CN109184237B - Multifunctional construction machinery wall building device - Google Patents

Abstract

The invention relates to a device, in particular to a multifunctional building machinery wall building device, which can release cement to a wall body through a cement box, cement can be uniformly coated by a cement plate, the coating thickness of the cement can be controlled by a limit box, and the lateral flow waste of the cement can be prevented; bricks can be uniformly arranged through brick stacking belts. The brick stacking motor groups are positioned on two sides of the brick stacking box and connected with the transmission gear group through a belt; the brick stacking belts are arranged in two groups, two brick stacking belts are arranged in each group, and the brick stacking belts are arranged inside the brick stacking box; the two brick stacking boxes are fixed on the upper part of the limiting box; the cement box is positioned in the middle of the brick stacking box; the transmission gear set is arranged on the side surface of the brick stacking box and is connected with the brick stacking motor set; the two cement motor sets are fixed on two sides of the brick stacking box and connected with the rotating shaft set; the pivot group is equipped with two, and pivot group installs in the both sides of spacing case.

Description

Multifunctional construction machinery wall building device

Technical Field

The invention relates to a device, in particular to a multifunctional building machinery wall building device.

Background

High-rise buildings are constructed by manually arranging bricks and cement, but the manual operation is time-consuming and labor-consuming, and the construction process is accelerated. Therefore, the multifunctional construction machinery wall building device is designed.

Disclosure of Invention

The invention provides a multifunctional building machinery wall building device, which has the advantages that cement can be released to a wall body through a cement box, cement can be uniformly coated by a cement plate, the coating thickness of the cement can be controlled by a limiting box, and side flow waste of the cement can be prevented; bricks can be uniformly arranged through brick stacking belts.

In order to solve the technical problems, the invention relates to a device, in particular to a multifunctional building machinery wall building device, which comprises a brick stacking motor set, a brick stacking belt, a brick stacking box, a cement box, a transmission gear set, a cement motor set, a rotating shaft set, a limiting box, a connecting rod, a cement plate and a moving wheel, wherein cement can be released to a wall body through the cement box, the cement plate can uniformly paint the cement, the limiting box can control the cement painting thickness and can prevent cement from side flow waste; bricks can be uniformly arranged through brick stacking belts.

The brick stacking motor group consists of a base, a brick stacking motor belt pulley and a brick stacking belt; the left end of the base is fixed with the brick stacking box through screws, and the right end of the base is fixed with the brick stacking motor; the brick stacking motor is connected with a brick stacking motor belt pulley through a motor shaft; a brick stacking belt is sleeved outside the brick stacking motor belt wheel; one end of the brick stacking belt is connected with the transmission gear group;

the brick stacking belt consists of a roller, a belt tooth, a belt and a roller shaft; the number of the rollers is four, the rollers are cylindrical, and the outer parts of the rollers are in contact with the belt; the belt teeth are fixed on the belt; the belt is wound on the roller; the roller shaft penetrates through the roller and is connected with the brick stacking box;

the brick stacking box consists of a brick adding opening, a roller shaft hole and a brick outlet hole; the brick adding opening is positioned at the upper part of the brick stacking box and is inclined; the eight roller shaft holes are formed in the front box wall and the rear box wall of the brick stacking box, and the roller shafts penetrate through the roller shaft holes; the brick outlet hole is positioned at the lower part of the brick stacking box and is rectangular;

the cement box consists of a feeding port and a stirring discharge wheel; the feeding port is positioned at the upper part of the cement box and is rectangular; the stirring discharge wheel is positioned at the lower part of the cement box, the stirring discharge wheel is arranged on the cement box through a rotating shaft, and the stirring discharge wheel is connected with the motor through a belt;

the transmission gear set consists of a gear shaft, an intermediate transmission gear and a driving gear; one end of a gear shaft is welded on the wall of the brick stacking box, and the middle of the gear shaft penetrates through the transmission gear set and four gear shafts; two intermediate transmission gears are arranged, the intermediate transmission gears are meshed with each other, and two sides of each intermediate transmission gear are meshed with the driving gear; two driving gears are arranged and are connected with the brick stacking belt;

the driving gear consists of a first-layer belt wheel, a shaft hole and a second-layer gear; the first layer of belt wheel is positioned on the right side of the driving gear and is connected with the brick stacking motor belt wheel through a brick stacking belt; the shaft hole is positioned in the middle of the driving gear and is sleeved on the gear shaft; the second-layer gear is positioned on the left side of the driving gear and meshed with the middle transmission gear;

