CN210999278U - Novel automatic batch partition plate production equipment - Google Patents

Abstract

The utility model discloses a novel automatic batch partition board production equipment, the production equipment comprises a core pulling device and a mould device, the core pulling device comprises a first oil cylinder, the first oil cylinder is connected with a push plate, a plurality of core columns are evenly arranged on the push plate, the mould device comprises a base, a plurality of side moulds, a top mould, a bottom mould, a front mould and a rear mould, the bottom mould is positioned on the base, the side moulds are evenly arranged on the bottom mould at intervals, a cavity matched with the partition board is formed between two adjacent side moulds, the front mould and the rear mould are respectively vertically and parallelly connected on the bottom mould, the rear mould is hinged on the bottom mould and can rotate on the bottom mould, the front mould, the bottom mould and the rear mould form a square cavity without a cover, a plurality of first through holes allowing the core columns to pass are arranged on the front mould and the rear mould corresponding to the cavity, the upper surface of the bottom mould is provided with a bulge matched with the bottom surface of the, and the top die is provided with a groove matched with the top surface of the partition board. The utility model discloses can high efficiency batch production, of high quality.

Description

Novel automatic batch partition plate production equipment

Technical Field

The utility model relates to a technical field is made in partition plate production, concretely relates to novel automatic batch partition plate production facility.

Background

The partition board is a wall prefabricated slat used for the internal wall of a building, comprises a glass fiber reinforced cement slat, a glass fiber reinforced gypsum hollow slat, a steel wire reinforced cement board, a light concrete slat, a composite cored light slat and the like, and is used as a main material of a non-bearing internal partition wall of a general industrial building, a residential building and a public building project. At present, in the equipment for producing the partition boards, the partition boards can be produced only singly, the production efficiency is low, batch production cannot be realized, and the die is complex.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a novel automatic batch partition plate production facility for it is low to solve current partition plate production facility production efficiency, production partition plate that can not be in batches.

In order to solve the technical problem, the utility model discloses a following scheme:

a novel automatic production device for partition boards in batches comprises a core pulling device and a mould device, the core pulling device comprises a first oil cylinder, the first oil cylinder is connected with a pushing plate, a plurality of core columns are uniformly arranged on the pushing plate, the die device comprises a base, a plurality of side dies, a top die, a bottom die, a front die and a rear die, wherein the bottom die is positioned on the base, a plurality of side moulds are uniformly arranged on the bottom mould at intervals, a cavity matched with the partition wall plate is formed between two adjacent side moulds, the front mould and the rear mould are respectively vertically and parallelly connected to the bottom mould, the rear mould is hinged on the bottom mould and can rotate on the bottom mould, the front mould, the bottom mould and the rear mould form a square cavity without a cover, a plurality of first through holes allowing the core column to pass through are arranged on the front die and the rear die corresponding to the cavity, the bottom die is characterized in that a protrusion matched with the bottom surface of the partition board is arranged on the upper surface of the bottom die, and a groove matched with the top surface of the partition board is formed in the top die.

By adopting the technical scheme, the utility model comprises a core pulling device and a mould device positioned at the front end of the core pulling device, wherein two sides of the core pulling device are respectively connected with a first oil cylinder, the output end of the first oil cylinder is connected with a push plate, the first oil cylinder drives the push plate to do transverse reciprocating motion under the action of oil pressure, a plurality of core columns are uniformly and fixedly connected on the side surfaces of the push plate, the core columns are used for extending into the mould device to form a required through hole passage in the partition board, the mould device comprises a base, a plurality of side moulds, a top mould, a bottom mould, a front mould and a rear mould, the bottom mould is arranged on the base, the upper surface of the bottom mould is uniformly and vertically connected with the plurality of side moulds at intervals, the plurality of side moulds are all parallel to each other, a cavity matched with the partition board is formed between any two adjacent side moulds, a fluid-shaped partition board material is loaded in the cavity, and the front, the rear die is hinged on the bottom die and can rotate on the bottom die, when the die is convenient to remove, the partition board is taken out by loosening the rear die, the front die, the rear die and the bottom die are jointly connected to form a uncovered square cavity, a plurality of first through holes allowing the core column to pass are arranged on the inner side faces of the front die and the rear die corresponding to the cavity, the number of the specific required first through holes is determined according to the standard of the partition board, the upper surface of the bottom die is provided with a bulge matched with the bottom surface of the partition board, the top die is provided with a groove matched with the top surface of the partition board, the core column sequentially passes through the first through holes on the rear die, the cavity and the first through holes on the front die under the push of the first oil cylinder, the fluidic partition board material is poured in the cavity, the top die is fixed on the top of the square cavity, the top die is detached after the fluidic partition board material is solidified, the core column is recovered by, because the cooperation of each mould for whole equipment can batch production partition wall board simultaneously, has improved production efficiency, all adopts the mould of same size, makes the partition wall board size more accurate.

