CN112207964A - Processing system for aerated concrete block forming preparation - Google Patents

Abstract

The invention relates to a processing system for aerated concrete block forming preparation, which comprises a lifting demoulding mechanism, an electric switching rotary table, a cleaning walking mechanism, an adherence carrying mechanism and a cleaning mechanism, wherein the lifting demoulding mechanism is arranged on the lifting demoulding mechanism; the lifting demolding mechanism comprises a device plate, two demolding cylinders vertically fixed at the top end of the device plate, four guide pillars vertically and fixedly arranged at the bottom end of the device plate in a rectangular vertex distribution mode, a square lifting frame vertically and slidably arranged on the four guide pillars, and four bearing mechanisms arranged at the four side wall ends of the lifting frame in a one-to-one correspondence mode, wherein the cleaning mechanism comprises an L-shaped fixing frame, a cleaning driving motor, a cleaning roller and a passive material shaking mechanism; the invention can complete the general demoulding operation, and can timely and automatically complete the cleaning of the slurry on the inner wall of the mould frame after the demoulding operation is completed, thereby avoiding the dry and hard of the slurry and reducing the difficulty and trouble of the cleaning of the mould frame.

Description

Processing system for aerated concrete block forming preparation

Technical Field

The invention relates to the technical field of production and processing of building materials, and particularly provides a processing system for forming and preparing an aerated concrete block.

Background

The aerated 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. As early as thirty years, China starts to produce the product, and the product is widely used in high-rise frame structure buildings and is an excellent novel building material. Compared with the traditional concrete block, the aerated concrete block has the advantages of light weight, high strength, good heat preservation and heat insulation performance, good earthquake resistance, good workability, high temperature resistance, good sound insulation performance and the like, thereby being popularized and used in the field of modern building materials.

The aerated concrete block is produced and manufactured by the processing steps of raw material preparation, raw material storage, reinforcing mesh processing, ingredient stirring, slurry pouring, static curing, blank demoulding, cutting forming, heat preservation autoclaving, kettle discharging and the like, wherein in the blank demoulding process, the aerated concrete blank formed by static curing and swelling is separated from a mould frame of a forming mould, in the production process of the aerated concrete block, in order to improve the smoothness of demoulding and ensure the integrity of the outer surface wall of the aerated concrete blank after demoulding as much as possible, the mould frame for forming generally needs to clean the inner wall after use and spray oil on the inner wall after cleaning, and slurry residue is inevitably formed on the inner wall of the mould frame in the actual production process, and the slurry on the inner wall of the mould frame is not cleaned in time in the traditional processing process after demoulding, so that the slurry often dries out and adds difficulty and trouble to subsequent cleaning.

Based on the problems, the invention provides a processing system for forming and preparing an aerated concrete block.

Disclosure of Invention

In order to solve the above problems, the present invention provides a processing system for aerated concrete block molding preparation, which solves the above problems mentioned in the background art.

In order to achieve the purpose, the invention adopts the following technical scheme to realize the purpose: a processing system for forming and preparing aerated concrete blocks comprises a lifting and demolding mechanism, an electric switching turntable, a cleaning and walking mechanism, an adherence carrying mechanism and a cleaning mechanism; wherein:

the lifting demolding mechanism comprises a device plate, two demolding cylinders vertically fixed at the top end of the device plate, four guide pillars distributed at rectangular vertexes and vertically and fixedly installed at the bottom end of the device plate, a square lifting frame vertically and slidably arranged on the four guide pillars, and four supporting mechanisms arranged at the four side wall ends of the lifting frame in a one-to-one correspondence manner, wherein the lifting frame is fixedly connected with the output ends of the two demolding cylinders;

bearing mechanism includes fixed mounting bearing carry cylinder on the carriage lateral wall and with bearing carry cylinder output fixed connection's bearing board, bearing board is located the carriage inboard just is L shape, be provided with on the vertical board lateral wall of bearing board two with a guide arm that the carriage horizontal slip set up, the front end position level of the horizontal plate of bearing board rotates and is provided with the adherence roller, the upper end level tangent plane of adherence roller with the horizontal plate up end of bearing board flushes.