the cement motor group consists of a cement motor, a cement motor belt wheel and a cement belt; the cement motor is fixed on two sides of the limit box through screws; the cement motor belt wheel is arranged on a rotating shaft of the cement motor set, and a cement belt is sleeved outside the cement motor belt wheel; the other end of the cement belt is sleeved on the rotating shaft belt wheel;

the rotating shaft group consists of a limiting nut, a connecting rod shaft, a rotating shaft belt wheel, a rotating shaft and a belt wheel fixing nut; the two limiting nuts are positioned on two sides of the rotating shaft group and are in threaded fit with the connecting rod shaft; the connecting rod shafts are positioned on two sides of the rotating shaft group and penetrate through one end of the connecting rod; two rotating shaft belt wheels are arranged and are positioned at two ends of the rotating shaft group, and a cement belt is sleeved on each rotating shaft belt wheel; the rotating shafts are arranged on two sides of the limiting box; two belt wheel fixing nuts are arranged, the belt wheel fixing nuts are in threaded fit with the rotating shaft group, and the belt wheel fixing nuts are in contact with the rotating shaft belt wheels;

the limiting box consists of a rotating shaft hole, a limiting groove, a cement baffle plate and a limiting column; the rotating shaft hole is positioned at the upper part of the limiting column, and the rotating shaft group penetrates through the rotating shaft hole; the limiting grooves are positioned on the upper side of the middle part of the limiting box, are rectangular and are provided with two limiting grooves; the cement baffle is rectangular; the number of the limiting columns is four, and the limiting columns are welded on two sides of the limiting box;

the connecting rod consists of a connecting hole, a first-stage connecting rod and a second-stage connecting rod; the connecting hole is connected with the rotating shaft group; round holes are processed at two ends of the first-stage connecting rod, one end of the first-stage connecting rod is connected with the rotating shaft group, and one end of the first-stage connecting rod is connected with the second-stage connecting rod; the other end of the second-level connecting rod is connected with the cement board;

the cement board consists of a trapezoidal block, a sliding block, a connecting column and a scraping groove; the trapezoidal block is in an inverted trapezoid shape and is positioned in the limit box; the two sliding blocks are arranged and positioned on two sides of the trapezoidal block, and two connecting columns are welded on the sliding blocks; two groups of connecting columns are arranged, two connecting columns are arranged in each group, and the connecting columns are connected with the secondary connecting rods; the scraping groove is arranged at the lower part of the trapezoidal block and is semicircular;

the moving wheel consists of a wheel hub, a helical gear, a moving motor, a moving belt, a bracket and a fixing screw; the two hubs are connected with the bracket through shafts; one of the bevel gears is fixed with the hub shaft, the other bevel gear is arranged on the moving motor, and the two bevel gears are meshed; the movable motor is fixed on the bracket through a screw; the moving belt is sleeved on the two hubs; the bracket is V-shaped, and two shaft holes are processed on the bracket; three fixing screws are arranged and are in threaded fit with the limiting box;

the brick stacking motor groups are positioned on two sides of the brick stacking box and connected with the transmission gear group through a belt; the brick stacking belts are arranged in two groups, two brick stacking belts are arranged in each group, and the brick stacking belts are arranged inside the brick stacking box; the two brick stacking boxes are fixed on the upper part of the limiting box; the cement box is positioned in the middle of the brick stacking box; the transmission gear set is arranged on the side surface of the brick stacking box and is connected with the brick stacking motor set; the two cement motor sets are fixed on two sides of the brick stacking box and connected with the rotating shaft set; the two rotating shaft groups are arranged on two sides of the limiting box; one end of the connecting rod is connected with the rotating shaft group, and one end of the connecting rod is connected with the cement board; the cement board is positioned on the limit box; the removal wheel is equipped with two, removes the wheel and is fixed in the both ends of spacing case.

As a further optimization of the technical scheme, the multifunctional building machinery wall building device is provided with a plurality of belt teeth, and the belt teeth on two brick stacking belts are always horizontal to each other.

The multifunctional building machinery wall building device has the beneficial effects that:

according to the multifunctional building machinery wall building device, cement can be released to a wall body through the cement box, cement can be uniformly coated by the cement board, the thickness of the cement coating can be controlled by the limiting box, and side flow waste of the cement can be prevented; bricks can be uniformly arranged through brick stacking belts.

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 a multifunctional construction machine for building walls according to the present invention.

Fig. 2 is a schematic structural view of a brick-piling motor unit 1 of a multifunctional construction machine for building walls.

Fig. 3 is a schematic structural view of a brick stacking belt 2 of the multifunctional wall building device of the invention.

Fig. 4 is a schematic structural view of a brick stacking box 3 of the multifunctional wall stacking device for construction machinery of the present invention.

