CN203905964U - Mine concrete wet spraying mechanical arm equipment - Google Patents

Abstract

The utility model provides mine concrete wet spraying mechanical arm equipment. The mine concrete wet spraying mechanical arm equipment solves the problems that an existing spraying machine is not comprehensive in direction adjustment and not flexible, and spraying dead angles exist accordingly. The mine concrete wet spraying mechanical arm equipment comprises a vehicle body, a crawler walking mechanism is arranged on the bottom of the vehicle body, an operating floor, an oil supply driving mechanism and a mechanical arm are arranged on the vehicle body, the mechanical arm comprises a big arm and a telescopic arm, the big arm is hinged to the telescopic arm, a slewing hydraulic motor is assembled to the bottom of the big arm, an amplitude variation oil cylinder is arranged between the big arm and the telescopic arm, the locating end of the amplitude variation oil cylinder is hinged to the big arm, the telescopic end of the amplitude variation oil cylinder is hinged to the telescopic arm, the front end of the telescopic arm is connected to a left and right spiral tilt cylinder, the front end of the left and right spiral tilt cylinder is connected to a front and right spiral tilt cylinder, the front and right spiral tilt cylinder is provided with a cycloid hydraulic motor, and the cycloid hydraulic motor is connected with a nozzle through a universal joint. The mechanical arm is easy to control, the positions and angle postures of the nozzle can be changed flexibly, and accurate guniting work can be completed; the working distance and the spraying angle can be maintained continuously, and springback phenomena can be reduced.

Description

A kind of concrete for mines wet shot robotic device

Technical field

The utility model belongs to mining equipment technical field, relates to a kind of device that carries out concrete injection in the roadway of colliery, particularly a kind of concrete for mines wet shot robotic device.

Background technology

Concrete sprayer is widely used a kind of construction equipment in engineering construction.It is to utilize compressed air or other power, by by a certain percentage coordinate mix and stir material by pipeline carries and high velocity jet to being subject to setting and harden on spray plane, thereby formation concrete supporting.Concrete-spraying technology simple process, construction cost is low, adapts to widely, in various building fields, has brought into play important function.

Concrete sprayer divides dry spraying machine and wet spraying machine two classes, and the former carries dry mixing to close material by strength, ejection after mixing with press water at nozzle place; The latter is sprayed through nozzle by strength or concrete pump delivering concrete mixture.Concrete sprayer is widely used in the lining construction of underground construction, well tunnel, culvert etc.

The operating type of conventional concrete spraying machine is, carry out concrete spraying by manpower hand-held shower alignment work region, the poor accuracy of this manual mode of operation to operating area, and in course of injection, there is deviation because recoil impact causes the working region of aiming at, moreover be difficult to grasp concrete thickness and the uniformity of condensing by manual control.The existing mechanical type spraying device producing all exists adjustment direction not comprehensive, thereby causes manipulating underaction, exists dead angle, working region to cause the underproof problem of spraying operation.

Utility model content

The purpose of this utility model is to have the problems referred to above for existing technology, has proposed a kind of freedom of movement of totally 5 kinds of directions that arranges, and can realize each spray angle, and easy to operate, the colory concrete for mines wet shot of operation robotic device.

The purpose of this utility model can realize by following technical proposal: a kind of concrete for mines wet shot robotic device, comprise car body, the bottom of described car body has creeper undercarriage, setting operation platform on described car body, fuel feeding driving mechanism and mechanical arm, described fuel feeding driving mechanism connects mechanical arm by oil circuit, described operating desk control fuel feeding driving mechanism, described mechanical arm comprises the large arm and the telescopic arm that are hinged, the bottom assembling rotary fluid motor of described large arm, between described large arm and telescopic arm, amplitude oil cylinder is set, the positioning end of described amplitude oil cylinder is hinged on large arm, telescopic end is hinged on telescopic arm, the front end of described telescopic arm connects left-and-right spiral tilt cylinder, spiral tilt cylinder before and after the front end of described left-and-right spiral tilt cylinder connects, on the spiral tilt cylinder of described front and back, cycloid hydraulic motor is set, described cycloid hydraulic motor connects nozzle by universal joint.

