CN116061307A

CN116061307A - Automatic processing equipment for fire-blocking bricks

Info

Publication number: CN116061307A
Application number: CN202211530813.2A
Authority: CN
Inventors: 朱冲; 陈坚
Original assignee: Pingxiang Xinrong Energy Conservation And Environmental Protection Engineering Technology Co ltd
Current assignee: Pingxiang Xinrong Energy Conservation And Environmental Protection Engineering Technology Co ltd
Priority date: 2022-12-01
Filing date: 2022-12-01
Publication date: 2023-05-05

Abstract

The invention provides automatic processing equipment for fire-blocking bricks, and relates to the field of fire-blocking brick processing devices. The automatic processing equipment for the fire blocking bricks comprises a storage mechanism, wherein one side of the storage mechanism is fixedly connected with a feeding mechanism, one side of the feeding mechanism is provided with a pressing mechanism, one end of the pressing mechanism is fixedly connected with a conveying mechanism, and one end of the conveying mechanism is provided with a collecting box. Through the design of depositing mechanism, feed mechanism, swager constructs, conveying mechanism and collecting box, automatic molding has been reached, the effect of automatic transportation, take out first screw from first screw through the mode of rotating first screw, then take out the slider from the spout through the mode of clamp plate, can change interior box this moment, take out the second screw from the second screw through the mode of rotating the second screw, then take out the lift plate in from interior box, can change the lift plate this moment, the effect of conveniently pressing different sizes, shape fire blocking brick has been reached through this kind of design.

Description

Automatic processing equipment for fire-blocking bricks

Technical Field

The invention relates to the technical field of fire-blocking brick processing devices, in particular to automatic processing equipment for fire-blocking bricks.

Background

The fire-blocking brick is also called a baffle brick and a baffle brick, automatic processing equipment of the fire-blocking brick is needed in the process of processing the fire-blocking brick, most of the existing fire-blocking brick processing equipment is semi-automatic, if the fire-blocking brick is pressed and formed, workers are required to manually transport the formed fire-blocking brick, and then the next pressing is carried out, so that the working efficiency is affected, the use is inconvenient, the existing fire-blocking brick processing equipment can only press fire-blocking bricks of the same size, and when the fire-blocking bricks of different sizes and shapes are needed to be pressed, the dies and the pressing plates are inconvenient to replace, and the use is inconvenient.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides automatic processing equipment for fire-blocking bricks, which solves the problems of inconvenient automatic forming, automatic transportation and pressing of fire-blocking bricks with different sizes and shapes.

In order to achieve the above purpose, the invention is realized by the following technical scheme: the automatic processing equipment for the fire blocking bricks comprises a storage mechanism, wherein one side of the storage mechanism is fixedly connected with a feeding mechanism, one side of the feeding mechanism is provided with a pressing mechanism, one end of the pressing mechanism is fixedly connected with a conveying mechanism, and one end of the conveying mechanism is provided with a collecting box.

Preferably, the storage mechanism comprises a tank body and a first bracket, and the first bracket is fixedly connected with the lower surface of the tank body.

Preferably, the feeding mechanism comprises a feeding pipe, a pump body, a connecting pipe, an inner pipe, a connecting ring, a fixing column, a first hydraulic cylinder and a first fixing plate.

Preferably, the inlet pipe fixed connection is in one side of the jar body, the opposite side outer wall fixed connection of inlet pipe is in the input of the pump body, the output fixedly connected with connecting pipe of the pump body, the inner wall sliding connection of connecting pipe the outer wall fixedly connected with go-between of connecting pipe, the lower fixed surface of go-between is connected with the fixed column, the outer wall fixedly connected with first pneumatic cylinder of go-between, the output fixedly connected with first fixed plate of first pneumatic cylinder, first fixed plate fixed connection is at the outer wall of inner tube.