The electric switching rotary table is inversely and fixedly arranged at the central position of the device table, the cleaning travelling mechanism is positioned below the device plate and is fixedly connected with a rotating part of the electric switching rotary table, the cleaning travelling mechanism comprises a travelling beam capable of horizontally moving, the wall-attached carrying mechanisms are arranged at two ends of the travelling beam in a mirror symmetry manner, the cleaning mechanisms are correspondingly arranged on the two wall-attached carrying mechanisms, and the two cleaning mechanisms are arranged in a mirror symmetry manner;

the adherent carry mechanism comprises a carry plate capable of carrying horizontally, the cleaning mechanism comprises an L-shaped fixing frame, a cleaning driving motor, a cleaning roller and a passive material shaking mechanism, the fixing frame is fixedly connected to the carry plate, the cleaning driving motor is fixedly installed on the horizontal plate of the fixing frame in an inverted mode, a driving gear is arranged on an output shaft of the cleaning driving motor, the cleaning roller comprises a square roller core, four fan-ring brush plates and eight reset springs, a rotating shaft of the roller core is vertically and rotatably installed on the horizontal plate of the fixing frame, a driven gear meshed with the driving gear is arranged on the rotating shaft of the roller core, the four fan-ring brush plates are distributed on four side positions of the roller core in a one-to-one correspondence mode, two vertically distributed pin shafts are vertically arranged on the inner arc surface of each fan-ring brush plate, and the fan-ring brush plates are horizontally arranged with the side wall of the roller core through the two pin shafts in a sliding mode, the two ends of the return spring are fixedly connected between the side wall of the roller core and the inner cambered surface of the fan ring brush plate; passive material mechanism of trembling includes fixed mounting tremble material carry cylinder on the lateral wall of the vertical board of mount and with tremble material carry cylinder output end fixed connection's top and touch the board, the top touches the board and is located the mount inboard with between the cleaning roller, the top touch panel towards the position that is located near upper and lower both ends on the lateral wall of cleaning roller corresponds and is provided with the semicircle arch.

Preferably, the cleaning walking mechanism further comprises a guide rail beam horizontally and fixedly installed on the rotating end face of the electric switching rotary table, a walking driving motor fixedly installed at the outer end of the guide rail beam and a lead screw horizontally and rotatably installed on the guide rail beam, the lead screw is fixedly connected with an output shaft of the walking driving motor, and the walking beam is horizontally arranged on the guide rail beam in a sliding mode and is in threaded connection with the lead screw.

Preferably, adherence carry mechanism still include vertical fixed mounting fixed plate, fixed mounting at walking beam tip the adherence carry cylinder and two horizontal slip settings of fixed plate back end are in No. two guide arms on the fixed plate, the carry plate is located the leading flank of fixed plate and with the output fixed connection of adherence carry cylinder, two No. two guide arms with carry plate fixed connection.

Preferably, the bristles are uniformly distributed on the outer arc surface of the fan ring brush plate.

The technical scheme has the following advantages or beneficial effects:

1. according to the invention, the detachment of an aerated concrete blank from a mold frame can be automatically completed on the premise of ensuring the demolding quality through the arranged lifting demolding mechanism, the cleaning mechanism connected with the lifting demolding mechanism can be correspondingly driven to be in effective contact with the inner wall of the mold frame through the arranged two adherence carrying mechanisms, after demolding is completed, the two cleaning mechanisms can be driven to automatically clean along two inner walls of the mold frame through the arranged cleaning travelling mechanism, the rotary switching is completed through the arranged electric switching rotary table, and the automatic cleaning of the other two side walls of the mold frame is randomly completed; in conclusion, the invention can complete the general demoulding operation, and can timely and automatically complete the cleaning of the slurry on the inner wall of the mould frame after the demoulding operation is completed, thereby avoiding the dry knot of the slurry and reducing the difficulty and trouble of the mould frame cleaning.

2. The cleaning mechanism is internally provided with the passive material shaking mechanism, so that the bristles on the sector ring brush plate can be automatically cleaned in time and quickly by the passive material shaking mechanism in the rotating cleaning process of the cleaning roller, and the bristles can be continuously and normally used.