This concrete for mines wet shot robotic device is electric gas/liquid pressure pressure type, make hydraulic pump that the control of flow passing ratio banked direction control valves is provided, five joint freedom degrees of driving device arm respectively, realize revolution, luffing, flexible, nozzle swings, five actions of nozzle swing, thereby change position and the angular pose of mechanical arm tail end nozzle; Also further be provided with the border running action of nozzle, to realize the uniformity of condensation by injection, finally complete good gunite work.Wherein drive large arm to carry out the go to action of overall mechanical arm by the rotary fluid motor that is positioned at bottom; By the expanding-contracting action of amplitude oil cylinder, the pin joint arc rotation of telescopic arm on large arm changed and face upward an amplitude, and maximum argument scope is 127 °; By elongation or the shortening of telescopic arm, realize the front and back horizontal level of front end nozzle; By swinging of left-and-right spiral tilt cylinder, realize the nozzle fan-shaped range that spray left and right in the plane, and maximum angle scope is 102 °; Front and back by front and back spiral tilt cylinder turn to swing, realize the fan-shaped range that nozzle sprays up and down in vertical plane, and maximum angle scope are 90 °; Cycloid hydraulic motor drives nozzle to do the action of circumferentially turn-taking by universal joint.

In above-mentioned concrete for mines wet shot robotic device, described telescopic arm comprises external extension arm, middle telescopic arm, interior telescopic arm and telescopic oil cylinder, in the middle of described, the two ends of telescopic arm penetrate respectively external extension arm, interior telescopic arm, and the rear end of described middle telescopic arm connects telescopic oil cylinder.The stretching out or the action that bounces back of telescopic arm in the middle of driving by telescopic oil cylinder, to realize the action effect of elongation or shortening of integral telescopic arm.

In above-mentioned concrete for mines wet shot robotic device, supporting leg is also set on described car body, one end of described supporting leg is hinged on car body, the other end is free end, on described supporting leg, support oil cylinder is set, the positioning end of described support oil cylinder is hinged on car body, and telescopic end is articulated with the free end of supporting leg.In the time that the telescopic shaft of support oil cylinder stretches out, drive and self synchronize and be rotated down with supporting leg, until the free end of supporting leg supports on the ground, supporting leg keeps this support part; In the time that the telescopic shaft of support oil cylinder bounces back, drive and self synchronize and rotate up with supporting leg, until telescopic shaft is set back in support oil cylinder completely, supporting leg departs from ground and vertically packs up, and the maximum angle scope of supporting leg action under the drive of support oil cylinder is 107 °.Supporting leg, large arm etc. are equipped with hydraulic lock, prevent from losing support force in the situation that there is no pressure.

In above-mentioned concrete for mines wet shot robotic device, described creeper undercarriage comprises chassis, front walking wheel and rear walking wheel are set on described chassis, the periphery socket traveling crawler of described front walking wheel and rear walking wheel, running motor is also set on described chassis, and described running motor connects front walking wheel.Running motor drives front walking wheel rotation, and under the transmission of gear engagement, rear walking wheel synchronously rotates, and realizes crawler travel.Track drive adopts the fluid pressure type running motor of strap brake to drive, and in the situation that not providing walking to drive fluid, wheel is braked; Meanwhile, crawler belt also can adopt mechanical braking.

In above-mentioned concrete for mines wet shot robotic device, described fuel feeding driving mechanism comprises fuel tank, three asynchronous motors, duplex pump and oil duct pipelines, oil filter and air filter are set on described fuel tank, described three asynchronous motors connect duplex pump by shaft coupling, described duplex pump is by oil duct pipeline connection fuel tank, and duplex pump passes through oil duct pipeline to mechanical arm fuel feeding.

In above-mentioned concrete for mines wet shot robotic device, described operating desk comprises hand-operated direction valve, direct-acting overflow valve, proportional multi-way valve, flame proof control button, flame proof scram button and vacuum electromagnetic starter, described proportional multi-way valve is serially connected on the oil duct pipeline that duplex pump is connected with mechanical arm, and described vacuum electromagnetic starter connects above-mentioned three asynchronous motors by circuit.

