CN112847758A - Environment-friendly aerated concrete shaping is with high-efficient cutting device - Google Patents

Abstract

The invention discloses an environment-friendly efficient cutting device for aerated concrete molding, which comprises a shell and is characterized in that: the tension induction mechanism comprises a pressure rod, a pressure sleeve is sleeved on the pressure rod, a motor is arranged on one side of the pressure rod, and a Y-shaped pull rope is fixed on the motor.

Description

Environment-friendly aerated concrete shaping is with high-efficient cutting device

Technical Field

The invention relates to the technical field of aerated concrete cutting devices, in particular to an environment-friendly efficient cutting device for aerated concrete forming.

Background

With the continuous enhancement of the cognition of people on environmental protection, the use of environment-friendly materials gradually appears in the life of people, wherein the aerated concrete belongs to environment-friendly materials of buildings, the aerated concrete is a light porous silicate product prepared by taking siliceous materials (sand, fly ash, siliceous tailings and the like) and calcareous materials (lime, cement) as main raw materials, adding a gas generating agent (aluminum powder) and carrying out the technical processes of proportioning, stirring, pouring, pre-curing, cutting, autoclaving, curing and the like, and the aerated concrete is cut into an important part in the process of processing the aerated concrete.

The existing aerated concrete cutting device mostly uses a cutting steel rope for cutting in order to ensure the cutting precision in the cutting process, after long-time cutting work, the cutting steel rope is easy to slip or the cutting steel rope is softened due to long-time heat generation caused by friction in work engineering and is stretched or even broken, and the cutting work is influenced.

Disclosure of Invention

The invention aims to provide an environment-friendly efficient cutting device for aerated concrete molding, and aims to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides an environment-friendly aerated concrete shaping is with high-efficient cutting device, includes the casing, its characterized in that: the tension sensor is arranged in the shell, a cutting steel rope is arranged on the shell and penetrates through the shell, an auxiliary pushing mechanism is arranged on one side of the cutting steel rope, a stretching sensing mechanism is arranged on the other side of the cutting steel rope, and a circuit breaking reconnection mechanism is arranged on one side of the stretching sensing mechanism.

According to the technical scheme, the tension sensing mechanism comprises a pressure rod, a pressure sleeve is sleeved on the pressure rod, a motor is arranged on one side of the pressure rod, a Y-shaped pull rope is fixed on the motor, a weight block is fixed to the other end of the Y-shaped pull rope respectively, the pull rope is located above the pressure sleeve, a bundling sleeve is arranged on the outer side, located on the cutting steel rope, of the lower portion of the pressure sleeve, two ends of the bundling sleeve are connected to the inside of the shell through bearings, and two sides of the bundling sleeve are connected with the pressure sleeve rope respectively.

According to the technical scheme, supplementary push mechanism includes the drive shaft, the one end and the motor of drive shaft are fixed, the drive shaft is hollow form, be connected with a plurality of first gag lever posts, a plurality of through the bearing on the outer wall of drive shaft first gag lever post is located the inside one end of drive shaft and all is fixed with first counterweight ball, the driven shaft has been cup jointed in the outside of drive shaft, be connected with a plurality of second gag lever posts through the bearing on the outer wall of driven shaft, the one end that the second gag lever post is located the driven shaft inside is fixed with second counterweight ball, the bottom of second counterweight ball is connected through the quarter butt with the top of first gag lever post, the second gag lever post is connected with cutting steel cable transmission.

According to the technical scheme, the tensile induction mechanism comprises an induction shell, the induction shell is fixed in the shell, a semi-cylindrical chute is formed in the bottom end of the induction shell, a driving assembly is arranged in the semi-cylindrical chute, a cutting steel rope is connected with the semi-cylindrical chute in a sliding mode, a first magnetic block is arranged in the induction shell, a cutting assembly is fixed on the upper end face of the first magnetic block, the cutting assembly is connected with the driving assembly through a pipeline, two ends of the first magnetic block are connected in the induction shell through bearings, two ends of the first magnetic block are respectively provided with a reset spring, the other end of the reset spring is fixed on the induction shell, a hole channel is formed in the semi-cylindrical chute, and a magnetic induction needle is connected in the hole channel in a sliding mode.

