CN114454302A - Concrete aerated building block production device - Google Patents

Abstract

The invention relates to the technical field of concrete aerated building blocks, in particular to a concrete aerated building block production device which comprises a processing cavity and an adding pipe orifice fixedly connected to the processing cavity, wherein a filter plate is connected in the adding pipe orifice in a sliding manner, a blocking cover is connected at the right end of the processing cavity in a sliding manner, a fixed sliding column is connected on the blocking cover in a sliding manner and is connected with the processing cavity in a sliding manner, two cross sliding plates are connected below the adding pipe orifice in a sliding manner, a telescopic rod I is fixedly connected on each cross sliding plate, each telescopic rod I is fixedly connected to the processing cavity, a storage cavity is fixedly connected at the left end of the processing cavity, a telescopic rod II is fixedly connected in the storage cavity, a cross push plate is fixedly connected on each telescopic rod II and is connected in the processing cavity in a sliding manner, the production device also comprises a plurality of cutting notches, the plurality of the cutting notches are uniformly arranged at the front end and the rear end of the processing cavity, the method has the beneficial effect that the concrete aerated building block can be efficiently processed.

Description

Concrete aerated building block production device

Technical Field

The invention relates to the technical field of concrete aerated building blocks, in particular to a production device of a concrete aerated building block.

Background

The aerated concrete block is a porous silicate product prepared by using siliceous materials and calcareous materials as main raw materials, adding a gas former, adding water and stirring, forming pores through chemical reaction, and performing casting molding, precuring cutting, autoclaved curing and other technical processes.

Disclosure of Invention

The invention relates to the technical field of concrete aerated building blocks, in particular to a production device of a concrete aerated building block.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a concrete aerated block apparatus for producing, includes the interpolation mouth of pipe of process chamber and fixed connection on the process chamber, adds the mouth of pipe sliding connection and has the filter, and the right-hand member sliding connection of process chamber has the shutoff lid, and sliding connection has solid traveller, solid traveller and process chamber sliding connection are covered in the shutoff.

Furthermore, add orificial below sliding connection has two cross slides, equal fixedly connected with telescopic link I on two cross slides, and the equal fixed connection of two telescopic link I is on the process chamber.

Further, the left end fixedly connected with of process chamber stores the chamber, stores intracavity fixedly connected with telescopic link II, the horizontal push pedal of fixedly connected with on the telescopic link II, horizontal push pedal sliding connection is in the process intracavity.

Further, the production device further comprises a plurality of cutting notches, and the plurality of cutting notches are uniformly arranged at the front end and the rear end of the processing cavity.

Further, apparatus for producing still includes and violently holds in the palm the traveller, the bearing even board, stores the chamber and cuts the cutting board, violently hold in the palm the traveller and be provided with two, two violently hold in the palm the equal fixed connection of traveller at the front end in processing chamber, the bearing even board with two violently hold in the palm traveller sliding connection, the bearing is even a plurality of storage chambeies of fixedly connected with on the board, the equal sliding connection in a plurality of storage intracavity has the cutting board.

Furthermore, the production device further comprises a linkage plate and a cutting screw rod, the linkage plate is fixedly connected to the bearing connecting plate, the cutting screw rod is connected to the linkage plate through threads, and the machining cavity is rotatably connected with the cutting screw rod.

Further, apparatus for producing still includes sliding column group, stifled smooth frame and spacing smooth frame, the equal fixedly connected with sliding column group in four corners department of process chamber front end, four sliding column group divide into about two sets ofly, and equal fixedly connected with blocks up smooth frame on two sets of sliding column groups, four spacing smooth frames of fixedly connected with on the process chamber, four spacing smooth frames respectively with two stifled smooth frame sliding connection.

Further, apparatus for producing still includes extrusion traveller, shutoff board and stopper slide, the extrusion traveller is provided with two, and two equal fixed connection of extrusion traveller are in the rear end of process chamber, shutoff board and two extrusion traveller sliding connection, and a plurality of slide of stopping up of fixedly connected with on the shutoff board, a plurality of slide of stopping up of sliding connection respectively are in a plurality of cutting notches that are located the rear end.