Drawings

The invention and its features, aspects and advantages will become more apparent from reading the following detailed description of non-limiting embodiments with reference to the accompanying drawings. The drawings, in which like numerals refer to like parts throughout the several views and which are not necessarily drawn to scale, emphasis instead being placed upon illustrating the principles of the invention.

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

FIG. 2 is a side view of the present invention from one perspective;

FIG. 3 is a side view of the present invention from another perspective;

FIG. 4 is a schematic perspective view of the cleaning mechanism;

FIG. 5 is a top view of the cleaning mechanism;

fig. 6 is a cross-sectional view at a-a in fig. 5.

In the figure: 1. lifting the demoulding mechanism; 11. a mounting plate; 12. a demoulding cylinder; 13. a guide post; 14. a lifting frame; 15. a support mechanism; 151. a carry cylinder is supported; 152. a support plate; 1521. a first guide rod; 1522. an adherence roller; 2. an electric switching turntable; 3. cleaning the travelling mechanism; 31. a guide rail beam; 32. a travel driving motor; 33. a lead screw; 34. a walking beam; 4. a carry mechanism attached to the wall; 41. a fixing plate; 42. carry cylinder attached to wall; 43. a position-entering plate; 44. a second guide rod; 5. a cleaning mechanism; 51. a fixed mount; 52. cleaning the driving motor; 521. a drive gear; 53. cleaning the roller; 531. a roll core; 5311. a driven gear; 532. a fan ring brush plate; 5321. a pin shaft; 533. a return spring; 54. a passive material shaking mechanism; 541. a material shaking carry cylinder; 542. a top touch plate; 5421. the semicircle is convex.

Detailed Description

The following detailed description of the embodiments of the present invention will be given with reference to the accompanying drawings for the purpose of providing those skilled in the art with a more complete, accurate and thorough understanding of the concept and technical solution of the present invention, and to facilitate the implementation thereof, but not to limit the present invention.

Referring to the attached drawings 1-6, a processing system for aerated concrete block forming preparation comprises a lifting and demolding mechanism 1, an electric switching rotary table 2, a cleaning travelling mechanism 3, an adherence carrying mechanism 4 and a cleaning mechanism 5;

the lifting demoulding mechanism 1 comprises a device plate 11, two demoulding cylinders 12 vertically fixed at the top end of the device plate 11 through bolts, four guide posts 13 distributed at rectangular vertexes and vertically welded and fixedly installed at the bottom end of the device plate 11, a square lifting frame 14 vertically and slidably arranged on the four guide posts 13, and four supporting mechanisms 15 arranged at the four side wall ends of the lifting frame 14 in a one-to-one correspondence manner, wherein the lifting frame 14 is fixedly connected with the output ends of the two demoulding cylinders 12; the device plate 11 can be assembled on the existing horizontal moving frame, and when demoulding is carried out, the horizontal moving frame drives the whole lifting demoulding mechanism 1 to move to the position above a mould formed with an aerated concrete blank.

Bearing mechanism 15 includes through bolt fixed mounting bearing carry cylinder 151 on the lift frame 14 lateral wall and with bearing carry cylinder 151 output end fixed connection's bearing board 152, bearing board 152 is located lift frame 14 inboard and is the L shape, be provided with two guide arms 1521 that set up with lift frame 14 horizontal slip on the vertical board lateral wall of bearing board 152, the front end position level of the horizontal plate of bearing board 152 rotates and is provided with adherence roller 1522 (adherence roller 1522 accessible rolling contact reduces friction, can avoid scraping the die frame simultaneously), the upper end level tangent plane of adherence roller 1522 flushes with the horizontal plate up end of bearing board 152. When demoulding, the mould frame is separated from the aerated concrete blank, and the upper end of the mould frame is provided with a frame structure with edges.

