CN112523245B - Green quick construction of basic engineering brick child mould is with fragment of brick anchor clamps - Google Patents

Abstract

The invention provides a brick clamp for green and rapid construction of a basic engineering brick moulding bed. The brick clamp for green rapid construction of the foundation engineering brick moulding bed comprises a wall body; a drive mechanism; the fixing mechanism comprises a hydraulic rod, a push rod, a supporting plate, a limiting rod, a rotating rod, a pressure rod, a fixing plate and a connecting plate, wherein the connecting plate with an arc-shaped side wall is mounted at one end of the supporting plate; the side wall of the fixed plate is rotatably connected with the rotating rod, and one end of the rotating rod is fixedly connected with the pressing rod; one end of the push rod is provided with the limiting rod, and the limiting rod abuts against the side wall of the fixing plate; a connecting mechanism; an adjustment mechanism; the limiting mechanism comprises a limiting rod, a metal block, a second spring, a sliding groove and a metal ring, the sliding groove is obliquely arranged in the connecting plate, and the sliding groove is connected with the limiting rod in a sliding mode. The brick clamp for green and rapid construction of the basic engineering brick moulding bed provided by the invention can be used for rapidly building the brick moulding bed in a foundation pit.

Description

Green quick construction of basic engineering brick child mould is with fragment of brick anchor clamps

Technical Field

The invention relates to the technical field of brick moulding bed construction, in particular to a brick clamp for green rapid construction of a basic engineering brick moulding bed.

Background

The brick moulding bed is a template made of standard bricks, and after a certain strength is achieved, concrete pouring is carried out; the template is not a part of the engineering entity, and can only be calculated as a measure in construction, and the cost is calculated in the entity cost; the brick moulding bed is generally used for waterproof outside the basement outer wall or a part of a template which is not easy to remove, and the size and the strength of the built brick moulding bed meet the design requirements.

When building the brick matrix in the inside of deep basal pit and building basement shear force wall, the brick matrix height of building is big, and the inside construction space of foundation ditch is little, and inconvenient scaffold of building is under construction to the brick matrix, and builds the scaffold and waste time and energy, has reduced people's work efficiency.

Therefore, there is a need to provide a new brick clamp for green rapid construction of foundation engineering brick moulding bed to solve the above technical problems.

Disclosure of Invention

The invention aims to provide a brick clamp for green and rapid construction of a basic engineering brick moulding bed for rapidly building a brick moulding bed in a foundation pit.

In order to solve the technical problem, the brick clamp for green and rapid construction of the basic engineering brick moulding bed provided by the invention comprises: a wall body; the driving mechanism is arranged at one end of the driving mechanism and is provided with the wall body; the fixing mechanism is arranged on the side wall of the driving mechanism and comprises a hydraulic rod, a push rod, supporting plates, a limiting rod, a rotating rod, a pressing rod, a fixing plate and a connecting plate, the plurality of supporting plates are arranged on the side wall of the driving mechanism at equal intervals, two ends of each supporting plate are respectively and fixedly connected with the fixing plate, and the connecting plate with an arc-shaped side wall is arranged at one end of each supporting plate; the hydraulic rod is arranged in the middle of the top surface of the supporting plate and connected with the push rod; the side wall of the fixed plate is rotatably connected with the rotating rod, and one end of the rotating rod is fixedly connected with the pressing rod; one end of the push rod is provided with the limiting rod, and the limiting rod abuts against the side wall of the fixing plate; the connecting mechanism is arranged at the connecting part of the rotating rod and the fixed plate; the adjusting mechanism is arranged on the side wall of the fixing plate; the limiting mechanism is mounted on the side wall of the connecting plate and comprises a limiting rod, a metal block, a second spring, a sliding groove and a metal ring, the sliding groove is obliquely arranged in the connecting plate, the metal block and the limiting rod are connected in the sliding groove in a sliding mode, and the limiting rod is fixedly connected with the metal block; the second spring is arranged in the sliding groove and fixedly connected with one end of the metal block; the metal ring is arranged inside the sliding groove, and the inner side wall of the metal ring is connected with the metal block in a sliding mode.

