CN112757441A

CN112757441A - Preparation process of light foam concrete building block

Info

Publication number: CN112757441A
Application number: CN202110032376.0A
Authority: CN
Inventors: 赵宣; 于元鹏
Original assignee: Individual
Current assignee: Zhejiang Haiyuan New Building Materials Co ltd
Priority date: 2021-01-11
Filing date: 2021-01-11
Publication date: 2021-05-07
Anticipated expiration: 2041-01-11
Also published as: CN112757441B

Abstract

The invention relates to a preparation process of a light foam concrete block, which relates to the technical field of preparation processes of concrete blocks. According to the invention, the clamping state of the plurality of concrete blocks is kept stable by moving the clamping device and the cutting device, and the high-automation grading cutting of the cutting device is matched, so that the manual intervention degree is reduced, the cutting field is more uniform and stable, and the effects of reducing the labor intensity of operators and improving the uniformity and precision during cutting are realized; the clamping device and the cutting device are moved to match with manual work to adjust the relative positions of the clamped concrete blocks and the first cutting disc, the second cutting disc and the third cutting disc, so that the concrete blocks can be cut and processed into concrete blocks with different specifications.

Description

Preparation process of light foam concrete building block

Technical Field

The invention relates to the technical field of concrete blocks, in particular to a preparation process of a light foam concrete block.

Background

The foamed concrete is a novel light heat-insulating material containing a large number of closed air holes, which is formed by fully foaming a foaming agent in a mechanical mode through a foaming system of a foaming machine, uniformly mixing the foam with cement slurry, then carrying out cast-in-place construction or mould forming through a pumping system of the foaming machine and carrying out natural curing; the light foam concrete block is a novel building material which is light, porous, heat-insulating, good in fireproof performance, nailable, sawable, planeable and has certain shock resistance; after the concrete slurry is subjected to the processes of stirring, pouring and pre-curing, the concrete slurry needs to be cut and processed into concrete blocks with certain specifications.

At present, when a light foam concrete block is cut, a cutting disc fixedly placed is adopted to cut the mixed block placed on a conveying belt under the requirement of single specification processing; the method comprises the steps of manually clamping and cutting by using a cutting tool under the processing requirements of various specifications under the assistance of manpower, and then carrying out processes such as autoclaving, maintenance and the like for forming.

The above prior art solutions have the following drawbacks: the cutting disc and the conveying belt which are fixedly arranged can only cut the concrete blocks into concrete building blocks with fixed specification and size, the working range is small, and the concrete blocks are difficult to process into different specifications; processing under the requirement of different specifications, artifical dry degree is high, leads to intensity of labour big, and artifical when carrying out the centre gripping unstable enough, leads to cutting not enough even and the error great.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a preparation process of a light foam concrete block, which has the effects of realizing the processing of concrete blocks with different specification requirements in the preparation process of the concrete block, reducing the labor intensity of operators and improving the cutting uniformity and the cutting precision.

The above object of the present invention is achieved by the following technical solutions:

a preparation process of a light foam concrete block uses foam concrete block processing equipment which comprises a bottom plate, support frames, mounting frames, guide rail blocks, a movable clamping device and a cutting device, wherein the bottom plate is arranged on the ground, the support frames are symmetrically arranged on the bottom plate in two groups, the guide rail blocks are arranged at one ends of the support frames far away from the bottom plate, and the mounting frames are arranged at one sides of the guide rail blocks far away from the bottom plate;

the movable clamping device comprises clamping blocks, bidirectional cylinders, movable blocks, telescopic cylinders and a moving mechanism, wherein the movable blocks are symmetrically arranged on one side, close to each other, of the guide rail block, the movable blocks are connected with each other through the telescopic cylinders, the bidirectional cylinders are arranged on one sides, far away from each other, of the movable blocks, the clamping blocks are connected to two ends of each bidirectional cylinder and are arranged upwards, and the moving mechanism is arranged on the bottom plate and is connected with the movable blocks;

the cutting device comprises a first cutting disc, a second cutting disc, a third cutting disc, an installation block, a displacement mechanism, a driving mechanism and a water inlet mechanism, wherein the displacement mechanism is arranged on one side, close to each other, of a plurality of installation frames, the installation block is installed on the displacement mechanism, the first cutting disc, the second cutting disc and the third cutting disc are sequentially arranged on one side, close to each other, of the installation block, the first cutting disc is arranged close to the movable clamping device, the water inlet mechanism is arranged on the installation, and the output end of the water inlet mechanism is communicated with the inner side wall of the installation block;