Preferably, the pressing mechanism comprises a workbench, a placing box, an inner box, a limiting block, a limiting groove, a lifting plate, a second bracket, a second hydraulic cylinder, a connecting block, a sliding groove, a sliding block, a pressing plate, a first screw hole, a first screw, a third hydraulic cylinder, a second screw hole, a second screw, a second fixing plate, a fourth hydraulic cylinder, a pushing plate, a guide plate and a third bracket.

Preferably, the upper surface fixedly connected with of workstation place the box the inside sliding connection of placing the box has an inner box the both ends fixedly connected with stopper of inner box the outer wall sliding connection of stopper has the spacing groove, the inside of placing the box is seted up to the spacing groove, the inner wall sliding connection of inner box has the lifting plate, the upper surface fixedly connected with second support of workstation, the lower surface center department fixedly connected with second pneumatic cylinder of second support, the output fixedly connected with connecting block of second pneumatic cylinder the spout has been seted up in the one end both sides run through of connecting block, spout inner wall sliding connection has the slider, the lower surface fixedly connected with clamp plate of slider, first screw has been seted up to the both sides of connecting block, the inner wall threaded connection of first screw has first screw, the lower surface both sides fixedly connected with third pneumatic cylinder of second support, the output of third pneumatic cylinder is connected with the lifting plate, the second screw has been seted up to the lower surface both sides of second pneumatic plate, the inner wall threaded connection of second support has the second pneumatic plate, the second support fixedly connected with fourth end, the second pneumatic plate fixedly connected with top at one side of workstation, the fixed connection has the fourth pneumatic plate.

Preferably, the conveying mechanism comprises a fourth support, a rotating hole, a rotating shaft, a conveying belt and a motor, wherein the fourth support is fixedly connected with one end of the third support, the rotating holes are formed in the two sides of the fourth support in a penetrating mode, the rotating shaft is rotatably connected with the inner wall of the rotating hole, the conveying belt is connected with the outer wall of the rotating shaft, the motor is fixedly connected with one end of the fourth support, and a collecting box is arranged at one end of the fourth support.

Preferably, the first screw hole is formed in the slider, and the second screw hole is formed in the third hydraulic cylinder.

Working principle: firstly, the raw materials of fire-blocking brick are input into a tank body, then a first hydraulic cylinder is started, the first hydraulic cylinder drives an inner pipe to move to the upper surface of an inner box, then a pump body is started, the raw materials in the tank body fall into the inner box through the inner pipe, then a second hydraulic cylinder is started, a pressing block is driven by the second hydraulic cylinder to extrude the raw materials, a third hydraulic cylinder is started in extrusion forming, a lifting plate is driven by the third hydraulic cylinder to move upwards, the formed fire-blocking brick is driven by the lifting plate to move upwards in the process of moving upwards, when the lifting plate moves to a height, a fourth hydraulic cylinder is started, a pushing plate is driven by the fourth hydraulic cylinder to push the formed fire-blocking brick to a guide plate, then the formed fire-blocking brick moves to a conveying belt through the guide plate, a motor is started at the moment, a rotating shaft is driven by the motor to move, a conveying belt is driven by the rotating shaft in the moving process, at the moment, the formed fire-blocking brick moves into a collecting box, at the moment, the use of the device is completed, when the inner box and the plate are required to be replaced, the screw holes are replaced by the first screw, then the screw is taken out of the lifting plate through the lifting plate, and then the screw can be replaced by the screw in the second screw box through the first screw, and then the screw can be taken out from the lifting plate through the lifting plate.

The invention provides automatic processing equipment for fire-blocking bricks. The beneficial effects are as follows:

according to the invention, through the design of the storage mechanism, the feeding mechanism, the pressing mechanism, the conveying mechanism and the collecting box, the effects of automatic molding and automatic transportation are achieved, and meanwhile, the effect of improving the working efficiency is achieved.

According to the invention, the first screw is taken out from the first screw hole in a mode of rotating the first screw, the sliding block is taken out from the sliding groove in a mode of pressing the plate, the inner box can be replaced at the moment, the second screw is taken out from the second screw hole in a mode of rotating the second screw, the lifting plate is taken out from the inner box, and the lifting plate can be replaced at the moment.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a schematic view of a part of the structure of a feeding mechanism of the present invention;

FIG. 4 is a schematic view of a portion of the transport mechanism according to the present invention;

fig. 5 is a schematic view of a part of the structure of the pressing mechanism of the present invention.

