CN112576040A - Be used for building to pour automatic dismounting device of piece splint protectiveness - Google Patents

Abstract

The invention discloses a protective automatic dismounting device for a building pouring block clamping plate, which comprises an impact box, a moving mechanism and a steering mechanism, wherein the moving mechanism and the steering mechanism are arranged on the lower side of the impact box, the rear side of the impact box is provided with an air injection mechanism and a detection control mechanism, and an impact cavity is arranged in the impact box. Meanwhile, the invention realizes the automation of the treatment process, greatly improves the treatment efficiency and saves the labor force.

Description

Be used for building to pour automatic dismounting device of piece splint protectiveness

Technical Field

The invention relates to a protective automatic dismounting device for a building pouring block clamping plate, and mainly relates to the technical field of building pouring.

Background

The concrete pouring refers to a process from pouring concrete into a mold to plasticizing, and corresponding measures are taken when materials such as concrete are put into the mold for three meters in civil and architectural engineering;

the solidification casting mould of the house concrete block at the present stage mainly uses a wooden plate with lower cost, the wooden plate is placed into a required shape and then clamped by metal clamps, the clamps are separated after the wooden plate is completely solidified, the wooden plate is knocked down by using tools such as a hammer and the like so as to be capable of being recycled, but the problem exists in the actual use process, for example, when the viscosity of the concrete is higher, no proper tool is used for knocking down the wooden plate but a hammer is directly used, the damage of the wooden plate is easy to be caused in the case of directly using the hammer, the use cost in the casting process is directly improved, the flatness of the surface of the concrete block is easy to be damaged in the case of knocking by using the hammer, the corner can be directly knocked when the corner is knocked, the problem of needing to be poured again is caused, and the knocking mode is generally manual operation, time and labor are wasted, and the efficiency is lower, moreover, automation is difficult to realize, and the invention improves aiming at the defects.

Disclosure of Invention

The invention aims to solve the technical problem of providing a protective automatic dismounting device for a building pouring block clamping plate, and the protective automatic dismounting device overcomes the problems.

The invention is realized by the following technical scheme.

The invention discloses a protective automatic dismounting device for a building pouring block clamping plate, which comprises an impact box, a moving mechanism and a steering mechanism, wherein the moving mechanism and the steering mechanism are arranged on the lower side of the impact box;

the detection control mechanism comprises a supporting plate positioned at the rear side of the impact box, a control box is fixedly arranged at the right side of the supporting plate, a control cavity is arranged in the control box, a control sliding core is arranged in the control cavity in a sliding manner, the rear side of the control sliding core is elastically connected with the left wall of the control cavity through a spring, a detection rod extending to the right side of the control box is arranged at the right side of the control sliding core, the right end of the detection rod extends to the right side of the impact box and is connected with an insertion block, a control block is arranged on the front wall of the control cavity, the control sliding core is abutted against the control block when positioned at an initial state, a control block is arranged in the impact cavity by extending the right side of the control sliding core, and when the right end of the insertion block is in contact with;

the air injection mechanism comprises an air pump positioned on the rear wall of the impact cavity, an air outlet pipe is connected to the lower side of the air pump, an air pressure box is connected to the lower side of the air outlet pipe, an air pressure cavity is arranged in the air pressure box, an air injection pipe extending to the rear side of the impact cavity is connected to the rear wall of the air pressure cavity, the air injection pipe extends into the detection rod and is connected with the insertion block, and when the right end of the insertion block is inserted between the concrete block and the wood board, the air injection pipe injects high-pressure air through the insertion block, so that friction of the insertion block on the wood board is reduced, and the disassembly efficiency;