In step S6, when the blank body is demolded, the demolding mechanism 1 is lifted to complete the mold frame detachment, specifically, the lifting frame 14 is lowered by starting the two demolding cylinders 12, so that the whole forming mold is framed among the four supporting mechanisms 15, and then, the four supporting carry cylinders 151 are synchronously started, so that the four support plates 152 move close to the four side walls of the mold frame, and finally the mold frame will be clamped between the four wall sticking rollers 1522, then the two demoulding cylinders 12 are started again to drive the lifting frame 14 to ascend, so that the supporting plates 152 support the edges of the mould frame, then the two demoulding cylinders 12 continue to drive the lifting frame 14 to move up and down, then the mould frame is lifted up slowly and vertically under the support of the four supporting plates 152 until the mould frame is separated from the aerated concrete blank, vertical guide of demoulding is provided through the four guide pillars 13, and damage of an aerated concrete blank during demoulding is avoided as much as possible.

Both ends mirror symmetry at walking beam 34 is provided with adherence carry mechanism 4, adherence carry mechanism 4 is including carry plate 43 that can horizontal carry, adherence carry mechanism 4 still includes vertical welding at the fixed plate 41 of walking beam 34 tip, adherence carry cylinder 42 and two horizontal slip settings No. two guide arms 44 on fixed plate 41 of fixed plate 41 back end through bolt fixed mounting, carry plate 43 is located the leading flank of fixed plate 41 and with adherence carry cylinder 42's output fixed connection, two No. two guide arms 44 symmetric distribution are in adherence carry cylinder 42's both sides, two No. two guide arms 44 and carry plate 43 fixed connection.

When the mold frame is lifted to a high position by the lifting demolding mechanism 1, the two cleaning mechanisms 5 are positioned at the inner side of the mold frame, the two cleaning mechanisms 5 are correspondingly close to the two inner side wall positions which are distributed on the mold frame relatively, before the inner wall of the mold frame is cleaned, the adherence carry cylinders 42 in the two adherence carry mechanisms 4 need to be started, so that the cleaning mechanisms 5 positioned at two sides are tightly attached to the two inner side walls of the mold frame by pushing the carry plates 43 forwards, namely, the bristles on the fan ring brushing plate 532 can form effective contact with the inner wall of the mold frame.

The two adherent carry mechanisms 4 are respectively and correspondingly provided with a cleaning mechanism 5, and the two cleaning mechanisms 5 are arranged in mirror symmetry; the cleaning mechanism 5 comprises an L-shaped fixing frame 51, a cleaning driving motor 52, a cleaning roller 53 and a passive material shaking mechanism 54, the fixing frame 51 is welded on the feeding plate 43, the cleaning driving motor 52 is fixedly installed on a horizontal plate of the fixing frame 51 through bolts in an inverted mode, a driving gear 521 is arranged on an output shaft of the cleaning driving motor 52, the cleaning roller 53 comprises a square roller core 531, four fan-ring brush plates 532 and eight return springs 533, a rotating shaft of the roller core 531 is vertically and rotatably installed on the horizontal plate of the fixing frame 51, a driven gear 5311 meshed with the driving gear 521 is arranged on the rotating shaft of the roller core 531, the four fan-ring brush plates 532 are correspondingly distributed at four side positions of the roller core 531 one by one, two vertically distributed pin shafts 5321 are vertically arranged on the inner cambered surface of each fan-ring brush plate 532 through the two pin shafts 5321 and are horizontally and slidably arranged with the side wall of the roller core 531, each pin shaft 5321 is correspondingly sleeved with a return spring 533, two ends of the return spring 533 are welded between the side wall of the roller core 531 and the inner arc surface of the fan ring brush plate 532; the passive material shaking mechanism 54 comprises a material shaking carry cylinder 541 fixedly installed on the outer side wall of a vertical plate of the fixing frame 51 through bolts and a top touch plate 542 fixedly connected with the output end of the material shaking carry cylinder 541, the top touch plate 542 is located between the inner side of the fixing frame 51 and the cleaning roller 53, and semicircular bulges 5421 are correspondingly arranged at the positions, close to the upper end and the lower end, of the top touch plate 542 on the side wall facing the cleaning roller 53; bristles are uniformly distributed on the outer arc surface of the fan ring brush plate 532.