According to the technical scheme, the air flue has been seted up to the inside of response shell, the one end of air flue is provided with the pump machine, the response needle is connected with the pump machine rope, sliding connection has the push pedal in the air flue, one side that the push pedal is close to the pump machine is fixed with the stay cord, the other end of stay cord is fixed inside the air flue, the one end that the pump machine was kept away from to the push pedal is fixed with the head rod, the other end welding of head rod has the second magnetic path.

According to the technical scheme, the driving assembly comprises a support, compression bags are arranged on two sides of the upper portion of the support, liquid is arranged in the compression bags, driving balls are arranged above the compression bags, the cutting steel rope is located between the two driving balls and is respectively in sliding connection with the two driving balls, a compression spring is fixed on one side, away from the cutting steel rope, of each of the two driving balls, and the other end of each compression spring is fixed on the support.

According to the technical scheme, the cutting assembly comprises a bearing shell, storage grooves are formed in two sides of the bearing shell respectively, an arc-shaped slide way is formed in one end of each storage groove, an arc-shaped cutter is arranged in each storage groove, small holes are formed in the arc-shaped cutter, one end of the arc-shaped cutter is connected with the arc-shaped slide way in a sliding mode, the other end of the arc-shaped cutter is connected with a storage groove bearing, a rotating shaft is fixed to the center of the bearing shell, a speed control assembly is arranged on the outer side of the rotating shaft, a square shell is arranged inside the rotating shaft, balancing weights are arranged on two sides of the square shell, a heart-shaped limiting groove is formed in the square shell, liquid is arranged in the heart-shaped limiting groove, a floating ball is connected in the heart-shaped limiting groove in a sliding.

According to the technical scheme, the speed control assembly comprises a speed control shell, an adjusting rod is connected inside the speed control shell through a bearing, one end of the adjusting rod is fixed with the rotating shaft, a plurality of inclined plates are uniformly arranged on the outer side of the adjusting rod, and an air inlet pipe and an air outlet pipe are respectively sleeved on two sides of the lower end of the speed control shell.

According to the technical scheme, the bottom end of the compression bag positioned on the left side is sleeved with the heart-shaped limiting groove through a pipeline, the bottom end of the compression bag positioned on the right side is sleeved with the air inlet pipe of the lower section of the speed control shell through a pipeline, and the air outlet pipe at the lower end of the speed control shell is connected with the arc-shaped cutter through a pipeline.

According to the technical scheme, the circuit breaking reconnection mechanism comprises two third magnetic blocks, the two third magnetic blocks are fixed on two sides of an inclined plate in a speed control shell respectively, wires are fixed on the two third magnetic blocks respectively, a driving shell is arranged on the outer side, located on a cutting steel rope, of the shell and connected with the shell in a transmission mode, an upper iron block and a lower iron block are arranged at opposite corners in the driving shell respectively, the wires are wound on the outer sides of the upper iron block and the lower iron block, the upper iron block and the lower iron block are connected with the upper end face and the lower end face in the driving shell in a sliding mode respectively, one sides of the upper iron block and the lower iron block are connected with the inner wall of the driving shell in an elastic mode, and a cutting shovel knife is arranged on the side, close to the upper iron block and the lower iron block, respectively.