Furthermore, as a preferred technical scheme, the production equipment further comprises two parallel guide rails, guide wheels are arranged on the bottom surfaces of the core pulling device and the base, and the guide wheels can transversely slide along the guide rails.

By adopting the technical scheme, the production equipment further comprises two parallel guide rails on the ground, guide wheels are fixedly connected to the bottom surfaces of the core pulling device and the base, and the guide wheels can transversely slide along the guide rails. Therefore, the core-pulling device and the die device can transversely slide on the guide rail, and operation of operators is facilitated.

Further, as a preferred technical scheme, the guide rail is hinged with a second oil cylinder at one end far away from the mold device, and the output end of the second oil cylinder is hinged with the bottom of the core-pulling device and used for driving the core-pulling device to transversely slide on the guide rail.

Due to the adoption of the technical scheme, the second oil cylinder is hinged to one end, away from the mold device, of the two guide rails, the output end of the second oil cylinder is hinged to the bottom of the core pulling device, the core pulling device can be driven to transversely slide on the guide rails under the action of the second oil cylinder, the distance between the core pulling device and the mold device is greatly adjusted, the core pulling device does not need to be manually pushed, labor is saved during core pulling, and the efficiency is improved.

Further, as a preferred technical scheme, the base is hinged with a third inclined oil cylinder, the output end of the third oil cylinder is respectively connected with the two ends of the rear die, and the third oil cylinder is respectively positioned on the outer side surfaces of the side dies at the two ends of the plurality of side dies.

By adopting the technical scheme, the base is hinged with the inclined third oil cylinder, the output end of the third oil cylinder is hinged with the two ends of the rear die respectively, the third oil cylinder can push the rear die forwards to rotate at a certain angle under the action of oil pressure, the die is convenient to disassemble, the rear die can be pulled backwards, the rear die is not easy to loosen during pouring, the product quality is unqualified, and the third oil cylinder is positioned outside the side dies at the two ends in each side die respectively.

Furthermore, as a preferred technical scheme, the guide rail is provided with a first support frame and is close to the pushing plate, the center of the top of the first support frame is hinged with a scraping oil cylinder, and the output end of the scraping oil cylinder is provided with a scraping plate.

Due to the adoption of the technical scheme, the first support frame is fixed on the guide rail, the first support frame is close to the pushing plate, the top center of the first support frame is hinged with the scraping oil cylinder, the output end of the scraping oil cylinder is connected with the scraping plate, the scraping plate is used for scraping the surface of the fluid partition wall plate material filled in the die device after being used for flattening, the quality of the cast and formed product is higher, the scraping oil cylinder drives the scraping plate to transversely move on the top surface of the die device, the automatic processing is realized, the manpower is saved, and the efficiency is improved.

Further, as a preferred technical scheme, a second support frame is arranged on the guide rail close to the rear mold, a positioning plate matched with the core column is arranged on the second support frame, and a second through hole corresponding to the first through hole is formed in the positioning plate.

Due to the adoption of the technical scheme, the position of the guide rail close to the rear die is fixedly connected with the second support frame, the second support frame is fixedly provided with the positioning plate matched with the core column, the core column is provided with the second through hole corresponding to the first through hole, and the second through hole is used for being more accurate when the core column passes through the first through hole on the rear die, not easy to deviate and accurately positioning the core column.

Further, as a preferred technical scheme, a material scraping oil cylinder supporting piece is arranged at the top of the second supporting frame.

Due to the adoption of the technical scheme, the scraping oil cylinder supporting piece is fixed at the center of the top of the second supporting frame and used for supporting the vertical load of the scraping plate on the scraping oil cylinder, and the vertical bearing strength of the scraping oil cylinder is reduced.

Further, as a preferred technical scheme, the outer side faces of the side dies at the two ends of the bottom die are connected with pressing blocks, one of the pressing blocks is a movable pressing block, the movable pressing block is connected with a base pin shaft, and the other pressing block is a fixed pressing block.