Before cleaning, the material shaking carry cylinder 541 needs to be started to drive the top touch plate 542 to move towards the direction close to the cleaning roller 53, so that the two semicircular protrusions 5421 can be in top contact with the outer arc surface of the fan-ring brush plate 532, the return spring 533 can be compressed, and the fan-ring brush plate 532 can normally rotate along with the cleaning roller 53; in the cleaning process, the inner wall of the mold frame is automatically cleaned through the cleaning mechanism 5, specifically, the cleaning driving motor 52 is started to drive the driving gear 521 to rotate, the driving gear 521 drives the driven gear 5311 to rotate, so as to drive the roller core 531 to rotate, the four fan-ring brush boards 532 synchronously rotate along with the roller core 531, the bristles on the fan-ring brush boards 532 can quickly and timely clean slurry remained on the mold frame, the trouble of subsequent cleaning caused by dry and hard slurry is avoided, in the cleaning process, the return springs 533 of the fan-ring brush boards 532 are in a compressed state in the process of passing through the two semicircular protrusions 5421, and the return springs 533 rebound after separation, so that the slurry cleaned on the bristles can be synchronously shaken off in the rotating process, and the bristles of the fan-ring brush boards 532 can be continuously and normally used in the subsequent cleaning process.

The cleaning travelling mechanism 3 is located below the device plate 11 and is fixedly connected with the rotating part of the electric switching rotary table 2, the cleaning travelling mechanism 3 comprises a travelling beam 34 capable of moving horizontally, the cleaning travelling mechanism 3 further comprises a guide rail beam 31 fixedly installed on the rotating end face of the electric switching rotary table 2 in a horizontal welding mode, a travelling driving motor 32 fixedly installed at the outer end of the guide rail beam 31 through screws and a lead screw 33 horizontally and rotatably installed on the guide rail beam 31, the lead screw 33 is fixedly connected with an output shaft of the travelling driving motor 32, and the travelling beam 34 is horizontally arranged on the guide rail beam 31 in a sliding mode and is in threaded connection with the lead screw 33.

In the cleaning process, the cleaning running mechanism 3 can drive the two cleaning mechanisms 5 to move along the inner walls of the two sides of the mold frame for automatic cleaning.

The electric switching rotary table 2 is reversely and fixedly arranged at the central position of the device table; after the inner walls of the two sides of the die frame are cleaned, the electric switching rotary table 2 can drive the whole cleaning walking mechanism 3 to rotate 180 degrees, so that the two cleaning mechanisms 5 are switched to positions close to the other two inner side walls, automatic cleaning of the other two inner side walls can be completed immediately, and the die frame which is cleaned can be used for next use.

Those skilled in the art will appreciate that variations may be implemented by those skilled in the art in combination with the prior art and the above-described embodiments, and will not be described in detail herein. Such variations do not affect the essence of the present invention and are not described herein.

The above description is of the preferred embodiment of the invention. It is to be understood that the invention is not limited to the particular embodiments described above, in that devices and structures not described in detail are understood to be implemented in a manner common in the art; it will be understood by those skilled in the art that various changes and modifications may be made, or equivalents may be modified, without departing from the spirit of the invention. Therefore, any simple modification, equivalent change and modification made to the above embodiments according to the technical essence of the present invention are still within the scope of the protection of the technical solution of the present invention, unless the contents of the technical solution of the present invention are departed.

Claims (4)

1. The utility model provides an aerated concrete block shaping preparation is with system of processing which characterized in that: comprises a lifting demoulding mechanism (1), an electric switching rotary table (2), a cleaning walking mechanism (3), an adherence carrying mechanism (4) and a cleaning mechanism (5); wherein:

the lifting demolding mechanism (1) comprises a device plate (11), two demolding cylinders (12) vertically fixed at the top end of the device plate (11), four guide pillars (13) distributed at rectangular vertexes and vertically and fixedly installed at the bottom end of the device plate (11), a square lifting frame (14) vertically and slidably arranged on the four guide pillars (13) and four supporting mechanisms (15) arranged at four side wall ends of the lifting frame (14) in a one-to-one correspondence manner, wherein the lifting frame (14) is fixedly connected with output ends of the two demolding cylinders (12);

