CN212670238U - Concrete road surface prosthetic devices - Google Patents

Abstract

The utility model relates to a road surface prosthetic devices, more specifically the concrete road surface prosthetic devices that says so, including rabbling mechanism, make up water mechanism, hit garrulous frame mechanism, the device can carry out local smashing to the concrete road surface, and the device can store the raw materials and the water of concrete, and the device can stir the concrete when needing, and the device can avoid the production of raise dust, and the rabbling mechanism links to each other with make up water mechanism, and make up water mechanism with hit garrulous frame mechanism and link to each other, and the rabbling mechanism links to each other with hitting garrulous frame mechanism.

Description

Concrete road surface prosthetic devices

Technical Field

The utility model relates to a road surface prosthetic devices, more specifically the concrete road surface prosthetic devices that says so.

Background

In the local repair processing on road surface, the traditional repair mode is through smashing the position that will handle, then pours the concrete again and uses, needs multiple instrument to coordinate and goes on, and the stirring of concrete needs the manpower to accomplish, needs to guarantee the stirring that lasts before the stirring and prevents that the concrete from solidifying, and is very inconvenient, so design a concrete road surface prosthetic devices.

Disclosure of Invention

The utility model provides a concrete road surface prosthetic devices, beneficial effect are that the device can carry out local smashing to concrete road surface, and the raw materials and the water of concrete can be stored to the device, and the device can stir the concrete when needs, and the device can avoid the production of raise dust.

For solving the technical problem, the utility model relates to a road surface prosthetic devices, more specifically the concrete road surface prosthetic devices that says so, including rabbling mechanism, make up water mechanism, break up frame mechanism, the device can carry out local smashing to the concrete road surface, and the raw materials and the water of concrete can be stored to the device, and the device can stir the concrete when needs, and the production of raise dust can be avoided to the device.

The stirring mechanism comprises an outlet, a stirring box, a gear ring, a bearing seat, a water inlet, a dry material inlet pipe, an air inlet one-way valve, a spring, a step cavity, an air outlet one-way valve, a sliding inlet port, a belt shaft rotating wheel, a material storage cavity, a stirring wheel shaft, a gear, a stepping motor, a coupler, step sliding support legs, a sliding pipe, a hopper and pulleys, wherein the outlet is arranged on the stirring box, the stirring box is connected with the gear ring, the stirring box is connected with the bearing seat, the water inlet is arranged on the stirring box, the dry material inlet pipe is connected with the stirring box, the air inlet one-way valve is connected with the dry material inlet pipe, the spring is arranged in the step cavity, the sliding inlet port is arranged on the dry material inlet pipe, the air outlet one-way valve is connected with the dry material inlet pipe, the belt shaft rotating wheel is connected with the bearing seat in a bearing manner, the belt shaft, the material storage cavity is arranged on the belt shaft rotating wheel, the stirring wheel is arranged in the material storage cavity, the stirring wheel is connected with the stirring wheel shaft, the stirring wheel shaft and the belt shaft rotating wheel are connected in a bearing mode, the stirring wheel shaft is connected with a gear, the gear is meshed with a gear ring, a stepping motor is connected with the belt shaft rotating wheel through a coupler, the stepping motor is connected with the stirring box, a stepped sliding support leg is connected with the stepped cavity in a sliding mode, the stepped sliding support leg is connected with a spring, a sliding pipe is connected with a sliding inlet in a sliding mode, the sliding pipe is connected with a hopper, and the hopper is connected with a pulley;

the water replenishing mechanism comprises a water outlet one-way valve, a shell, a squeezing cavity, a water inlet one-way valve, a water storage cavity, a water replenishing plug, a piston, a connecting rod, a connecting seat, a semicircular protruding strip, a hydraulic rod, a hydraulic cylinder support and a steel frame seat, wherein the water outlet one-way valve is connected with the shell;