By adopting the technical scheme, the outer side surfaces of the side molds of the two end heads on the bottom film are connected with the pressing blocks, one of the pressing blocks is a movable pressing block which is hinged with the base, when the mold is disassembled, the movable pressing block can be loosened and is convenient to disassemble, and the other pressing block is a fixed pressing block which is directly fixedly connected with the base and used for stabilizing the lateral stability of the mold device and is not easy to explode to influence the product quality.

Furthermore, as a preferred technical scheme, release agents are coated on the core column, the bottom surface of the top die, the top surface of the bottom die, the inner side surfaces of the front die and the rear die and the opposite surfaces of the two adjacent side dies, the release agents on the core column are convenient for the core column to be pulled out more smoothly, resistance is reduced, damage to the inside of the partition board is avoided, the release agents on the bottom surface of the top die, the top surface of the bottom die, the inner side surfaces of the front die and the rear die and the opposite surfaces of the two adjacent side dies are beneficial to product forming, the adhesion degree of the contact surfaces of the core column, the bottom surface of the bottom die.

The utility model discloses beneficial effect who has:

1. the upper surface of the bottom die is uniformly and vertically connected with a plurality of side dies at intervals, the side dies are all parallel to each other, a cavity matched with a partition board is formed between any two adjacent side dies, fluid partition board materials are loaded in the cavity, the front die and the rear die are respectively and vertically connected onto the bottom die in parallel, the rear die is hinged onto the bottom die and can rotate on the bottom die, when the die is convenient to disassemble, the rear die is loosened to take out the partition board, the front die, the rear die and the bottom die are jointly connected to form a uncovered square cavity, a plurality of first through holes allowing the core column to pass through are formed in the inner side surfaces of the front die and the rear die corresponding to the cavity, the number of the specifically required first through holes is determined according to the standard of the partition board, protrusions matched with the bottom surface of the partition board are formed in the upper surface of the bottom die, grooves matched with the top surface of the partition board are formed in the top die, and the core column sequentially passes, Cavity and second through hole pour the partition plate material of fluid form in the cavity, fix a mould at square cavity top, treat that fluid form partition plate material solidifies the back, pull down a mould, the stem is retrieved to first hydro-cylinder, form required partition plate in every cavity, because the cooperation of each mould for whole equipment can batch production partition plate simultaneously, improved production efficiency, all adopt the mould of same size, make the partition plate size more accurate.

Drawings

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

FIG. 2 is a top view of FIG. 1;

FIG. 3 is a left side view of FIG. 1 without the front mold;

FIG. 4 is a schematic structural view of a front mold;

FIG. 5 is a schematic view of a rear mold structure;

FIG. 6 is a schematic view of a positioning block;

FIG. 7 is a schematic view of a top mold structure;

figure 8 is a schematic view of the bottom die structure,

fig. 9 is a schematic view of the structure of the partition board.

Reference numerals: 1-mould device, 2-core-pulling device, 201-core column, 3-top mould, 301-groove, 4-bottom mould, 401-protrusion, 5-side mould, 501-cavity, 6-rear mould, 7-first support frame, 8-base, 9-front mould, 10-guide rail, 11-first oil cylinder, 12-second oil cylinder, 13-third oil cylinder, 14-scraping oil cylinder, 15-second support frame, 1501-scraping oil cylinder support, 16-scraping plate, 17-movable pressing block, 18-fixed pressing block, 19-first through hole, 20-positioning plate, 21-second through hole, 22-guide wheel, 23-pushing plate and 24-partition plate.

Detailed Description

The present invention will be described in further detail with reference to the following examples and drawings, but the present invention is not limited thereto.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "longitudinal", "lateral", "horizontal", "inner", "outer", "front", "rear", "top", "bottom", and the like indicate the position or positional relationship based on the position or positional relationship shown in the drawings, or the position or positional relationship which is usually placed when the product of the present invention is used, and the terms are only for convenience of description of the present invention and simplifying the description, but do not indicate or imply that the device or element to which the term refers must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

In the description of the present invention, it should be further noted that, unless otherwise explicitly specified or limited, the terms "disposed," "opened," "mounted," "connected," and "connected" are to be construed broadly, e.g., as either a fixed connection, a detachable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Examples