Fig. 5 is a schematic structural view of a cement box 4 of the multifunctional construction machine for building walls according to the present invention.

Fig. 6 is a schematic structural view of a transmission gear set 5 of the multifunctional construction machinery wall building device of the present invention.

Fig. 7 is a schematic structural view of a driving gear 5-3 of a multifunctional construction machine wall building device according to the present invention.

Fig. 8 is a schematic structural view of a cement motor unit 6 of the multifunctional construction machinery wall building device of the present invention.

Fig. 9 is a schematic structural view of a rotating shaft group 7 of the multifunctional construction machine wall building device of the present invention.

Fig. 10 is a schematic structural view of a limit box 8 of the multifunctional wall building device of the invention.

Fig. 11 is a schematic structural view of a connecting rod 9 of a multifunctional construction machine for building walls according to the present invention.

Fig. 12 is a schematic structural view of a cement board 10 of a multifunctional construction machine for building walls according to the present invention.

Fig. 13 is a schematic view showing the other side structure of the cement board 10 of the apparatus for building walls using the multifunctional construction machine of the present invention.

Fig. 14 is a schematic structural view of a movable wheel 11 of a multifunctional construction machine for building walls according to the present invention.

In the figure: a brick-building motor group 1; a base 1-1; a brick stacking motor 1-2; a brick stacking motor belt wheel 1-3; brick stacking belts 1-4; building a brick belt 2; a roller 2-1; 2-2 parts of belt teeth; 2-3 of a belt; roller shafts 2-4; building a brick box 3; adding 3-1 of brick openings; a roller shaft hole 3-2; 3-3, discharging brick holes; a cement box 4; a feeding port 4-1; a stirring discharge wheel 4-2; a transmission gear set 5; a gear shaft 5-1; an intermediate transmission gear 5-2; 5-3 of a driving gear; a layer of belt wheels 5-3-1; the shaft hole 5-3-2; 5-3-3 parts of a second-layer gear; a cement motor unit 6; 6-1 of a cement motor; 6-2 of a cement motor belt wheel; 6-3 parts of a cement belt; a rotating shaft group 7; a limiting nut 7-1; a link shaft 7-2; 7-3 of a rotating shaft belt wheel; 7-4 of a rotating shaft; belt wheel fixing screw cap 7-5; a limit box 8; a rotating shaft hole 8-1; a limiting groove 8-2; 8-3 parts of a cement baffle; 8-4 of a limiting column; a connecting rod 9; a connecting hole 9-1; a first-level connecting rod 9-2; a secondary connecting rod 9-3; a cement board 10; a trapezoidal block 10-1; a slider 10-2; 10-3 of a connecting column; 10-4 of a scraping groove; a moving wheel 11; a hub 11-1; bevel gears 11-2; a mobile motor 11-3; a moving belt 11-4; 11-5 of a bracket; and fixing screws 11-6.

Detailed Description

The first embodiment is as follows:

the embodiment is described below by combining fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13 and 14, and the invention relates to a device, in particular to a multifunctional construction machinery wall building device, which comprises a brick stacking motor group 1, a brick stacking belt 2, a brick stacking box 3, a cement box 4, a transmission gear group 5, a cement motor group 6, a rotating shaft group 7, a limiting box 8, a connecting rod 9, a cement plate 10 and a moving wheel 11, wherein cement can be released to a wall body through the cement box, the cement plate can be uniformly coated with cement, the limiting box can control the thickness of cement side flow coating, and cement waste can be prevented; bricks can be uniformly arranged through brick stacking belts.

The brick stacking motor group 1 consists of a base 1-1, a brick stacking motor 1-2, a brick stacking motor belt pulley 1-3 and a brick stacking belt 1-4; the left end of the base 1-1 is fixed with the brick stacking box 3 through screws, and the right end of the base 1-1 is fixed with the brick stacking motor 1-2; the brick stacking motor 1-2 is connected with a brick stacking motor belt pulley 1-3 through a motor shaft; brick stacking belts 1-4 are sleeved outside the brick stacking motor belt wheels 1-3; one end of a brick stacking belt 1-4 is connected with a transmission gear set 5;

