CN111719824B

CN111719824B - Outdoor enclosure wall cement mortar bottoming ware for building

Info

Publication number: CN111719824B
Application number: CN202010557745.3A
Authority: CN
Inventors: 马桂莲
Original assignee: Suzhong Municipal Engineering Co ltd
Current assignee: Suzhong Municipal Engineering Co ltd
Priority date: 2020-06-18
Filing date: 2020-06-18
Publication date: 2021-06-22
Anticipated expiration: 2040-06-18
Also published as: CN111719824A

Abstract

The invention relates to a primer, in particular to a cement mortar primer for the wall surface of an outdoor enclosing wall for a building. The technical problem is how to design the outdoor enclosure wall cement mortar bottoming device for the building, which can replace manpower to coat cement mortar on the wall surface, has high working efficiency and is uniformly coated. The utility model provides an outdoor enclosure wall cement mortar bottoming machine for building, including: the bottom plate is fixedly connected with a vertical plate at the edge of one side of the bottom plate in a symmetrical mode; and the driving mechanism is arranged between one side of the two vertical plates and one side of the bottom plate and is used for providing power. According to the invention, a proper amount of cement mortar is poured into the charging hopper, the servo motor is started to rotate reversely, so that the contact block is in contact with the fixed block to drive the fixed block to move upwards, the fixed block drives the charging hopper to move upwards, the charging hopper is in contact with the wall surface to coat the cement mortar on the wall surface, the cement mortar is not required to be manually coated on the wall surface, the labor is saved, the working efficiency is high, and the coating is uniform.

Description

Outdoor enclosure wall cement mortar bottoming ware for building

Technical Field

The invention relates to a primer, in particular to a cement mortar primer for the wall surface of an outdoor enclosing wall for a building.

Background

The cement mortar is prepared from cement, fine aggregate and water, namely cement, sand and water, according to the needs, and the cement mixed mortar is prepared from cement, fine aggregate, lime and water. The two concepts are different, the name is different, the use is also different, in outdoor enclosure construction, in order to make the enclosure more pleasing to the eye and firm, all can scribble cement mortar on the wall of enclosure, and cement mortar makes the wall more level and more smooth, carries out subsequent processing again.

At present, most cement mortar is manually coated on the wall surface of an enclosing wall, cement mortar is firstly poured on a tool, then the cement mortar is coated on the wall surface by a hand moving tool, the subsequent work efficiency is reduced due to the fact that the cement mortar is coated on the wall surface from top to top by a person, the subsequent work efficiency is prone to being ache after a long time, and the cement mortar is coated on the wall surface by the hand, so that the subsequent treatment of the wall surface is affected due to the fact that the cement mortar is not uniformly coated.

Therefore, a cement mortar bottomer for the outdoor enclosing wall and the wall surface of the building, which can replace manual work to coat cement mortar on the wall surface, has high working efficiency and is uniformly coated, is particularly needed to solve the problems in the prior art.

Disclosure of Invention

The invention aims to provide a cement mortar bottoming device for the wall surface of an outdoor enclosure for a building, which can replace manpower to coat cement mortar on the wall surface, has high working efficiency and is uniformly coated, and aims to overcome the defects that the subsequent working efficiency is reduced because the hands are easy to ache and the cement mortar is easily coated on the wall surface unevenly by manually coating the cement mortar on the wall surface by the hands.

The technical scheme is as follows: the utility model provides an outdoor enclosure wall cement mortar bottoming machine for building, including: the bottom plate is fixedly connected with a vertical plate at the edge of one side of the bottom plate in a symmetrical mode; the driving mechanism is arranged between one side of the two vertical plates and one side of the bottom plate and used for providing power; and the smearing mechanism is arranged between the outer sides of the two vertical plates, is matched with the driving mechanism and is used for smearing cement mortar on the wall surface of the enclosing wall.