In above-mentioned concrete for mines wet shot robotic device, in described fuel tank, insert flowline road, described fuel-displaced pipeline is branched off into the first fuel-displaced branch road and the second fuel-displaced branch road, after described the first fuel-displaced branch road serial connection duplex pump, enter proportional multi-way valve, passing ratio banked direction control valves connects running motor, rotary fluid motor, amplitude oil cylinder, telescopic oil cylinder, left-and-right spiral tilt cylinder and front and back spiral tilt cylinder, and then the first fuel-displaced branch road is back to fuel tank; After described the second fuel-displaced branch road serial connection duplex pump, enter valve pack module, described valve pack module comprises two hand-operated direction valves and a direct-acting overflow valve, connect cycloid hydraulic motor by a hand-operated direction valve, by direct-acting overflow valve and another hand-operated direction valve connection leg oil cylinder, then after the second fuel-displaced branch road serial connection cooler, be back to fuel tank.Duplex pump comprises main pump and auxiliary pump, and wherein the first fuel-displaced branch road connects main pump, and the walking of passing ratio banked direction control valves control car body, mechanical arm turn to, mechanical arm luffing, mechanical arm is elastic, nozzle swings and nozzle swings up and down function; The second fuel-displaced branch road connects auxiliary pump, and by the function that valve pack module Control Nozzle is circumferentially turn-taked and supporting leg moves.Passing ratio banked direction control valves is realized the master control of hydraulic system, and the handle unclamping on proportional multi-way valve can make system decompression, stops everything.Separately there is overflow valve to prevent the operating mode of hypertonia.

In above-mentioned concrete for mines wet shot robotic device, described three asynchronous motors connect vacuum electromagnetic starter by cable, described vacuum electromagnetic starter connects flame proof control button by cable, and described flame proof control button connects flame proof scram button by cable.By vacuum electromagnetic starter, the operating mode of three asynchronous motors is protected, stopped three asynchronous motors and can stop the everything of mechanical arm.

In above-mentioned concrete for mines wet shot robotic device, operating desk rear setting operation person's seat of described car body, the periphery of described proportional multi-way valve arranges valve guardrail.

Compared with prior art, this concrete for mines wet shot robotic device, for the bolt-spary supports of underworkings, replaces and manually drags concrete conveyance flexible pipe and nozzle in spray operation, and mechanical arm is easy to control, flexibly changing nozzle location and angular pose, complete gunite work accurately; Operating personnel can Sustainable Control nozzle to distance and the spray angle of work plane, reduce thus resilience, contribute to improve the efficiency of whole spraying system; Operating personnel can also select the most applicable position to observe jeting effect at safe distance, and can be by crawler belt easily at ground moving, change different whitewashings region.

Brief description of the drawings

Fig. 1 is the structural representation of facing of this concrete for mines wet shot robotic device.

Fig. 2 is the side-looking structural representation of this concrete for mines wet shot robotic device.

Fig. 3 is the oil channel structures schematic diagram of this concrete for mines wet shot robotic device.

Fig. 4 is the circuit control schematic diagram of this concrete for mines wet shot robotic device.

In figure, 1, chassis; 2, running motor; 3, crawler belt; 4, fuel tank; 5, oil filter; 6, air filter; 7, cooler; 8, duplex pump; 9, shaft coupling; 10, three asynchronous motors; 11, hand-operated direction valve; 12, direct-acting overflow valve; 13, proportional multi-way valve; 14, valve guardrail; 15, flame proof control button; 16, flame proof scram button; 17, vacuum electromagnetic starter; 18, operator seat; 19, rotary fluid motor; 20, large arm; 21, amplitude oil cylinder; 22, telescopic oil cylinder; 23, interior telescopic arm; 24, middle telescopic arm; 25, external extension arm; 26, left-and-right spiral tilt cylinder; 27, front and back spiral tilt cylinder; 28, cycloid hydraulic motor; 29, universal joint; 30, nozzle; 31, supporting leg; 32, support oil cylinder.

Detailed description of the invention

Be below specific embodiment of the utility model by reference to the accompanying drawings, the technical solution of the utility model is further described, but the utility model be not limited to these embodiment.

As illustrated in fig. 1 and 2, this concrete for mines wet shot robotic device comprises car body, and the bottom of car body has creeper undercarriage, setting operation platform, fuel feeding driving mechanism and mechanical arm on car body, operating desk rear setting operation person's seat 18.Fuel feeding driving mechanism connects mechanical arm by oil circuit, operating desk control fuel feeding driving mechanism.