Preferably, the driving mechanism comprises a supporting plate, a motor and a conveying belt, the supporting plates are arranged on the side wall of the conveying belt at equal intervals, and the supporting plates are connected with the side wall of the wall body in a sliding mode; the conveyor belt is arranged inside the supporting plate; the motor is installed at the bottom end of the supporting plate and connected with the conveying belt.

Preferably, the connecting mechanism comprises a sawtooth, a first gear, a rotating shaft, a fixed block and a second gear, the fixed block is mounted on the side wall of the fixed plate, the first gear, the rotating shaft and the second gear are rotatably connected inside the fixed block, the first gear is meshed with the second gear, the second gear is fixedly connected with the rotating shaft, and one end of the rotating shaft is fixedly connected with the rotating rod; the lateral wall equidistance installation of gag lever post the sawtooth, the sawtooth meshing first gear.

Preferably, the adjusting mechanism comprises a mounting plate, a ball and a first spring, the first spring is mounted inside the fixing plate, and one end of the first spring is fixedly connected with the mounting plate; the mounting panel sliding connection the inside of fixed plate, just the lateral wall equidistance roll connection of mounting panel is a plurality of the ball.

Preferably, the side walls of the limiting rod and the rotating rod are L-shaped, and the shortest distance between the two mounting plates above the same supporting plate is larger than the length of the push rod.

Preferably, the lateral wall of backup pad installation alarm lamp, just the alarm lamp with the metal block with electric connection between the becket.

Preferably, one end of the fixing plate is aligned with one end of the connecting plate, and the shortest distance between the push rod and the supporting plate is greater than the shortest distance between the top surface of the connecting plate and the top surface of the supporting plate.

Compared with the prior art, the brick clamp for green rapid construction of the basic engineering brick moulding bed provided by the invention has the following beneficial effects:

the invention provides a brick clamp for green and rapid construction of a brick molding bed of foundation engineering, when the brick molding bed is built in a foundation pit, a worker cuts three layers of brick molding beds at the bottommost layer, opens a driving mechanism, enables the driving mechanism to drive a plurality of supporting plates to continuously and repeatedly rotate slowly, places bricks on the surfaces of the supporting plates, aligns one ends of the bricks with the joint of a connecting plate and the supporting plates, enables push rods to abut against the other ends of the bricks, enables the bricks to be placed on the top surfaces of the supporting plates in a flush manner, then places mortar on the surfaces of the connecting plates, enables the top surfaces of the mortar to be in a flush manner with the highest position of the connecting plates, enables a limiting rod below the supporting plates to be in contact with the top surfaces of the brick molding beds and moves downwards along with the supporting plates when the supporting plates rotate downwards to align with the brick molding beds at the topmost layer, the top surface of the brick molding bed extrudes the limiting rod, the limiting rod drives the metal block to slide in the chute, when the metal block abuts against the metal ring, the alarm lamp is powered on to alarm, the hydraulic rod on the top surface of the supporting plate is turned on, the hydraulic rod operates to push the push rod to move above the supporting plate, the push rod pushes bricks on the supporting plate to move, the bricks extrude mortar above the connecting plate to move upwards in an inclined manner, the side wall of the connecting plate clings to the side wall of the brick molding bed, the highest point of the connecting plate is located above the brick molding bed, the mortar on the connecting plate falls into the top surface of the brick molding bed, the connecting plate continuously and slowly moves downwards, the mortar falling from the surface of the connecting plate continuously extrudes the bottom end of the mortar on the top surface of the brick molding bed, and the mortar is paved on the top surface of the brick molding bed, gaps are reserved among the bricks, so that mortar on the connecting plate enters between the adjacent bricks, when the bricks move on the surface of the connecting plate, the bricks slightly move upwards on the surface of the connecting plate, the residual mortar of the connecting plate is smeared on the bottom surfaces of the bricks, the bricks move obliquely downwards along with the movement of the push rod and fall onto the top surfaces of the brick molding beds, and the bricks push the mortar on the top surfaces of the brick molding beds to move, so that the mortar uniformly falls onto the top surfaces of the brick molding beds; the fragment of brick is followed when sliding the top surface that falls into brick moulding bed on the connecting plate, the push rod drives the gag lever post motion makes the gag lever post with the coupling mechanism contact makes coupling mechanism drives the bull stick rotates, the bull stick rotates and drives the depression bar rotates, makes the depression bar rotates towards the direction of brick moulding bed and is located brick moulding bed directly over, after the whole top surfaces that fall brick moulding bed of fragment of brick, along with layer board downstream makes depression bar and fragment of brick contact make fragment of brick downstream extrusion mortar, make the mortar compress tightly, fix the top surface at brick moulding bed with the fragment of brick parallel and level, increase the height of rotor mould. The hydraulic rod is opened to drive the push rod to move reversely, so that the press rod rotates reversely upwards to be separated from the brick, and the connecting plate slides along the side wall of the brick molding bed along with the downward movement of the supporting plate to scrape off redundant mortar on the side wall of the brick molding bed, so that the surface of the brick molding bed is smooth and neat.