the crushing frame mechanism comprises a moving wheel, a frame body, a crushing impact rod, a sliding fit hole, a stepped hole, a reset spring, a movable seat I, a plate-carrying rod, a cam with a shaft, a belt pulley, a bearing seat A, a transmission belt, a motor belt pulley, a motor A and a sliding box A, wherein the moving wheel is connected with the frame body, the frame body is connected with an agitating box, the frame body is connected with the steel frame seat, the crushing impact rod is connected with the sliding fit hole in a sliding manner, the sliding fit hole is formed in the frame body, the crushing impact rod is connected with the movable seat I, the movable seat I is connected with the stepped hole in a sliding manner, the reset spring is arranged in the stepped hole and sleeved on the crushing impact rod, the reset spring abuts against the movable seat I and the sliding box A, the sliding box A is connected with the frame body, the stepped hole is formed in the stepped hole, the movable seat I is connected with the plate-carrying rod, and the plate-carrying rod, the belt plate rod is contacted with a belt shaft cam, the belt shaft cam is connected with a belt pulley, the belt shaft cam is connected with a bearing seat A in a bearing connection mode, the belt pulley is in friction connection with a transmission belt, the transmission belt is in friction connection with a motor belt pulley, the motor belt pulley is connected with a motor A, and the motor A is connected with the bearing seat A;

the stirring mechanism is connected with the water supplementing mechanism, the water supplementing mechanism is connected with the smashing frame mechanism, and the stirring mechanism is connected with the smashing frame mechanism.

As a further optimization of the technical scheme, the utility model relates to a concrete road surface prosthetic devices the material of semicircle protruding strip is high manganese steel.

The utility model relates to a concrete road surface prosthetic devices's beneficial effect does:

the utility model relates to a concrete road surface prosthetic devices, the device can carry out local smashing to concrete road surface, and the raw materials and the water of concrete can be stored to the device, and the device can stir the concrete when needs, and the device can avoid the production of raise dust.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is the overall structure schematic diagram of the concrete pavement repairing apparatus of the present invention.

Fig. 2 is a schematic structural diagram of a stirring mechanism 1 of the concrete pavement repairing apparatus of the present invention.

Fig. 3 is a schematic structural diagram ii of the stirring mechanism 1 of the concrete pavement repairing apparatus of the present invention.

Fig. 4 is a third schematic structural diagram of the stirring mechanism 1 of the concrete pavement repairing apparatus of the present invention.

Fig. 5 is a schematic structural diagram of the stirring mechanism 1 of the concrete pavement repairing apparatus of the present invention.

Fig. 6 is a schematic structural diagram of a water replenishing mechanism 2 of the concrete pavement repairing apparatus of the present invention.

Fig. 7 is a schematic structural diagram of the breaking frame mechanism 3 of the concrete pavement repairing apparatus of the present invention.

In the figure: a stirring mechanism 1; an outlet 1-1; 1-2 parts of a stirring box; 1-3 of gear rings; 1-4 of a bearing seat; 1-5 parts of a water inlet; dry materials enter a pipe 1-6; 1-7 of an air inlet check valve; 1-8 parts of spring; 1-9 of a stepped cavity; 1-10 parts of an air outlet one-way valve; a sliding access port 1-11; rotating wheels 1-12 with shafts; 1-13 of a material storage cavity; 1-14 parts of a stirring wheel; 1-15 parts of a stirring wheel shaft; gears 1-16; 1-17 of a stepping motor; 1-18 of a coupler; ladder sliding legs 1-19; 1-20 of a sliding tube; 1-21 parts of a hopper; pulleys 1-22; a water replenishing mechanism 2; a water outlet one-way valve 2-1; 2-2 of a shell; 2-3 of an extrusion cavity; 2-4 of a water inlet one-way valve; 2-5 of a water storage cavity; 2-6 of a water replenishing plug; 2-7 of a piston; 2-8 of a connecting rod; 2-9 parts of a connecting seat; 2-10 parts of semicircular convex strips; 2-11 parts of a hydraulic rod; 2-12 parts of a hydraulic cylinder; the hydraulic cylinder supports 2-13; 2-14 parts of steel frame seats; a crushing frame mechanism 3; a moving wheel 3-1; a frame body 3-2; smashing the impact rod 3-3; 3-4 of a sliding fit hole; 3-5 of a stepped hole; 3-6 parts of a return spring; a movable seat I3-7; 3-8 of a band plate rod; 3-9 of cam with shaft; 3-10 of belt pulleys; bearing seat A3-11; 3-12 parts of a transmission belt; 3-13 of a motor belt pulley; motor A3-14; slide box a 3-15.