the process for preparing the light foam concrete block by using the equipment comprises the following steps:

s1: equipment inspection, wherein before starting the foam concrete block processing equipment, the operation of the equipment is inspected;

s2: placing materials, clamping a plurality of concrete blocks subjected to stirring, pouring and pre-curing processes on a movable clamping device, starting a moving mechanism to move a plurality of concrete blocks to a cutting device, and opening a water inlet mechanism to cut the concrete blocks with water;

s3: moving and cutting, and starting a driving mechanism to sequentially cut a plurality of dry concrete blocks from shallow to deep;

s4: adjusting the specification to enable the cut concrete blocks to return to the initial positions, manually adjusting the positions of the concrete blocks or adjusting the positions of the mounting blocks through a displacement mechanism, and then cutting the concrete;

s5: repeating operations S3-S4 to cut concrete blocks of a desired specification;

s6: and (3) processing and forming: and (5) carrying out steam pressing and curing processes on the cut and processed concrete blocks to finish the preparation.

As a preferred technical scheme of the invention, the moving mechanism comprises a winding roller, a chain rope, supporting blocks and a winding motor, the supporting blocks are symmetrically arranged at two sides of the guide rail block in two groups, the winding roller is arranged at one side, close to each other, of each group of supporting blocks, the winding motor is arranged on the supporting block at one side, an output shaft of the winding motor is rotatably arranged on the supporting blocks in a penetrating manner and is connected with the winding roller, the chain rope is connected to one side, far away from each other, of the moving blocks, and one end, far away from the moving blocks, of the chain rope is.

As a preferred technical scheme, the displacement mechanism comprises a sliding block, a displacement screw rod and a displacement motor, wherein the plurality of displacement screw rods are arranged on one sides, close to each other, of the plurality of mounting frames, the sliding block is sleeved on the displacement screw rod in a threaded fit mode, and the mounting blocks are arranged on one sides, close to each other, of the plurality of sliding blocks.

As a preferred technical scheme of the present invention, the driving mechanism includes a high-speed motor and a plurality of speed reducers, the high-speed motor is mounted on the mounting block, the plurality of speed reducers are disposed on one side of the mounting block and are respectively connected to the first cutting disc, the second cutting disc and the third cutting disc, input ends of the plurality of speed reducers are in transmission connection in a belt transmission manner, and an output end of the high-speed motor is connected to an input end of the speed reducer on one side in a belt transmission manner.

As a preferred technical scheme, the water inlet mechanism comprises a liquid pump and a water inlet pipe, the liquid pump is arranged on the mounting block, the output end of the liquid pump penetrates through the mounting block and is communicated with the inner side wall of the mounting block, and the water inlet pipe is arranged at the input end of the liquid pump and is connected with the mounting block.

As a preferable technical scheme, the sliding block is provided with a sliding rod in a sliding and penetrating mode, and two ends of the sliding rod are connected with one side, close to the mounting frame.

In summary, the invention includes at least one of the following beneficial technical effects:

1. according to the invention, the clamping state of the plurality of concrete blocks is kept stable by moving the clamping device and the cutting device, and the high-automation grading cutting of the cutting device is matched, so that the manual intervention degree is reduced, the cutting field is more uniform and efficient, and the effects of reducing the labor intensity of operators and improving the uniformity and precision during cutting are realized;

2. the clamping device and the cutting device are moved and matched with manpower to adjust the relative positions of the clamped concrete blocks and the first cutting disc, the second cutting disc and the third cutting disc so as to achieve the effect of cutting and processing the concrete blocks into concrete blocks with different specification requirements;

3. according to the invention, the mounting block is controlled at high precision through the displacement mechanism and the slide rod, so that the effect of improving the stability during moving and cutting is realized;

4. according to the invention, the first cutting disk, the second cutting disk and the third cutting disk are used for carrying out stepped cutting from shallow to deep, so that the effect of improving the cutting efficiency is realized.

Drawings

FIG. 1 is a process flow diagram of the present invention.

FIG. 2 is a schematic diagram of a main structure of a first view angle of the present invention.

Fig. 3 is a schematic view of the main mechanism from a second perspective of the present invention.

Fig. 4 is a schematic structural view of the moving mechanism.

Fig. 5 is a schematic structural view of the mobile clamping device.

Fig. 6 is a schematic structural view of the displacement mechanism.