the light pushing mechanism comprises two pressure bases which are positioned on the bottom wall of the impact cavity in bilateral symmetry, a pressure box is arranged on each pressure base, a pressure cavity is arranged in each pressure box, a pressure sliding core is arranged on the inner wall of each pressure cavity in a sliding mode, the left side of each pressure sliding core is elastically connected with the left wall of each pressure cavity through a pressure spring, the left side of each pressure sliding core is rotationally connected with a rotating shaft which can rotate on the bottom wall of each pressure cavity, a cam is arranged on each rotating shaft, the pressure sliding cores can periodically slide left and right when the rotating shafts drive the cams to rotate, an isolated left gas conveying plate and an isolated right gas conveying plate are arranged on the bottom wall of each pressure cavity, two gas holes which are symmetric up and down are arranged on each gas conveying plate, gas plates are arranged on the right sides and the left sides of the gas holes on, an air inlet pipe extending to the lower side of the impact box is arranged on the right wall of the pressure cavity at the position corresponding to the right side of the air hole at the lower side, the right side of the air hole is positioned on the right wall of the pressure cavity and is provided with a gas pipe, two left and right symmetrical nudging bases are arranged on the bottom wall of the impact cavity, a nudging box is arranged on the upper side of the nudging base, a nudging cavity is arranged in the nudging box and is provided with a nudging slide core in a sliding manner, the left wall of the nudging cavity is connected with the gas pipe, a nudging rod extending to the right side of the impact box is arranged on the right side of the nudging slide core, the end part of the nudging rod is connected with an impact head;

the switching mechanism comprises the cam, the upper end of the cam extends to the inner end part of the impact cavity and is provided with an auxiliary rotating disk, an auxiliary rotating disk cavity with an upward opening is arranged in the auxiliary rotating disk, a main shaft capable of rotating is arranged on the upper side of the auxiliary rotating disk cavity, the main shaft is positioned on the upper side of the auxiliary rotating disk and is in non-power connection with a main rotating disk, a main rotating disk cavity with a downward opening and corresponding to the auxiliary rotating disk cavity is arranged in the main rotating disk, the main shaft is positioned between the main rotating disk cavity and the auxiliary rotating disk cavity and is in power connection with a switching seat capable of sliding up and down, the lower side of the switching seat is abutted against the bottom wall of the auxiliary rotating disk cavity through a rotating spring, one end of the control block extends to the position between the main rotating disk and the auxiliary rotating disk, when the control block moves rightwards, the switching seat is, the effect of switching is achieved;

the heavy pushing mechanism comprises a driven wheel meshed with the right side of the main rotating disc, the right side of the driven wheel is rotatably connected with the lead screw, the lead screw extends to the air pressure cavity and is connected with a threaded block, the right side of the threaded block is provided with a push block, the right side of the air pressure box is fixedly connected with a push box, a push cavity is arranged in the push box, a fixing ring is fixedly arranged in the push cavity, the right wall of the air pressure cavity is provided with a press plate capable of moving towards the right side, the right side of the press plate is elastically connected with the left side of the fixing ring through a spring, the inner wall of the push cavity is slidably provided with a push sliding core, the right side of the push sliding core is provided with a heavy push rod extending to the right side of the impact box, the right end of the heavy push rod is connected with the impact head, the, the high-pressure air in the air pump can impact the impact head so as to achieve the effect of high-pressure impact.

Furthermore, the power mechanism comprises a motor positioned on the top of the impact cavity, the lower end of the motor is connected with the spindle, the rear side of the motor is connected with the control block through a connecting wire extending into the control cavity, and when the control sliding core fluctuates with the control block, the motor can be started to drive the re-pushing mechanism or the re-pushing mechanism to impact the wood board on the outer side according to the position of the control block, so that the purpose of disassembly is achieved.

Further, the lead screw is located it is equipped with the slider to strike the rotatory slider that is equipped with on one section of intracavity, works as the lead screw just can drive when beginning to rotate the slider is controlled and is removed, the slider upside is equipped with and extends to the left trigger bar of air pump, trigger bar upper end right side is equipped with and is fixed in the left trigger block of air pump, just can trigger when the slider moves to the right at this time the trigger block increase the power of air pump, when the slider moves to the right, the screw block also moves to the right, and works as the ejector block pushes away the clamp plate, the atmospheric pressure chamber with when the impulse box is connected and is prepared to strike, the right side of screw block moves can completely cut off the jet-propelled pipe with the connection in atmospheric pressure chamber, will the atmospheric pressure that the air pump increases is whole to strike on the promotion sliding core, makes the.