Creeper undercarriage comprises chassis 1, and front walking wheel and rear walking wheel are set on chassis 1, and the periphery socket traveling crawler 3 of front walking wheel and rear walking wheel, also arranges running motor 2 on chassis 1, and running motor 2 connects front walking wheel.Running motor 2 drives front walking wheel rotation, and under the transmission of gear engagement, rear walking wheel synchronously rotates, and realizes crawler belt 3 and walks.Crawler belt 3 drives and adopts the fluid pressure type running motor 2 of strap brake to drive, and in the situation that not providing walking to drive fluid, wheel is braked; Meanwhile, crawler belt 3 also can adopt mechanical braking.

Fuel feeding driving mechanism comprises fuel tank 4, three asynchronous motors 10, duplex pump 8 and oil duct pipelines.Oil filter 5 is set on fuel tank 4 and connects duplex pump 8 with 6, three asynchronous motors 10 of air filter by shaft coupling 9, duplex pump 8 is by oil duct pipeline connection fuel tank 4, and duplex pump 8 passes through oil duct pipeline to mechanical arm fuel feeding.

Mechanical arm comprises the large arm 20 and the telescopic arm that are hinged, and large arm 20 is assemblied on car body, and the bottom of large arm 20 assembling rotary fluid motor 19.Between large arm 20 and telescopic arm, amplitude oil cylinder 21 is set, the positioning end that is specially amplitude oil cylinder 21 is hinged on large arm 20, and telescopic end is hinged on telescopic arm.The front end of telescopic arm connects left-and-right spiral tilt cylinder 26, and spiral tilt cylinder 27 before and after the front end of left-and-right spiral tilt cylinder 26 connects, arranges cycloid hydraulic motor 28 on front and back spiral tilt cylinder 27, and cycloid hydraulic motor 28 connects nozzle 30 by universal joint 29.

Telescopic arm comprises external extension arm 25, middle telescopic arm 24, interior telescopic arm 23 and telescopic oil cylinder 22.The two ends of middle telescopic arm 24 penetrate respectively external extension arm 25, interior telescopic arm 23, and the rear end of middle telescopic arm 24 connects telescopic oil cylinder 22.The stretching out or the action that bounces back of telescopic arms 24 in the middle of driving by telescopic oil cylinder 22, to realize the action effect of elongation or shortening of integral telescopic arm.

Supporting leg 31 is also set on car body, and one end of this supporting leg 31 is hinged on car body, and the other end is free end.Support oil cylinder 32 is set on supporting leg 31, and the positioning end of this support oil cylinder 32 is hinged on car body, and telescopic end is articulated with the free end of supporting leg 31.In the time that the telescopic shaft of support oil cylinder 32 stretches out, drive and self synchronize and be rotated down with supporting leg 31, until the free end of supporting leg 31 supports on the ground, supporting leg 31 keeps this support part; In the time that the telescopic shaft of support oil cylinder 32 bounces back, drive and self synchronize and rotate up with supporting leg 31, until telescopic shaft is set back in support oil cylinder 32 completely, supporting leg 31 departs from ground and vertically packs up, and the maximum angle scope that supporting leg 31 moves under the drive of support oil cylinder 32 is 107 °.Supporting leg 31, large arm 20 etc. are equipped with hydraulic lock, prevent from losing support force in the situation that there is no pressure.

Operating desk comprises hand-operated direction valve 11, direct-acting overflow valve 12, proportional multi-way valve 13, flame proof control button 15, flame proof scram button 16 and vacuum electromagnetic starter 17, and the periphery of proportional multi-way valve 13 arranges valve guardrail 14.Proportional multi-way valve 13 is serially connected on the oil duct pipeline that duplex pump 8 is connected with mechanical arm, and vacuum electromagnetic starter 17 connects three asynchronous motors 10 by circuit.

As shown in Figure 3, the interior insertion flowline of fuel tank 4 road, this fuel-displaced pipeline is branched off into the first fuel-displaced branch road and the second fuel-displaced branch road.After the first fuel-displaced branch road serial connection duplex pump 8, enter proportional multi-way valve 13, passing ratio banked direction control valves 13 connects running motor 2, rotary fluid motor 19, amplitude oil cylinder 21, telescopic oil cylinder 22, left-and-right spiral tilt cylinder 26 and front and back spiral tilt cylinder 27, and then the first fuel-displaced branch road is back to fuel tank 4.After the second fuel-displaced branch road serial connection duplex pump 8, enter valve pack module, valve pack module comprises two hand-operated direction valves 11 and a direct-acting overflow valve 12, connect cycloid hydraulic motor 28 by a hand-operated direction valve 11, by direct-acting overflow valve 12 and another hand-operated direction valve 11 connection leg oil cylinders 32, then after the second fuel-displaced branch road serial connection cooler 7, be back to fuel tank 4.