Fig. 7 is a schematic structural view of the drive mechanism.

Fig. 8 is a schematic structural view of the first cutting disk, the second cutting disk, the third cutting disk and the mounting block.

In the figure, 1, a bottom plate; 2. a support frame; 3. a mounting frame; 4. a guide rail block; 5. moving the clamping device; 6. a cutting device; 51. a clamping block; 52. a bidirectional cylinder; 53. a moving block; 54. a telescopic cylinder; 56. a moving mechanism; 61. a first cutting disc; 62. a second cutting disk; 63. a third cutting disc; 64. mounting blocks; 65. a displacement mechanism; 66. a drive mechanism; 67. a water inlet mechanism; 561. a winding roller; 562. a chain rope; 563. a support block; 564. a winding motor; 651. a sliding block; 652. a displacement screw rod; 653. a displacement motor; 661. a high-speed motor; 662. a speed reducer; 671. a liquid pump; 672. a water inlet pipe; 7. a slide bar.

Detailed Description

The present invention is described in further detail below with reference to figures 1-8.

The invention relates to a preparation process of a light foam concrete block, which uses foam concrete block processing equipment, wherein the equipment comprises a bottom plate 1, support frames 2, an installation frame 3, guide rail blocks 4, a movable clamping device 5 and a cutting device 6, the bottom plate 1 is arranged on the ground, the support frames 2 are symmetrically arranged on the bottom plate 1 in two groups, the guide rail blocks 4 are arranged at one ends of the support frames 2 far away from the bottom plate 1, and the installation frame 3 is arranged at one side of the guide rail blocks 4 far away from the bottom plate 1 so as to install the cutting device 6; in this embodiment, guide rail block 4 includes guide rail and connecting block, and the one end that bottom plate 1 was kept away from to support frame 2 is located to two guide rail symmetries to set up through connecting block fixed connection, the both ends of movable block 53 are spacing to slide in the one side that guide rail block 4 in both sides are close to each other, make movable block 53 remove under moving mechanism 56's drive, and drive if dry concrete block starts, is cut by cutting device 6.

The movable clamping device 5 comprises a clamping block 51, a bidirectional cylinder 52, moving blocks 53, telescopic cylinders 54 and a moving mechanism 56, wherein the moving blocks 53 are symmetrically arranged on one side of the guide rail block 4 close to each other, the moving blocks 53 are connected through the telescopic cylinders 54, one end of each telescopic cylinder 54 is embedded and installed on the corresponding moving block 53 on one side, and the other end of each telescopic cylinder 54 is fixedly connected with the corresponding moving block 53 on the opposite side; a bidirectional cylinder 52 is arranged on one side, away from each other, of the plurality of moving blocks 53, two ends of the bidirectional cylinder 52 are connected with clamping blocks 51, the clamping blocks 51 are arranged upwards, and the moving mechanism 56 is arranged on the bottom plate 1 and connected with the moving blocks 53; in this embodiment, the clamping block 51 is adjusted by the telescopic cylinder 54 and the bidirectional cylinder 52 to clamp and fix concrete blocks of different specifications and sizes, and the clamping position of the cut concrete block is adjusted in subsequent cutting, so that the effect of clamping concrete blocks of different specifications is realized.

The cutting device 6 comprises a first cutting disc 61, a second cutting disc 62, a third cutting disc 63, an installation block 64, a displacement mechanism 65, a driving mechanism 66 and a water inlet mechanism 67, wherein the displacement mechanism 65 is arranged on one side, close to each other, of the mounting frames 3, the installation block 64 is installed on the displacement mechanism 65, the first cutting disc 61, the second cutting disc 62 and the third cutting disc 63 are sequentially arranged on one side, close to each other, of the installation block 64, the first cutting disc 61 is arranged close to the movable clamping device 5, the water inlet mechanism 67 is arranged on the installation, and the output end of the water inlet mechanism is communicated with the inner side wall of the installation block 64; in the embodiment, the torsion force of the first cutting disk 61, the second cutting disk 62 and the third cutting disk 63 during rotation is sequentially reduced, a plurality of concrete blocks are sequentially cut through the first cutting disk 61, the second cutting disk 62 and the third cutting disk 63, the phenomenon that a single cutting disk is clamped or the cutting is uneven is prevented, the cutting efficiency is also improved, only a single drive is used, and the use cost is reduced; the water inlet mechanism 67 comprises a liquid pump 671 and a water inlet pipe 672, the liquid pump 671 is arranged on the mounting block 64, the output end of the liquid pump 671 penetrates through the mounting block 64 and is communicated with the inner side wall of the mounting block 64, the water inlet pipe 672 is arranged at the input end of the liquid pump 671 and is connected with the water inlet pipe, and the water inlet mechanism 67 is used for filling water into the mounting block 64 and reducing resistance during cutting to a certain extent, so that the cutting is smoother and the efficiency is higher; adjust the position of cutting through displacement mechanism 65, the cooperation removes clamping device 5 and is the concrete block of required specification with the concrete block cutting, has increased the application range of equipment, has reduced manufacturing cost, and concrete block remains fixed state throughout simultaneously to stability and homogeneity when guaranteeing the cutting reduce error and operating personnel's intensity of labour that artifical centre gripping brought.