Drawings

FIG. 1 is a schematic structural diagram of a brick clamp for green rapid construction of a basic engineering brick molding bed provided by the invention;

FIG. 2 is a schematic view of the securing mechanism shown in FIG. 1;

FIG. 3 is an enlarged schematic view of the structure at A shown in FIG. 2;

FIG. 4 is a schematic view of the fixing plate shown in FIG. 3;

FIG. 5 is an enlarged view of the structure at B in FIG. 4;

fig. 6 is a schematic view of the internal structure of the adjustment mechanism shown in fig. 4.

Reference numbers in the figures: 1. wall body, 2, actuating mechanism, 21, backup pad, 22, motor, 23, conveyer belt, 3, alarm lamp, 4, fixed establishment, 41, hydraulic stem, 42, push rod, 43, layer board, 44, gag lever post, 45, bull stick, 46, depression bar, 47, fixed plate, 48, connecting plate, 5, coupling mechanism, 51, sawtooth, 52, first gear, 53, pivot, 54, fixed block, 6, adjustment mechanism, 61, mounting panel, 62, ball, 63, first spring, 7, stop gear, 71, gag lever post, 72, metal block, 73, second spring, 74, spout, 75, metal loop.

Detailed Description

The invention is further described with reference to the following figures and embodiments.

Please refer to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5 and fig. 6 in combination, wherein fig. 1 is a schematic structural diagram of a brick clamp for green rapid construction of a basic engineering brick form according to the present invention; FIG. 2 is a schematic view of the securing mechanism shown in FIG. 1; FIG. 3 is an enlarged schematic view of the structure at A shown in FIG. 2; FIG. 4 is a schematic view of the fixing plate shown in FIG. 3; fig. 5 is an enlarged view of the structure at the position B shown in fig. 4, and fig. 6 is a view showing the internal structure of the adjusting mechanism shown in fig. 4. Green quick construction of basic engineering brick child mould is with fragment of brick anchor clamps includes: a wall body 1; the driving mechanism 2, one end of the driving mechanism 2 is provided with the wall body 1; the fixing mechanism 4 is installed on the side wall of the driving mechanism 2, the fixing mechanism 4 comprises a hydraulic rod 41, a push rod 42, a supporting plate 43, a limiting rod 44, a rotating rod 45, a pressure rod 46, a fixing plate 47 and a connecting plate 48, the side wall of the driving mechanism 2 is equidistantly provided with a plurality of supporting plates 43, two ends of each supporting plate 43 are respectively and fixedly connected with the fixing plate 47, and one end of each supporting plate 43 is provided with the connecting plate 48 of which the side wall is arc-shaped; the hydraulic rod 41 is arranged at the center of the top surface of the supporting plate 43, and the hydraulic rod 41 is connected with the push rod 42; the side wall of the fixed plate 47 is rotatably connected with the rotating rod 45, and one end of the rotating rod 45 is fixedly connected with the pressing rod 46; one end of the push rod 42 is provided with the limiting rod 44, and the limiting rod 44 abuts against the side wall of the fixing plate 47; the connecting mechanism 5 is arranged at the joint of the rotating rod 45 and the fixed plate 47; an adjusting mechanism 6, wherein the adjusting mechanism 6 is mounted on the side wall of the fixing plate 47; the limiting mechanism 7 is mounted on the side wall of the connecting plate 48, the limiting mechanism 7 comprises a limiting rod 71, a metal block 72, a second spring 73, a sliding groove 74 and a metal ring 75, the sliding groove 74 is obliquely arranged in the connecting plate 48, the metal block 72 and the limiting rod 71 are slidably connected in the sliding groove 74, and the limiting rod 71 is fixedly connected with the metal block 72; the second spring 73 is installed inside the sliding groove 74, and the second spring 73 is fixedly connected with one end of the metal block 72; the metal ring 75 is installed inside the sliding groove 74, and the inner side wall of the metal ring 75 is slidably connected with the metal block 72.