Furthermore, the moving mechanism comprises two tire rods which are positioned on the lower side of the impact box in a bilateral symmetry manner, the lower end of the tire rod on the right side is connected with a moving motor, the two tire shafts are symmetrically arranged in the front and back direction, four tires are symmetrically arranged in the front and back direction at the end part of each tire shaft, the moving motor is power for the tire shafts on the front side to move forwards, the front and back ends of the tire shafts on the front side are connected with the tires through universal joints, and when the moving motor is started, the moving motor can drive the device to move forwards integrally;

furthermore, the steering mechanism comprises a steering button fixedly arranged on the left side of the detection rod, a connecting rod is arranged on the rear side of the impact box, a telescopic machine is arranged at the rear end of the connecting rod, the rear side of the telescopic machine is connected with the steering button through a control line, a telescopic rod is arranged on the lower side of the telescopic machine, a lever is rotatably connected to the lower end of the telescopic rod, a fixed rod is rotatably connected to the middle section of the lever, the upper end of the fixed rod is fixed on the lower side of the impact box, a turbine rod is selectively connected to the front end of the lever, a worm meshed with the turbine is arranged on a right tire shaft, a steering wheel of which the outer side is abutted to the tire is non-power connected to the universal joint, a fixed seat is arranged on the right side of the steering wheel, a steering rod is rotatably connected to the, when the tire shaft rotates and the turbine descends to enter the space between the rack and the worm, the steering rod moves backwards to drive the tire to rotate, so that the whole device rotates.

The invention has the beneficial effects that: the invention uses the method of the inclined air pressure head to separate the head of the adhered wood plate from the surface of the concrete in advance, thereby preventing the impact head from impacting the concrete, and then two impact modes are adopted according to the adhesion strength, when the adhesion strength is smaller, the high-frequency low-pressure mode is used for reducing the damage to the surface as much as possible, when the adhesion strength is larger, the low-frequency high-pressure mode is adopted, the wood plate and the concrete wall can be impacted as soon as possible, thereby improving the disassembly efficiency, and in the high-frequency impact mode, the air pressure support to the wood plate and the concrete wall is kept, the friction is reduced, the integrity is ensured, meanwhile, the invention realizes the automation of the treatment process, greatly improves the treatment efficiency, and saves the labor force.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the structure a-a in fig. 1.

FIG. 3 is a schematic diagram of B-B in FIG. 1.

Fig. 4 is a schematic diagram of the structure C-C in fig. 3.

Detailed Description

The invention will now be described in detail with reference to fig. 1-4, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The automatic protective dismounting device for the building pouring block clamping plate, which is described in conjunction with fig. 1-4, comprises an impact box 10, and a moving mechanism 100 and a steering mechanism 101 which are arranged on the lower side of the impact box 10, wherein an air injection mechanism 102 and a detection control mechanism 103 are arranged on the rear side of the impact box 10, an impact cavity 11 is arranged in the impact box 10, and a switching mechanism 104, a re-pushing mechanism 105, a re-pushing mechanism 106 and a power mechanism 107 are arranged in the impact cavity 11;