As a further preferable mode, the driving mechanism includes: the rotating shafts are arranged in two numbers, one rotating shaft is rotatably arranged between one sides of the two vertical plates close to the bottom plate, and the other rotating shaft is rotatably arranged between one sides of the two vertical plates far away from the bottom plate; the chain wheel is fixedly sleeved on one part of the circumference of the rotating shaft close to the vertical plate; the number of the chains is two, and the chains are respectively wound between the two chain wheels on each side; the contact block is fixedly connected to one part of the outer circumference of the chain facing the bottom plate and matched with the smearing mechanism; the servo motor is arranged at a position close to one side edge of the bottom plate of one of the vertical plates; and the transmission assembly is connected between the end part of an output shaft of the servo motor and the periphery of one part of the rotating shaft close to the bottom plate.

As a further preferable mode, the applying mechanism includes: the sliding groove is formed in one side, far away from the vertical plate, of the rotating shaft; the sliding block is placed in the sliding groove in a sliding manner; the fixed plate is fixedly connected to one side of the sliding block far away from the vertical plate and is arranged obliquely; the rolling shaft is fixedly connected to one side of the fixing plate, which is far away from the vertical plate and is on the same side with the sliding block; the back-shaped plate is sleeved on the rolling shaft in a sliding manner; the charging hopper is fixedly connected between one sides of the two clip plates far away from the fixed plate; the fixed blocks are symmetrically and fixedly connected to one side, facing the vertical plate and far away from the bottom plate, of the outer side of the charging hopper and are matched with the contact blocks.

As a further preferable scheme, the device further comprises a blanking mechanism, wherein the blanking mechanism comprises: the guide block is fixedly connected to one side of the vertical plate, which is close to the bottom plate and is on the same side with the chain wheel; the sliding block is slidably placed in the guide block; the charging frame is fixedly connected between one sides of the two sliding blocks far away from the vertical plate, and one side of the charging frame, which faces the bottom plate and is close to the fixed block, is provided with an opening; the mounting block is fixedly connected to one side, facing the bottom plate and far away from the fixing block, of the outer side of the charging frame; the L-shaped plate is slidably connected to one part of the sliding block far away from the guide block in a penetrating manner; the baffle is fixedly connected between the outer sides of the two L-shaped plates which are far away from the vertical plate and close to the fixed block, and is in contact fit with the opening of the charging frame; the first springs are connected between one side, far away from the charging hopper, of the baffle plate and one side, facing the mounting block, of the fixing block at intervals, and the number of the first springs is at least three.

As a further preferable embodiment, the method further comprises: the driving rod is hinged to the middle of one side of the bottom plate close to the servo motor and is in contact fit with the charging frame; and the second spring is connected between one side of the driving rod far away from the loading frame and one side of the bottom plate.

As a further preferable embodiment, the method further comprises: the buffer block is slidably placed in the sliding groove and is in contact fit with the sliding block; and the third spring is connected between one side of the buffer block far away from the sliding block and one side of the sliding chute close to the bottom plate.

The invention has the following advantages:

1. through pouring proper amount cement mortar into the charging hopper, start servo motor and reverse for contact block and fixed block contact drive its rebound, the fixed block drives the charging hopper rebound, and the charging hopper then contacts with the wall and scribbles cement mortar on the wall, need not the manual cement mortar of smearing on the wall of people, and is more laborsaving, and work efficiency is high, paints still evenly.

2. Through the effect of unloading mechanism, can arrange into the charging hopper with appropriate amount cement mortar for operating personnel pours cement mortar into the charging hopper more conveniently.

3. Through the effect of actuating lever and second spring, the pulling actuating lever can drive the frame of feeding backward and move, so for better, the more convenient messenger of operating personnel feeds the frame and moves backward.

Drawings

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

FIG. 2 is a schematic view of a first partial body structure according to the present invention.

FIG. 3 is a schematic view of a second partial body structure according to the present invention.