Detailed Description

The first embodiment is as follows:

this embodiment is explained below with reference to fig. 1, 2, 3, 4, 5, 6, 7, the utility model relates to a road surface prosthetic devices, more specifically the concrete road surface prosthetic devices that says so, including rabbling mechanism 1, make up water mechanism 2, break up frame mechanism 3, the device can carry out local crushing to the concrete road surface, and the raw materials and the water of concrete can be stored to the device, and the device can stir the concrete when needing, and the device can avoid the production of raise dust.

The stirring mechanism 1 comprises an outlet 1-1, a stirring box 1-2, a gear ring 1-3, a bearing seat 1-4, a water inlet 1-5, a dry material inlet pipe 1-6, an air inlet one-way valve 1-7, a spring 1-8, a step cavity 1-9, an air outlet one-way valve 1-10, a sliding inlet 1-11, a rotating wheel with a shaft 1-12, a material storage cavity 1-13, a stirring wheel 1-14, a stirring wheel shaft 1-15, a gear 1-16, a stepping motor 1-17, a coupler 1-18, a step sliding support leg 1-19, a sliding pipe 1-20, a hopper 1-21 and a pulley 1-22, wherein the outlet 1-1 is arranged on the stirring box 1-2, the stirring box 1-2 is connected with the gear ring 1-3, the stirring box 1-2 is connected with the bearing seat 1-4, the water inlet 1-5 is arranged on the stirring box 1-2, the dry material inlet pipe 1-6 is connected with the stirring box 1-2, the air inlet one-way valve 1-7 is connected with the dry material inlet pipe 1-6, the spring 1-8 is arranged in the step cavity 1-9, the sliding inlet port 1-11 is arranged on the dry material inlet pipe 1-6, the air outlet one-way valve 1-10 is connected with the dry material inlet pipe 1-6, the rotating wheel with the shaft 1-12 is connected with the bearing seat 1-4 in a bearing way, the rotating wheel with the shaft 1-12 is arranged in the stirring box 1-2, the rotating wheel with the shaft 1-12 is connected with the stirring box 1-2 in a sliding way, the material storage cavity 1-13 is arranged on the rotating wheel with the shaft 1-12, the stirring wheel 1-14 is arranged in the material storage cavity 1-13, the stirring wheels 1-14 are connected with the stirring wheel shafts 1-15, the stirring wheel shafts 1-15 are connected with the rotating wheels 1-12 with shafts in a bearing mode, the stirring wheel shafts 1-15 are connected with the gears 1-16, the gears 1-16 are meshed with the gear rings 1-3, the stepping motors 1-17 are connected with the rotating wheels 1-12 with shafts through the shaft couplings 1-18, the stepping motors 1-17 are connected with the stirring boxes 1-2, the stepped sliding support legs 1-19 are connected with the stepped cavities 1-9 in a sliding mode, the stepped sliding support legs 1-19 are connected with the springs 1-8, the sliding pipes 1-20 are connected with the sliding inlet ports 1-11 in a sliding mode, the sliding pipes 1-20 are connected with the hoppers 1-21, the hoppers 1-21 are connected with the pulleys 1-22, when concrete is poured, the hopper 1-21 will drive the ladder sliding leg 1-19 to move downwards to compress the spring 1-8, at this time, the air pressure in the ladder cavity 1-9 increases, the increased air pressure will open the air outlet one-way valve 1-10 to spray into the dry material inlet pipe 1-6, meanwhile, the inertia of the downward movement of the hopper 1-21 can make the materials in the hopper 1-21 slide out of the sliding pipe 1-20, then the materials are conveyed into the material storage cavities 1-13 under the driving of the ejected air flow, so that the materials can not be reversely dusted upwards, and will form the outside air from the air inlet check valve 1-7 to enter the ladder chamber 1-9 and then enter the dry material entering tube 1-6 where the sliding inlet 1-11 locates and then enter the closed loop in the stock chamber 1-13, in this way, can prevent the gas from diffusing outward;