The driving mechanism 2 comprises a supporting plate 21, a motor 22 and a conveyor belt 23, the supporting plates 43 are arranged on the side walls of the conveyor belt 23 at equal intervals, and the supporting plates 43 are connected with the side walls of the wall body 1 in a sliding manner; the conveyor belt 23 is mounted inside the support plate 21; the motor 22 is installed at the bottom end of the supporting plate 21, the motor 22 is connected with the conveyor belt 23, so that the motor 22 drives the conveyor belt 23 to move inside the supporting plate 21, and the conveyor belt 23 drives the supporting plate 43 to move, so that the supporting plate 43 continuously moves up and down slowly between the two supporting plates 21 in order to facilitate the movement of the motor 22.

The connecting mechanism 5 comprises saw teeth 51, a first gear 52, a rotating shaft 53, a fixed block 54 and a second gear 55, the fixed block 54 is mounted on the side wall of the fixed plate 47, the inside of the fixed block 54 is rotatably connected with the first gear 52, the rotating shaft 53 and the second gear 55, the first gear 52 is meshed with the second gear 55, the second gear 55 is fixedly connected with the rotating shaft 53, and one end of the rotating shaft 53 is fixedly connected with the rotating rod 45; the sawteeth 51 are equidistantly arranged on the side wall of the limiting rod 44, the sawteeth 51 are meshed with the first gear 52, when the push rod 42 moves to push bricks to slide on the surface of the push plate 43, the push rod 42 drives the limiting rod 44 to move, when one end of the push rod 42 is flush with one end of the connecting plate 48, the limiting rod 44 abuts against the fixing plate 47 to fix the push rod 42, so that the maximum moving distances of the push rod 42 are all located in the same plane, and the side walls of the brick moulding bed are located in the same plane; and the gag lever post 44 moves, makes the gag lever post 44 drive sawtooth 51 motion, works as the push rod 42 motion is located when the top surface of connecting plate 48, this moment the gag lever post 44 lateral wall the sawtooth 51 with first gear 52 rotates, makes first gear 52 drive second gear 55 is in the inside of fixed block 54 rotates, second gear 55 rotates the drive pivot 53 rotates, pivot 53 rotates the drive bull stick 45 with depression bar 46 rotates, makes the bull stick 46 rotates towards the brick child mould direction, makes the depression bar 46 motion is located the brick child mould directly over, and the convenience the depression bar 46 compresses the brick piece of building up newly above the brick child mould.