1, a storage mechanism; 101. a tank body; 102. a first bracket; 2. a feed mechanism; 201. a feed pipe; 202. a pump body; 203. a connecting pipe; 204. an inner tube; 205. a connecting ring; 206. fixing the column; 207. a first hydraulic cylinder; 208. a first fixing plate; 3. a material pressing mechanism; 301. a work table; 302. placing a box; 303. an inner case; 304. a limiting block; 305. a limit groove; 306. a lifting plate; 307. a second bracket; 308. a second hydraulic cylinder; 309. a connecting block; 310. a chute; 311. a slide block; 312. a pressing plate; 313. a first screw hole; 314. a first screw; 315. a third hydraulic cylinder; 316. a second screw hole; 317. a second screw; 318. a second fixing plate; 319. a fourth hydraulic cylinder; 320. a push plate; 321. a guide plate; 322. a third bracket; 4. a conveying mechanism; 401. a fourth bracket; 402. a turning hole; 403. a rotating shaft; 404. a conveyor belt; 405. a motor; 5. and (5) collecting a box.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Examples:

as shown in fig. 1-5, the embodiment of the invention provides an automatic processing device for fire-blocking bricks, which comprises a storage mechanism 1, wherein one side of the storage mechanism 1 is fixedly connected with a feeding mechanism 2, one side of the feeding mechanism 2 is provided with a pressing mechanism 3, one end of the pressing mechanism 3 is fixedly connected with a conveying mechanism 4, one end of the conveying mechanism 4 is provided with a collecting box 5, and the automatic forming and automatic conveying effects are achieved through the design of the storage mechanism 1, the feeding mechanism 2, the pressing mechanism 3, the conveying mechanism 4 and the collecting box 5.

The storage mechanism 1 comprises a tank body 101 and a first support 102, wherein the first support 102 is fixedly connected to the lower surface of the tank body 101, the effect of conveniently adding raw materials to the tank body 101 is achieved through the design, and meanwhile stability is provided for the tank body 101.

The inlet pipe 201 is fixedly connected to one side of the tank 101, the outer wall of the other side of the inlet pipe 201 is fixedly connected to the input end of the pump body 202, the output end of the pump body 202 is fixedly connected with the connecting pipe 203, the inner wall of the connecting pipe 203 is slidably connected with the inner pipe 204, the outer wall of the connecting pipe 203 is fixedly connected with the connecting ring 205, the lower surface of the connecting ring 205 is fixedly connected with the fixing column 206, the outer wall of the connecting ring 205 is fixedly connected with the first hydraulic cylinder 207, the output end of the first hydraulic cylinder 207 is fixedly connected with the first fixing plate 208, the first fixing plate 208 is fixedly connected to the outer wall of the inner pipe 204, the first hydraulic cylinder 207 is started, the first hydraulic cylinder 207 drives the inner pipe 204 to move to the upper surface of the inner box 303, then the pump body 202 is started, and raw materials in the tank 101 fall into the inner box 303 through the inner pipe 204.