the water supplementing mechanism 2 comprises a water outlet one-way valve 2-1, a shell 2-2, an extrusion cavity 2-3, a water inlet one-way valve 2-4, a water storage cavity 2-5, a water supplementing plug 2-6, a piston 2-7, a connecting rod 2-8, a connecting seat 2-9, a semicircular convex strip 2-10, a hydraulic rod 2-11, a hydraulic cylinder 2-12, a hydraulic cylinder support 2-13 and a steel frame seat 2-14, wherein the water outlet one-way valve 2-1 is connected with the shell 2-2, the extrusion cavity 2-3 is arranged in the shell 2-2, the water storage cavity 2-5 is arranged in the shell 2-2, the water inlet one-way valve 2-4 is connected with the shell 2-2, the water supplementing plug 2-6 is in threaded connection with the shell 2-2, the piston 2-7 is in sliding connection with the extrusion cavity 2-3, the piston 2-7 is connected with the connecting rod 2-8, the connecting rod 2-8 is connected with the shell 2-2 in a sliding mode, the connecting rod 2-8 is connected with the connecting seat 2-9, the connecting seat 2-9 is provided with a semicircular convex strip 2-10, the connecting seat 2-9 is connected with the hydraulic rod 2-11, the hydraulic rod 2-11 is connected with the hydraulic cylinder 2-12, the hydraulic cylinder 2-12 is connected with the hydraulic cylinder support 2-13, the hydraulic cylinder support 2-13 is connected with the steel frame seat 2-14, the shell 2-2 is connected with the stirring box 1-2, when concrete is needed, hydraulic oil can be injected into the hydraulic cylinder 2-12, the hydraulic rod 2-11 can push the connecting seat 2-9 under the driving of the hydraulic oil, the connecting seat 2-9 can move leftwards to drive the connecting rod 2-8 to move, the connecting rod 2-8 can drive the piston 2-7 to compress air and pre-stored water in the extrusion cavity 2-3, so that the water in the extrusion cavity 2-3 is extruded out of the water outlet one-way valve 2-1, then hydraulic oil is reversely injected into the hydraulic cylinder 2-12, the piston 2-7 can reset under the driving of the oil pressure, so that the pressure in the extrusion cavity 2-3 is reduced, the water in the water storage cavity 2-5 can flush the water inlet one-way valve 2-4 to supplement the water into the extrusion cavity 2-3, in the process, the reciprocating motion of the connecting seat 2-9 can drive the semicircular convex strips 2-10 to reciprocate, the semicircular convex strips 2-10 can intermittently press the pulleys 1-22 downwards, the pulleys 1-22 can drive the hoppers 1-21 to downwards move, and the hoppers 1-21 can drive the stepped sliding support legs 1-19 to downwards move to feed the springs 1-8 Compressing, increasing the air pressure in the stepped cavity 1-9, flushing the air outlet one-way valve 1-10 by the increased air pressure to spray into the dry material inlet pipe 1-6, simultaneously leading the materials in the hopper 1-21 to slide out from the sliding pipe 1-20 by the downward movement inertia of the hopper 1-21, then conveying the materials into the storage cavity 1-13 under the driving of the sprayed air flow, thus leading the materials not to reversely raise dust upwards, leading the outside air to be supplemented into the stepped cavity 1-9 from the air inlet one-way valve 1-7 when the spring 1-8 rebounds to reset, synchronously operating the stepping motor 1-17, leading the stepping motor 1-17 to drive the coupling 1-18 to rotate for one third of a circle each time, leading the coupling 1-18 to drive the belt shaft rotating wheel 1-12 to rotate, and leading the belt shaft rotating wheel 1-12 to rotate, the gears 1-16 can make circular motion along with the gears 1-16, the gears 1-16 can drive the gears 1-16 to rotate due to the meshing with the gear rings 1-3, the gears 1-16 can drive the stirring wheel shafts 1-15 to drive the stirring wheels 1-14 to rotate, the stirring wheels 1-14 can have a stirring function, when materials sprayed into the material storage cavities 1-13 rotate anticlockwise along with the rotating wheels 1-12 with shafts, the self-rotating stirring wheels 1-14 can firstly stir the raw materials uniformly, when the material storage cavities 1-13 containing the materials are rotated to be communicated with the water inlets 1-5, water sprayed from the upper parts can enter the material storage cavities 1-13 containing the materials, meanwhile, the water and the raw materials can be stirred uniformly by the continuously self-rotating stirring wheels 1-14, and then the stirred concrete can be driven to move continuously, when the formed concrete storage cavity 1-13 rotates to be vertical and downward, the formed concrete storage cavity is discharged from the outlet 1-1, and the outlet 1-1 can be aligned to the position needing concrete for pouring;