the brick piling belt 2 consists of a roller 2-1, a belt tooth 2-2, a belt 2-3 and a roller shaft 2-4; four rollers 2-1 are arranged, the rollers 2-1 are cylindrical, and the outer parts of the rollers 2-1 are in contact with the belts 2-3; the belt teeth 2-2 are fixed on the belt 2-3; a belt 2-3 is wound on the roller 2-1; the roller shaft 2-4 penetrates through the roller 2-1, and the roller shaft 2-4 is connected with the brick laying box 3; the driving gear 5-3 rotates to drive the roller 2-1 to rotate, the roller 2-1 drives the belt 2-3 to move, the belt 2-3 drives the belt teeth 2-2 to move, the brick is added from the brick adding opening 3-1, the brick falls between the two belt batteries 2-2, and moves downwards along with the belt teeth 2-2, and the brick falls below when moving to the brick outlet 3-3 below;

the brick stacking box 3 consists of a brick adding opening 3-1, a roller shaft hole 3-2 and a brick discharging hole 3-3; the brick adding opening 3-1 is positioned at the upper part of the brick stacking box 3, and the brick adding opening 3-1 is inclined; the roller shaft holes 3-2 are positioned on the front box wall and the rear box wall of the brick stacking box 3, eight roller shaft holes 3-2 are arranged, and the roller shafts 2-4 penetrate through the roller shaft holes 3-2; the brick outlet hole 3-3 is positioned at the lower part of the brick stacking box 3, and the brick outlet hole 3-3 is rectangular;

the cement box 4 consists of a feeding port 4-1 and a stirring discharge wheel 4-2; the feeding port 4-1 is positioned at the upper part of the cement box 4, and the feeding port 4-1 is rectangular; the stirring discharge wheel 4-2 is positioned at the lower part of the cement box 4, the stirring discharge wheel 4-2 is arranged on the cement box 4 through a rotating shaft, and the stirring discharge wheel 4-2 is connected with a motor through a belt; pouring the stirred cement into a cement box 4 from a feeding port 4-1; starting a motor, wherein the motor drives a belt to rotate, the belt is connected with a stirring discharge wheel 4-2, the stirring discharge wheel 4-2 rotates along with the belt, and cement can be uniformly and equivalently discharged onto a wall body along with the rotation of the stirring discharge wheel 4-2;

the transmission gear set 5 consists of a gear shaft 5-1, an intermediate transmission gear 5-2 and a driving gear 5-3; one end of a gear shaft 5-1 is welded on the wall of the brick stacking box 3, and four gear shafts 5-1 penetrate through the transmission gear set 5 and the gear shaft 5-1 in the middle of the gear shaft 5-1; two intermediate transmission gears 5-2 are arranged, the intermediate transmission gears 5-2 are meshed with each other, and two sides of the intermediate transmission gear 5-2 are meshed with the driving gear 5-3; two driving gears 5-3 are arranged, and the driving gears 5-3 are connected with brick stacking belts 1-4; starting a brick stacking motor set 1, wherein the brick stacking motor set 1 rotates to drive a brick stacking motor belt wheel 1-3 to rotate, the brick stacking motor belt wheel 1-3 rotates to drive a brick stacking belt 1-4 to rotate, the brick stacking belt 1-4 drives a driving gear 5-3 to rotate, the driving gear 5-3 drives an intermediate transmission gear 5-2 to rotate, the intermediate transmission gear 5-2 transmits motion to the left, and finally the left driving gear 5-3 rotates and is opposite to the rotating direction of the right driving gear 5-3, and the driving gear 5-3 rotates;

the driving gear 5-3 consists of a first layer belt wheel 5-3-1, a shaft hole 5-3-2 and a second layer gear 5-3-3; a layer of belt wheel 5-3-1 is positioned at the right side of the driving gear 5-3, and the layer of belt wheel 5-3-1 is connected with a brick stacking motor belt wheel 1-3 through a brick stacking belt 1-4; the shaft hole 5-3-2 is positioned in the middle of the driving gear 5-3, and the shaft hole 5-3-2 is sleeved on the gear shaft 5-1; the second-layer gear 5-3-3 is positioned on the left side of the driving gear 5-3, and the second-layer gear 5-3-3 is meshed with the intermediate transmission gear 5-2;

the cement motor group 6 consists of a cement motor 6-1, a cement motor belt wheel 6-2 and a cement belt 6-3; the cement motor 6-1 is fixed on two sides of the limit box 8 through screws; the cement motor belt wheel 6-2 is arranged on a rotating shaft of the cement motor group 6, and a cement belt 6-3 is sleeved outside the cement motor belt wheel 6-2; the other end of the cement belt 6-3 is sleeved on the rotating shaft belt wheel 7-3; the cement motor set 6 is connected into a circuit, the cement motor set 6 is started, the cement motor set 6 rotates to drive the cement motor belt wheel 6-2 to rotate, one end of the cement belt 6-3 is connected to the cement motor belt wheel 6-2, one end of the cement belt 6-3 is connected to the rotating shaft belt wheel 7-3, and therefore the cement motor belt wheel 6-2 drives the rotating shaft belt wheel 7-3 to rotate;

