CN112227721A - Multi-screw concrete spiral distributing machine with power compensation module - Google Patents

Abstract

The invention discloses a multi-screw concrete spiral distributing machine with a power compensation module, which belongs to the technical field of building industry and comprises a supporting component, a balancing component and a distributing component, wherein the supporting component is positioned at the lowest end of a whole set of device, the balancing component is arranged above the supporting component, and the distributing component is arranged below the balancing component. Is favorable for improving the energy-saving effect of the device.

Description

Multi-screw concrete spiral distributing machine with power compensation module

Technical Field

The invention relates to the technical field of construction industry, in particular to a multi-screw concrete spiral distributing machine with a power compensation module.

Background

Along with rising of the construction industry, the construction method firstly uses materials such as reinforcing steel bars and the like to construct a building frame and then carries out concrete pouring operation, the construction method is time-saving and labor-saving, is particularly firm, and is a practical construction method at present, but when the concrete pouring operation is carried out in the prior art, the workload of manpower pouring is too large, the span of the existing concrete pouring equipment is very large, the pouring distance is difficult to adjust, the existing equipment cannot adjust the height of the equipment in real time, the movable pouring equipment is often adjusted, the working efficiency is extremely low, no measure for optimizing the power compensation is taken in the existing concrete pouring equipment, the energy is wasted, in the device, the supporting underframe is supported on the ground in a cross shape, the deflection phenomenon of the device can be effectively prevented, the arrangement of the thread lifting platform is convenient for operators to adjust the height of the device according to the situation of the field working environment, the rotating platform and the rotating support platform can perform relative rotation movement, so that the cloth position adjuster can perform rotation movement, the flexibility of the device is improved, an operator can perform multidirectional concrete distribution operation without frequently moving the device, the counterweight plate and the counterweight block play a role in balancing the gravity center point of the device, the device cannot incline to one side of the cloth position adjuster due to gravity deviation, the suspension frame prolongs the conveying length of the device during distribution, high-efficiency distribution at the top of a building with a complex working environment is facilitated, the motor mounting plate plays a bearing role for the motor and also plays a supporting role for the right suspension plate, the design enables the device to have the effect of adjustable distribution distance, if the motor is started to rotate ceaselessly, the effect of switching the distribution position far and ceaselessly can be achieved, and the distribution effect is more uniform, the operation of distributing materials on a large scale can be flexibly carried out without frequently moving the device, and the device provides a power compensation capacitor for the concrete delivery pump, so that the energy-saving effect of the device is improved, and people need a multi-screw concrete spiral distributing machine with a power compensation module.

Disclosure of Invention

The invention aims to provide a multi-screw concrete spiral distributing machine with a power compensation module, which aims to solve the problems in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme:

a multi-screw concrete spiral distributing machine with a power compensation module comprises a supporting component, a balancing component and a distributing component, wherein the supporting component is positioned at the lowest end of a whole device and plays a role in supporting and balancing the whole device, the balancing component is arranged above the supporting component and plays a role in enhancing the balancing effect of the whole device, the distributing component is arranged below the balancing component and can carry out flexible distributing operation in a large range, the device is placed on a building needing concrete pouring, a supporting chassis is supported on the ground in a cross shape, the skew phenomenon of the device can be effectively prevented, a thread lifting platform is in threaded connection with a thread column, an operator rotates the thread lifting platform clockwise, the thread lifting platform can move upwards along the thread direction, the integral height of the device is further improved, and the thread lifting platform rotates anticlockwise, the screw thread lifting platform moves downwards along the screw thread direction, so that the overall height of the device is reduced, the screw thread lifting platform is convenient for an operator to adjust the height of the device according to the situation of the site working environment, the core support frame plays a supporting role, the rotary platform and the rotary support platform can perform relative rotary motion, so that the cloth direction adjuster can also perform rotary motion, the flexibility of the device is improved, the operator can perform multidirectional concrete distribution operation without frequently moving the device, the counterweight plate and the counterweight block play a role in balancing the gravity center point of the device, the device cannot incline to one side of the cloth direction adjuster due to gravity deviation, the suspension frame prolongs the conveying length of the device during distribution, the high-efficiency distribution at the top of a building with a complex working environment is facilitated, and the motor mounting plate plays a bearing role on a motor, meanwhile, the right suspension plate is supported, a plurality of vertical holes are formed in the bottom of the sealed box body, the inner side wall of the sealed box body is tightly attached to the outer side wall of the cloth direction adjuster, the concrete in the cloth direction adjuster can be prevented from leaking, the motor is electrically connected with an external power supply through an electric wire, a worker controls the motor to operate, a rotor of the motor drives the transmission inclined threaded rod to rotate, the transmission inclined threaded rod drives the stress inclined threaded rod to rotate through the meshing effect of gears, the cloth direction adjuster rotates along with the rotation of the stress inclined threaded rod, only one cloth hole can be overlapped with the vertical hole in the bottom of the sealed box body at each time because the cloth holes in the cloth direction adjuster are arranged in a staggered mode, and the worker can adjust which cloth hole is overlapped with the numerical hole in the bottom of the sealed box body according to, the concrete inside the cloth azimuth adjuster can flow out to carry out concrete distribution operation when coinciding, and this design makes this device have the effect of cloth distance adjustment, has reached the operation that just can be nimble carry out cloth on a large scale of not needing frequent mobile device, and this device provides power compensation condenser for the concrete pump, is favorable to improving the energy-conserving effect of device.