Compared with the prior art, the invention has the following beneficial effects: in the invention, the raw materials are mixed,

(1) the tension sensing mechanism is arranged, so that the cutting steel rope is fed and driven when the device normally operates, and when the tension of the cutting steel rope changes, the mechanism can automatically adjust the speed and adapt to the tension;

(2) by arranging the auxiliary pushing mechanism, once the cutting steel rope slips or is stretched, the running state of the mechanism is changed to actively feed the cutting steel rope in time, so that the cutting operation is prevented from being influenced by the slipping or stretching of the cutting steel rope;

(3) by arranging the stretching induction mechanism, when the cutting steel rope is stretched, the stretching induction mechanism can automatically detect the stretched position for processing;

(4) through being provided with the mechanism that reconnects that opens circuit, this mechanism self-starting handles and reconnects the cutting steel cable to cracked both ends centre gripping when the cutting steel cable appears opening circuit, avoids shutting down and changes the cutting steel cable and influence work efficiency.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic overall perspective view of the present invention;

FIG. 2 is a schematic view of the working principle of the auxiliary pushing mechanism of the present invention;

FIG. 3 is a schematic perspective view of a portion of the stretch responsive mechanism of the present invention;

FIG. 4 is a schematic representation of the operation of the drive assembly, cutting assembly and speed control assembly of the present invention;

FIG. 5 is a schematic front plan view of the disconnect reconnect mechanism of the present invention;

in the figure: 100. a pressure lever; 101. cutting a steel rope; 102. a weight block; 103. a driven shaft; 104. a drive shaft; 200. an induction housing; 201. a magnetic induction needle; 202. a first magnetic block; 203. a load-bearing shell; 204. an arc-shaped cutter; 205. a square shell; 206. a floating ball; 207. a drive ball; 208. compressing the bladder; 300. a drive case; 301. and (4) cutting the scraper knife.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides the following technical solutions: the utility model provides an environment-friendly aerated concrete shaping is with high-efficient cutting device, includes the casing, its characterized in that: a tension sensing mechanism is arranged in the shell, a cutting steel rope 101 is arranged on the shell, the cutting steel rope 101 penetrates through the shell, an auxiliary pushing mechanism is arranged on one side of the cutting steel rope 101, a stretching sensing mechanism is arranged on the other side of the cutting steel rope 101, and a circuit breaking reconnection mechanism is arranged on one side of the stretching sensing mechanism; the tension sensing mechanism is used for feeding and driving the cutting steel rope when the device normally operates, the mechanism can automatically adjust the speed and adapt to the tension when the tension of the cutting steel rope changes, the auxiliary pushing mechanism is used for automatically feeding the cutting steel rope when the operation state of the mechanism is changed and the cutting steel rope is prevented from slipping or being stretched to influence the cutting operation, the tension sensing mechanism is used for automatically detecting the stretched position of the mechanism when the cutting steel rope is stretched to process, the disconnection reconnection mechanism is used for automatically starting the mechanism to clamp and process the two broken ends and reconnect the cutting steel rope when the cutting steel rope is disconnected, and the working efficiency is prevented from being influenced by the fact that the cutting steel rope is replaced when the device is stopped.

The tension sensing mechanism comprises a pressure rod 100, a pressure sleeve is sleeved on the pressure rod 100, a motor is arranged on one side of the pressure rod 100, a Y-shaped pull rope is fixed on the motor, a weight 102 is fixed at the other end of the Y-shaped pull rope respectively, the pull rope is positioned above the pressure sleeve, a bundling sleeve is arranged below the pressure sleeve and positioned on the outer side of the cutting steel rope 101, two ends of the bundling sleeve are connected inside the shell through bearings, and two sides of the bundling sleeve are connected with the pressure sleeve rope respectively; the device starts a motor when starting to operate, the cutting steel rope is driven by the motor to carry out transmission to cut aerated concrete, the cutting steel rope is in a tight state to generate upward thrust on a pressure rod above the cutting steel rope and a pressure sleeve outside the pressure rod, the pressure sleeve is used for preventing the cutting steel rope from directly contacting with the pressure rod to protect the pressure rod from damage and influence induction, two blocks are pulled and lifted through a Y-shaped pull rope, if the tension of the cutting steel rope changes or the steel rope is stretched, the cutting steel rope is loosened and reduced under the action of gravity and does not generate upward thrust on the cutting steel rope, at the moment, two blocks move downwards to pull the Y-shaped pull rope to regulate the speed of the motor fixed at the other end of the Y-shaped pull rope so that the steel rope is tightened again, and if the cutting steel rope formed by winding and combining a plurality of steel ropes changes due to the tension, at the moment, the cutting steel rope becomes thick to push the pressure sleeve attached to the cutting steel rope to move upwards, the pressure sleeve drives the bundling sleeve to move upwards, the rotary bundling sleeve twists the loosened multi-strand steel rope into one strand again, the step realizes that when the tension of the cutting steel rope changes and is loosened, the mechanism can enable the steel rope to be tightened again through adjusting the rotating speed of the motor without influencing cutting operation, and meanwhile, aiming at the condition that the multi-strand twisted cutting steel rope is scattered in the loosening state, the scattered multi-strand steel rope is twisted into one strand again.