The adjusting mechanism 6 comprises a mounting plate 61, a ball 62 and a first spring 63, the first spring 63 is mounted in the fixing plate 47, and one end of the first spring 63 is fixedly connected with the mounting plate 61; the mounting plate 61 is connected with the inside of the fixing plate 47 in a sliding manner, the side walls of the mounting plate 61 are connected with a plurality of balls 62 in an equidistant rolling manner, when bricks are placed on the top surface of the supporting plate 43, the mounting plate 61 is pressed when the bricks at two ends of the supporting plate 43 are placed, the mounting plate 61 enters the mounting plate 61 to compress the spring 63 obtained in the inside of the fixing plate 47, the placing space of the bricks is increased, after the placing is finished, the first spring 63 in the fixing plate 47 extends to push the mounting plate 61 to move, the balls 62 on the side walls of the mounting plate 61 press the bricks to fix the bricks on the top surface of the supporting plate 43 in a flush manner, and when the bricks are on the top surface of the supporting plate 43, the balls 62 rotate in the inside of the mounting plate 61 to reduce the friction force of the bricks moving on the supporting plate 43.

The gag lever post 44 with the lateral wall of bull stick 45 is "L" shape, for the convenience the gag lever post 44 motion with the lateral wall contact of fixed plate 47, just the bull stick 45 rotates, makes the bull stick 45 promotes the drive the depression bar 46 is located the top of brick child mould, and is located same two of layer board 43 top the shortest interval between the mounting panel 61 is greater than the length of push rod 42, for the convenience push rod 42 is two move between the mounting panel 61, it is convenient the push rod 42 promotes the fragment of brick and is in the surface slip of layer board 43 prevents the push rod 42 with the mounting panel 61 contact.

The lateral wall installation alarm lamp 3 of backup pad 21, just alarm lamp 3 with metal block 72 with electric connection between the becket 75, for the convenience after the gag lever post 44 motion contacts with the top surface of brick child mould, layer board 43 drives gag lever post 44 downstream makes gag lever post 44 downstream gets into the inside of spout 74 makes the metal block 72 is in the slope upward movement of the inside of spout 74, works as after metal block 72 motion with becket 75 contacts, alarm lamp 3 switch on power at this moment makes alarm lamp 3 report to the police, reminds people to open hydraulic stem 41.

One end of the fixing plate 47 is aligned with one end of the connecting plate 48, so that bricks can be conveniently placed between the fixing plates 47, one ends of the bricks are aligned with the connecting part of the connecting plate 48 and the supporting plate 43, the shortest distance between the push rod 42 and the supporting plate 43 is larger than the shortest distance between the top surface of the connecting plate 48 and the top surface of the supporting plate 43, and the push rod 42 is conveniently slid above the connecting plate 48 and the supporting plate 43 and is placed at the highest point contact of the push rod 42 and the connecting plate 48.

