CN111805690B

CN111805690B - Cement former for building

Info

Publication number: CN111805690B
Application number: CN202010519397.0A
Authority: CN
Inventors: 陈悦锋
Original assignee: Anhui Banglong Construction Co ltd
Current assignee: Anhui Banglong Construction Co ltd
Priority date: 2020-06-09
Filing date: 2020-06-09
Publication date: 2021-07-06
Anticipated expiration: 2040-06-09
Also published as: CN111805690A

Abstract

The invention relates to a molding device, in particular to a cement molding device for buildings. The invention aims to provide a cement forming device for buildings, which does not need to manually shake a forming die. In order to solve the above technical problems, the present invention provides a cement molding apparatus for construction, comprising: a support plate is connected to the lower part of one side of the frame; the lower part of the rack is provided with a supporting component; the supporting component is provided with a supporting plate; and the forming part is arranged between the frame and the support plate. The support assembly can support the tray assembly, the tray assembly can support the forming die, the material injection assembly can inject cement slurry into the forming die, the forming component can enable the forming die to shake left and right in a reciprocating mode, and the cement slurry in the forming die can be uniformly distributed by the left and right reciprocating shaking of the forming die.

Description

Cement former for building

Technical Field

The invention relates to a molding device, in particular to a cement molding device for buildings.

Background

When pouring the grout into the cement model, need artifical manual pour the grout into forming die in, then the continuous grout of rocking left and right sides forming die makes it in distribute evenly, at present generally the artifical manual grout of rocking left and right sides forming die makes it in distribute evenly, forming die is heavier when having more grout in the forming die because forming die is heavier to the workman need spend great energy just can make forming die rock left and right sides, work efficiency is slow so, workman's intensity of labour is great.

Therefore, it is necessary to develop a cement molding apparatus for construction that does not require manual shaking of a molding die.

Disclosure of Invention

(1) Technical problem to be solved

The invention aims to overcome the defect that cement paste in a forming die needs to be uniformly distributed by manually shaking the forming die, and the technical problem to be solved by the invention is to provide the cement forming device for the building, which does not need to manually shake the forming die.

(2) Technical scheme

In order to solve the above technical problems, the present invention provides a cement molding apparatus for construction, comprising: a support plate is connected to the lower part of one side of the frame; the lower part of the rack is provided with a supporting component; the supporting component is provided with a supporting plate; and the forming part is arranged between the frame and the support plate.

Preferably, the support assembly comprises: the two sides of the lower part of the rack are connected with supporting columns in a sliding manner; one end of the support column is connected with the connecting frame; the limiting plate is connected to the connecting frame; the guide posts are connected between the guide posts and the limiting plates; the backup pad is connected with the backup pad between the other end of support column.

Preferably, the tray assembly comprises: the supporting plate is connected with the guide post in a sliding manner; one side of the supporting plate is connected with the push plate; the other side of the supporting plate is connected with a handle; the sleeve is connected to the handle.

Preferably, the molded part comprises: the supporting plate is provided with a servo motor; the servo motor is connected with the first rubber round table; the side, close to the servo motor, of the support plate is rotatably connected with a third rubber circular table; the first rotating shaft is rotatably connected to one side of the upper part of the rack; the first belt assembly is connected between the first rotating shaft and the third rubber round table; the other side of the upper part of the rack is rotatably connected with a second rotating shaft; the second belt assembly is connected between the second rotating shaft and the first rotating shaft; the second rotating shaft and the first rotating shaft are both connected with a cam; the linkage assembly is arranged on one side, close to the third rubber round table, of the rack; the upper part of the rack is provided with a shaking component; the linkage assembly includes: two sliding columns are connected to one side, close to the third rubber round table, of the machine frame in a sliding mode; one end of the sliding column is connected with the push block; the return spring is connected between the push block and the rack; the connecting rod is connected between the other ends of the sliding columns; the connecting rod is connected with a second rubber round table which is matched with the third rubber round table and the first rubber round table; the sloshing assembly comprises: the other two sides of the upper part of the rack are both connected with guide rails, and the guide rails are connected with cross rods in a sliding manner; two baffles are connected between the cross rods; the hanging rack is connected with the baffle.