The auxiliary pushing mechanism comprises a driving shaft 104, one end of the driving shaft 104 is fixed with a motor, the driving shaft 104 is hollow, the outer wall of the driving shaft 104 is connected with a plurality of first limiting rods through bearings, one ends of the first limiting rods, which are positioned in the driving shaft 104, are all fixed with first counterweight balls, the outer side of the driving shaft 104 is sleeved with a driven shaft 103, the outer wall of the driven shaft 103 is connected with a plurality of second limiting rods through bearings, one ends of the second limiting rods, which are positioned in the driven shaft 103, are fixed with second counterweight balls, the bottom ends of the second counterweight balls are connected with the top ends of the first limiting rods through short rods, and the second limiting rods are in transmission connection with the cutting steel ropes 101; when the device normally operates, the motor is started to drive the driving shaft to rotate, the first counterweight ball on the outer wall of the driving shaft is deflected by inertia to drive the first limiting rod fixed with the first counterweight ball to reversely deflect, at the moment, the first limiting rod deflects rightwards to clamp the driven shaft sleeved outside the main driving shaft to drive the driven shaft to rotate, meanwhile, the deflection of the first limiting rod pushes the second limiting ball to deflect rightwards through the short rod at the top end of the first limiting rod, so that the second limiting rod deflects leftwards, the feeding direction of the cutting steel rope faces rightwards, the cutting steel rope operates by being assisted by the contact of the second limiting rod and the cutting steel rope, when the cutting steel rope slips or is stretched due to overlong working time during operation, the stable transmission state of the cutting steel rope and the second limiting rod is broken, the cutting steel rope idles to generate the idle speed, so that the second limiting rod deflects rightwards, namely, the second counterweight ball deflects leftwards, the first limiting rod and the first counterweight ball are deflected by the second counterweight ball through the short rod, the first limiting rod deflects leftwards at the moment, the driving shaft is separated from the clamping of the driven shaft, the driving shaft continues to drive under the driving of the motor at the moment, the driven shaft continues to rotate due to inertia, and the second limiting rod deflected rightwards generates upward thrust on the cutting steel rope, compared with the prior art that the steel rope is loosened, stopped and replaced by a new steel rope or the distance between transmission devices at two sides of the steel rope is adjusted to adapt to the stretched steel rope, the step realizes that the mechanism assists the cutting steel rope to move forwards when the cutting steel rope normally runs, when the cutting steel rope slips or is stretched to generate a loosening phenomenon, the mechanism lifts and feeds the slipping or stretched cutting steel rope on the premise of not influencing the normal running of the device, the cutting efficiency is prevented from being influenced by slipping, and the breakage of the loosened and dropped cutting steel rope caused by winding into, meanwhile, the slack part and the non-slack part of the steel rope are ensured to be in the same horizontal line, so that a subsequent mechanism can detect the stretched part of the cutting steel rope conveniently.