Further, apparatus for producing still includes contact plectane II and contact plectane I, equal fixedly connected with contact plectane II on two stifled smooth frames, two contact plectanes I of fixedly connected with on the bearing link board, two contact plectanes II contact with two contact plectanes I respectively.

Further, apparatus for producing still includes bent even board, notch and bent even board, and two bent even boards of fixedly connected with on the shutoff board all are provided with the notch on two bent even boards, and two bent even boards of fixedly connected with on the bearing even board, two bent even boards difference sliding connection are in two notches.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural view of an embodiment of the production of an aerated concrete block;

FIG. 2 is another schematic structural view of an embodiment of the production of an aerated concrete block;

FIG. 3 is a schematic cross-sectional profile view of an embodiment of a concrete aerated block production;

FIG. 4 is a schematic diagram of an embodiment of extruding a material;

FIG. 5 is a schematic diagram of a configuration of an embodiment for adding material to a device;

FIG. 6 is a schematic structural view of an embodiment for plugging the posterior end;

FIG. 7 is a schematic structural view of an embodiment of cutting a finished aerated concrete block;

FIG. 8 is a schematic structural view of an embodiment of plugging the front end;

FIG. 9 is a schematic view of a cutting embodiment;

FIG. 10 is a schematic structural view of an embodiment of the drive linkage of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The following detailed description is made with reference to fig. 1-3 and 5, and the concrete aerated block production device comprises a processing chamber 101, an adding pipe orifice 102, a filter plate 103, a blocking cover 104 and a fixed sliding column 105, wherein the adding pipe orifice 102 is fixedly connected to the processing chamber 101 through welding, the filter plate 103 is slidably connected to the adding pipe orifice 102 through a counter bore, the blocking cover 104 is slidably connected to the right end of the processing chamber 101, the fixed sliding column 105 is slidably connected to the processing chamber 101, and the fixed sliding column 105 is slidably connected to the blocking cover 104.

Furthermore, a plurality of supporting legs are fixedly connected below the processing cavity 101, the supporting and fixing treatment of the processing cavity 101 is realized by the aid of the supporting legs below the processing cavity 101, the processing cavity 101 is stably placed on the ground, production of the concrete aerated block can be realized in the processing cavity 101, a round through hole is formed above the processing cavity 101, the adding pipe orifice 102 is communicated with the round through hole in the processing cavity 101, production materials of the concrete aerated block can be added into the adding pipe orifice 102, the materials can finally enter the processing cavity 101, when the materials are placed in the adding pipe orifice 102, the materials firstly fall onto the filter plate 103, a plurality of filter holes are formed in the filter plate 103, the filter plate 103 can be used for filtering the materials, the materials falling into the processing cavity 101 are guaranteed to be qualified materials, a handle can be fixedly connected on the filter plate 103, and the filter plate 103 can be conveniently taken out by the handle, utilize the shutoff lid 104 to realize sheltering from the opening of machining chamber 101 right-hand member, make things convenient for the material to discharge from the right-hand member of machining chamber 101, and utilize solid traveller 105 to realize the fixed processing to shutoff lid 104, prevent that shutoff lid 104 from machining chamber 101 right-hand member landing, after the material carries out machining chamber 101, the material can cool off in machining chamber 101, treat that the material cools off the back that solidifies, can accomplish the processing of concrete aerated block.

The following detailed description is made with reference to fig. 1 to 3 and 5, the production apparatus further includes two cross sliding plates 201 and two telescopic rods I202, the two cross sliding plates 201 are both slidably connected below the adding pipe orifice 102, the two telescopic rods I202 are respectively connected with the two cross sliding plates 201 through welding and fixing, and the two telescopic rods I202 are both connected to the processing cavity 101 through welding and fixing.

Further, the below that adds mouth of pipe 102 is provided with penetrating breach, this breach on adding the mouth of pipe 102 can provide gliding space for two cross sliding plate 201, utilize two cross sliding plate 201 can realize carrying out the shutoff to the round through-hole on the processing chamber 101, at this moment the material will be unable round through-hole from the processing chamber 101 to flow, after processing chamber 101 is filled with the material, can utilize two cross sliding plate 201 to carry out the shutoff to the round through-hole on the processing chamber 101, and two telescopic link I202 can drive two cross sliding plate 201 respectively and remove, removal through two cross sliding plate 201, whether change carries out the shutoff to the round through-hole on the processing chamber 101 and handles.