Number designation in the figures: 1-base plate, 2-vertical plate, 3-driving mechanism, 31-rotating shaft, 32-chain wheel, 33-chain, 34-driving component, 35-servo motor, 36-contact block, 4-smearing mechanism, 41-fixed plate, 42-charging hopper, 43-sliding groove, 44-rolling shaft, 45-returning plate, 46-sliding block, 47-fixed block, 5-blanking mechanism, 51-charging frame, 52-sliding block, 53-guiding block, 54-L-shaped plate, 55-mounting block, 56-first spring, 57-baffle plate, 6-driving rod, 7-second spring, 8-buffer block and 9-third spring.

Detailed Description

The following further describes the technical solution with reference to specific embodiments, and it should be noted that: the words upper, lower, left, right, and the like used herein to indicate orientation are merely for the location of the illustrated structure in the corresponding figures. The serial numbers of the parts are themselves numbered herein, for example: first, second, etc. are used solely to distinguish one from another as to objects described herein, and do not have any sequential or technical meaning. The application states that: the connection and coupling, unless otherwise indicated, include both direct and indirect connections (couplings).

Example 1

The utility model provides an outdoor enclosure wall cement mortar bottoming machine for building, as shown in fig. 1 and fig. 2, including bottom plate 1, riser 2, actuating mechanism 3 and paint mechanism 4, the bottom plate 1 top left and right sides rear portion all rigid coupling has riser 2, is equipped with actuating mechanism 3 between left and right sides riser 2 and the 1 front side right part of bottom plate, is equipped with between the 2 lateral surfaces of left and right sides riser and paints mechanism 4, paints mechanism 4 and the 3 cooperation of actuating mechanism.

Actuating mechanism 3 is including pivot 31, the sprocket 32, the chain 33, drive assembly 34, servo motor 35 and contact piece 36, all be connected with pivot 31 of rotary type between 2 medial surface upper portions of left and right sides riser and between the lower part, pivot 31 left and right sides circumference all rigid coupling has sprocket 32, all around there being chain 33 between the left upper and lower both sides sprocket 32 and between the right-hand upper and lower both sides sprocket 32, the rigid coupling has contact piece 36 in the middle of the chain 33 lateral surface bottom, contact piece 36 with paint the cooperation of mechanism 4, servo motor 35 is installed through bolted connection's mode in 1 top front side right part of bottom plate, be connected with drive assembly 34 between servo motor 35's output shaft and the 31 right part circumference of below pivot, drive assembly 34 is belt and belt pulley drive.

The smearing mechanism 4 comprises a fixing plate 41, a charging hopper 42, a roller 44, a returning plate 45, a sliding block 46 and a fixing block 47, a sliding groove 43 is vertically formed in the middle of the outer side surface of a vertical plate 2 on the left side and the right side, the sliding block 46 is arranged in the sliding groove 43 in a sliding mode, the fixing plate 41 is fixedly connected to the outer side surface of the sliding block 46, the roller 44 is fixedly connected to the rear side of the inner side surface of the fixing plate 41 on the left side and the right side, the charging hopper 42 is arranged between the fixing plates 41 on the left side and the right side, the returning plate 45 is fixedly connected to the upper portions of the left side and the right side of the outer side of the charging hopper 42, the inner end of the roller.

Firstly, an operator moves the device to a proper position beside the enclosing wall, the smearing mechanism 4 is enabled to be opposite to the wall surface of the enclosing wall, a proper amount of cement mortar is poured into the smearing mechanism 4, the driving mechanism 3 is started, the driving mechanism 3 operates and contacts with the smearing mechanism 4, the driving mechanism 3 drives the smearing mechanism 4 to operate, the smearing mechanism 4 operates and contacts with the wall surface, the driving mechanism 3 continues to operate and drive the smearing mechanism 4 to move upwards, the smearing mechanism 4 moves upwards to smear the cement mortar on the wall surface to complete bottoming, when the smearing mechanism 4 moves upwards to the maximum stroke, the driving mechanism 3 operates and is separated from the smearing mechanism 4, the smearing mechanism 4 moves downwards to reset, the device is pushed to move to the next position of the wall surface, a proper amount of cement mortar is poured into the smearing mechanism 4, and when the driving mechanism 3 operates and contacts with the smearing mechanism 4 again, the driving mechanism 3 drives the smearing mechanism 4 to smear the cement mortar on the wall surface again, the wall surface of the enclosing wall can be coated with cement mortar after the operation is repeated. When the wall surface of the enclosing wall is completely coated with cement mortar, the driving mechanism 3 is closed, and the coating mechanism 4 stops moving.