The stretching induction mechanism comprises an induction shell 200, the induction shell 200 is fixed inside the shell, a semi-cylindrical chute is formed in the bottom end of the induction shell 200, a driving assembly is arranged in the semi-cylindrical chute, a cutting steel rope 101 is slidably connected with the semi-cylindrical chute, a first magnetic block 202 is arranged inside the induction shell 200, a cutting assembly is fixed on the upper end face of the first magnetic block 202, the cutting assembly is connected with the driving assembly through a pipeline, two ends of the first magnetic block 202 are connected inside the induction shell 200 through bearings, two ends of the first magnetic block 202 are respectively provided with a reset spring, the other end of the reset spring is fixed on the induction shell 200, a pore passage is formed in the semi-cylindrical chute, and a magnetic induction needle 201 are slidably connected in the;

an air passage is formed in the induction shell 200, a pump is arranged at one end of the air passage, the magnetic induction needle 201 is connected with a pump rope, a push plate is connected in the air passage in a sliding mode, a pull rope is fixed on one side, close to the pump, of the push plate, the other end of the pull rope is fixed in the air passage, a first connecting rod is fixed at one end, away from the pump, of the push plate, and a second magnetic block is welded at the other end of the first connecting rod; when the device normally operates, the cutting steel rope is in sliding connection with the semi-cylindrical sliding groove, the magnetic induction needle is continuously attached to the surface of the cutting steel rope at the moment, when the cutting steel rope is stretched, the diameter of the cutting steel rope is shortened, the magnetic induction needle slides and moves downwards in the hole channel at the moment, the pump starts to pump air in the air channel at the moment, a push plate in the air channel is stressed to drive the first connecting rod and the second magnetic block to slide and move outwards in the air channel, the magnetic induction needle is quickly pushed out by the principle that like poles of magnetic substances repel each other, the magnetic induction needle is ensured to be continuously contacted with the cutting steel rope to avoid skidding and misdetection, after the magnetic induction needle is stretched, the first magnetic block rotates under the action of return springs on two sides of the magnetic induction needle to rotate the cutting assembly above the magnetic induction needle to be contacted with the cutting steel rope to cut the stretched position of the cutting steel rope, when, the magnetic induction needle is pushed to move upwards, so that the first magnetic block overturns to withdraw the cutting assembly, the step realizes that the cutting steel rope automatically detects the stretched distance and cuts the stretched position when being stretched, and the cutting assembly is withdrawn after the stretched position is detected to avoid damaging the unstretched position of the cutting steel rope.

The driving assembly comprises a support, compression bags 208 are arranged on two sides above the support, liquid is arranged in the compression bags 208, driving balls 207 are arranged above the compression bags 208, the cutting steel rope 101 is positioned between the two driving balls 207 and is respectively in sliding connection with the two driving balls 207, a compression spring is fixed on one side, away from the cutting steel rope 101, of the two driving balls 207, and the other end of the compression spring is fixed on the support; when the cutting steel rope normally runs, the cutting steel rope is continuously contacted with the driving balls on the two sides of the cutting steel rope to extrude the compression spring on one side of the cutting steel rope, when the cutting steel rope is stretched, the diameter of the cutting steel rope is shortened, the driving shaft contacted with the cutting steel rope is pushed by the compression spring to displace, the compression bag below the driving ball is extruded, and liquid in the compression bag is extruded.

The cutting assembly comprises a bearing shell 203, wherein storage grooves are respectively formed in two sides of the bearing shell 203, an arc-shaped slide way is formed in one end of each storage groove, an arc-shaped cutter 204 is arranged in each storage groove, a small hole is formed in each arc-shaped cutter 204, one end of each arc-shaped cutter 204 is connected with the corresponding arc-shaped slide way in a sliding mode, the other end of each arc-shaped cutter 204 is connected with a storage groove bearing, a rotating shaft is fixed in the center of the bearing shell 203, a speed control assembly is arranged on the outer side of the rotating shaft, a square shell 205 is arranged inside the rotating shaft, balancing weights are arranged on two sides inside the square shell 205, a heart-shaped limiting groove is arranged inside the square shell 205, liquid is arranged in the heart-shaped limiting groove, a; when the mechanism detects that the cutting steel rope is stretched at present, because heart type spacing inslot is provided with liquid, the balancing weight of both sides is motionless in the square shell, the floater floats to move up in the heart type spacing inslot, press close to heart type spacing groove top but unblock heart type spacing groove, cutting assembly takes place to deflect under the drive of second magnetic path this moment, the liquid of heart type spacing inslot is gushed into the arc slide that the inslot both sides begin in and is promoted and arc slide sliding connection's arc cutter stretches out the storage tank, rotatory pivot, it cuts by tensile cutting steel rope department to drive bearing shell and the arc cutter that stretches out to rotate, avoid contacting with aerated concrete by tensile department and make work efficiency reduce and make tight cutting steel rope be thrown away injury staff because of being split suddenly by tensile department even.