the detection control mechanism 103 includes a support plate 87 located at the rear side of the surge tank 10, a control box 66 is fixedly arranged at the right side of the supporting plate 87, a control cavity 67 is arranged in the control box 66, a control slide core 68 is arranged in the control cavity 67 in a sliding way, the rear side of the control slide core 68 is elastically connected with the left wall of the control cavity 67 through a spring, the right side of the control slide core 68 is provided with a detection rod 70 extending to the right side of the control box 66, an insertion block 72 is connected to the right end of the detection rod 70 extending to the right side of the impact box 10, a control block 69 is arranged on the front wall of the control cavity 67, when the control slide core 68 is in the initial state, the control slide core abuts against the control block 69, the right side of the control slide core 68 extends to the inside of the impact cavity 11 to form the control block 40, when the right end of the inserting block 72 contacts the concrete connecting plate, the control sliding core 68 can slide back and forth according to the bonding strength;

the air injection mechanism 102 comprises an air pump 53 positioned on the rear wall of the impact cavity 11, an air outlet pipe 55 is connected to the lower side of the air pump 53, an air pressure box 58 is connected to the lower side of the air outlet pipe 55, an air pressure cavity 59 is arranged in the air pressure box 58, an air injection pipe 85 extending to the rear side of the impact box 10 is connected to the rear wall of the air pressure cavity 59, the air injection pipe 85 extends into the detection rod 70 and is connected with the insertion block 72, when the right end of the insertion block 72 is inserted between the concrete block and the wood board, the air injection pipe 85 injects high-pressure air through the insertion block 72, friction of the insertion block 72 on the wood board is reduced, and the disassembly efficiency is improved;

the light pushing mechanism 106 comprises two pressure bases 28 which are positioned on the bottom wall of the impact cavity 11 and are bilaterally symmetrical, a pressure box 30 is arranged on the pressure base 28, a pressure cavity 31 is arranged in the pressure box 30, a pressure slide core 32 is arranged on the inner wall of the pressure cavity 31 in a sliding manner, the left side of the pressure slide core 32 is elastically connected with the left wall of the pressure cavity 31 through a pressure spring 33, the left side of the pressure slide core 32 is rotatably connected with a rotating shaft 34 which can rotate and is arranged on the bottom wall of the pressure cavity 31, a cam 35 is arranged on the rotating shaft 34, the pressure slide core 32 can periodically slide leftwards and rightwards when the rotating shaft 34 drives the cam 35 to rotate, a left and right air transmission plate 36 which is isolated from the left and right is arranged on the bottom wall of the pressure cavity 31, two air holes 37 which are vertically symmetrical are arranged on the air transmission, the right side of the gas transmission plate 36 is provided with an isolation plate 38 for separating the upper air hole 37 from the lower air hole 37, the right wall of the pressure cavity 31 at the position corresponding to the right side of the lower air hole 37 is provided with a gas inlet pipe 26 extending to the lower side of the impact box 10, the right side of the upper air hole 37 is positioned on the right wall of the pressure cavity 31 and is provided with a gas pipe 29, the bottom wall of the impact cavity 11 is provided with two bilaterally symmetrical nudge bases 17, the upper side of the nudge base 17 is provided with a nudge box 15, the nudge box 15 is internally provided with a nudge cavity 16, the nudge cavity 16 is internally provided with a nudge slide core 18 in a sliding manner, the left wall of the nudge cavity 16 is connected with the gas pipe 29, the right side of the nudge slide core 18 is provided with a nudge rod 14 extending to the right side of the impact box 10, the end;

the switching mechanism 104 comprises the cam 35, an auxiliary rotating disk 41 is arranged at the inner end part of the impact cavity 11, an auxiliary rotating disk cavity 43 which is opened upwards is arranged in the auxiliary rotating disk 41, a rotatable main shaft 47 is arranged on the upper side of the auxiliary rotating disk cavity 43, a main rotating disk 45 is non-power-connected to the main shaft 47 on the upper side of the auxiliary rotating disk 41, a main rotating disk cavity 46 which is opened downwards and corresponds to the auxiliary rotating disk cavity 43 is arranged in the main rotating disk 45, a switching seat 44 which can slide up and down is power-connected between the main rotating disk cavity 46 and the auxiliary rotating disk cavity 43 is arranged on the main rotating disk 47, the lower side of the switching seat 44 is abutted against the bottom wall of the auxiliary rotating disk cavity 43 through a rotating spring 42, one end of the control block 40 is extended between the main rotating disk 45 and the auxiliary rotating disk 41, and the switching seat 44 is power-connected with the main rotating disk 45 when the control block, on the contrary, the auxiliary rotating disc 41 is in power connection with the switching seat 44, so that the switching effect is achieved;