the crushing frame mechanism 3 comprises a moving wheel 3-1, a frame body 3-2, a crushing impact rod 3-3, a sliding fit hole 3-4, a stepped hole 3-5, a return spring 3-6, a movable seat I3-7, a band plate rod 3-8, a cam with a shaft 3-9, a belt pulley 3-10, a bearing seat A3-11, a transmission belt 3-12, a motor belt pulley 3-13, a motor A3-14 and a sliding box A3-15, wherein the moving wheel 3-1 is connected with the frame body 3-2, the frame body 3-2 is connected with a stirring box 1-2, the frame body 3-2 is connected with a steel frame seat 2-14, the crushing impact rod 3-3 is connected with the sliding fit hole 3-4 in a sliding manner, the sliding fit hole 3-4 is arranged on the frame body 3-2, the crushing impact rod 3-3 is connected with a movable seat I3-7, the movable seat I3-7 is connected with a stepped hole 3-5 in a sliding manner, a return spring 3-6 is arranged in the stepped hole 3-5, the return spring 3-6 is sleeved on the crushing impact rod 3-3, the return spring 3-6 is abutted against the movable seat I3-7 and a sliding box A3-15, the sliding box A3-15 is connected with a frame body 3-2, the stepped hole 3-5 is arranged on the stepped hole 3-5, the movable seat I3-7 is connected with a band plate rod 3-8, the band plate rod 3-8 is connected with the sliding box A3-15 in a sliding manner, the band plate rod 3-8 is contacted with a band shaft cam 3-9, the band shaft cam 3-9 is connected with a belt pulley 3-10, the connection mode of the band shaft cam 3-9 and a bearing seat A3-11 is a bearing connection mode, the belt pulley 3-10 is in frictional connection with a transmission belt 3-12, the transmission belt 3-12 is in frictional connection with a motor belt pulley 3-13, the motor belt pulley 3-13 is connected with a motor A3-14, the motor A3-14 is connected with a bearing seat A3-11, the device is moved to enable the crushing impact rod 3-3 to be aligned to a position needing to be repaired, the motor A3-14 is started to drive the motor belt pulley 3-13 to rotate, the motor belt pulley 3-13 rotates to drive the belt pulley 3-10 to rotate through the transmission belt 3-12, the belt pulley 3-10 rotates to drive the belt shaft cam 3-9 to rotate, the belt shaft cam 3-9 rotates to drive the belt plate rod 3-8 to move downwards, the belt plate rod 3-8 moves downwards to drive the movable seat I3-7 to move downwards, the movable seat I3-7 moves downwards to drive the crushing impact rod 3-3 to move downwards, meanwhile, the return spring 3-6 is compressed, then, under the resilience action of the return spring 3-6, the movable seat I3-7 resets upwards, the movable seat I3-7 drives the crushing impact rod 3-3 to reset upwards, and in the continuous rotation of the cam with an axis 3-9, the crushing impact rod 3-3 performs continuous reciprocating motion to impact the ground to be repaired, so that the waste concrete pavement is subjected to device crushing treatment;

the stirring mechanism 1 is connected with the water supplementing mechanism 2, the water supplementing mechanism 2 is connected with the smashing frame mechanism 3, and the stirring mechanism 1 is connected with the smashing frame mechanism 3.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, and 7, and the present embodiment further describes the first embodiment, and the material of the semicircular convex strips 2 to 10 is high manganese steel.