The speed control assembly comprises a speed control shell, the inside of the speed control shell is connected with an adjusting rod through a bearing, one end of the adjusting rod is fixed with the rotating shaft, and a plurality of inclined plates are uniformly arranged on the outer side of the adjusting rod;

the bottom end of the compression bag 208 on the left side is sleeved with the heart-shaped limiting groove through a pipeline, the bottom end of the compression bag 208 on the right side is sleeved with an air inlet pipe on the lower section of the speed control shell through a pipeline, and an air outlet pipe on the lower end of the speed control shell is connected with the arc-shaped cutter 204 through a pipeline; when the cutting steel rope is stretched, the two driving balls approach each other to extrude the lower compression bag, liquid in the left compression bag passes through a pipeline and enters the speed control shell through the inlet pipe at the bottom end of the speed control shell to be contacted with the inclined plate on the outer side of the adjusting rod, the inclined plate is pushed to drive the adjusting rod to assist the rotation of the rotating shaft, the residual liquid passes through the air outlet at the bottom end of the speed control shell and enters the arc-shaped cutter through the pipeline, the residual liquid flows out of the water holes formed in the arc-shaped cutter to cool the arc-shaped cutter and the stretched cutting steel rope, the softening of the cutting steel rope due to high temperature is avoided, the speed of the rotating shaft is controlled by pumping different amounts of liquid to the speed control assembly according to the stretching degree of the cutting steel rope, when the stretching degree of the cutting steel rope is smaller, the speed of the rotating shaft is accelerated little, and the phenomenon that the hard cutting, when the cutting steel rope is stretched to a large extent, the rotating shaft is accelerated more, and the cutting steel rope is cut quickly, so that the working efficiency is improved;

when the cutting steel rope is stretched, the two driving balls approach each other to extrude the lower compression bag, liquid in the right compression bag enters the heart-shaped limiting groove through the pipeline, if the cutting steel rope is stretched to a smaller degree, namely the cutting steel rope is harder, less liquid enters the heart-shaped limiting groove, namely less liquid flows out of the heart-shaped limiting groove to enter the arc-shaped slide way, the arc-shaped cutter stretches out to a shorter degree, the harder cutting steel rope is cut, if the cutting steel rope is stretched to a larger degree, namely the cutting steel rope is softer, more liquid in the left compression bag is pumped into the heart-shaped limiting groove, the floating ball is limited by the rope for the balancing weight and cannot move upwards, more liquid enters the arc-shaped slide way, the arc-shaped cutter is pushed out more, the soft cutting steel rope with the larger stretching degree is cut, and the step realizes that the arc-shaped cutter stretches out different lengths by detecting the stretching degree of the cutting steel rope, cutting is performed for the cutting steel cord.