The pressing mechanism 3 comprises a workbench 301, a placing box 302, an inner box 303, a limiting block 304, a limiting groove 305, a lifting plate 306, a second bracket 307, a second hydraulic cylinder 308, a connecting block 309, a sliding chute 310, a sliding block 311, a pressing plate 312, a first screw hole 313, a first screw 314, a third hydraulic cylinder 315, a second screw hole 316, a second screw 317, a second fixing plate 318, a fourth hydraulic cylinder 319, a push plate 320, a guide plate 321 and a third bracket 322, the upper surface of the workbench 301 is fixedly connected with the placing box 302, the inside of the placing box 302 is in sliding connection with the inner box 303, both ends of the inner box 303 are fixedly connected with the limiting block 304, the outer wall of the limiting block 304 is in sliding connection with the limiting groove 305, the limiting groove 305 is opened in the inside of the placing box 302, the inner wall of the inner box 303 is in sliding connection with the lifting plate 306, the upper surface of the workbench 301 is fixedly connected with the second bracket 307, the center of the lower surface of the second bracket 307 is fixedly connected with the second hydraulic cylinder 308, the output end of the second hydraulic cylinder 308 is fixedly connected with a connecting block 309, two sides of one end of the connecting block 309 are penetrated and provided with a sliding groove 310, the inner wall of the sliding groove 310 is slidably connected with a sliding block 311, the lower surface of the sliding block 311 is fixedly connected with a pressing plate 312, two sides of the connecting block 309 are provided with a first screw hole 313, the inner wall of the first screw hole 313 is in threaded connection with a first screw 314, two sides of the lower surface of the second bracket 307 are fixedly connected with a third hydraulic cylinder 315, the output end of the third hydraulic cylinder 315 is connected with a lifting plate 306, two sides of the lower surface of the lifting plate 306 are provided with a second screw hole 316, the inner wall of the second screw hole 316 is in threaded connection with a second screw 317, one end of the second bracket 307 is fixedly connected with a second fixing plate 318, one side of the second fixing plate 318 is fixedly connected with a fourth hydraulic cylinder 319, the output end of the fourth hydraulic cylinder 319 is fixedly connected with a pushing plate 320, one side of the placing box 302 is fixedly connected with a guide plate 321, the lower surface fixedly connected with third support 322 of workstation 301, the workstation 301 sets up the lower surface at inner tube 204, start second pneumatic cylinder 308, second pneumatic cylinder 308 drives the briquetting and extrudees raw and other materials, extrusion starts third pneumatic cylinder 315, third pneumatic cylinder 315 drives lifting plate 306 and upwards moves, lifting plate 306 upwards moves the in-process that moves, when lifting plate 306 moves to the height, start fourth pneumatic cylinder 319, fourth pneumatic cylinder 319 drives push pedal 320 and promotes the firestop after the shaping to the deflector 321, through this kind of design, the effect of automatic taking out the firestop has been reached, first screw 314 is taken out from first screw 313 through the mode of rotating first screw 314, then take out slider 311 from spout 310 through the mode of clamp plate 312, can change interior box 303 this moment, take out second screw 317 from second screw 316 through the mode of rotating second screw 317, then take out lifting plate 306 from interior box 303, can change board 306 this kind of design has reached the effect of convenient firestop, the different shapes, the firestop is small and light.

Conveying mechanism 4 includes fourth support 401, change hole 402, pivot 403, conveyor belt 404, motor 405, fourth support 401 fixed connection has been seted up in the one end of third support 322, change hole 402 has been run through to the both sides of fourth support 401, the inner wall rotation of change hole 402 is connected with pivot 403, the outer wall connection of pivot 403 has conveyor belt 404, the one end fixedly connected with motor 405 of pivot 403, motor 405 fixed connection is in the one end of fourth support 401, the one end of fourth support 401 is provided with collecting box 5, the effect of this device of convenient transportation has been reached through this kind of design.

The first screw hole 313 is formed in the slider 311, and the second screw hole 316 is formed in the third hydraulic cylinder 315.

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

Claims

1. Automatic processing equipment of firestop brick, including depositing mechanism (1), its characterized in that: one side fixedly connected with feed mechanism (2) of depositing mechanism (1), one side of feed mechanism (2) is provided with swager constructs (3), the one end fixedly connected with conveying mechanism (4) of swager constructs (3), the one end of conveying mechanism (4) is provided with collecting box (5).

2. An automated manufacturing apparatus for firestop bricks as defined in claim 1, wherein: the storage mechanism (1) comprises a tank body (101) and a first support (102), and the first support (102) is fixedly connected to the lower surface of the tank body (101).