the heavy pushing mechanism 105 comprises a driven wheel 48 meshed with the right side of the main rotating disc 45, the right side of the driven wheel 48 is rotatably connected with the screw rod 54, the screw rod 54 extends to a threaded block 56 connected in the air pressure cavity 59, a pushing block 57 is arranged on the right side of the threaded block 56, a pushing box 62 is fixedly connected with the right side of the air pressure box 58, a pushing cavity 63 is arranged in the pushing box 62, a fixing ring 65 is fixedly arranged in the pushing cavity 63, a pressing plate 60 capable of moving towards the right side is arranged on the right wall of the air pressure cavity 59, the right side of the pressing plate 60 is elastically connected with the left side of the fixing ring 65 through a spring, a pushing sliding core 64 is arranged on the inner wall of the pushing cavity 63 in a sliding mode, a heavy pushing rod 13 extending to the right side of the impact box 10 is arranged on the right side of the pushing sliding core 64, the right end of the heavy pushing, when the screw 54 rotates, the push block 57 pushes the press plate 60 to the right, so that the high-pressure air in the air pump 53 impacts the impact head 12 to achieve a high-pressure impact effect.

Advantageously, the power mechanism 107 includes a motor 51 located on the top of the impact chamber 11, the lower end of the motor 51 is connected to the spindle 47, and the rear side of the motor 51 is connected to the control block 69 through a connection line 86 extending into the control chamber 67, so that when a wave is generated between the control slide core 68 and the control block 69, the motor 51 is activated to drive the re-pushing mechanism 105 or the nudging mechanism 106 to impact the outer plank according to the position of the control block 40, thereby achieving the purpose of detachment.

Advantageously, the screw 54 is provided with a sliding block 49 rotating on a section thereof located inside the impact chamber 11, when the screw rod 54 starts to rotate, the slide block 49 can be driven to move left and right, the upper side of the slide block 49 is provided with a trigger rod 50 extending to the left side of the air pump 53, a trigger block 52 fixed on the left side of the air pump 53 is arranged on the right side of the upper end of the trigger rod 50, when the sliding block 49 moves rightwards, the triggering block 52 can be triggered to increase the power of the air pump 53, when the sliding block 49 moves to the right, the thread block 56 also moves to the right, and when the pushing block 57 pushes away the pressing plate 60, when the air pressure chamber 59 is connected with the push box 62 for impact, the right movement of the screw block 56 will isolate the connection between the air injection pipe 85 and the air pressure chamber 59, and the air pressure increased by the air pump 53 is totally impacted on the push slide core 64, so that the impact force of the impact head 12 is greatly improved.

Advantageously, the moving mechanism 100 includes two tire rods 19 which are bilaterally symmetrical at the lower side of the impact box 10, a moving motor 21 is connected to the lower end of the right tire rod 19, the two tire shafts 23 are symmetrically arranged in the front and back, four tires 20 are symmetrically arranged in the front and back at the end of each tire shaft 23, the moving motor 21 is used for providing power for the front tire shaft 23 to move forward, the front and back ends of the front tire shaft 23 are connected with the tires 20 through universal joints 81, and the moving motor 21 can drive the whole device to move forward when being started.