Duplex pump 8 comprises main pump and auxiliary pump, and wherein the first fuel-displaced branch road connects main pump, and passing ratio banked direction control valves 13 is controlled that car body walking, mechanical arm turn to, mechanical arm luffing, mechanical arm is elastic, nozzle 30 swings and nozzle 30 swings up and down function; The second fuel-displaced branch road connects auxiliary pump, and by the function that valve pack module Control Nozzle 30 is circumferentially turn-taked and supporting leg 31 moves.Passing ratio banked direction control valves 13 is realized the master control of hydraulic system, and the handle unclamping on proportional multi-way valve 13 can make system decompression, stops everything.Separately there is overflow valve to prevent the operating mode of hypertonia.

As shown in Figure 4, three asynchronous motors 10 connect vacuum electromagnetic starter 17 by cable, and vacuum electromagnetic starter 17 connects flame proof control button 15 by cable, and flame proof control button 15 connects flame proof scram button 16 by cable.By vacuum electromagnetic starter 17, the operating mode of three asynchronous motors 10 is protected, stopped three asynchronous motors 10 and can stop the everything of mechanical arm.

This concrete for mines wet shot robotic device is for the bolt-spary supports of underworkings, in spray operation, replace and manually drag concrete conveyance flexible pipe and nozzle 30, and mechanical arm is easy to control, and flexibly changing nozzle 30 positions and angular pose, complete gunite work accurately.

This concrete for mines wet shot robotic device is electric gas/liquid pressure pressure type, make hydraulic pump that the control of flow passing ratio banked direction control valves 13 is provided, five joint freedom degrees of driving device arm respectively, realize revolution, luffing, flexible, nozzle swings, five actions of nozzle swing, thereby change position and the angular pose of mechanical arm tail end nozzle 30; Also further be provided with the border running action of nozzle 30, to realize the uniformity of condensation by injection, finally complete good gunite work.

In working order time, realize the ground moving of overall vehicle by creeper undercarriage; Realize the firm support function under car body positioning states by supporting leg 31; By the operation to operating desk upper handle, realize the various actions control to car body injection work; Drive large arm 20 to carry out the go to action of overall mechanical arm by the rotary fluid motor 19 that is positioned at bottom; By the expanding-contracting action of amplitude oil cylinder 21, the pin joint arc rotation of telescopic arm on large arm 20 changed and face upward an amplitude, and maximum argument scope is 127 °; By elongation or the shortening of telescopic arm, realize the front and back horizontal level of front end nozzle 30; By swinging of left-and-right spiral tilt cylinder 26, realize nozzle 30 fan-shaped range that spray left and right in the plane, and maximum angle scope is 102 °; Front and back by front and back spiral tilt cylinder 27 turn to swing, realize the fan-shaped range that nozzle 30 sprays up and down in vertical plane, and maximum angle scope are 90 °; Cycloid hydraulic motor 28 drives nozzle 30 to do the action of circumferentially turn-taking by universal joint 29.

Specific embodiment described herein is only to the explanation for example of the utility model spirit.The utility model person of ordinary skill in the field can make various amendments or supplements or adopt similar mode to substitute described specific embodiment, but can't depart from spirit of the present utility model or surmount the defined scope of appended claims.

Although more used chassis 1 herein; Running motor 2; Crawler belt 3; Fuel tank 4; Oil filter 5; Air filter 6; Cooler 7; Duplex pump 8; Shaft coupling 9; Three asynchronous motors 10; Hand-operated direction valve 11; Direct-acting overflow valve 12; Proportional multi-way valve 13; Valve guardrail 14; Flame proof control button 15; Flame proof scram button 16; Vacuum electromagnetic starter 17; Operator seat 18; Rotary fluid motor 19; Large arm 20; Amplitude oil cylinder 21; Telescopic oil cylinder 22; Interior telescopic arm 23; Middle telescopic arm 24; External extension arm 25; Left-and-right spiral tilt cylinder 26; Front and back spiral tilt cylinder 27; Cycloid hydraulic motor 28; Universal joint 29; Nozzle 30; Supporting leg 31; Support oil cylinder 32 terms such as grade, but do not get rid of the possibility that uses other term.Use these terms to be only used to describe more easily and explain essence of the present utility model; They are construed to any additional restriction is all contrary with the utility model spirit.