Preferably, still include the material subassembly of annotating, annotate the material subassembly and include: the other side of the lower part of the rack is connected with a storage box; the mounting plate is connected to the material storage box; the cement pump is arranged in the storage box; the transverse sliding block is connected between the two sides of the top of the rack; the transverse sliding block is connected with a second handle; the longitudinal sliding block is connected between the other two sides of the top of the rack in a sliding manner; the longitudinal sliding block is connected with a first handle; the cement pump is connected with a material conveying hose, the tail end of the material conveying hose firstly penetrates through the mounting plate, and then the tail end of the material conveying hose penetrates into the transverse sliding block and the longitudinal sliding block.

Preferably, the method further comprises the following steps: and the reset spring is connected between the bottom of the supporting plate and the inner top of the rack.

(3) Advantageous effects

The support assembly can support the tray assembly, the tray assembly can support the forming die, the material injection assembly can inject cement slurry into the forming die, the forming component can enable the forming die to shake left and right in a reciprocating mode, and the cement slurry in the forming die can be uniformly distributed by the left and right reciprocating shaking of the forming die; therefore, cement paste is poured into the forming die without manual operation, and the forming die is not required to shake manually, so that the labor intensity of workers can be reduced, and the working efficiency can be improved.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a perspective view of the support assembly and tray assembly of the present invention.

Fig. 3 is a schematic perspective view of a molded part according to the present invention.

FIG. 4 is a perspective view of the linkage assembly of the present invention.

FIG. 5 is a schematic perspective view of a wobble assembly according to the present invention.

Fig. 6 is a schematic perspective view of a second embodiment of the present invention.

The labels in the figures are: 1-a rack, 2-a support plate, 3-a support component, 31-a support column, 32-a connecting frame, 33-a limit plate, 34-a guide column, 35-a support plate, 4-a tray component, 41-a support plate, 42-a push plate, 43-a handle, 44-a sleeve, 5-a forming component, 51-a servo motor, 52-a first rubber circular table, 53-a linkage component, 531-a slide column, 532-a return spring, 533-a push block, 534-a connecting rod, 535-a second rubber circular table, 54-a third rubber circular table, 55-a first belt component, 56-a first rotating shaft, 57-a second belt component, 58-a second rotating shaft, 59-a cam, 510-a shaking component, 5101-a cross rod and 5102-a baffle, 5103-a hanging frame, 6-an injection component, 61-a material storage box, 62-a mounting plate, 63-a material conveying hose, 64-a cement pump, 65-a transverse sliding block, 66-a longitudinal sliding block, 67-a first handle, 68-a second handle, 7-a return spring and 100-a forming die.

Detailed Description

The invention is further described below with reference to the figures and examples.

Example 1

A cement molding device for buildings is shown in figures 1-5 and comprises a frame 1, a support plate 2, a support component 3, a tray component 4 and a molding component 5, wherein the support plate 2 is connected to the lower portion of the rear side face of the frame 1, the support component 3 is installed on the lower portion of the frame 1, the tray component 4 is installed on the support component 3, and the molding component 5 is installed between the frame 1 and the support plate 2.

Supporting component 3 is including support column 31, link 32, limiting plate 33, guide pillar 34 and backup pad 35, and the equal slidingtype in both sides has two support columns 31 around the 1 lower part of frame, and two support column 31 bilateral symmetry, support column 31 bottom are connected with link 32, and link 32 top is connected with limiting plate 33, is connected with guide pillar 34 between two limiting plates 33 of front and back both sides, is connected with backup pad 35 between the top of four support columns 31.

Tray assembly 4 is including layer board 41, push pedal 42, handle 43 and sleeve 44, and sliding connection has layer board 41 between two guide pillars 34, and layer board 41 bottom and the contact of backup pad 35 top are connected with push pedal 42 to layer board 41 trailing flank, and layer board 41 leading flank is connected with handle 43, is connected with sleeve 44 on the handle 43.