the rotating shaft group 7 consists of a limiting nut 7-1, a connecting rod shaft 7-2, a rotating shaft belt wheel 7-3, a rotating shaft 7-4 and a belt wheel fixing nut 7-5; two limiting nuts 7-1 are arranged, the limiting nuts 7-1 are positioned on two sides of the rotating shaft group 7, and the limiting nuts 7-1 are in threaded fit with the connecting rod shaft 7-2; the connecting rod shafts 7-2 are positioned at two sides of the rotating shaft group 7, and the connecting rod shafts 7-2 penetrate through one end of the connecting rod 9; two rotating shaft belt wheels 7-3 are arranged, the rotating shaft belt wheels 7-3 are positioned at two ends of the rotating shaft group 7, and a cement belt 6-3 is sleeved on the rotating shaft belt wheels 7-3; the rotating shafts 7-4 are arranged on two sides of the limiting box 8; two belt wheel fixing nuts 7-5 are arranged, the belt wheel fixing nuts 7-5 are in threaded fit with the rotating shaft group 7, and the belt wheel fixing nuts 7-5 are in contact with the rotating shaft belt wheels 7-3;

the limiting box 8 consists of a rotating shaft hole 8-1, a limiting groove 8-2, a cement baffle 8-3 and a limiting column 8-4; the rotating shaft hole 8-1 is positioned at the upper part of the limiting column 8-4, and the rotating shaft group 7 passes through the rotating shaft hole 8-1; the limiting grooves 8-2 are positioned at the upper side of the middle part of the limiting box 8, the limiting grooves 8-2 are rectangular, and two limiting grooves 8-2 are arranged; the cement baffle 8-3 is rectangular; four limiting columns 8-4 are arranged, and the limiting columns 8-4 are welded on two sides of the limiting box 8; the limiting box 8 can limit the cement board 10 to do reciprocating motion and can limit cement to flow out from the side surface

The connecting rod 9 consists of a connecting hole 9-1, a first-stage connecting rod 9-2 and a second-stage connecting rod 9-3; the connecting hole 9-1 is connected with the rotating shaft group 7; round holes are processed at two ends of the primary connecting rod 9-2, one end of the primary connecting rod 9-2 is connected with the rotating shaft group 7, and one end of the primary connecting rod 9-2 is connected with the secondary connecting rod 9-3; the other end of the second-level connecting rod 9-3 is connected with a cement board 10;

the cement board 10 consists of a trapezoidal block 10-1, a sliding block 10-2, a connecting column 10-3 and a scraping groove 10-4; the trapezoid block 10-1 is in an inverted trapezoid shape, and the trapezoid block 10-1 is positioned in the limit box 8; two sliding blocks 10-2 are arranged, the sliding blocks 10-2 are positioned on two sides of the trapezoidal block 10-1, and two connecting columns 10-3 are welded on the sliding blocks 10-2; two groups of connecting columns 10-3 are arranged, two connecting columns 10-3 are arranged in each group, and the connecting columns 10-3 are connected with the secondary connecting rods 9-3; the scraping groove 10-4 is arranged at the lower part of the trapezoidal block 10-1, and the scraping groove 10-4 is semicircular; the cement motor belt wheel 6-2 drives the rotating shaft belt wheel 7-3 to rotate, the rotating shaft belt wheel 7-3 is fixed on the rotating shaft group 7, so that the rotating shaft group 7 rotates, two ends of the rotating shaft group 7 are connected with the connecting rod 9, the rotating shaft group 7 drives the connecting rod 9 to rotate, the other end of the connecting rod 9 is sleeved on the cement board 10, and the cement board 10 is positioned on the limiting box 8, so that the cement board 10 reciprocates left and right in the limiting box 8, and cement is uniformly coated on a wall; the scraping groove 10-4 at the lower part of the cement board 10 can increase the contact area between cement and bricks;

the moving wheel 11 consists of a wheel hub 11-1, a bevel gear 11-2, a moving motor 11-3, a moving belt 11-4, a bracket 11-5 and a fixing screw 11-6; two hubs 11-1 are arranged, and the hubs 11-1 are connected with the bracket 11-5 through shafts; one bevel gear 11-2 is fixed with the hub 11-1, one bevel gear 11-2 is arranged on the moving motor 11-3, and the two bevel gears 11-2 are meshed; the movable motor 11-3 is fixed on the bracket 11-5 through a screw; the moving belt 11-4 is sleeved on the two hubs 11-1; the bracket 11-5 is V-shaped, and two shaft holes are processed on the bracket 11-5; three fixing screws 11-6 are arranged, and the fixing screws 11-6 are in threaded fit with the limiting box 8;