The circuit breaking reconnection mechanism comprises two third magnetic blocks, the two third magnetic blocks are respectively fixed inside the speed control shell and positioned on two sides of the inclined plate, conducting wires are respectively fixed on the two third magnetic blocks, a driving shell 300 is arranged inside the shell and positioned on the outer side of the cutting steel rope 101, the driving shell is in transmission connection with the shell, an upper iron block and a lower iron block are respectively arranged at opposite corners inside the driving shell 300, the conducting wires are wound on the outer sides of the upper iron block and the lower iron block, the upper iron block and the lower iron block are respectively in sliding connection with the upper end face and the lower end face inside the driving shell 300, one sides of the upper iron block and the lower iron block are both in elastic connection with the inner wall of the driving shell 300, and a cutting shovel 301 is arranged on one side, close to the upper iron; when an adjusting rod in the speed control assembly rotates with an inclined plate outside the speed control assembly, a cutting magnetic induction line moves between third magnetic blocks on two sides of the inclined plate, a conducting wire fixed with the third magnetic blocks is electrified, the conducting wire is wound between an upper iron block and a lower iron block of the wire, the upper iron block and the lower iron block are changed into electromagnets and mutually attracted, because the upper iron block and the lower iron block are arranged at diagonal positions in a driving shell, the upper iron block and the lower iron block are close to each other and simultaneously lead a cutting shovel to approach a central cutting steel rope, at the moment, the driving shell is rotated to drive the cutting shovel to carry out annular cutting on the outer wall of the cutting steel rope to generate threads, because the two cutting shovels are opposite in orientation, threads with different orientations are generated on two sides of the cutting steel rope with grooved threads, in the process that the upper iron block and the lower iron block are continuously close to each other, the two ends are mutually meshed with the threads to reconnect the disconnected cutting steel rope, and the step realizes reconnection of, avoid the manual work to change after shutting down.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides an environment-friendly aerated concrete shaping is with high-efficient cutting device, includes the casing, its characterized in that: the novel steel cable cutting device is characterized in that a tension sensing mechanism is arranged inside the shell, a cutting steel cable (101) is arranged on the shell, the cutting steel cable (101) penetrates through the shell, an auxiliary pushing mechanism is arranged on one side of the cutting steel cable (101), a stretching sensing mechanism is arranged on the other side of the cutting steel cable (101), and a circuit breaking reconnection mechanism is arranged on one side of the stretching sensing mechanism.

2. The environment-friendly efficient cutting device for aerated concrete forming according to claim 1, characterized in that: the tension induction mechanism comprises a pressure rod (100), a pressure sleeve is sleeved on the pressure rod (100), a motor is arranged on one side of the pressure rod (100), a Y-shaped pull rope is fixed on the motor, a weight (102) is fixed to the other end of the Y-shaped pull rope respectively, the pull rope is located above the pressure sleeve, a bundling sleeve is arranged on the outer side, located on a cutting steel rope (101), of the lower portion of the pressure sleeve, two ends of the bundling sleeve are connected to the inside of the shell through bearings, and two sides of the bundling sleeve are connected with the pressure sleeve rope respectively.

3. The environment-friendly efficient cutting device for aerated concrete forming according to claim 2, characterized in that: supplementary push mechanism includes drive shaft (104), the one end and the motor of drive shaft (104) are fixed, drive shaft (104) are hollow form, be connected with a plurality of first gag lever posts through the bearing on the outer wall of drive shaft (104), and are a plurality of first gag lever posts are located the inside one end of drive shaft (104) and all are fixed with first counterweight ball, driven shaft (103) have been cup jointed in the outside of drive shaft (104), be connected with a plurality of second gag lever posts through the bearing on the outer wall of driven shaft (103), the one end that the second gag lever post is located driven shaft (103) inside is fixed with second counterweight ball, the bottom of second counterweight ball is connected through the quarter butt with the top of first gag lever post, the second gag lever post is connected with cutting steel cable (101) transmission.

4. The environment-friendly efficient cutting device for aerated concrete forming according to claim 3, characterized in that: the stretching induction mechanism comprises an induction shell (200), the induction shell (200) is fixed in the shell, the bottom end of the induction shell (200) is provided with a semi-cylindrical sliding chute, a driving component is arranged in the semi-cylindrical sliding chute, the cutting steel rope (101) is connected with the semi-cylindrical sliding groove in a sliding mode, a first magnetic block (202) is arranged inside the induction shell (200), a cutting assembly is fixed on the upper end surface of the first magnetic block (202), the cutting assembly is connected with the driving assembly through a pipeline, two ends of the first magnetic block (202) are connected inside the induction shell (200) through bearings, two ends of the first magnetic block (202) are respectively provided with a return spring, the other end of the return spring is fixed on the induction shell (200), and a pore channel is formed in the semi-cylindrical sliding groove, and a magnetic induction needle (201) is connected in the pore channel in a sliding manner.