the bearing mechanism (15) comprises a bearing carry cylinder (151) fixedly mounted on the outer side wall of the lifting frame (14) and a bearing plate (152) fixedly connected with the output end of the bearing carry cylinder (151), the bearing plate (152) is located on the inner side of the lifting frame (14) and is L-shaped, two first guide rods (1521) horizontally arranged with the lifting frame (14) in a sliding manner are arranged on the outer side wall of a vertical plate of the bearing plate (152), an adherence roller (1522) is horizontally and rotatably arranged at the front end of a horizontal plate of the bearing plate (152), and the horizontal tangent plane at the upper end of the adherence roller (1522) is flush with the upper end face of the horizontal plate of the bearing plate (152);

the electric switching rotary table (2) is inversely and fixedly installed at the central position of the device table, the cleaning travelling mechanism (3) is located below the device plate (11) and is fixedly connected with a rotating part of the electric switching rotary table (2), the cleaning travelling mechanism (3) comprises a travelling beam (34) capable of horizontally moving, the adherent carry mechanisms (4) are arranged at two ends of the travelling beam (34) in a mirror symmetry manner, the cleaning mechanisms (5) are correspondingly arranged on the two adherent carry mechanisms (4), and the two cleaning mechanisms (5) are arranged in a mirror symmetry manner;

the adherent carry mechanism (4) comprises a carry plate (43) capable of carrying horizontally, the cleaning mechanism (5) comprises an L-shaped fixing frame (51), a cleaning driving motor (52), a cleaning roller (53) and a passive material shaking mechanism (54), the fixing frame (51) is fixedly connected to the carry plate (43), the cleaning driving motor (52) is fixedly installed on a horizontal plate of the fixing frame (51) in an inverted mode, a driving gear (521) is arranged on an output shaft of the cleaning driving motor (52), the cleaning roller (53) comprises a square roller core (531), four fan-ring brush plates (532) and eight reset springs (533), a rotating shaft of the roller core (531) is vertically and rotatably installed on the horizontal plate of the fixing frame (51), a driven gear (5311) meshed with the driving gear (521) is arranged on the rotating shaft of the roller core (531), the four fan-ring brush plates (532) are distributed on four side positions of the roller core (531) in a one-to-one correspondence manner, two vertically distributed pin shafts (5321) are vertically arranged on the inner arc surface of each fan-ring brush plate (532), the fan-ring brush plates (532) are horizontally arranged with the side wall of the roller core (531) in a sliding manner through the two pin shafts (5321), each pin shaft (5321) is correspondingly sleeved with the return spring (533), and two ends of each return spring (533) are fixedly connected between the side wall of the roller core (531) and the inner arc surface of each fan-ring brush plate (532); passive material mechanism (54) of trembling including fixed mounting tremble material carry cylinder (541) on the lateral wall of the vertical board of mount (51) and with tremble material carry cylinder (541) output end fixed connection's top and touch board (542), top touch board (542) are located mount (51) inboard with between cleaning roller (53), top touch board (542) are facing be located on cleaning roller (53) the lateral wall be close to the position correspondence of upper and lower both ends and be provided with semicircle arch (5421).

2. The processing system for aerated concrete block molding preparation according to claim 1, characterized in that: clearance running gear (3) still include horizontal fixed mounting and are in guide rail roof beam (31), the fixed mounting of the rotatory terminal surface of electronic switching revolving stage (2) are in travel drive motor (32) and the horizontal rotation of guide rail roof beam (31) outside end are installed lead screw (33) on guide rail roof beam (31), lead screw (33) with the output shaft fixed connection of travel drive motor (32), travel beam (34) horizontal slip sets up on guide rail roof beam (31) and with lead screw (33) threaded connection.

3. The processing system for aerated concrete block molding preparation according to claim 1, characterized in that: adherence carry mechanism (4) still include vertical fixed mounting fixed plate (41), the fixed mounting of walking beam (34) tip are in adherence carry cylinder (42) and two horizontal slip settings of fixed plate (41) back end are in No. two guide arms (44) on fixed plate (41), advance board (43) and be located the leading flank of fixed plate (41) and with the output fixed connection of adherence carry cylinder (42), two No. two guide arms (44) with advance board (43) fixed connection.

4. The processing system for aerated concrete block molding preparation according to claim 1, characterized in that: the outer arc surface of the fan ring brush plate (532) is uniformly distributed with brush hair.

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