 rolls on the second chain 15 relatively, and the second displacement sensor calculates the lifting distance of the upper cold-pressing carrier plate 11 according to the rolling condition of the second chain wheel 14, so that the lifting amplitude of the upper cold-pressing carrier plate 11 is effectively controlled.

Further, referring to fig. 4, the two sets of hot press molding assemblies C have the same structure, specifically, the hot press molding assembly C includes a lower hot press carrier plate 20 for mounting the lower hot press module, an upper hot press carrier plate 19 for mounting the upper hot press module, and a third lifting assembly for driving the upper hot press carrier plate 19 to move up and down; the lower hot-pressing carrier plate 20 is arranged on the equipment rack E; the third lifting assembly is connected with a hot-pressing carrier plate 19; the upper hot-pressing carrier plate 19 corresponds to the lower hot-pressing carrier plate 20 up and down, and at least part of the conveyor line assembly D passes through the space between the upper hot-pressing carrier plate 19 and the lower hot-pressing carrier plate 20; specifically, a second support part E2 is disposed on the equipment rack E, the third lifting assembly is disposed on the second support part E2, and the lower thermocompression carrier plate 20 is fixed on the second support part E2; the upper hot-pressing carrier plate 19 is provided with a second vacuum adsorption part (not shown) for adsorbing the product and a second vacuum tube 27 connected to the vacuum pump, and the second vacuum tube 27 is connected to the second vacuum adsorption part to provide vacuum adsorption force for the second vacuum adsorption part.

Further, the third lifting assembly includes a third lifting cylinder 17 and a third lifting carrier plate 18, a piston rod of the third lifting cylinder 17 is connected to the third lifting carrier plate 18, a cylinder body of the third lifting cylinder 17 is disposed on the equipment rack E (specifically, the second support part E2), the third lifting carrier plate 18 is connected to the upper hot pressing carrier plate 19 through a third connecting rod 28, the third connecting rod 28 is a screw rod, and a corresponding nut is matched to adjust a distance between the third lifting carrier plate 18 and the upper hot pressing carrier plate 19, so as to adaptively adjust a position of the upper hot pressing carrier plate 19.

Further, a third displacement sensor 23 is arranged on the equipment rack E (specifically, the second support component E2), a third sprocket 24 is arranged at a rotatable connecting end of the third displacement sensor 23, a vertically extending third chain 25 is arranged on the third lifting support plate 18 through a corresponding third support component, the third support component includes a third support plate 21 and a third support rod 22, the third support plate 21 is supported on the third lifting support plate 18 through the third support rod 22, two ends of the third chain 25 are respectively connected to the third lifting support plate 18 and the third support plate 21, and the third sprocket 24 is meshed with the third chain 25; when the upper hot-pressing carrier plate 19 moves up and down relative to the equipment rack E, the third chain 25 moves up and down along with the upper hot-pressing carrier plate 19, the third chain wheel 24 rolls on the third chain 25 relatively, and the third displacement sensor 23 calculates the lifting distance of the upper hot-pressing carrier plate 19 according to the rolling condition of the third chain wheel 24, so as to effectively control the lifting amplitude of the upper hot-pressing carrier plate 19; the second support member E2 is provided with a buffer member 26, and when the third lifting carrier plate 18 is lifted to a predetermined position, the buffer member 26 acts on the third lifting carrier plate 18 in a buffering manner.

Further, referring to fig. 5, the conveyor line assembly D includes a conveying carrier plate 32 for carrying the product, a conveying power component for driving the conveying carrier plate 32 to move to the stations corresponding to the cold press molding assembly a and the two sets of hot press molding assemblies C, and a conveying support 36 disposed on the cold press molding assembly a and the two sets of hot press molding assemblies C; the conveying power assembly drives the conveying carrier plate 32 to slide on the conveying bracket 36 in a reciprocating manner; the conveying power assembly comprises a conveying motor 29, a conveying screw rod 30 and a screw rod nut 31, the conveying motor 29 is fixedly arranged on a conveying support 36, an output shaft of the conveying motor 29 is connected with the conveying screw rod 30 to drive the conveying screw rod 30 to rotate, the conveying screw rod 30 extends along the conveying direction and is arranged on the conveying support 36 in a positioning rotating mode, and the screw rod nut 31 is in threaded connection with the conveying screw rod 30; the bottom of the conveying carrier plate 32 is provided with a guide slide block 34, the conveying support 36 is provided with a guide slide rail 33 extending along the conveying direction, and the guide slide block 34 slides on the guide slide rail 33.

The foregoing is a preferred embodiment of the present invention showing and describing the basic principles, main features and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are intended to illustrate the principles of the invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention, and the scope of the invention is to be protected. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides a paper of two hot pressing stations holds in palm former which characterized in that: the cold press molding assembly (A), the hot press molding assembly (C) and the conveying line assembly (D) are respectively arranged on an equipment rack (E); the two or more hot press molding assemblies (C) are respectively arranged on one side or two sides of the cold press molding assembly (A); the conveying line assembly (D) conveys products to stations corresponding to the cold press molding assembly (A) and the two or more hot press molding assemblies (C) through the cold press molding assembly (A) and the two or more hot press molding assemblies (C).