Claims (9)

1. a concrete for mines wet shot robotic device, comprise car body, the bottom of described car body has creeper undercarriage, setting operation platform on described car body, fuel feeding driving mechanism and mechanical arm, described fuel feeding driving mechanism connects mechanical arm by oil circuit, described operating desk control fuel feeding driving mechanism, it is characterized in that, described mechanical arm comprises the large arm and the telescopic arm that are hinged, the bottom assembling rotary fluid motor of described large arm, between described large arm and telescopic arm, amplitude oil cylinder is set, the positioning end of described amplitude oil cylinder is hinged on large arm, telescopic end is hinged on telescopic arm, the front end of described telescopic arm connects left-and-right spiral tilt cylinder, spiral tilt cylinder before and after the front end of described left-and-right spiral tilt cylinder connects, on the spiral tilt cylinder of described front and back, cycloid hydraulic motor is set, described cycloid hydraulic motor connects nozzle by universal joint.

2. concrete for mines wet shot robotic device according to claim 1, it is characterized in that, described telescopic arm comprises external extension arm, middle telescopic arm, interior telescopic arm and telescopic oil cylinder, in the middle of described, the two ends of telescopic arm penetrate respectively external extension arm, interior telescopic arm, and the rear end of described middle telescopic arm connects telescopic oil cylinder.

3. concrete for mines wet shot robotic device according to claim 1, it is characterized in that, supporting leg is also set on described car body, one end of described supporting leg is hinged on car body, the other end is free end, on described supporting leg, support oil cylinder is set, the positioning end of described support oil cylinder is hinged on car body, and telescopic end is articulated with the free end of supporting leg.

4. concrete for mines wet shot robotic device according to claim 1, it is characterized in that, described creeper undercarriage comprises chassis, front walking wheel and rear walking wheel are set on described chassis, the periphery socket traveling crawler of described front walking wheel and rear walking wheel, running motor is also set on described chassis, and described running motor connects front walking wheel.

5. according to the concrete for mines wet shot robotic device described in claim 1 or 2 or 3 or 4, it is characterized in that, described fuel feeding driving mechanism comprises fuel tank, three asynchronous motors, duplex pump and oil duct pipelines, oil filter and air filter are set on described fuel tank, described three asynchronous motors connect duplex pump by shaft coupling, described duplex pump is by oil duct pipeline connection fuel tank, and duplex pump passes through oil duct pipeline to mechanical arm fuel feeding.

6. concrete for mines wet shot robotic device according to claim 5, it is characterized in that, described operating desk comprises hand-operated direction valve, direct-acting overflow valve, proportional multi-way valve, flame proof control button, flame proof scram button and vacuum electromagnetic starter, described proportional multi-way valve is serially connected on the oil duct pipeline that duplex pump is connected with mechanical arm, and described vacuum electromagnetic starter connects above-mentioned three asynchronous motors by circuit.

7. concrete for mines wet shot robotic device according to claim 6, it is characterized in that, in described fuel tank, insert flowline road, described fuel-displaced pipeline is branched off into the first fuel-displaced branch road and the second fuel-displaced branch road, after described the first fuel-displaced branch road serial connection duplex pump, enter proportional multi-way valve, passing ratio banked direction control valves connects running motor, rotary fluid motor, amplitude oil cylinder, telescopic oil cylinder, left-and-right spiral tilt cylinder and front and back spiral tilt cylinder, and then the first fuel-displaced branch road is back to fuel tank; After described the second fuel-displaced branch road serial connection duplex pump, enter valve pack module, described valve pack module comprises two hand-operated direction valves and a direct-acting overflow valve, connect cycloid hydraulic motor by a hand-operated direction valve, by direct-acting overflow valve and another hand-operated direction valve connection leg oil cylinder, then after the second fuel-displaced branch road serial connection cooler, be back to fuel tank.

8. concrete for mines wet shot robotic device according to claim 6, it is characterized in that, described three asynchronous motors connect vacuum electromagnetic starter by cable, described vacuum electromagnetic starter connects flame proof control button by cable, and described flame proof control button connects flame proof scram button by cable.

9. concrete for mines wet shot robotic device according to claim 6, is characterized in that, operating desk rear setting operation person's seat of described car body, and the periphery of described proportional multi-way valve arranges valve guardrail.