The brick clamp for green and rapid construction of the basic engineering brick moulding bed provided by the invention has the following working principle: when building a brick mould in a foundation pit, workers firstly cut the three layers of brick moulds at the bottommost layer to enable the top surfaces of the bricks built at the bottom layer to be parallel and level. The device is installed in a foundation pit, one end of the connecting plate 48 close to one side of the tire rotating film is flush with one end of the outer side of a built brick, the device is externally connected with a power supply, the motor 22 is turned on, the motor 22 runs to enable the motor 22 to drive the conveyor belt 23 to move inside the supporting plate 21, the conveyor belt 23 drives the supporting plate 43 to move, and the supporting plate 43 is enabled to continuously move up and down slowly between the two supporting plates 21. The workman will the fragment of brick be put the surface of layer board 43, with the one end of fragment of brick with connecting plate 48 with the layer board 43 junction aligns, push rod 42 conflicts the other end of fragment of brick, makes putting of fragment of brick parallel and level the top surface of layer board 43, lays again when the fragment of brick at layer board 43 both ends, the extrusion mounting panel 61, makes mounting panel 61 gets into the obtained spring 63 of the inside compression of fixed plate 47 increases the laying space of fragment of brick, lays after, the fixed plate 47 is inside first spring 63 extension promotes mounting panel 61 moves, makes the mounting panel 61 lateral wall the ball 62 extrudes the fragment of brick, fixes the fragment of brick parallel and level on the top surface of layer board 43. Then, mortar is placed on the surface of the connecting plate 48, so that the top surface of the mortar is flush with the top surface of the connecting plate 48, and as the supporting plate 43 rotates, when the supporting plate 43 rotates downwards and is about to align with the uppermost layer of brick mould, the limiting rod 44 below the supporting plate 43 is in contact with the top surface of the brick mould, and as the supporting plate 43 moves downwards, the top surface of the brick mould presses the limiting rod 44, so that the limiting rod 44 drives the metal block 72 to slide in the sliding groove 74, so that the metal block 72 moves upwards in an inclined manner in the sliding groove 74, and after the metal block 72 moves and contacts the metal ring 75, the alarm lamp 3 is powered on, so that the alarm lamp 3 gives an alarm to remind people to turn on the hydraulic rod 41. The hydraulic lever 41 above this pallet 43 is turned on, and as the metal block 72 moves, the metal block 72 is separated from the metal ring 75, and the alarm lamp 3 stops alarming. The hydraulic rod 41 moves to drive the push rod 42 to move, so that the push rod 42 pushes the bricks on the supporting plate 43 to move, the bricks extrude mortar above the connecting plate 48 to move upwards in an inclined manner, at the moment, the side walls of the connecting plate 48 tightly cling to the side walls of the brick molding dies, the highest point of the connecting plate 48 is located above the brick molding dies, so that the mortar on the connecting plate 48 falls into the top surfaces of the brick molding dies, at the moment, the connecting plate 48 continuously moves downwards slowly, the mortar falling from the surface of the connecting plate 48 continuously extrudes the bottom ends of the mortar on the top surfaces of the brick molding dies, the mortar is paved on the top surfaces of the brick molding dies, gaps are reserved among the bricks, the mortar on the connecting plate 48 enters between adjacent bricks, and when the bricks move on the surface of the connecting plate 48, the bricks slightly move upwards on the surface of the connecting plate 48, so that the residual mortar on the connecting plate 48 is smeared on the bottom surfaces of the bricks, along with the movement of the push rod 42, the bricks are obliquely moved downwards and fall to the top surfaces of the brick molding beds, and the bricks push mortar on the top surfaces of the brick molding beds to move, so that the mortar uniformly falls to the top surfaces of the brick molding beds; the push rod 42 drives the limit rod 44 to move, so that the limit rod 44 drives the saw teeth 51 to move, when the push rod 42 moves and is located on the top surface of the connecting plate 48, at the moment, the saw teeth 51 on the side wall of the limit rod 44 and the first gear 52 rotate, so that the first gear 52 drives the second gear 55 to rotate inside the fixing block 54, the second gear 55 rotates to drive the rotating shaft 53 to rotate, the rotating shaft 53 rotates to drive the rotating rod 45 and the press rod 46 to rotate, so that the rotating rod 46 rotates towards the brick molding die direction, and the press rod 46 moves and is located right above the brick molding die. After one end of the push rod 42 is flush with one end of the connecting plate 48, the compression rod 46 abuts against the fixing plate 47, the push rod 42 is fixed, the maximum movement distance of the push rod 42 is located in the same plane, so that the side walls of the brick molding bed are located in the same plane, and after all bricks fall onto the top surface of the brick molding bed, the compression rod 46 is in contact with the bricks along with the downward movement of the supporting plate 43, so that the bricks move downward to extrude mortar, the mortar is compressed, the bricks are fixed on the top surface of the brick molding bed in a flush manner, and the height of the rotary mold is increased. And opening the hydraulic rod 41, enabling the push rod to move reversely, enabling the press rod 46 to rotate reversely upwards to separate from the brick, and along with the downward movement of the supporting plate 42, the connecting plate 48 slides along the side wall of the brick molding bed to scrape away mortar on the side wall of the brick molding bed, so that the surface of the brick molding bed is smooth and neat. When the bricks are assembled on the surface of the supporting plate 43, the gaps of the adjacent bricks on the supporting plate 43 are staggered, so that the strength and stability of the built brick molding bed are ensured.