Advantageously, the steering mechanism 101 comprises a steering button 71 fixedly arranged on the left side of the detection rod 70, a connecting rod 74 is arranged on the rear side of the impact box 10, a compressor 73 is arranged at the rear end of the connecting rod 74, the rear side of the compressor 73 is connected with the steering button 71 through a control line 88, a telescopic rod 76 is arranged on the lower side of the compressor 73, a lever 77 is rotatably connected to the lower end of the telescopic rod 76, a fixing rod 75 with the upper end fixed on the lower side of the impact box 10 is rotatably connected to the middle section of the lever 77, a turbine rod 78 is selectively connected to the front end of the lever 77, a turbine 84 is rotatably connected to the lower side of the turbine rod 78, a worm 83 meshed with the turbine 84 is arranged on the right tire shaft 23, the steering wheel 22 with the outer side abutting against the tire 20 is non-power connected to the universal joint 81, a fixing seat 24 is arranged on the right side, the steering rod 25 is engaged with the rack 82 at the front side of the worm wheel 84, and when the worm wheel 84 descends between the rack 82 and the worm 83 when the tire shaft 23 rotates, the steering rod 25 moves backwards to drive the tire 20 to rotate, so that the whole device rotates.

Sequence of mechanical actions of the whole device:

1. the moving motor 21 is started to drive the whole device to a working position through the tire shaft 23, the universal joint 81 and the tire 20, so that the steering button 71 is tightly attached to the concrete wall;

2. the inserting block 72 is inserted between the wood plate and the concrete wall, the air pump 53 is started to eject air forwards through the air outlet pipe 55, the air pressure cavity 59, the air ejecting pipe 85 and the inserting block 72 to reduce the friction received by the inserting block 72, and simultaneously, the head of the adhered wood plate is separated from the surface of the concrete in advance to prevent the impact head from impacting the concrete, and at the moment, the inserting block 72 starts the motor 51 through the detection rod 70, the control slide core 68, the control block 69 and the connecting wire 86;

3. when the force pressure received by the inserting block 72 is larger, the sliding core 68 is controlled to move leftwards through the control block 40, the motor 51 is in power connection with the main shaft 47, the switching seat 44 and the auxiliary rotating disk 41 under the action of the rotating spring 42, at the moment, the rotating shaft 34 sucks air from the outside through the cam 35, the pressure sliding core 32, the air plate 39, the air hole 37, the air inlet pipe 26 and the air pipe 29 to enter the nudging cavity 16, and the nudging is carried out through nudging the sliding core 18, the nudging rod 14 and the box wood board with high frequency and small pressure of the impact head 12, so that the purpose of protecting the wood board is achieved, and after the nudging is finished, the impact head 12 returns to the initial position through;

4. when the pressure received by the inserting block 72 is small, the main shaft 47 enables the air outlet pipe 55 to be connected with the pushing box 62 through the main rotating disk 45, the driven wheel 48, the thread block 56, the pushing block 57 and the pressing plate 60, the pushing sliding core 64 is pushed by air pressure to pass through the heavy push rod 13 and the impact wood board with the low frequency and the high pressure of the impact head 12, the number of times that the wood board with the high adhesion is impacted is reduced, meanwhile, the power of the air pump 53 is increased through the trigger rod 50 and the trigger block 52 by the sliding block 49, the connection of the air jet pipe 85 is closed by the thread block 56, so that the air pressure can be completely acted on the pushing sliding core 64 to improve the acting force, and after the impact is finished, the air is exhausted through;

5. when one side of the concrete block is completely removed, the steering button 71 disengages from the concrete wall to activate the telescopic machine 73 through the control line 88;

6. at the moment, the telescopic machine 73 enables the worm wheel 84 to descend to connect the worm 83 and the rack 82 through the telescopic rod 76, the lever 77, the fixed rod 75 and the worm wheel rod 78, and the rotation of the tire shaft 23 drives the worm 83, the worm wheel 84, the rack 82, the steering rod 25, the fixed seat 24 and the steering wheel 22 to enable the tire 20 to start deflecting towards one side, so that the purpose of steering is achieved;

7. at the moment, the whole device is reset, and the other side is turned to start new disassembly work.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (5)