When a proper amount of cement mortar is poured into the smearing mechanism 4, the servo motor 35 is started to rotate reversely, the servo motor 35 drives the lower rotating shaft 31 to rotate reversely, the lower rotating shaft 31 rotates reversely to drive the lower chain wheel 32 to rotate reversely, the lower chain wheel 32 rotates reversely to drive the chain 33 to rotate reversely through the upper chain wheel 32, the chain 33 rotates reversely to drive the contact block 36 to rotate reversely, the contact block 36 rotates reversely to contact with the smearing mechanism 4, the contact block 36 rotates reversely to drive the smearing mechanism 4 to operate and contact with the wall surface, the cement mortar is smeared on the wall surface by the upward movement of the smearing mechanism 4, when the contact block 36 rotates reversely to the upper side and is separated from the smearing mechanism 4, the smearing mechanism 4 also moves downwards to reset, the operation is repeated, and the contact block 36 can drive the smearing mechanism 4 to completely smear the cement mortar on the wall surface. When the wall surface of the enclosing wall is completely coated with cement mortar, the servo motor 35 is turned off, and the chain 33 stops driving the contact block 36 to rotate reversely.

When the device moves beside the enclosure, the charging hopper 42 is enabled to be opposite to the wall surface of the enclosure, a proper amount of cement mortar is poured into the charging hopper 42, the servo motor 35 is started to rotate reversely, when the contact block 36 rotates reversely and contacts with the fixed block 47, the contact block 36 drives the fixed block 47 to move upwards, the fixed block 47 moves upwards to drive the charging hopper 42 to swing downwards, the charging hopper 42 swings downwards and moves backwards through the return plate 45 to contact with the wall surface, the cement mortar is also enabled to contact with the wall surface, the contact block 36 rotates reversely continuously to drive the fixed block 47 to move upwards, the fixed block 47 moves upwards to drive the charging hopper 42 to move upwards, the charging hopper 42 moves upwards to coat the cement mortar on the wall surface, the charging hopper 42 moves upwards to drive the roller 44 to move upwards through the return plate 45, and the roller 44 moves upwards to drive the sliding block 46. When contact block 36 reversal and fixed block 47 break away from, because of the effect of gravity, charging hopper 42 moves down and the while upswing resets and breaks away from with the wall, and simultaneously, charging hopper 42 still moves down and resets, and then when this device moved to next position, pours into charging hopper 42 proper amount cement mortar into again, and then contact block 36 reversal when contacting fixed block 47 contact again, just also makes charging hopper 42 move up and scribble cement mortar on the wall of enclosure. When the wall surface of the enclosing wall is completely coated with cement mortar, the servo motor 35 is turned off, the contact block 36 stops reversing, and the charging hopper 42 stops moving.

Example 2

On the basis of the embodiment 1, as shown in fig. 1-3, the blanking device 5 is further included, the blanking device 5 includes a loading frame 51, a sliding block 52 and a guiding block 53, l template 54, installation piece 55, first spring 56 and baffle 57, all the rigid coupling has guide block 53 in left and right sides riser 2 medial surface lower part front side, the sliding block 52 that is equipped with of guide block 53 internal sliding formula, the rigid coupling has material loading frame 51 between the left and right sides sliding block 52 medial surface, material loading frame 51 bottom rear side is uncovered setting, material loading frame 51 outer bottom front side rigid coupling has installation piece 55, the anterior cross-under that all slides of left and right sides sliding block 52 has L template 54, L template 54 and guide block 53 cooperate, the rigid coupling has baffle 57 between left side L template 54 right flank lower part rear side and the right side L template 54 left flank lower part rear side, baffle 57 and the contact cooperation of the opening of material loading frame 51, evenly spaced is connected with three first springs 56 between baffle 57 front side and the installation piece 55 rear side.