The moving mechanism 56 comprises a winding roller 561, a chain rope 562, supporting blocks 563 and a winding motor 564, the supporting blocks 563 are symmetrically arranged at two sides of the guide rail block 4 in two groups, the winding roller 561 is arranged at one side, close to each other, of each group of the supporting blocks 563, the winding motor 564 is arranged on the supporting block 563 at one side, an output shaft of the winding motor 564 is rotatably arranged on the supporting blocks 563 in a penetrating manner and connected with the winding roller 561, the chain rope 562 is connected to one side, far away from each other, of the moving blocks 53, and one end, far away from the moving blocks 53, of the chain rope 562 is wound on; in this embodiment, the winding motors 564 on both sides rotate synchronously, and the plurality of moving blocks 53 move by pulling the chain rope 562, and move at a constant speed all the time in the moving process, so as to ensure the stability and uniformity during cutting.

The displacement mechanism 65 comprises a sliding block 651, a displacement screw rod 652 and a displacement motor 653, wherein the plurality of displacement screw rods 652 are arranged on one sides of the plurality of mounting brackets 3 close to each other, the sliding block 651 is sleeved on the displacement screw rods 652 and in threaded fit with the displacement screw rods 652, and the mounting block 64 is arranged on one side of the plurality of sliding blocks 651 close to each other; the sliding block 651 is slidably arranged on the sliding block 7 in a penetrating manner, and two ends of the sliding block 7 are connected with one side, close to the mounting rack 3, of the sliding block, so that the stability of the sliding block 651 during movement is improved; in this embodiment, the relative positions of the mounting block 64 and the concrete block are adjusted, so as to realize cutting into concrete blocks with different specifications.

The driving mechanism 66 comprises a high-speed motor 661 and a speed reducer 662, the high-speed motor 661 is mounted on the mounting block 64, the speed reducers 662 are arranged on one side of the mounting block 64 and are respectively connected with the first cutting disk 61, the second cutting disk 62 and the third cutting disk 63 so as to improve the torque force during rotation and prevent the cutting disks from being clamped, and a higher rotating speed can be still improved under the high-speed rotation of the high-speed motor 661; the input ends of the speed reducers 662 are in transmission connection in a belt transmission manner, and the output end of the high-speed motor 661 is connected with the input end of the speed reducer 662 on one side in a belt transmission manner; in this embodiment, through the mode of belt with reduce cutting disc and block the time and cause the damage to speed reducer 662, reduce the use to the drive simultaneously, reduction in production cost.

s2: placing materials, clamping a plurality of concrete blocks subjected to stirring, pouring and pre-curing processes on a movable clamping device 5, starting a moving mechanism 56 to move a plurality of concrete blocks to a cutting device 6, and opening a water inlet mechanism 67 to cut the concrete blocks with water;

s3: moving for cutting, and starting the driving mechanism 66 to sequentially cut a plurality of dry concrete blocks from shallow to deep;

s4: adjusting the specification to enable the cut concrete blocks to return to the initial positions, manually adjusting the positions of the concrete blocks or adjusting the positions of the mounting blocks 64 through the displacement mechanism 65, and then cutting the concrete;