5. The environment-friendly efficient cutting device for aerated concrete forming according to claim 4, wherein: the air flue has been seted up to the inside of response shell (200), the one end of air flue is provided with the pump machine, magnetism response needle (201) are connected with the pump machine rope, sliding connection has the push pedal in the air flue, one side that the push pedal is close to the pump machine is fixed with the stay cord, the other end of stay cord is fixed inside the air flue, the one end that the pump machine was kept away from to the push pedal is fixed with the head rod, the other end welding of head rod has the second magnetic path.

6. The environment-friendly efficient cutting device for aerated concrete forming according to claim 5, characterized in that: the driving assembly comprises a support, compression bags (208) are arranged on two sides above the support, liquid is arranged in the compression bags (208), driving balls (207) are arranged above the compression bags (208), the cutting steel rope (101) is located between the two driving balls (207) and is respectively in sliding connection with the two driving balls (207), compression springs are fixed on one sides, far away from the cutting steel rope (101), of the two driving balls (207), and the other ends of the compression springs are fixed on the support.

7. The environment-friendly efficient cutting device for aerated concrete forming according to claim 6, characterized in that: the cutting assembly comprises a bearing shell (203), two sides of the bearing shell (203) are respectively provided with a storage groove, one end of the storage groove is provided with an arc-shaped slideway, an arc-shaped cutter (204) is arranged in the storage groove, a small hole is arranged on the arc-shaped cutter (204), one end of the arc-shaped cutter (204) is connected with the arc-shaped slideway in a sliding way, the other end of the arc-shaped cutter (204) is connected with a storage tank bearing, a rotating shaft is fixed in the center of the bearing shell (203), the outer side of the rotating shaft is provided with a speed control assembly, the inside of the rotating shaft is provided with a square shell (205), the two sides of the interior of the square shell (205) are provided with balancing weights, the interior of the square shell (205) is provided with a heart-shaped limiting groove, the heart-shaped limiting groove is internally provided with liquid, a floating ball (206) is connected in the heart-shaped limiting groove in a sliding mode, and two ends of the floating ball (206) are connected with the balancing weight ropes respectively.

8. The environment-friendly efficient cutting device for aerated concrete forming according to claim 7, characterized in that: the quick subassembly of accuse includes the quick shell of accuse, the inside of the quick shell of accuse is connected with the regulation pole through the bearing, the one end and the pivot of adjusting the pole are fixed, the outside of adjusting the pole evenly is provided with a plurality of swash plates, intake pipe and outlet duct have been cup jointed respectively to the lower extreme both sides of the quick shell of accuse.

9. The environment-friendly efficient cutting device for aerated concrete forming according to claim 8, wherein: the bottom end of the compression bag (208) on the left side is sleeved with the heart-shaped limiting groove through a pipeline, the bottom end of the compression bag (208) on the right side is sleeved with an air inlet pipe on the lower section of the speed control shell through a pipeline, and an air outlet pipe on the lower end of the speed control shell is connected with the arc-shaped cutter (204) through a pipeline.

10. The environment-friendly efficient cutting device for aerated concrete forming according to claim 9, wherein: the reconnection mechanism opens circuit includes two third magnetic path, two the third magnetic path is fixed respectively and is located the both sides of swash plate in the inside of accuse fast shell, two be fixed with the wire on the third magnetic path respectively, the outside that the inside of casing is located cutting steel cable (101) is provided with drive shell (300), drive shell (300) are connected with casing transmission, the inside diagonal punishment of drive shell (300) do not is provided with iron plate and lower iron plate, the wire twines in the outside of last iron plate and lower iron plate, go up iron plate and lower iron plate respectively with the inside about terminal surface sliding connection of drive shell (300), go up iron plate and one side of iron plate down all with the inner wall elastic connection of drive shell (300), it all is provided with cutting shovel sword (301) with the one side that iron plate is close down to go up the iron plate.

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