The forming part 5 comprises a servo motor 51, a first rubber round platform 52, a third rubber round platform 54, a first belt component 55, a first rotating shaft 56, a second belt component 57, a second rotating shaft 58, a cam 59, a linkage component 53 and a shaking component 510, wherein the support plate 2 is provided with the servo motor 51, the output shaft of the servo motor 51 is connected with the first rubber round platform 52 through a coupler, the support plate 2 at the left side of the servo motor 51 is rotatably connected with the third rubber round platform 54, the upper side of the left part of the rack 1 is rotatably connected with the first rotating shaft 56, the first belt component 55 is connected between the rear end of the first rotating shaft 56 and the rear end of the third rubber round platform 54, the upper side of the right part of the rack 1 is rotatably connected with the second rotating shaft 58, the second belt component 57 is connected between the rear part of the second rotating shaft 58 and the rear part of the first rotating shaft 56, and the two cams 59, the two cams 59 are symmetrical front and back, the rear part of the frame 1 is provided with a linkage assembly 53, the upper part of the frame 1 is provided with a shaking assembly 510, the linkage assembly 53 comprises sliding columns 531, return springs 532, push blocks 533, connecting rods 534 and second rubber round tables 535, the rear part of the frame 1 is connected with the two sliding columns 531 in a sliding way, the two sliding columns 531 are symmetrical left and right, the front ends of the sliding columns 531 are connected with the push blocks 533, the back side surfaces of the push blocks 533 and the inner side surface of the frame 1 are connected with the return springs 532, the connecting rods 534 are connected between the back ends of the two sliding columns 531, the middle of the back side surface of the connecting rods 534 is connected with the second rubber round tables 535, the second rubber round tables 535 are matched with the third rubber round tables 54 and the first rubber round tables 52, the shaking assembly 510 comprises cross rods 5101, baffles 5102 and hangers 5103, the front sides and the back sides of the upper part of the frame 1 are both, the two baffles 5102 are bilaterally symmetrical, and the bottom of the baffles 5102 is connected with a hanging frame 5103.