As shown in fig. 1 to 9, a novel automatic batch production apparatus for partition boards comprises a core pulling device 2 and a mold device 1, wherein the core pulling device 1 comprises a first oil cylinder 11, the first oil cylinder 11 is connected with a push plate 23, a plurality of core columns 201 are uniformly arranged on the push plate 23, the mold device 1 comprises a base 8, a plurality of side molds 5, a top mold 3, a bottom mold 4, a front mold 9 and a rear mold 6, the bottom mold 4 is located on the base 8, the plurality of side molds 5 are uniformly arranged on the bottom mold 4 at intervals, a cavity 501 matched with the partition board 24 is formed between two adjacent side molds 5, the front mold 9 and the rear mold 6 are respectively connected on the bottom mold 4 in a vertical and parallel manner, the rear mold 6 is hinged on the bottom mold 4 and can rotate on the bottom mold 4, the front mold 9, the bottom mold 4 and the rear mold 6 form a square cavity without a cover, a plurality of first through holes 19 allowing the core columns 201 to pass through are arranged on the front mold 9 and the rear mold 6 corresponding to the cavity 501, the upper surface of the bottom die 4 is provided with a bulge 401 matched with the bottom surface of the partition wall plate 24, and the top die 3 is provided with a groove 301 matched with the top surface of the partition wall plate 24.

Specifically, the utility model comprises a core pulling device 2 and a mold device 1 positioned at the front end of the core pulling device 2, two sides of the core pulling device 2 are respectively connected with a first oil cylinder 11, the output end of the first oil cylinder 11 is connected with a push plate 23, the first oil cylinder 11 drives the push plate 23 to do a transverse reciprocating motion under the action of oil pressure, a plurality of core columns 201 are uniformly and fixedly connected on the side surface of the push plate 23, the core columns 201 are used for extending into the mold device 1, so that a required through hole passage is formed inside a partition plate 24, the mold device 2 comprises a base 8, a plurality of side molds 5, a top mold 3, a bottom mold 4, a front mold 9 and a rear mold 6, the bottom mold 4 is arranged on the base 8, the upper surface of the bottom mold 4 is uniformly and vertically connected with the plurality of side molds 5 at intervals, the plurality of side molds 5 are all parallel to each other, a cavity 501 matched with the partition plate is formed between any two adjacent side molds 5, and a fluid, the front mold 9 and the rear mold 6 are respectively vertically and parallelly connected to the bottom mold 4, the rear mold 6 is hinged to the bottom mold 4 and can rotate on the bottom mold 4, when the mold is conveniently disassembled, the rear mold 6 is loosened to take out the formed partition wall plate 24, the front mold 9, the rear mold 6 and the bottom mold 4 are jointly connected to form a uncovered square cavity, a plurality of first through holes 19 allowing the core column 201 to pass through are arranged on the inner side surfaces of the front mold 9 and the rear mold 6 corresponding to the cavity 501, the number of the specifically required first through holes 19 is determined according to the standard of the partition wall plate 24, the upper surface of the bottom mold 4 is provided with a protrusion 401 matched with the bottom surface of the partition wall plate 24, the top mold 3 is provided with a groove 301 matched with the top surface of the partition wall plate 24, the core column 201 sequentially passes through the first through holes 19 on the rear mold 6, the cavity 501 and the first through holes 19 on the front mold 9 under the push of the first oil cylinder 11, fix the top die 3 at square cavity top, treat that fluid form partition plate material solidifies the back, pull down top die 3, first hydro-cylinder retrieves 11 and retrieves stem 201, forms required partition plate 24 in every cavity 501, because the cooperation of each mould for whole equipment can batch production partition plate simultaneously, has improved production efficiency, all adopts the mould of same size, makes partition plate 24's size more accurate.

On the basis of the above embodiment, the production equipment further comprises two parallel guide rails 10, and guide wheels 22 are arranged on the bottom surfaces of the core-pulling device 2 and the base 8, and the guide wheels 22 can slide along the guide rails 10 in the transverse direction.

Specifically, the production equipment further comprises two parallel guide rails 10 on the ground, guide wheels 22 are fixedly connected to the bottom surfaces of the core pulling device 2 and the base 8, and the guide wheels 22 can transversely slide along the guide rails 10. So that the core-pulling device 2 and the mold device 1 can slide laterally on the guide rail 10 for the convenience of the operator.

On the basis of the above embodiment, the end of the guide rail 10 far away from the mold device 1 is hinged with the second oil cylinder 12, and the output end of the second oil cylinder 12 is hinged with the bottom of the core-pulling device 2, so as to drive the core-pulling device 2 to slide transversely on the guide rail 10

Specifically, two guide rails 10 are articulated with second hydro-cylinder 12 in the one end of keeping away from mould device 1, and the output of second hydro-cylinder 12 is connected with device bottom hinge 8 of loosing core, and under the effect of second hydro-cylinder 12, can drive device 1 of loosing core and transversely slide on guide rail 10, can adjust the distance of device of loosing core to mould device by a wide margin, need not artifical promotion device 1 of loosing core, when loosing core, more laborsaving, raise the efficiency.