3. An automated manufacturing apparatus for firestop bricks as defined in claim 1, wherein: the feeding mechanism (2) comprises a feeding pipe (201), a pump body (202), a connecting pipe (203), an inner pipe (204), a connecting ring (205), a fixing column (206), a first hydraulic cylinder (207) and a first fixing plate (208).

4. An automated manufacturing apparatus for firestop bricks as defined in claim 1, wherein: the utility model discloses a jar of jar body, including jar body (101) and connecting ring (205), inlet pipe (201) one side at jar body (101), the opposite side outer wall fixed connection of inlet pipe (201) is at the input of pump body (202), the output fixedly connected with connecting pipe (203) of pump body (202), the inner wall sliding connection of connecting pipe (203) has inner tube (204) the outer wall fixedly connected with go-between (205) of connecting pipe (203), the lower surface fixedly connected with fixed column (206) of go-between (205), the outer wall fixedly connected with first pneumatic cylinder (207) of go-between (205), the output fixedly connected with first fixed plate (208) of first pneumatic cylinder (207), first fixed plate (208) fixedly connected with is at the outer wall of inner tube (204).

5. An automated manufacturing apparatus for firestop bricks as defined in claim 1, wherein: the material pressing mechanism (3) comprises a workbench (301), a placing box (302), an inner box (303), a limiting block (304), a limiting groove (305), a lifting plate (306), a second bracket (307), a second hydraulic cylinder (308), a connecting block (309), a sliding groove (310), a sliding block (311), a pressing plate (312), a first screw hole (313), a first screw (314), a third hydraulic cylinder (315), a second screw hole (316), a second screw (317), a second fixing plate (318), a fourth hydraulic cylinder (319), a push plate (320), a guide plate (321) and a third bracket (322).

6. An automated manufacturing apparatus for firestop bricks as defined in claim 1, wherein: the upper surface fixedly connected with of workstation (301) places box (302) place the inside sliding connection of box (302) have interior box (303) the both ends fixedly connected with stopper (304) of interior box (303) the outer wall sliding connection of stopper (304) has spacing groove (305), the inside of placing box (302) is seted up in spacing groove (305), the inner wall sliding connection of interior box (303) has lifting plate (306), the upper surface fixedly connected with second support (307) of workstation (301), the lower surface center department fixedly connected with second pneumatic cylinder (308) of second support (307), the output fixedly connected with connecting block (309) of second pneumatic cylinder (308) the one end both sides of connecting block (309) run through and have seted up spout (310), spout (310) inner wall sliding connection has slider (311), the lower surface fixedly connected with clamp plate (312) of slider screw (311), first screw (313) are seted up to the both sides of connecting block (309), the lower surface fixedly connected with lifting plate (315) of first inner wall (313) has screw (315), the output fixedly connected with second pneumatic cylinder (315), second screw (316) have been seted up to lower surface both sides of lift plate (306), the inner wall threaded connection of second screw (316) has second screw (317), the one end fixedly connected with second fixed plate (318) of second support (307), one side fixedly connected with fourth pneumatic cylinder (319) of second fixed plate (318), the output fixedly connected with push pedal (320) of fourth pneumatic cylinder (319), one side fixedly connected with deflector (321) of placing box (302), the lower surface fixedly connected with third support (322) of workstation (301), workstation (301) set up the lower surface at inner tube (204).

7. An automated manufacturing apparatus for firestop bricks as defined in claim 1, wherein: conveying mechanism (4) are including fourth support (401), change hole (402), pivot (403), conveyer belt (404), motor (405), fourth support (401) fixed connection is in the one end of third support (322), change hole (402) have been seted up in the both sides of fourth support (401), the inner wall rotation of change hole (402) is connected with pivot (403), the outer wall connection of pivot (403) has conveyer belt (404), the one end fixedly connected with motor (405) of pivot (403), the one end at fourth support (401) of motor (405) fixed connection, the one end of fourth support (401) is provided with collecting box (5).

8. An automated manufacturing apparatus for firestop bricks as defined in claim 1, wherein: the first screw hole (313) is formed in the slider (311), and the second screw hole (316) is formed in the third hydraulic cylinder (315).