Compared with the prior art, the brick clamp for green rapid construction of the basic engineering brick moulding bed provided by the invention has the following beneficial effects:

the invention provides a brick clamp for green rapid construction of a brick moulding bed of foundation engineering, when the brick moulding bed is built in a foundation pit, a worker cuts three layers of brick moulding beds at the bottommost layer, opens a driving mechanism 2, enables the driving mechanism 2 to drive a plurality of supporting plates 43 to continuously and repeatedly and slowly rotate, places bricks on the surfaces of the supporting plates 43, aligns one ends of the bricks with the connecting part of a connecting plate 48 and the supporting plates 43, enables a push rod 42 to abut against the other ends of the bricks, enables the bricks to be placed on the top surfaces of the supporting plates 43 in a flush manner, places mortar on the surfaces of the connecting plates 48, enables the top surfaces of the mortar to be in a flush manner with the highest part of the connecting plate 48, and enables a limiting rod 71 below the supporting plates 43 to be in contact with the top surfaces of the brick moulding beds when the supporting plates 43 rotate downwards to be aligned with the layer of brick moulding beds at the top, along with the downward movement of the supporting plate 43, the top surface of the brick molding bed extrudes the limiting rod 71, the limiting rod 71 drives the metal block 72 to slide in the sliding groove 74, when the metal block 72 abuts against the metal ring 75, the alarm lamp 3 is powered on to give an alarm, the hydraulic rod 41 on the top surface of the supporting plate 43 is turned on, the hydraulic rod 41 operates to push the push rod 42 to move above the supporting plate 43, the push rod 42 pushes bricks on the supporting plate 43 to move, the bricks extrude mortar above the connecting plate 48 to tilt upward, the side wall of the connecting plate 48 is tightly attached to the side wall of the brick molding bed, the highest point of the connecting plate 48 is located above the brick molding bed, the mortar on the connecting plate 48 falls into the top surface of the brick molding bed, and the connecting plate 48 continuously and slowly moves downward, the mortar falling from the surface of the connecting plate 48 continuously extrudes the bottom end of the mortar on the top surface of the brick molding bed, mortar is paved on the top surface of the brick molding bed, gaps are reserved among the bricks, the mortar on the connecting plate 48 enters the space between the adjacent bricks, when the bricks move on the surface of the connecting plate 48, the bricks slightly move upwards on the surface of the connecting plate 48, the residual mortar of the connecting plate 48 is smeared on the bottom surface of the bricks, the bricks are inclined and downwards moved to fall on the top surface of the brick molding bed along with the movement of the push rod 42, the bricks push the mortar on the top surface of the brick molding bed to move, and the mortar is uniformly fallen on the top surface of the brick molding bed; the fragment of brick is followed when sliding the top surface that falls into the brick molding bed on connecting plate 48, push rod 42 drives gag lever post 44 motion makes gag lever post 44 with coupling mechanism 5 contact makes coupling mechanism 5 drives bull stick 45 rotates, bull stick 45 rotates the drive depression bar 46 rotates, makes depression bar 46 rotates towards the direction of brick molding bed and is located the brick molding bed directly over, after the whole top surface that falls into the brick molding bed of fragment of brick, along with layer board 42 downstream makes depression bar 46 and fragment of brick contact make fragment of brick downstream extrusion mortar, make the mortar compress tightly, fix the top surface at the brick molding bed with the fragment of brick parallel and level, increase the height of turning bed. The hydraulic rod 41 is opened to drive the push rod 42 to move reversely, so that the press rod 46 rotates reversely upwards to separate from the brick, and along with the downward movement of the supporting plate 43, the connecting plate 48 slides along the side wall of the brick molding bed to scrape off the redundant mortar on the side wall of the brick molding bed, so that the surface of the brick molding bed is smooth and neat.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (4)