1. The utility model provides a be used for building to pour automatic dismounting device of piece splint protectiveness which characterized in that: the device comprises an impact box, a moving mechanism and a steering mechanism, wherein the moving mechanism and the steering mechanism are arranged on the lower side of the impact box; the detection control mechanism comprises a supporting plate positioned at the rear side of the impact box, a control box is fixedly arranged at the right side of the supporting plate, a control cavity is arranged in the control box, a control sliding core is arranged in the control cavity in a sliding manner, the rear side of the control sliding core is elastically connected with the left wall of the control cavity through a spring, a detection rod extending to the right side of the control box is arranged at the right side of the control sliding core, the right end of the detection rod extends to the right side of the impact box and is connected with an insertion block, a control block is arranged on the front wall of the control cavity, the control sliding core is abutted against the control block when positioned at an initial state, a control block is arranged in the impact cavity by extending the right side of the control sliding core, and when the right end of the insertion block is in contact with; the air injection mechanism comprises an air pump positioned on the rear wall of the impact cavity, an air outlet pipe is connected to the lower side of the air pump, an air pressure box is connected to the lower side of the air outlet pipe, an air pressure cavity is arranged in the air pressure box, an air injection pipe extending to the rear side of the impact cavity is connected to the rear wall of the air pressure cavity, the air injection pipe extends into the detection rod and is connected with the insertion block, and when the right end of the insertion block is inserted between the concrete block and the wood board, the air injection pipe injects high-pressure air through the insertion block, so that friction of the insertion block on the wood board is reduced, and the disassembly efficiency; the light pushing mechanism comprises two pressure bases which are positioned on the bottom wall of the impact cavity in bilateral symmetry, a pressure box is arranged on each pressure base, a pressure cavity is arranged in each pressure box, a pressure sliding core is arranged on the inner wall of each pressure cavity in a sliding mode, the left side of each pressure sliding core is elastically connected with the left wall of each pressure cavity through a pressure spring, the left side of each pressure sliding core is rotationally connected with a rotating shaft which can rotate on the bottom wall of each pressure cavity, a cam is arranged on each rotating shaft, the pressure sliding cores can periodically slide left and right when the rotating shafts drive the cams to rotate, an isolated left gas conveying plate and an isolated right gas conveying plate are arranged on the bottom wall of each pressure cavity, two gas holes which are symmetric up and down are arranged on each gas conveying plate, gas plates are arranged on the right sides and the left sides of the gas holes on, an air inlet pipe extending to the lower side of the impact box is arranged on the right wall of the pressure cavity at the position corresponding to the right side of the air hole at the lower side, the right side of the air hole is positioned on the right wall of the pressure cavity and is provided with a gas pipe, two left and right symmetrical nudging bases are arranged on the bottom wall of the impact cavity, a nudging box is arranged on the upper side of the nudging base, a nudging cavity is arranged in the nudging box and is provided with a nudging slide core in a sliding manner, the left wall of the nudging cavity is connected with the gas pipe, a nudging rod extending to the right side of the impact box is arranged on the right side of the nudging slide core, the end part of the nudging rod is connected with an impact head; the switching mechanism comprises the cam, the upper end of the cam extends to the inner end part of the impact cavity and is provided with an auxiliary rotating disk, an auxiliary rotating disk cavity with an upward opening is arranged in the auxiliary rotating disk, a main shaft capable of rotating is arranged on the upper side of the auxiliary rotating disk cavity, the main shaft is positioned on the upper side of the auxiliary rotating disk and is in non-power connection with a main rotating disk, a main rotating disk cavity with a downward opening and corresponding to the auxiliary rotating disk cavity is arranged in the main rotating disk, the main shaft is positioned between the main rotating disk cavity and the auxiliary rotating disk cavity and is in power connection with a switching seat capable of sliding up and down, the lower side of the switching seat is abutted against the bottom wall of the auxiliary rotating disk cavity through a rotating spring, one end of the control block extends to the position between the main rotating disk and the auxiliary rotating disk, when the control block moves rightwards, the switching seat is, the effect of switching is achieved; the heavy pushing mechanism comprises a driven wheel meshed with the right side of the main rotating disc, the right side of the driven wheel is rotatably connected with the lead screw, the lead screw extends to the air pressure cavity and is connected with a threaded block, the right side of the threaded block is provided with a push block, the right side of the air pressure box is fixedly connected with a push box, a push cavity is arranged in the push box, a fixing ring is fixedly arranged in the push cavity, the right wall of the air pressure cavity is provided with a press plate capable of moving towards the right side, the right side of the press plate is elastically connected with the left side of the fixing ring through a spring, the inner wall of the push cavity is slidably provided with a push sliding core, the right side of the push sliding core is provided with a heavy push rod extending to the right side of the impact box, the right end of the heavy push rod is connected with the impact head, the, the high-pressure air in the air pump can impact the impact head so as to achieve the effect of high-pressure impact.