2. The paper holder forming equipment with double hot pressing stations as claimed in claim 1, wherein: the cold press molding assembly (A) comprises a lower cold press carrier plate (4) for mounting the lower cold press molding module, a first lifting assembly for driving the lower cold press carrier plate (4) to move up and down relative to the equipment rack (E), an upper cold press carrier plate (11) for mounting the upper cold press molding module, and a second lifting assembly for driving the upper cold press carrier plate (11) to move up and down relative to the lower cold press carrier plate (4) and/or the equipment rack (E); the first lifting assembly is connected with a lower cold-pressing carrier plate (4); the second lifting assembly is connected with a cold pressing carrier plate (11); the upper cold-pressing carrier plate (11) corresponds to the lower cold-pressing carrier plate (4) up and down, and at least part of the conveying line assembly (D) passes through the space between the upper cold-pressing carrier plate (11) and the lower cold-pressing carrier plate (4); a storage barrel (B) used for storing slurry is arranged below the lower cold pressing support plate (4), and the first lifting assembly drives the lower cold pressing support plate (4) to lift into and out of the storage barrel (B).

3. The paper holder forming equipment with double hot pressing stations as claimed in claim 2, wherein: the first lifting assembly comprises a first lifting cylinder (1) and a first lifting support plate (2), a piston rod of the first lifting cylinder (1) is connected with the equipment rack (E), a cylinder body of the first lifting cylinder (1) is connected with the first lifting support plate (2), and the first lifting support plate (2) is connected with the cold pressing support plate (4) through a first connecting rod (3); the second lifting assembly is arranged on the first lifting support plate (2), and the second lifting assembly and the upper cold pressing support plate (11) move up and down along with the first lifting support plate (2) respectively.

4. The paper holder forming equipment with double hot pressing stations as claimed in claim 3, wherein: a first displacement sensor (5) is arranged on the first lifting support plate (2), a first chain wheel (6) is arranged at the detection end of the first displacement sensor (5), a first chain (7) extending vertically is arranged on the equipment rack (E), and the first chain wheel (6) is meshed with the first chain (7); when the cold pressing support plate (4) moves up and down relative to the equipment rack (E), the first displacement sensor (5) moves up and down along with the cold pressing support plate (4), and the first chain wheel (6) rolls on the first chain (7) relatively.

5. The paper holder forming equipment with double hot pressing stations as claimed in claim 3, wherein: the second lifting assembly comprises a second lifting cylinder (8) and a second lifting support plate (9), a piston rod of the second lifting cylinder (8) is connected with the second lifting support plate (9), a cylinder body of the second lifting cylinder (8) is connected with the equipment rack (E), and the second lifting support plate (9) is connected with the cold pressing support plate (11) through a second connecting rod (10).

6. The paper holder forming equipment with double hot pressing stations as claimed in claim 5, wherein: a second displacement sensor is arranged on the equipment rack (E), a second chain wheel (14) is arranged at the detection end of the second displacement sensor, a second chain (15) extending vertically is arranged on the second lifting support plate (9), and the second chain wheel (14) is meshed with the second chain (15); when the upper cold pressing support plate (11) moves up and down relative to the equipment rack (E), the second chain (15) moves up and down along with the upper cold pressing support plate (11), and the second chain wheel (14) rolls on the second chain (15) relatively.

7. The paper holder forming equipment with double hot pressing stations as claimed in claim 1, wherein: the hot-press forming assembly (C) comprises a lower hot-press support plate (20) used for mounting a lower hot-press module, an upper hot-press support plate (19) used for mounting an upper hot-press module, and a third lifting assembly used for driving the upper hot-press support plate (19) to lift; the lower hot-pressing carrier plate (20) is arranged on the equipment rack (E); the third lifting assembly is connected with a hot-pressing carrier plate (19); the upper hot-pressing carrier plate (19) corresponds to the lower hot-pressing carrier plate (20) up and down, and at least part of the conveying line assembly (D) passes through the space between the upper hot-pressing carrier plate (19) and the lower hot-pressing carrier plate (20).

8. The paper holder forming equipment with double hot pressing stations as claimed in claim 7, wherein: the third lifting assembly comprises a third lifting cylinder (17) and a third lifting support plate (18), a piston rod of the third lifting cylinder (17) is connected with the third lifting support plate (18), a cylinder body of the third lifting cylinder (17) is arranged on the equipment rack (E), and the third lifting support plate (18) is connected with the hot pressing support plate (19) through a third connecting rod (28).

9. The paper holder forming equipment with double hot pressing stations as claimed in claim 8, wherein: a third displacement sensor (23) is arranged on the equipment rack (E), a third chain wheel (24) is arranged at the connecting end of the third displacement sensor (23), a third vertically extending chain (25) is arranged on the third lifting support plate (18), and the third chain wheel (24) is meshed with the third chain (25); when the upper hot-pressing carrier plate (19) moves up and down relative to the equipment rack (E), the third chain (25) moves up and down along with the upper hot-pressing carrier plate (19), and the third chain wheel (24) rolls on the third chain (25) relatively.

10. The paper holder forming equipment with double hot pressing stations as claimed in claim 1, wherein: the conveying line assembly (D) comprises a conveying carrier plate (32) for carrying a product, a conveying power assembly for driving the conveying carrier plate (32) to move to stations corresponding to the cold press molding assembly (A) and more than two sets of hot press molding assemblies (C), and conveying supports (36) arranged on the cold press molding assembly (A) and more than two sets of hot press molding assemblies (C); the conveying power assembly drives the conveying carrier plate (32) to slide on the conveying bracket (36) in a reciprocating mode.

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