On the basis of the above embodiment, the base 8 is hinged with an inclined third oil cylinder 13, the output end of the third oil cylinder 13 is respectively connected with two ends of the rear mold 6, and the third oil cylinder 13 is respectively located on the outer side surfaces of the side molds 5 at two ends of the plurality of side molds 5.

Specifically, the base 8 is hinged with an inclined third oil cylinder 13, the output end of the third oil cylinder 13 is hinged with the two ends of the rear mold 6 respectively, the third oil cylinder 13 can push the rear mold 6 forward under the action of oil pressure to rotate by a certain angle, the mold is convenient to detach, the rear mold 6 can be pulled backward, looseness is not prone to occurring during pouring, the quality of products is unqualified, and the third oil cylinder 13 is located on the outer side of the side mold 5 of the two ends of each side mold 5 respectively.

On the basis of the above embodiment, the guide rail 10 is provided with the first support frame 7 and is close to the pushing plate 23, the center of the top of the first support frame 7 is hinged with the scraping oil cylinder 14, and the output end of the scraping oil cylinder 14 is provided with the scraping plate 16.

Specifically, be fixed with first support frame 7 on the guide rail 10, first support frame 7 closes on push plate 23 and sets up, the top central point of first support frame 7 puts to articulate there is one to scrape material hydro-cylinder 14, the output of scraping material hydro-cylinder 14 is connected with scrapes flitch 16, scrape flitch 16 and be used for behind the full fluid form partition wall plate material in the die set 1, scrape the processing of strickleing off the surface, make the product quality of pouring shaping higher, it drives scrapes flitch 16 at 1 top surface lateral shifting of die set to scrape material hydro-cylinder 14, realize automated processing, and the manpower is saved, and the efficiency is improved.

On the basis of the above embodiment, the guide rail 10 is provided with a second support frame 15 near the rear mold 6, the second support frame 15 is provided with a positioning plate 20 matched with the stem 201, and the positioning plate 20 is provided with a second through hole 21 corresponding to the first through hole 19.

Due to the adoption of the technical scheme, the position, close to the rear die 6, of the guide rail 10 is fixedly connected with the second support frame 15, the second support frame 15 is fixedly provided with the positioning plate 20 matched with the core column 201, the core column 201 is provided with the second through hole 21 corresponding to the first through hole 19, and the second through hole 21 is used for being more accurate when the core column 201 penetrates through the first through hole 19 on the rear die 6, is not easy to deviate and accurately positions the core column 201.

On the basis of the above embodiments, the top of the second supporting frame 15 is provided with a material scraping cylinder support 1501.

Specifically, a scraping cylinder support 1501 is fixed at the top center of the second support frame 15, and is used for supporting the vertical load of the scraping plate 16 on the scraping cylinder 14, and reducing the vertical bearing strength of the scraping cylinder 14.

On the basis of the above embodiment, the outer side surfaces of the side dies 5 at the two ends of the bottom die 4 are connected with pressing blocks, one of the pressing blocks is a movable pressing block 17, the movable pressing block 17 is connected with the base 8 through a pin shaft, and the other pressing block is a fixed pressing block 18.

Specifically, the outer side surfaces of the side molds 5 of the two end heads of the bottom mold 4 are connected with pressing blocks, one of the pressing blocks is a movable pressing block 17, the movable pressing block 17 is hinged with the base 8, when the mold is disassembled, the movable pressing block 17 can be loosened and is convenient to disassemble, the other pressing block is a fixed pressing block 18 and is directly fixedly connected with the base 8, the lateral stability of the mold device 1 is stabilized, and the mold is not easy to explode, so that the product quality is influenced.

On the basis of the embodiment, the release agent is coated on the inner side surfaces of the core column 201, the bottom surface of the top die 3, the top surface of the bottom die 4, the front die 9 and the rear die 6 and the opposite surfaces of the two adjacent side dies 5, the release agent on the core column 201 is more smooth when the core column 201 is pulled out, the resistance is reduced, the damage to the inside of the partition wall plate 24 is avoided, the release agent on the inner side surfaces of the top die 3, the bottom die 4, the front die 9 and the rear die 6 and the opposite surfaces of the two adjacent side dies 5 is beneficial to product forming, the adhesion degree of the contact surface with the partition wall plate 24 is lower during die removal, and the die removal efficiency is higher.