When the device moves to the side of the enclosing wall, a proper amount of cement mortar is poured into the material loading frame 51, the material loading frame 51 is pushed to move backwards, the material loading frame 51 moves backwards to drive the sliding block 52 and the mounting block 55 to move backwards, the sliding block 52 moves backwards to drive the L-shaped plate 54 to move backwards, the L-shaped plate 54 moves backwards to drive the baffle 57 to move backwards, when the L-shaped plate 54 moves backwards to contact with the guide block 53, the L-shaped plate 54 stops moving, so that the baffle 57 stops moving, the material loading frame 51 continues to move backwards to drive the mounting block 55 to move backwards, the first spring 56 is compressed, the baffle 57 does not block the opening of the material loading frame 51 along with the continuous backward movement of the material loading frame 51, the cement mortar in the material loading frame 51 falls into the material loading hopper 42, when a proper amount of cement mortar exists in the material loading hopper 42, the material loading frame 51 is released, the mounting block 55 drives the material loading frame 51 to move forwards for a certain distance due to the action of the first spring 56 to block the opening, and cement mortar stops falling, the loading frame 51 is pulled to move forwards, the sliding block 52 drives the L-shaped plate 54 to move forwards and reset, the L-shaped plate 54 resets and is separated from the guide block 53, and the loading frame 51 stops being pulled. So, make things convenient for operating personnel to pour cement mortar into charging hopper 42 in, work efficiency is high.

Example 3

On the basis of the embodiments 1 and 2, as shown in fig. 1 and 2, the loading device further comprises a driving rod 6 and a second spring 7, wherein the driving rod 6 is hinged to the middle of the front side of the top of the bottom plate 1, the driving rod 6 is in contact fit with the front part of the loading frame 51, and the second spring 7 is connected between the lower part of the front side of the driving rod 6 and the front side of the top of the bottom plate 1.

Still including buffer block 8 and third spring 9, the buffer block 8 of placing of left and right sides spout 43 inward-sliding type, buffer block 8 is located slider 46 below and rather than the contact cooperation, is connected with third spring 9 between 8 bottoms of buffer block and the spout 43 bottom.

When a proper amount of cement mortar is in the loading frame 51, the driving rod 6 is pulled to swing backwards, the second spring 7 is stretched, the driving rod 6 swings backwards to drive the loading frame 51 to move backwards, and further when the cement mortar in the loading frame 51 drops into the loading hopper 42, the driving rod 6 stops being pulled to swing backwards, when a proper amount of cement mortar is in the loading hopper 42, the driving rod 6 is loosened, the driving rod 6 swings forwards to reset due to the action of the second spring 7, the driving rod 6 resets and is separated from the loading frame 51, the loading frame 51 moves forwards for a certain distance due to the action of the first spring 56, and an operator pulls the loading frame 51 to move forwards to reset. Therefore, the loading frame 51 can be moved backwards better by an operator, and the operation is more convenient.

When the contact block 36 is separated from the fixed block 47, the charging hopper 42 moves downwards to reset due to the action of gravity, the sliding block 46 also moves downwards to reset to be contacted with the buffer block 8, and the buffer block 8 buffers the sliding block 46 and also buffers the charging hopper 42 due to the action of the third spring 9. Thus, it is possible to avoid damage caused by an excessive downward movement force of the hopper 42.

Although embodiments of the present invention have been shown and described, it would be appreciated by those skilled in the art that changes may be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the claims and their equivalents.