The utility model discloses a theory of operation is: the device can locally crush the concrete pavement, the device is moved to enable the crushing impact rod 3-3 to be aligned to a position needing to be repaired, the motor A3-14 is started to drive the motor belt pulley 3-13 to rotate, the motor belt pulley 3-13 rotates to drive the belt pulley 3-10 to rotate through the transmission belt 3-12, the belt pulley 3-10 rotates to drive the belt shaft cam 3-9 to rotate, the belt shaft cam 3-9 rotates to drive the belt plate rod 3-8 to move downwards, the belt plate rod 3-8 moves downwards to drive the movable seat I3-7 to move downwards, the movable seat I3-7 moves downwards to drive the crushing impact rod 3-3 to move downwards, the return spring 3-6 is compressed at the same time, and then under the rebound action of the return spring 3-6, the movable seat I3-7 is reset upwards, the movable seat I3-7 drives the crushing impact rod 3-3 to reset upwards, and the crushing impact rod 3-3 performs continuous reciprocating motion in the continuous rotation of the shaft cam 3-9, so that the ground needing to be repaired is impacted, and the waste concrete pavement is crushed by the device; the device can store raw materials and water of concrete, the hopper 1-21 is arranged on the device, the raw materials such as stones and the like can be placed in the hopper 1-21 for storage, the water replenishing plug 2-6 is unscrewed, then the water is replenished into the water storage cavity 2-5, and then the water replenishing plug 2-6 is screwed down, so that the raw materials required by the concrete can be stored in the device, and the concrete can be manufactured at any time; the device can stir concrete when needed, when concrete is needed, hydraulic oil can be injected into the hydraulic cylinder 2-12, the hydraulic rod 2-11 can push the connecting seat 2-9 under the driving of the hydraulic oil, the connecting seat 2-9 can move leftwards to drive the connecting rod 2-8 to move, the connecting rod 2-8 can drive the piston 2-7 to compress air and pre-stored water in the extrusion cavity 2-3, so that the water in the extrusion cavity 2-3 can be extruded out of the water outlet one-way valve 2-1, then hydraulic oil is injected into the hydraulic cylinder 2-12 in a reverse direction, the piston 2-7 can reset under the driving of the hydraulic oil, so that the pressure in the extrusion cavity 2-3 is reduced, and the water in the water storage cavity 2-5 can rush out the water inlet one-way valve 2-4 to be supplemented into the extrusion cavity 2-3, in the process, the reciprocating motion of the connecting seat 2-9 drives the semicircular convex strips 2-10 to reciprocate, the semicircular convex strips 2-10 intermittently press the pulleys 1-22 downwards, the pulleys 1-22 drive the hoppers 1-21 to move downwards, the hoppers 1-21 drive the stepped sliding support legs 1-19 to move downwards to compress the springs 1-8, the air pressure in the stepped cavity 1-9 is increased, the increased air pressure can open the air outlet one-way valves 1-10 to spray dry materials into the pipes 1-6, meanwhile, the inertia of the downward motion of the hoppers 1-21 can enable the materials in the hoppers 1-21 to slide out from the sliding pipes 1-20, and then the materials are conveyed into the storage cavities 1-13 under the driving of the sprayed air flow, so that the materials cannot reversely raise dust upwards, when the springs 1-8 rebound and reset, outside air can enter the stepped cavities 1-9 from the air inlet one-way valves 1-7 in a supplementing manner, the stepping motors 1-17 are synchronously operated, the stepping motors 1-17 can drive the couplers 1-18 to rotate one third of a circle at a time, the couplers 1-18 can drive the rotating wheels 1-12 with shafts to rotate, when the rotating wheels 1-12 with shafts rotate, the gears 1-16 can do circular motion, the gears 1-16 can drive the gears 1-16 to rotate by being meshed with the gear rings 1-3, the gears 1-16 can drive the stirring wheel shafts 1-15 to drive the stirring wheels 1-14 to rotate, the stirring wheels 1-14 can perform a stirring function, and thus when materials sprayed into the storage cavities 1-13 rotate anticlockwise along with the rotating wheels 1-12 with shafts, the self-rotating stirring wheels 1-14 can firstly stir raw materials uniformly, when the material storage cavity 1-13 containing materials is rotated to be communicated with the water inlet 1-5, water sprayed from the upper part of the material storage cavity can enter the material storage cavity 1-13 containing materials, meanwhile, the water and the raw materials can be stirred uniformly by the continuously self-rotating stirring wheels 1-14, then, the stirred concrete is driven to move continuously, when the material storage cavity 1-13 containing formed concrete rotates to be vertically downward, the concrete can be discharged from the outlet 1-1, and the outlet 1-1 can be aligned to a position needing the concrete for pouring; the device can avoid the generation of dust, when concrete is poured, the hopper 1-21 can drive the step sliding supporting leg 1-19 to move downwards to compress the spring 1-8, the air pressure in the step cavity 1-9 is increased, the increased air pressure can open the air outlet one-way valve 1-10 to spray into the dry material inlet pipe 1-6, meanwhile, the material in the hopper 1-21 can slide out from the sliding pipe 1-20 due to the inertia of the downward movement of the hopper 1-21, then the material is conveyed into the storage cavity 1-13 under the driving of the sprayed air flow, so that the material can not reversely raise dust upwards, and a closed loop can be formed, wherein the external air enters the step cavity 1-9 from the air inlet one-way valve 1-7, then enters the dry material inlet pipe 1-6 where the sliding inlet port 1-11 is located, and then enters the storage cavity 1-13, this prevents the gas from diffusing outward.