The following detailed description is provided with reference to fig. 1 to 4, the production apparatus further includes a storage cavity 301, a telescopic rod II302 and a horizontal push plate 303, the storage cavity 301 is connected to the left end of the processing cavity 101 through welding, the telescopic rod II302 is connected to the storage cavity 301 through welding, the horizontal push plate 303 is connected to the telescopic rod II302 through welding, and the horizontal push plate 303 is slidably connected to the processing cavity 101.

Further, the storage cavity 301 can provide a fixed space for the telescopic rod II302, and the telescopic rod II302 can drive the horizontal pushing plate 303 to slide in the processing cavity 101, and the horizontal pushing plate 303 can slide in the processing cavity 101, can realize the extrusion treatment of the material in the processing cavity 101, further ensure that no bubble remains in the material in the processing cavity 101, enhance the quality of the processed concrete aerated block, after the material is completely solidified in the processing chamber 101, the material in the processing chamber 101 needs to be taken out, the stationary sliding column 105 can now be disengaged from the process chamber 101, allowing the closure cap 104 to be removed, at this time, the telescopic rod II302 is started and drives the transverse push plate 303 to move rightwards, the processed concrete aerated block in the processing cavity 101 can be taken out from the opening at the right end of the processing cavity 101 by utilizing the rightwards movement of the transverse push plate 303, and the processed concrete aerated block can be cut as required.

Referring to fig. 1-3 and the detailed description below, the production apparatus further includes a plurality of cutting notches 401, where the cutting notches 401 are uniformly disposed at the front end and the rear end of the processing cavity 101.

Further, be provided with a plurality of cutting notch 401's purpose, the convenient aerated concrete block who accomplishes processing is cut and is handled, ensures that the aerated concrete block who follows processing chamber 101 right-hand member opening exhaust can be put into use, need not the later stage and cutting the aerated concrete block and handle, further reduces the process time of aerated concrete block, promotes aerated concrete block's machining efficiency.

The following detailed description that combines fig. 1-3, 7 and 9, the apparatus for producing still includes and violently holds in the palm traveller 402, the even board 403 of bearing, storage chamber 404 and cutting board 405, violently hold in the palm traveller 402 and be provided with two, and two violently hold in the palm travelers 402 all are connected at the front end of processing chamber 101 through welded fastening, and the bearing is even board 403 and two and violently hold in the palm traveller 402 sliding connection, and the bearing is even connected with a plurality of storage chambers 404 through welded fastening on the board 403, and equal sliding connection has cutting board 405 in a plurality of storage chambers 404.

Further, the two cross support sliding columns 402 can be used as a sliding space for the bearing connecting plate 403, and limit the bearing connecting plate 403, so that the bearing connecting plate 403 can only slide back and forth, the bearing connecting plate 403 can provide a fixed space for the storage cavities 404, the storage cavities 404 can provide a connecting space for the cutting plates 405, the storage cavities 404 and the cutting plates 405 are fixedly connected through fixing bolts, it is ensured that the cutting plates 405 can move along with the storage cavities 404, and the ends of the cutting plates 405 close to the processing cavity 101 are all provided with cutting edges, so that the cutting plates 405 can generate larger cutting force, the positions of the cutting plates 405 are in one-to-one correspondence with the positions of the cutting notches 401, after the aerated concrete block in the processing cavity 101 is produced, the cutting plates 405 can slide towards the cutting notches 401, and accordingly, the aerated concrete block processed in the processing cavity 101 can be cut, and according to the width of required concrete aerated block, can adjust a plurality of cutting boards 405, can take off a plurality of cutting boards 405 several to change the cutting width, use this device can accomplish the concrete aerated block who processes out different width.

As will be described in detail with reference to fig. 1-3, 7 and 9, the production apparatus further includes a linkage plate 406 and a cutting screw 407, the linkage plate 406 is fixedly connected to the support connecting plate 403 by welding, the cutting screw 407 is connected to the linkage plate 406 by a screw, and the processing chamber 101 is rotatably connected to the cutting screw 407 by a bearing seat plate.