2. The automatic dismounting device for building pouring block clamping plate protection according to claim 1, is characterized in that: the power mechanism comprises a motor positioned on the top of the impact cavity, the lower end of the motor is connected with the spindle, the rear side of the motor is connected with the control block through a connecting wire extending into the control cavity, and when the control sliding core fluctuates with the control block, the motor can be started to drive the re-pushing mechanism or the re-pushing mechanism to impact the wood board on the outer side according to the position of the control block, so that the aim of dismounting is fulfilled.

3. The automatic dismounting device for building pouring block clamping plate protection according to claim 1, is characterized in that: the lead screw is located it is equipped with the slider to rotate on one section in the impact chamber, works as just can drive when the lead screw begins to rotate the slider is controlled and is removed, the slider upside is equipped with and extends to the left trigger bar of air pump, trigger bar upper end right side is equipped with and is fixed in the left trigger block of air pump, just can trigger when the slider moves to the right at this moment the trigger block increase the power of air pump, when the slider moves to the right, the screw block also moves to the right, and works as the ejector pad pushes away the clamp plate, the atmospheric pressure chamber with when the impulse box is connected and is prepared to strike, the right side of screw block is moved and can be completely cut off jet-propelled pipe with being connected in the atmospheric pressure chamber, will the atmospheric pressure that the air pump increases is whole to be strikeed on the promotion sliding core.

4. The automatic dismounting device for building pouring block clamping plate protection according to claim 1, is characterized in that: moving mechanism is including being located two tire poles of strike case downside bilateral symmetry, right side tire pole lower extreme is connected with the moving motor, the front and back symmetry is equipped with two tire axles, four tires of symmetry around tire axle tip is equipped with, the moving motor is the front side the tire axle is through the power that gos forward, the front side both ends are passed through the universal joint and are connected around the tire axle the tire works as just can drive the whole advancing of device when the moving motor starts.

5. The automatic dismounting device for building pouring block clamping plate protection according to claim 1, is characterized in that: the steering mechanism comprises a steering button fixedly arranged on the left side of the detection rod, a connecting rod is arranged on the rear side of the impact box, a telescopic machine is arranged at the rear end of the connecting rod, the rear side of the telescopic machine is connected with the steering button through a control line, a telescopic rod is arranged on the lower side of the telescopic machine, a lever is rotatably connected at the lower end of the telescopic rod, a fixed rod with the upper end fixed on the lower side of the impact box is rotatably connected in the middle section of the lever, a turbine rod is selectively connected at the front end of the lever, a turbine is rotatably connected on the lower side of the turbine rod, a worm meshed and connected with the turbine is arranged on a right-side tire shaft, a steering wheel of which the outer side is abutted against the tire is non-power connected on the universal joint, a fixed seat is arranged on the right, when the tire shaft rotates and the turbine descends to enter the space between the rack and the worm, the steering rod moves backwards to drive the tire to rotate, so that the whole device rotates.

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