the brick stacking motor sets 1 are arranged on two sides of the brick stacking box 3, and the brick stacking motor sets 1 are connected with the transmission gear set 5 through belts; the brick stacking belts 2 are arranged in two groups, two brick stacking belts 2 are arranged in each group, and the brick stacking belts 2 are arranged inside the brick stacking boxes 3; two brick stacking boxes 3 are arranged, and the brick stacking boxes 3 are fixed on the upper part of the limiting box 8; the cement box 4 is positioned in the middle of the brick stacking box 3; the transmission gear set 5 is arranged on the side surface of the brick stacking box 3, and the transmission gear set 5 is connected with the brick stacking motor set 1; two cement motor sets 6 are arranged, the cement motor sets 6 are fixed on two sides of the brick laying box 3, and the cement motor sets 6 are connected with the rotating shaft set 7; two rotating shaft groups 7 are arranged, and the rotating shaft groups 7 are arranged on two sides of the limiting box 8; one end of a connecting rod 9 is connected with the rotating shaft group 7, and one end of the connecting rod 9 is connected with a cement plate 10; the cement board 10 is positioned on the limit box 8; the number of the moving wheels 11 is two, and the moving wheels 11 are fixed at two ends of the limiting box 8.

The second embodiment is as follows:

in the following, referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, the present embodiment further describes an embodiment in which the belt teeth 2-2 are provided in plurality, and the belt teeth 2-2 of two brick piling belts 2 are always horizontal to each other.

The working principle of the invention is as follows: cement filling and discharging principle: pouring the stirred cement into a cement box 4 from a feeding port 4-1; the motor is started, the motor drives the belt to rotate, the belt is connected with the stirring discharge wheel 4-2, the stirring discharge wheel 4-2 rotates along with the belt, and cement can be uniformly and equivalently discharged onto the wall body along with the rotation of the stirring discharge wheel 4-2.

Cement leveling principle: the cement motor set 6 is connected into a circuit, the cement motor set 6 is started, the cement motor set 6 rotates to drive the cement motor belt wheel 6-2 to rotate, one end of the cement belt 6-3 is connected to the cement motor belt wheel 6-2, one end of the cement belt 6-3 is connected to the rotating shaft belt wheel 7-3, therefore, the cement motor belt wheel 6-2 drives the rotating shaft belt wheel 7-3 to rotate, the rotating shaft belt wheel 7-3 is fixed on the rotating shaft set 7, therefore, the rotating shaft set 7 rotates, two ends of the rotating shaft set 7 are connected with the connecting rod 9, the rotating shaft set 7 drives the connecting rod 9 to rotate, the other end of the connecting rod 9 is sleeved on the cement plate 10, and the cement plate 10 is located on the limiting box 8, therefore, the cement plate 10 reciprocates left and right in the limiting box 8, and. The scraping grooves 10-4 on the lower portion of the cement board 10 can increase the contact area between cement and bricks. The limiting box 8 can limit the cement board 10 to do reciprocating motion and can limit cement to flow out from the side face.

Brick paving principle: starting a brick-piling motor group 1, rotating the brick-piling motor group 1 to drive a brick-piling motor belt wheel 1-3 to rotate, rotating the brick-piling motor belt wheel 1-3 to drive a brick-piling belt 1-4 to rotate, rotating a driving gear 5-3 by the brick-piling belt 1-4, rotating an intermediate transmission gear 5-2 by the driving gear 5-3, transmitting the motion to the left by the intermediate transmission gear 5-2, finally rotating the left driving gear 5-3 in the direction opposite to the rotating direction of the right driving gear 5-3, rotating the driving gear 5-3 to drive a roller 2-1 to rotate, driving the belt 2-3 to move by the roller 2-1, driving a belt 2-2 to move by the roller 2-3, adding a brick from a brick-adding opening 3-1, dropping the brick between two charged batteries 2-2, moving downwards along with the belt 2-, when the brick moves to the lower part and is discharged from the brick hole 3-3, the brick falls into the lower part.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (2)