Further, linkage plate 406 can provide the space of connecting for cutting lead screw 407, fixed connection bearing seat board on the process chamber 101, this bearing seat board can provide the pivoted space for cutting lead screw 407, and fixedly connected with gear motor on this bearing seat board, this gear motor's output shaft and cutting lead screw 407 fixed connection, start gear motor and can drive cutting lead screw 407 and rotate, and pivoted cutting lead screw 407 accessible linkage plate 406 drives the bearing and links board 403 and carry out horizontal slip, and lateral shifting's bearing links board 403 can drive a plurality of cutting boards 405 and remove, the realization is handled the cutting of concrete aerated block.

The following detailed description is provided with reference to fig. 1-3 and 7-8, the production apparatus further includes a sliding column set 501, a sliding blocking frame 502 and a sliding limiting frame 503, four corners of the front end of the processing cavity 101 are respectively connected with the sliding column set 501 through welding, the four sliding column sets 501 are divided into a left group and a right group, the two sliding column sets 501 are respectively connected with the sliding blocking frame 502 through welding, the processing cavity 101 is connected with the four sliding limiting frames 503 through welding, and the four sliding limiting frames 503 are respectively connected with the two sliding blocking frames 502 in a sliding manner.

Further, traveller group 501 comprises traveller and sliding chamber, traveller sliding connection is in the sliding chamber, all the cover is equipped with the spring on four traveller groups 501, utilize the elasticity that four springs produced to act on two stifled smooth frames 502, let two stifled smooth frames 502 contacts, at this moment two stifled smooth frames 502 can realize carrying out the shutoff to a plurality of cutting notch 401 of process chamber 101 front end and handle, ensure that the material in process chamber 101 can not flow from a plurality of cutting notch 401 of front end, and utilize four spacing smooth frames 503 can realize the spacing processing to two stifled smooth frames 502, prevent that two stifled smooth frames 502 from heeling, the influence is to the shutoff effect to a plurality of cutting notch 401 that are located the front end.

The following describes in detail with reference to fig. 1-3 and 7-8, the production apparatus further includes two extrusion sliding columns 601, two plugging plates 602 and two plug sliding plates 603, the two extrusion sliding columns 601 are both fixedly connected to the rear end of the processing chamber 101 by welding, the plugging plates 602 are slidably connected to the two extrusion sliding columns 601, the plugging plates 602 are fixedly connected to the plurality of plug sliding plates 603, and the plurality of plug sliding plates 603 are respectively slidably connected to the plurality of cutting notches 401 located at the rear end.

Further, two extrusion travelers 601 can provide gliding space for shutoff board 602, and carry out spacing processing to it, let shutoff board 602 slide around only, and all the cover is equipped with the spring on two extrusion travelers 601, the elasticity that utilizes the spring to produce can be used on shutoff board 602, let shutoff board 602 and process chamber 101 contact, at this moment a plurality of shutoff boards 602 can sliding connection in a plurality of cutting notch 401 that are located the rear end, realize the shutoff processing to a plurality of cutting notch 401 that are located the rear end, prevent that the material in the process chamber 101 from flowing out from a plurality of cutting notch 401 of rear end, further save material, avoid causing the waste of material.

The following describes in detail with reference to fig. 7 to 10, the production apparatus further includes a contact circular plate II504 and a contact circular plate I505, the two blocking frames 502 are fixedly connected with the contact circular plate II504 by welding, the supporting connecting plate 403 is fixedly connected with the two contact circular plates I505 by welding, and the two contact circular plates II504 are respectively in contact with the two contact circular plates I505.

Further, when the bearing is even board 403 and is removed, can drive two contact plectanes I505 and remove, and can realize the extrusion processing to two contact plectanes II504 when two contact plectanes I505 remove, two contact plectanes II504 at this moment can drive two stifled smooth frames 502 and outwards remove, let four slide column groups 501 retrieve, when two stifled smooth frames 502 outwards slide, can expose a plurality of cutting notch 401 that are located the front end, make things convenient for a plurality of cutting boards 405 to advance to be located a plurality of cutting notch 401 of front end, the realization is cut the processing to the concrete aerated block of processing completion in the process chamber 101.