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims

1. A preparation process of a light foam concrete block is characterized by comprising the following steps: the foam concrete block processing equipment comprises a bottom plate (1), support frames (2), an installation frame (3), guide rail blocks (4), a movable clamping device (5) and a cutting device (6), wherein the bottom plate (1) is arranged on the ground, the support frames (2) are symmetrically arranged on the bottom plate (1) in two groups, the guide rail blocks (4) are arranged at one ends of the support frames (2) far away from the bottom plate (1), and the installation frame (3) is arranged at one side of the guide rail blocks (4) far away from the bottom plate (1);

the movable clamping device (5) comprises clamping blocks (51), bidirectional cylinders (52), movable blocks (53), telescopic cylinders (54) and a moving mechanism (56), wherein the plurality of movable blocks (53) are symmetrically arranged on one side, close to each other, of the guide rail block (4), the plurality of movable blocks (53) are connected through the plurality of telescopic cylinders (54), the bidirectional cylinders (52) are arranged on one sides, far away from each other, of the plurality of movable blocks (53), the clamping blocks (51) are connected to two ends of each bidirectional cylinder (52), the clamping blocks (51) are arranged upwards, and the moving mechanism (56) is arranged on the bottom plate (1) and connected with the movable blocks (53);

the cutting device (6) comprises a first cutting disc (61), a second cutting disc (62), a third cutting disc (63), an installation block (64), a displacement mechanism (65), a driving mechanism (66) and a water inlet mechanism (67), wherein the displacement mechanism (65) is arranged on one side, close to each other, of a plurality of installation frames (3), the installation block (64) is installed on the displacement mechanism (65), the first cutting disc (61), the second cutting disc (62) and the third cutting disc (63) are sequentially arranged on one side, close to each other, of the installation block (64), the first cutting disc (61) is arranged close to the movable clamping device (5), the water inlet mechanism (67) is arranged on the installation, and the output end of the water inlet mechanism is communicated with the inner side wall of the installation block (64);

s2: placing materials, clamping a plurality of concrete blocks subjected to stirring, pouring and pre-curing processes on a movable clamping device (5), starting a moving mechanism (56) to move the concrete blocks to a cutting device (6), and opening a water inlet mechanism (67) to cut the concrete blocks with water;

s3: moving for cutting, and starting a driving mechanism (66) to sequentially cut a plurality of dry concrete blocks from shallow to deep;

s4: adjusting the specification to enable the cut concrete blocks to return to the initial positions, manually adjusting the positions of the concrete blocks or adjusting the positions of the mounting blocks (64) through a displacement mechanism (65), and then cutting the concrete;

2. The process for preparing a lightweight foamed concrete block according to claim 1, wherein: moving mechanism (56) are including winding roller (561), tether (562), supporting shoe (563) and winding motor (564), a plurality of supporting shoe (563) divide two sets of symmetries to locate the both sides of guide rail piece (4), and the one side that is close to each other between every group supporting shoe (563) is equipped with winding roller (561), is equipped with on supporting shoe (563) of one side winding motor (564), and winding motor (564)'s output shaft rotates and wears to locate supporting shoe (563) and be connected with winding roller (561), and one side that a plurality of movable blocks (53) kept away from each other is connected with tether (562), and the one end winding that the movable block (53) was kept away from in tether (562) is on winding roller (561).

3. The process for preparing a lightweight foamed concrete block according to claim 1, wherein: displacement mechanism (65) are equipped with a plurality of including sliding block (651), displacement lead screw (652) and displacement motor (653) in one side that a plurality of mounting brackets (3) are close to each other displacement lead screw (652), and the cover is established and screw-thread fit has on displacement lead screw (652) sliding block (651), one side that a plurality of sliding block (651) are close to each other is located in mounting block (64).

4. The process for preparing a lightweight foamed concrete block according to claim 1, wherein: the driving mechanism (66) comprises a high-speed motor (661) and a speed reducer (662), the high-speed motor (661) is installed on the installation block (64), the speed reducer (662) is arranged on one side of the installation block (64) and is connected with the first cutting disc (61), the second cutting disc (62) and the third cutting disc (63) respectively, the input ends of the speed reducers (662) are in transmission connection in a belt transmission mode, and the output end of the high-speed motor (661) is connected with the input end of the speed reducer (662) on one side in a belt transmission mode.

5. The process for preparing a lightweight foamed concrete block according to claim 1, wherein: water inlet mechanism (67) include liquid pump (671) and inlet tube (672), liquid pump (671) are located on installation piece (64), and the output wears to locate installation piece (64) and installation piece (64) inside wall and is linked together the setting, the input that liquid pump (671) were located in inlet tube (672) is connected the setting.

6. The process for preparing a lightweight foamed concrete block according to claim 3, wherein: the sliding block (651) is slidably arranged on the sliding block in a penetrating mode and is provided with a sliding rod (7), and two ends of the sliding rod (7) are connected with one side, close to the mounting rack (3), of the mounting rack.