The utility model discloses a principle, the front mould 9 of die set 1, the back mould 6, the die block 4, the back is installed to side form 5, second hydro-cylinder 12 drives die set 1 and is close to second support frame 15, reachs appointed position, first hydro-cylinder 11 starts, in stretching into cavity 501 to 1 propelling movement stem 201 of die set, the first perforation 19 until stem 201 end stretches out front mould 9, pour into fluid form partition wall board material into cavity 501 in the die set 1, after full, start scraping material hydro-cylinder 14, make and scrape flitch 16 and locate to remove to back mould 6 from front mould 9, guarantee that fluid dress partition wall board material is the horizontal plane at die set 1 top, last top mould 3 of pressing, fix whole die set 1, the area is dry after the shaping, the form removal, take out required partition wall board 24.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and the technical essence of the present invention is that within the spirit and principle of the present invention, any simple modification, equivalent replacement, and improvement made to the above embodiments are all within the protection scope of the technical solution of the present invention.

Claims (9)

1. The utility model provides a novel automatic change partition wall board production facility in batches, its characterized in that, production facility is including device (2) and mould device (1) of loosing core, device (2) of loosing core includes first hydro-cylinder (11), and first hydro-cylinder (11) are connected with push plate (23), evenly is equipped with a plurality of stem stems (201) on push plate (23), mould device (1) includes base (8), a plurality of side forms (5), top mould (3), die block (4), front mould (9) and back mould (6), and die block (4) are located base (8), evenly interval arrangement a plurality of side forms (5) on die block (4), form between two adjacent side forms (5) and with partition wall board (24) assorted cavity (501), front mould (9) and back mould (6) are perpendicular parallel connection respectively on die block (4), and back mould (6) articulate on die block (4) and can rotate on die block (4), front mould (9), die block (4) and back mould (6) constitute a uncovered square cavity, with be equipped with a plurality of first through-holes (19) that allow the stem to pass on front mould (9) and back mould (6) that cavity (501) correspond, die block (4) upper surface is equipped with arch (401) that match with partition plate (24) bottom surface, be equipped with recess (301) that match with partition plate (24) top surface on top mould (3).

2. A novel automatic batch partition production equipment according to claim 1, characterized in that the production equipment further comprises two parallel guide rails (10), guide wheels (22) are arranged on the bottom surfaces of the core pulling device (2) and the base (8), and the guide wheels (22) can slide transversely along the guide rails (10).

3. A novel automatic batch partition plate production device according to claim 2, characterized in that the guide rail (10) is hinged with a second oil cylinder (12) at one end far away from the mold device (1), and the output end of the second oil cylinder (12) is hinged with the bottom of the core-pulling device (2) for driving the core-pulling device (2) to transversely slide on the guide rail (10).

4. The novel automatic batch production equipment of partition boards according to claim 1, wherein the base (8) is hinged with a third inclined oil cylinder (13), the output end of the third oil cylinder (13) is respectively connected with the two ends of the rear die (6), and the third oil cylinder (13) is respectively positioned on the outer side surfaces of the side dies (5) at the two ends of the plurality of side dies (5).

5. The novel automatic production equipment for the partition boards in batches as claimed in claim 2, wherein the guide rail (10) is provided with a first support frame (7) and is close to the pushing plate (23), the center of the top of the first support frame (7) is hinged with a scraping cylinder (14), and the output end of the scraping cylinder (14) is provided with a scraping plate (16).

6. A novel automatic batch partition plate production device according to claim 5, wherein a second support frame (15) is arranged on the guide rail (10) near the rear mold (6), a positioning plate (20) matched with the core column (201) is arranged on the second support frame (15), and a second through hole (21) corresponding to the first through hole (19) is arranged on the positioning plate (20).

7. A new type of automated mass production equipment of partition boards according to claim 6 wherein the second support frame (15) is provided with scraper cylinder supports (1501) on top.

8. The production equipment of the novel automatic batch partition boards according to claim 1, wherein the outer side surfaces of the side molds (5) at the two ends of the bottom mold (4) are connected with pressing blocks, one of the pressing blocks is a movable pressing block (17), the movable pressing block (17) is connected with the base (8) through a pin shaft, and the other pressing block is a fixed pressing block (18).

9. The novel automatic mass production equipment of partition boards according to claim 1, wherein the core column (201), the bottom surface of the top die (3), the top surface of the bottom die (4), the inner side surfaces of the front die (9) and the rear die (6) and the opposite surfaces of the two adjacent side dies (5) are coated with release agents.

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