The following description is made in conjunction with fig. 6, 7, 9 and 10, the production apparatus further includes a curved connecting plate 701, a notch 702 and a curved connecting plate 703, the plugging plate 602 is connected with the two curved connecting plates 701 through welding, the two curved connecting plates 701 are both provided with the notch 702, the bearing connecting plate 403 is connected with the two curved connecting plates 703 through welding, and the two curved connecting plates 703 are respectively connected in the two notches 702 in a sliding manner.

Further, when the two curved connecting plates 703 are slidably connected into the two notches 702, the curved connecting plates 701 can be fixed, the positions of the blocking plates 602 at this time can be fixed, even if a large pressure is generated in the processing cavity 101, the blocking plates 602 can not slide out of the cutting notches 401 at the rear end, so that the blocking effect is realized, when the support connecting plate 403 moves, the two curved connecting plates 703 can be driven to move, when the two curved connecting plates 703 move, the fixation of the blocking plates 602 is released, when the moving cutting plates 405 move out of the cutting notches 401 at the rear end, so that the complete cutting processing of the concrete aerated block can be realized.

Claims (10)

1. The utility model provides a concrete aerated block apparatus for producing which characterized in that: the machining device comprises a machining cavity (101) and an adding pipe orifice (102) fixedly connected to the machining cavity (101), wherein a filter plate (103) is connected to the adding pipe orifice (102) in a sliding mode, a blocking cover (104) is connected to the right end of the machining cavity (101) in a sliding mode, a fixed sliding column (105) is connected to the blocking cover (104) in a sliding mode, and the fixed sliding column (105) is connected with the machining cavity (101) in a sliding mode.

2. The aerated concrete block production device of claim 1, wherein: the lower part of the adding pipe orifice (102) is connected with two cross sliding plates (201) in a sliding mode, the two cross sliding plates (201) are fixedly connected with telescopic rods I (202), and the two telescopic rods I (202) are fixedly connected to the processing cavity (101) in a fixed mode.

3. The aerated concrete block production device of claim 1, wherein: the left end fixedly connected with of processing chamber (101) stores chamber (301), stores fixedly connected with telescopic link II (302) in chamber (301), and horizontal push pedal (303) of fixedly connected with is gone up in telescopic link II (302), and horizontal push pedal (303) sliding connection is in processing chamber (101).

4. The aerated concrete block production device of claim 1, wherein: the front end and the rear end of the processing cavity (101) are provided with a plurality of cutting notches (401).

5. The aerated concrete block production device of claim 4, wherein: the front end fixedly connected with of processing chamber (101) violently holds in the palm traveller (402), and sliding connection has a bearing even board (403) on two violently hold in the palm travellers (402), and a plurality of storage chambeies of fixedly connected with (404) are gone up to bearing even board (403), and equal sliding connection has cutting board (405) in a plurality of storage chambeies (404).

6. The aerated concrete block production device of claim 5, wherein: the bearing connecting plate (403) is fixedly connected with a linkage plate (406), the linkage plate (406) is connected with a cutting screw rod (407) through threads, and the cutting screw rod (407) is rotatably connected with the processing cavity (101).

7. The aerated concrete block production device of claim 4, wherein: the four corners of the front end of the processing cavity (101) are fixedly connected with sliding column groups (501), the four sliding column groups (501) are divided into a left group and a right group, and the two sliding column groups (501) are fixedly connected with blocking and sliding frames (502).

8. The aerated concrete block production device of claim 4, wherein: the rear end fixedly connected with of processing chamber (101) has two extrusion travelers (601), and sliding connection has shutoff board (602) on two extrusion travelers (601), and a plurality of stopper slides (603) of fixedly connected with are gone up in shutoff board (602), and a plurality of stopper slides (603) are sliding connection respectively in a plurality of cutting notch (401) that are located the rear end.

9. The aerated concrete block production device of claim 7, wherein: two contact circular plates I (505) are fixedly connected to the bearing connecting plate (403), two blocking and sliding frames (503) are fixedly connected to contact circular plates II (504), and the two contact circular plates I (505) are respectively contacted with the two contact circular plates II (504).

10. The aerated concrete block production device of claim 8, wherein: two bent connecting plates (701) are fixedly connected to the plugging plate (602), notches (702) are formed in the two bent connecting plates (701), two bent connecting plates (703) are fixedly connected to the bearing connecting plate (403), and the two bent connecting plates (703) are respectively connected into the two notches (702) in a sliding mode.

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