Claims

1. The utility model provides an outdoor enclosure wall cement mortar bottoming ware for building, characterized by, including:

the device comprises a bottom plate (1), wherein a vertical plate (2) is symmetrically and fixedly connected to the edge of one side of the bottom plate (1);

the driving mechanism (3) is arranged between one side of the two vertical plates (2) and one side of the bottom plate (1) and is used for providing power;

the smearing mechanism (4) is arranged between the outer sides of the two vertical plates (2), is matched with the driving mechanism (3) and is used for smearing cement mortar on the wall surface of the enclosing wall;

the drive mechanism (3) comprises:

the rotating shafts (31) are arranged, one of the rotating shafts (31) is rotatably arranged between one sides of the two vertical plates (2) close to the bottom plate (1), and the other rotating shaft is rotatably arranged between one sides of the two vertical plates (2) far away from the bottom plate (1);

the chain wheel (32) is fixedly sleeved on one part of the circumference of the rotating shaft (31) close to the vertical plate (2);

two chains (33), wherein the two chains (33) are respectively wound between the two chain wheels (32) on each side;

the contact block (36), the contact block (36) is fixedly connected to one part of the outer circumference of the chain (33) facing the bottom plate (1), and the contact block is matched with the smearing mechanism (4);

the servo motor (35), the servo motor (35) is installed at the position close to one side edge of the bottom plate (1) of one of the vertical plates (2);

the transmission assembly (34) is connected between the end part of an output shaft of the servo motor (35) and one part of the circumference of the rotating shaft (31) close to the bottom plate (1);

the smearing mechanism (4) comprises:

the sliding groove (43) is arranged on one side of the vertical plate (2) far away from the rotating shaft (31);

the sliding block (46), the sliding block (46) is placed in the sliding groove (43) in a sliding manner;

the fixing plate (41) is fixedly connected to one side, far away from the sliding block (46) of the vertical plate (2), of the fixing plate (41) and is arranged obliquely;

the roller (44) is fixedly connected to one side of the fixing plate (41) which is far away from the vertical plate (2) and is on the same side as the sliding block (46);

the die return plate (45), the die return plate (45) is slidably sleeved on the roller (44);

the charging hopper (42) is fixedly connected between one sides of the two circular plates (45) far away from the fixed plate (41);

the fixing blocks (47) are symmetrically fixedly connected to the outer side of the charging hopper (42) facing the vertical plate (2) and far away from the bottom plate (1) and matched with the contact blocks (36);

still including unloading mechanism (5), unloading mechanism (5) including:

the guide block (53) is fixedly connected to one side of the vertical plate (2) which is close to the bottom plate (1) and is on the same side as the chain wheel (32);

a sliding block (52), wherein the sliding block (52) is slidably placed in the guide block (53);

the loading frame (51) is fixedly connected between one sides of the two sliding blocks (52) far away from the vertical plate (2), and one side, facing the bottom plate (1) and close to the fixed block (47), of the loading frame (51) is open;

the mounting block (55), the mounting block (55) is fixedly connected to one side of the outer side of the loading frame (51) which faces the bottom plate (1) and is far away from the fixing block (47);

the L-shaped plate (54) is slidably penetrated and connected to one part of the sliding block (52) far away from the guide block (53);

the baffle (57) is fixedly connected between the outer sides of the two L-shaped plates (54) far away from the vertical plate (2) and close to the fixed block (47), and is in contact fit with the opening of the charging frame (51);

the first springs (56), the first springs (56) are connected between the side of the baffle plate (57) far away from the charging hopper (42) and the side of the mounting block (55) facing the fixing block (47) at intervals, and the number of the first springs is at least three.

2. The outdoor enclosure wall and cement mortar primer for construction as claimed in claim 1, further comprising:

the driving rod (6), the driving rod (6) is hinged to the middle of one side of the bottom plate (1) close to the servo motor (35), and the driving rod is in contact fit with the loading frame (51);

the second spring (7), second spring (7) connect in keep away from dress frame (51) between actuating lever (6) one side and bottom plate (1) one side.

3. The outdoor enclosure wall surface cement mortar bottomer for buildings according to claim 2, characterized by further comprising:

the buffer block (8), the buffer block (8) is slidably placed in the sliding groove (43), and is in contact fit with the sliding block (46);

and the third spring (9), and the third spring (9) is connected between one side of the buffer block (8) far away from the sliding block (46) and one side of the sliding groove (43) close to the bottom plate (1).