1. The utility model provides a green quick construction of basic engineering brick child mould is with fragment of brick anchor clamps which characterized in that includes:

a wall (1);

the wall body (1) is arranged at one end of the driving mechanism (2);

the fixing mechanism (4) is installed on the side wall of the driving mechanism (2), the fixing mechanism (4) comprises a hydraulic rod (41), a push rod (42), supporting plates (43), a first limiting rod (44), a rotating rod (45), a pressing rod (46), a fixing plate (47) and a connecting plate (48), the plurality of supporting plates (43) are installed on the side wall of the driving mechanism (2) at equal intervals, two ends of each supporting plate (43) are fixedly connected with the corresponding fixing plate (47), and the connecting plate (48) with the arc-shaped side wall is installed at one end of each supporting plate (43); the hydraulic rod (41) is arranged in the center of the top surface of the supporting plate (43), and the hydraulic rod (41) is connected with the push rod (42); the side wall of the fixed plate (47) is rotatably connected with the rotating rod (45), and one end of the rotating rod (45) is fixedly connected with the pressing rod (46); one end of the push rod (42) is provided with the first limiting rod (44), and the first limiting rod (44) abuts against the side wall of the fixing plate (47);

the connecting mechanism (5), the said connecting mechanism (5) is mounted to the junction of the said rotating lever (45) and said dead plate (47);

the adjusting mechanism (6), the said adjusting mechanism (6) is mounted to the sidewall of the said dead plate (47);

the limiting mechanism (7) is mounted on the side wall of the connecting plate (48), the limiting mechanism (7) comprises a second limiting rod (71), a metal block (72), a second spring (73), a sliding groove (74) and a metal ring (75), the sliding groove (74) is obliquely arranged in the connecting plate (48), the metal block (72) and the second limiting rod (71) are connected in the sliding groove (74) in a sliding mode, and the second limiting rod (71) is fixedly connected with the metal block (72); the second spring (73) is arranged in the sliding groove (74), and the second spring (73) is fixedly connected with one end of the metal block (72); the metal ring (75) is arranged inside the sliding groove (74), and the inner side wall of the metal ring (75) is connected with the metal block (72) in a sliding mode;

the driving mechanism (2) comprises a supporting plate (21), a motor (22) and a conveyor belt (23), the supporting plates (43) are arranged on the side wall of the conveyor belt (23) at equal intervals, and the supporting plates (43) are connected with the side wall of the wall body (1) in a sliding mode; the conveyor belt (23) is arranged inside the supporting plate (21); the motor (22) is installed at the bottom end of the supporting plate (21), and the motor (22) is connected with the conveyor belt (23);

the connecting mechanism (5) comprises saw teeth (51), a first gear (52), a rotating shaft (53), a fixing block (54) and a second gear (55), the fixing block (54) is installed on the side wall of the fixing plate (47), the inside of the fixing block (54) is rotatably connected with the first gear (52), the rotating shaft (53) and the second gear (55), the first gear (52) is meshed with the second gear (55), the second gear (55) is fixedly connected with the rotating shaft (53), and one end of the rotating shaft (53) is fixedly connected with the rotating rod (45); the side wall of the first limiting rod (44) is provided with saw teeth (51) at equal intervals, and the saw teeth (51) are meshed with the first gear (52);

the adjusting mechanism (6) comprises a mounting plate (61), a ball (62) and a first spring (63), the first spring (63) is mounted in the fixing plate (47), and one end of the first spring (63) is fixedly connected with the mounting plate (61); the mounting plate (61) is slidably connected to the inside of the fixing plate (47), and the side wall of the mounting plate (61) is connected to the balls (62) in an equidistant rolling manner.

2. The green rapid construction brick clamp for the foundation engineering brick moulding bed according to claim 1, wherein the side walls of the first limiting rod (44) and the rotating rod (45) are L-shaped, and the shortest distance between the two mounting plates (61) above the same supporting plate (43) is larger than the length of the push rod (42).

3. The brick clamp for green rapid construction of basic engineering brick moulding bed according to claim 1, characterized in that a warning lamp (3) is installed on the side wall of the supporting plate (21), and the warning lamp (3) is electrically connected with the metal block (72) and the metal ring (75).

4. The green quick construction brick clamp for the foundation engineering brick moulding bed according to claim 3, wherein one end of the fixing plate (47) is aligned with one end of the connecting plate (48), and the shortest distance between the push rod (42) and the supporting plate (43) is greater than the shortest distance between the top surface of the connecting plate (48) and the top surface of the supporting plate (43).

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