The apparatus may be used when a cement paste is to be poured into a cement model. Manually placing a supporting block at the lower side of the supporting plate 35, and supporting the supporting plate 35 to make the supporting plate 35 at a proper height; the handle 43 is pulled forward to move the pallet 41 forward, then the molding die 100 is placed on the pallet 41, and then the handle 43 is pushed backward to move the pallet 41 backward to be reset. The supporting plate 41 moves backward to drive the forming mold 100 and the pushing plate 42 to move backward, and after the forming mold 100 moves backward to a proper position, the hanger 5103 can hook the forming mold 100. When the push plate 42 moves backwards to contact with the push block 533, the push plate 42 continues to move backwards to enable the push block 533 to move backwards, the return spring 532 is compressed accordingly, the push block 533 moves backwards to push the sliding column 531 to move backwards, the sliding column 531 moves backwards to drive the connecting rod 534 to move backwards, the connecting rod 534 moves backwards to push the second rubber circular truncated cone 535 to move backwards, and the second rubber circular truncated cone 535 moves backwards to enter between the first rubber circular truncated cone 52 and the third rubber circular truncated cone 54 and to contact with the first rubber circular truncated cone 52 and the third rubber circular truncated cone 54. Then, the servo motor 51 is started again to rotate the first rubber circular table 52, the first rubber circular table 52 rotates to rotate the second rubber circular table 535, the second rubber circular table 535 rotates to rotate the third rubber circular table 54, the third rubber circular table 54 rotates to rotate the first rotating shaft 56 through the first belt assembly 55, and the first rotating shaft 56 rotates to rotate the second rotating shaft 58 through the second belt assembly 57. The first rotating shaft 56 rotates to drive the cam 59 on the first rotating shaft to rotate, the second rotating shaft 58 rotates to drive the cam 59 on the second rotating shaft to rotate, the cams 59 on the left side and the right side are in rotating fit to enable the baffle 5102 to reciprocate left and right, the baffle 5102 reciprocates left and right to drive the hanging frame 5103 to reciprocate left and right, the hanging frame 5103 reciprocates left and right to drive the forming die 100 to reciprocate left and right to shake, cement slurry can be poured into the forming die 100 manually, and the cement slurry in the forming die 100 can be uniformly distributed due to the left and right reciprocating shaking. After the cement slurry in the forming die 100 is uniformly distributed, the above operation is repeated to enable the supporting plate 41 to move forward, the supporting plate 41 moves forward to drive the forming die 100 and the pushing plate 42 to move forward, the pushing plate 42 moves forward to release the pushing block 533, the pushing block 533 can move forward to reset under the action of the return spring 532, so that the second rubber circular table 535 can move forward to reset, the second rubber circular table 535 does not contact with the first rubber circular table 52 and the third rubber circular table 54, the cam 59 stops rotating along with the second rubber circular table, and the hanging frame 5103 stops reciprocating left and right. The forming mold 100 on the pallet 41 can then be removed and another forming mold 100 can be placed, and the pallet 41 can then be moved back to its original position. In this way, the molding die 100 can be repeatedly shaken to the left and right, and when the operation is not required, the servo motor 51 is turned off. Therefore, the supporting component 3 of the device can support the tray component 4, the tray component 4 can support the forming die 100, the forming component 5 can enable the forming die 100 to shake left and right in a reciprocating manner, and the cement paste in the forming die 100 can be uniformly distributed by shaking left and right in a reciprocating manner; therefore, the cement paste in the forming die 100 is uniformly distributed without manually shaking the forming die, the labor intensity of workers can be reduced, and the working efficiency can be improved.

Example 2

On the basis of embodiment 1, as shown in fig. 1 and 6, the injection device 6 further comprises an injection assembly 6, the injection assembly 6 comprises a storage tank 61, a mounting plate 62, a delivery hose 63, a cement pump 64, a transverse slider 65, a longitudinal slider 66, a first handle 67 and a second handle 68, the storage tank 61 is connected to the lower portion of the left side surface of the frame 1, the mounting plate 62 is connected to the front side of the top of the storage tank 61, the cement pump 64 is installed in the storage tank 61, the transverse slider 65 is connected between the left side and the right side of the top of the frame 1, the second handle 68 is connected to the right side of the top of the transverse slider 65, the longitudinal slider 66 is connected between the front side and the rear side of the top of the frame 1 in a sliding manner, the longitudinal slider 66 is located on the lower side of the transverse slider 65, the first handle 67 is connected to the front side of the top of the longitudinal slider 66, the top end of the delivery hose 63 penetrates into the transverse slide block 65 and the longitudinal slide block 66.

A large amount of cement slurry can be poured into the storage box 61, then the cement pump 64 is started, the cement slurry in the storage box 61 flows out of the forming die 100 on the supporting plate 41 through the conveying hose 63, and therefore the cement slurry does not need to be poured into the forming die 100 manually and repeatedly, labor intensity of workers can be further relieved, and working efficiency can be further improved. The first handle 67 can be moved leftwards or rightwards, so that the longitudinal sliding block 66 can be moved leftwards or rightwards, and the second handle 68 can be moved forwards or backwards, so that the transverse sliding block 65 can be moved forwards or backwards, the upper part of the conveying hose 63 can be driven to move towards different directions, and cement paste can be uniformly dropped into the forming die 100. After a suitable amount of cement slurry is deposited into the mold 100, the cement pump 64 is turned off.

As shown in fig. 1, the device further comprises a return spring 7, the support column 31 is sleeved with the return spring 7, the top end of the return spring 7 is connected with the bottom of the support plate 35, and the bottom end of the return spring 7 is connected with the inner top of the rack 1.