1. The utility model provides a multifunctional construction machinery barrier device, includes building brick motor group (1), building brick area (2), building brick case (3), cement box (4), drive gear group (5), cement motor group (6), pivot group (7), spacing case (8), connecting rod (9), cement board (10), removal wheel (11), its characterized in that: the brick stacking motor group (1) consists of a base (1-1), a brick stacking motor (1-2), a brick stacking motor belt wheel (1-3) and a brick stacking belt (1-4); the left end of the base (1-1) is fixed with the brick stacking box (3) through screws, and the right end of the base (1-1) is fixed with the brick stacking motor (1-2); the brick stacking motor (1-2) is connected with a brick stacking motor belt wheel (1-3) through a motor shaft; a brick stacking belt (1-4) is sleeved outside the brick stacking motor belt wheel (1-3); one end of the brick stacking belt (1-4) is connected with the transmission gear set (5);

the brick piling belt (2) consists of a roller (2-1), a belt tooth (2-2), a belt (2-3) and a roller shaft (2-4); four rollers (2-1) are arranged, the rollers (2-1) are cylindrical, and the outer parts of the rollers (2-1) are in contact with the belt (2-3); the belt teeth (2-2) are fixed on the belt (2-3); the belt (2-3) is wound on the roller (2-1); the roller shaft (2-4) penetrates through the roller (2-1), and the roller shaft (2-4) is connected with the brick laying box (3);

the brick stacking box (3) consists of a brick adding opening (3-1), a roller shaft hole (3-2) and a brick outlet hole (3-3); the brick adding opening (3-1) is positioned at the upper part of the brick stacking box (3), and the brick adding opening (3-1) is inclined; the eight roller shaft holes (3-2) are formed in the front box wall and the rear box wall of the brick stacking box (3), and the roller shaft holes (3-2) penetrate through the roller shafts (2-4); the brick outlet hole (3-3) is positioned at the lower part of the brick stacking box (3), and the brick outlet hole (3-3) is rectangular;

the cement box (4) consists of a feeding port (4-1) and a stirring discharge wheel (4-2); the feeding port (4-1) is positioned at the upper part of the cement box (4), and the feeding port (4-1) is rectangular; the stirring discharge wheel (4-2) is positioned at the lower part of the cement box (4), the stirring discharge wheel (4-2) is arranged on the cement box (4) through a rotating shaft, and the stirring discharge wheel (4-2) is connected with a motor through a belt;

the transmission gear set (5) consists of a gear shaft (5-1), an intermediate transmission gear (5-2) and a driving gear (5-3); one end of each gear shaft (5-1) is welded on the wall of the brick stacking box (3), and the number of the gear shafts (5-1) is four, and the middle of each gear shaft (5-1) penetrates through the transmission gear set (5); two intermediate transmission gears (5-2) are arranged, the intermediate transmission gears (5-2) are meshed with each other, and two sides of the intermediate transmission gears (5-2) are meshed with the driving gear (5-3); two driving gears (5-3) are arranged, and the driving gears (5-3) are connected with brick stacking belts (1-4);

the driving gear (5-3) consists of a first layer belt wheel (5-3-1), a shaft hole (5-3-2) and a second layer gear (5-3-3); a layer of belt wheel (5-3-1) is positioned at the right side of the driving gear (5-3), and a layer of belt wheel (5-3-1) is connected with a brick stacking motor belt wheel (1-3) through a brick stacking belt (1-4); the shaft hole (5-3-2) is positioned in the middle of the driving gear (5-3), and the shaft hole (5-3-2) is sleeved on the gear shaft (5-1); the second-layer gear (5-3-3) is positioned on the left side of the driving gear (5-3), and the second-layer gear (5-3-3) is meshed with the intermediate transmission gear (5-2);

the cement motor group (6) consists of a cement motor (6-1), a cement motor belt wheel (6-2) and a cement belt (6-3); the cement motor (6-1) is fixed on two sides of the limit box (8) through screws; the cement motor belt wheel (6-2) is arranged on a rotating shaft of the cement motor set (6), and a cement belt (6-3) is sleeved outside the cement motor belt wheel (6-2); the other end of the cement belt (6-3) is sleeved on the rotating shaft belt wheel (7-3);

the rotating shaft group (7) consists of a limiting nut (7-1), a connecting rod shaft (7-2), a rotating shaft belt wheel (7-3), a rotating shaft (7-4) and a belt wheel fixing nut (7-5); two limiting nuts (7-1) are arranged, the limiting nuts (7-1) are positioned on two sides of the rotating shaft group (7), and the limiting nuts (7-1) are in threaded fit with the connecting rod shaft (7-2); the connecting rod shafts (7-2) are positioned at two sides of the rotating shaft group (7), and the connecting rod shafts (7-2) penetrate through one end of the connecting rod (9); two rotating shaft belt wheels (7-3) are arranged, the rotating shaft belt wheels (7-3) are positioned at two ends of the rotating shaft group (7), and a cement belt (6-3) is sleeved on each rotating shaft belt wheel (7-3); the rotating shafts (7-4) are arranged on two sides of the limiting box (8); two belt wheel fixing nuts (7-5) are arranged, the belt wheel fixing nuts (7-5) are in threaded fit with the rotating shaft group (7), and the belt wheel fixing nuts (7-5) are in contact with the rotating shaft belt wheel (7-3);