Of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and the changes, modifications, additions or replacements made by those skilled in the art within the scope of the present invention also belong to the protection scope of the present invention.

Claims (2)

1. The utility model provides a concrete road surface prosthetic devices, includes rabbling mechanism (1), make-up water mechanism (2), smashes frame mechanism (3), its characterized in that: the stirring mechanism (1) comprises an outlet (1-1), a stirring box (1-2), a gear ring (1-3), a bearing seat (1-4), a water inlet (1-5), a dry material inlet pipe (1-6), an air inlet one-way valve (1-7), a spring (1-8), a step cavity (1-9), an air outlet one-way valve (1-10), a sliding inlet port (1-11), a rotating wheel with a shaft (1-12), a material storage cavity (1-13), a stirring wheel (1-14), a stirring wheel shaft (1-15), a gear (1-16), a stepping motor (1-17), a coupler (1-18), a step sliding support leg (1-19), a sliding pipe (1-20), a hopper (1-21) and a pulley (1-22), an outlet (1-1) is arranged on a stirring box (1-2), the stirring box (1-2) is connected with a gear ring (1-3), the stirring box (1-2) is connected with a bearing seat (1-4), a water inlet (1-5) is arranged on the stirring box (1-2), a dry material inlet pipe (1-6) is connected with the stirring box (1-2), an air inlet one-way valve (1-7) is connected with the dry material inlet pipe (1-6), a spring (1-8) is arranged in a stepped cavity (1-9), a sliding inlet port (1-11) is arranged on the dry material inlet pipe (1-6), an air outlet one-way valve (1-10) is connected with the dry material inlet pipe (1-6), a connection mode of a rotating wheel with a shaft (1-12) and the bearing seat (1-4) is a bearing connection, the belt shaft rotating wheel (1-12) is arranged in the stirring box (1-2), the belt shaft rotating wheel (1-12) is connected with the stirring box (1-2) in a sliding way, the material storage cavity (1-13) is arranged on the belt shaft rotating wheel (1-12), the stirring wheel (1-14) is arranged in the material storage cavity (1-13), the stirring wheel (1-14) is connected with the stirring wheel shaft (1-15), the stirring wheel shaft (1-15) is connected with the belt shaft rotating wheel (1-12) in a bearing way, the stirring wheel shaft (1-15) is connected with the gear (1-16), the gear (1-16) is meshed with the gear ring (1-3), the stepping motor (1-17) is connected with the belt shaft rotating wheel (1-12) through the coupler (1-18), and the stepping motor (1-17) is connected with the stirring box (1-2), the ladder sliding support legs (1-19) are connected with the ladder cavities (1-9) in a sliding mode, the ladder sliding support legs (1-19) are connected with the springs (1-8), the sliding pipes (1-20) are connected with the sliding inlet openings (1-11) in a sliding mode, the sliding pipes (1-20) are connected with the hoppers (1-21), and the hoppers (1-21) are connected with the pulleys (1-22);