The support plate 35 can be supported by the return spring 7, so that the support plate 35 is at a proper height, the support block is not required to be placed to support the support plate 35, and the left and right reciprocating shaking of the forming die 100 can be facilitated.

The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the spirit of the present invention, and these are all within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. A cement forming apparatus for construction, comprising:

a support plate (2) is connected to the lower part of one side of the frame (1);

the supporting component (3) is arranged at the lower part of the rack (1);

the tray assembly (4) is mounted on the support assembly (3);

the forming component (5) is arranged between the rack (1) and the support plate (2);

the support assembly (3) comprises:

the two sides of the lower part of the rack (1) are both connected with the supporting columns (31) in a sliding manner;

one end of the supporting column (31) is connected with the connecting frame (32);

the limiting plate (33) is connected to the connecting frame (32);

the guide post (34) is connected between the guide posts (34) and the limit plate (33);

the supporting plate (35) is connected between the other ends of the supporting columns (31);

the tray assembly (4) comprises:

the supporting plate (41), the guide post (34) is connected with the supporting plate (41) in a sliding way;

one side of the supporting plate (41) is connected with the push plate (42);

the other side of the supporting plate (41) is connected with a handle (43);

the sleeve (44) is connected to the handle (43);

the molded part (5) comprises:

the servo motor (51) is arranged on the support plate (2);

the servo motor (51) is connected with a first rubber round table (52);

a third rubber round table (54), wherein one side of the support plate (2) close to the servo motor (51) is rotatably connected with the third rubber round table (54);

a first rotating shaft (56), wherein one side of the upper part of the rack (1) is rotatably connected with the first rotating shaft (56);

the first belt assembly (55) is connected between the first rotating shaft (56) and the third rubber round table (54);

the other side of the upper part of the rack (1) is rotatably connected with a second rotating shaft (58);

a second belt assembly (57), wherein the second belt assembly (57) is connected between the second rotating shaft (58) and the first rotating shaft (56);

the cam (59) is connected to the second rotating shaft (58) and the first rotating shaft (56);

the linkage assembly (53) is arranged on one side, close to the third rubber round table (54), of the rack (1);

the upper part of the frame (1) is provided with a shaking component (510);

the linkage assembly (53) includes:

two sliding columns (531) are connected to one side, close to the third rubber round table (54), of the rack (1) in a sliding mode;

one end of the sliding column (531) is connected with the push block (533);

the return spring (532) is connected between the push block (533) and the rack (1);

the connecting rod (534) is connected between the other ends of the sliding columns (531);

the connecting rod (534) is connected with a second rubber round table (535), and the second rubber round table (535) is matched with the third rubber round table (54) and the first rubber round table (52);

the slosh assembly (510) includes:

the other two sides of the upper part of the rack (1) are both connected with guide rails, and the guide rails are connected with a cross bar (5101) in a sliding manner;

two baffles (5102) are connected between the transverse rods (5101);

the hanging rack (5103) is connected with the baffle plate (5102) through a connecting rod (5103).

2. The cement forming apparatus for building as claimed in claim 1, further comprising an injection assembly (6), the injection assembly (6) comprising:

the other side of the lower part of the rack (1) is connected with a storage box (61);

the mounting plate (62) is connected to the material storage box (61);

the cement pump (64) is installed in the storage box (61);

the transverse sliding block (65) is connected between the two sides of the top of the rack (1);

the second handle (68) is connected to the transverse sliding block (65);

the longitudinal sliding block (66) is connected between the other two sides of the top of the rack (1) in a sliding manner;

the first handle (67) is connected to the longitudinal sliding block (66);

the cement pump (64) is connected with a material conveying hose (63), the tail end of the material conveying hose (63) firstly penetrates through the mounting plate (62), and the tail end of the material conveying hose (63) then penetrates into the transverse sliding block (65) and the longitudinal sliding block (66).

3. The cement forming apparatus for construction as claimed in claim 2, further comprising:

the reset spring (7) is connected between the bottom of the support plate (35) and the inner top of the frame (1).