the limiting box (8) consists of a rotating shaft hole (8-1), a limiting groove (8-2), a cement baffle (8-3) and a limiting column (8-4); the rotating shaft hole (8-1) is positioned at the upper part of the limiting column (8-4), and the rotating shaft group (7) penetrates through the rotating shaft hole (8-1); the two limiting grooves (8-2) are positioned at the upper side of the middle part of the limiting box (8), the limiting grooves (8-2) are rectangular, and the number of the limiting grooves (8-2) is two; the cement baffle (8-3) is rectangular; four limiting columns (8-4) are arranged, and the limiting columns (8-4) are welded on two sides of the limiting box (8);

the connecting rod (9) consists of a connecting hole (9-1), a first-stage connecting rod (9-2) and a second-stage connecting rod (9-3); the connecting hole (9-1) is connected with the rotating shaft group (7); round holes are processed at two ends of the primary connecting rod (9-2), one end of the primary connecting rod (9-2) is connected with the rotating shaft group (7), and one end of the primary connecting rod (9-2) is connected with the secondary connecting rod (9-3); the other end of the second-level connecting rod (9-3) is connected with a cement board (10);

the cement board (10) consists of a trapezoidal block (10-1), a sliding block (10-2), a connecting column (10-3) and a scraping groove (10-4); the trapezoid block (10-1) is in an inverted trapezoid shape, and the trapezoid block (10-1) is positioned in the limit box (8); two sliding blocks (10-2) are arranged, the sliding blocks (10-2) are positioned on two sides of the trapezoidal block (10-1), and two connecting columns (10-3) are welded on the sliding blocks (10-2); two groups of connecting columns (10-3) are arranged, two connecting columns (10-3) are arranged in each group, and the connecting columns (10-3) are connected with the secondary connecting rods (9-3); the scraping groove (10-4) is arranged at the lower part of the trapezoidal block (10-1), and the scraping groove (10-4) is semicircular;

the moving wheel (11) consists of a wheel hub (11-1), a helical gear (11-2), a moving motor (11-3), a moving belt (11-4), a bracket (11-5) and a fixing screw (11-6); two hubs (11-1) are arranged, and the hubs (11-1) are connected with the bracket (11-5) through shafts; one of the bevel gears (11-2) is fixed with the hub (11-1) through a shaft, one of the bevel gears (11-2) is arranged on the moving motor (11-3), and the two bevel gears (11-2) are meshed; the mobile motor (11-3) is fixed on the bracket (11-5) through a screw; the moving belt (11-4) is sleeved on the two hubs (11-1); the bracket (11-5) is V-shaped, and two shaft holes are processed on the bracket (11-5); three fixing screws (11-6) are arranged, and the fixing screws (11-6) are in threaded fit with the limiting box (8);

the brick stacking motor sets (1) are arranged in two numbers, the brick stacking motor sets (1) are located on two sides of the brick stacking box (3), and the brick stacking motor sets (1) are connected with the transmission gear sets (5) through belts; the brick stacking belts (2) are arranged in two groups, two brick stacking belts (2) are arranged in each group, and the brick stacking belts (2) are installed inside the brick stacking box (3); two brick stacking boxes (3) are arranged, and the brick stacking boxes (3) are fixed on the upper part of the limiting box (8); the cement box (4) is positioned in the middle of the brick stacking box (3); the transmission gear set (5) is arranged on the side surface of the brick stacking box (3), and the transmission gear set (5) is connected with the brick stacking motor set (1); two cement motor sets (6) are arranged, the cement motor sets (6) are fixed on two sides of the brick stacking box (3), and the cement motor sets (6) are connected with the rotating shaft set (7); two rotating shaft groups (7) are arranged, and the rotating shaft groups (7) are arranged on two sides of the limiting box (8); one end of a connecting rod (9) is connected with the rotating shaft group (7), and one end of the connecting rod (9) is connected with the cement plate (10); the cement board (10) is positioned on the limit box (8); two moving wheels (11) are arranged, and the moving wheels (11) are fixed at two ends of the limiting box (8).

2. The multifunctional construction machine for building walls according to claim 1, wherein: the belt teeth (2-2) are provided in plurality, and the belt teeth (2-2) on two brick piling belts (2) are always horizontal to each other.

Images