the water replenishing mechanism (2) comprises a water outlet one-way valve (2-1), a shell (2-2), an extrusion cavity (2-3), a water inlet one-way valve (2-4), a water storage cavity (2-5), a water replenishing plug (2-6), a piston (2-7), a connecting rod (2-8), a connecting seat (2-9), a semicircular convex strip (2-10), a hydraulic rod (2-11), a hydraulic cylinder (2-12), a hydraulic cylinder support (2-13) and a steel frame seat (2-14), the water outlet one-way valve (2-1) is connected with the shell (2-2), the extrusion cavity (2-3) is arranged in the shell (2-2), the water storage cavity (2-5) is arranged in the shell (2-2), and the water inlet one-way valve (2-4) is connected with the shell (2-2), the water replenishing plug (2-6) is in threaded connection with the shell (2-2), the piston (2-7) is in sliding connection with the extrusion cavity (2-3), the piston (2-7) is connected with the connecting rod (2-8), the connecting rod (2-8) is in sliding connection with the shell (2-2), the connecting rod (2-8) is connected with the connecting seat (2-9), a semicircular protruding strip (2-10) is arranged on the connecting seat (2-9), the connecting seat (2-9) is connected with the hydraulic rod (2-11), the hydraulic rod (2-11) is connected with the hydraulic cylinder (2-12), the hydraulic cylinder (2-12) is connected with the hydraulic cylinder support (2-13), the hydraulic cylinder support (2-13) is connected with the steel frame seat (2-14), and the shell (2-2) is connected with the stirring tank (1-2);

the smashing frame mechanism (3) comprises a moving wheel (3-1), a frame body (3-2), a smashing impact rod (3-3), a sliding matching hole (3-4), a stepped hole (3-5), a reset spring (3-6), a movable seat I (3-7), a band plate rod (3-8), a cam with a shaft (3-9), a belt pulley (3-10), a bearing seat A (3-11), a transmission belt (3-12), a motor belt pulley (3-13), a motor A (3-14) and a sliding box A (3-15), wherein the moving wheel (3-1) is connected with the frame body (3-2), the frame body (3-2) is connected with a stirring box (1-2), the frame body (3-2) is connected with a steel frame seat (2-14), the crushing impact rod (3-3) is connected with the sliding fit hole (3-4) in a sliding way, the sliding fit hole (3-4) is arranged on the frame body (3-2), the crushing impact rod (3-3) is connected with the movable seat I (3-7), the movable seat I (3-7) is connected with the stepped hole (3-5) in a sliding way, the reset spring (3-6) is arranged in the stepped hole (3-5), the reset spring (3-6) is sleeved on the crushing impact rod (3-3), the reset spring (3-6) is abutted against the movable seat I (3-7) and the sliding box A (3-15), the sliding box A (3-15) is connected with the frame body (3-2), the stepped hole (3-5) is arranged on the stepped hole (3-5), the movable seat I (3-7) is connected with the band plate rod (3-8), the belt plate rod (3-8) is connected with the sliding box A (3-15) in a sliding mode, the belt plate rod (3-8) is in contact with a belt shaft cam (3-9), the belt shaft cam (3-9) is connected with a belt pulley (3-10), the belt shaft cam (3-9) is connected with a bearing seat A (3-11) in a bearing mode, the belt pulley (3-10) is in friction connection with a transmission belt (3-12), the transmission belt (3-12) is in friction connection with a motor belt pulley (3-13), the motor belt pulley (3-13) is connected with a motor A (3-14), and the motor A (3-14) is connected with the bearing seat A (3-11);

the stirring mechanism (1) is connected with the water supplementing mechanism (2), the water supplementing mechanism (2) is connected with the smashing frame mechanism (3), and the stirring mechanism (1) is connected with the smashing frame mechanism (3).

2. A concrete pavement repair apparatus according to claim 1, wherein: the material of the semicircular convex strips (2-10) is high manganese steel.

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