The supporting assembly comprises a supporting chassis, a threaded column, a threaded lifting platform, a core supporting frame, a rotary supporting platform and a rotary platform, wherein the supporting chassis is positioned at the lowest end of the whole device, the threaded column is fixedly arranged in the center of the upper end of the supporting chassis, threads are arranged on the outer side wall of the threaded column, the threaded lifting platform is fixedly arranged above the threaded column, the core supporting frame is fixedly arranged above the threaded lifting platform, the rotary supporting platform is fixedly arranged at the top end of the core supporting frame, a circular groove is formed in the bottom end of the rotary supporting platform, the rotary platform is rotatably arranged above the rotary supporting platform, an annular clamping ring is arranged at the lower end of the rotary platform, the annular clamping ring is clamped into the circular groove, the device is placed on a building needing concrete pouring, the supporting chassis is supported on the, be threaded connection between screw thread elevating platform and the screw thread post, operating personnel clockwise turning screw thread elevating platform, screw thread elevating platform can be along screw thread direction rebound, and then improve the holistic height of this device, anticlockwise turning screw thread elevating platform, screw thread elevating platform is along screw thread direction rebound, and then reduced the holistic height of this device, setting up of screw thread elevating platform makes things convenient for operating personnel to highly adjust this device according to the site work environment situation, the core support frame plays the supporting role, can carry out relative rotary motion between revolving stage and the rotatory supporting bench, and then make cloth azimuth adjuster also can carry out rotary motion, the flexibility of this device has been improved, operating personnel need not frequently remove this device just can carry out diversified concrete cloth operation.

The balancing assembly comprises a balance weight plate, a balance weight block, a suspension frame and a motor mounting plate, wherein the balance weight plate is fixedly mounted on one side of the rotary table, the balance weight block is fixedly mounted at the bottom end of the balance weight plate, the rotary table is far away from one side of the balance weight plate and is fixedly mounted on one side of the suspension frame, the suspension frame is far away from one side of the rotary table and is fixedly mounted with the motor mounting plate, the balance weight plate and the balance weight block play a role in balancing the gravity center point of the device, the device can not incline to one side of a cloth azimuth adjuster due to gravity deviation, the suspension frame prolongs the conveying length of the device when the cloth is distributed, the high-efficiency cloth at the top of a building with a complex working environment is facilitated.

The cloth subassembly includes concrete pump, delivery pump import pipe, delivery pump outlet pipe, the inside fixed mounting of core support frame has concrete pump, the fixed intercommunication in concrete pump one side has the delivery pump import pipe, concrete pump keeps away from the fixed intercommunication in delivery pump import pipe one side and has the delivery pump outlet pipe, concrete pump, delivery pump import pipe, delivery pump outlet pipe play carry external concrete to the effect in this device.

The cloth component also comprises a left suspension plate, a right suspension plate, a sealing box body, a cloth azimuth adjuster, a stress inclined threaded rod, a cloth hole, a motor and a transmission inclined threaded rod, wherein the delivery pump outlet pipe is far away from one side of the concrete delivery pump and is installed with the left suspension plate in a penetrating way, the upper end of the left suspension plate is fixedly connected with a suspension frame, one end of the left suspension plate, which is far away from the delivery pump outlet pipe, is fixedly installed with the sealing box body, one end of the sealing box body, which is far away from the left suspension plate, is provided with the right suspension plate, the top end of the right suspension plate is fixedly connected with a motor mounting plate, one end of the delivery pump outlet pipe, which penetrates through the left suspension plate, is rotatably installed with the cloth azimuth adjuster, one end of the cloth azimuth adjuster, which is far away from the delivery pump outlet pipe, is fixedly installed with the stress, the side wall of the cloth azimuth adjuster is provided with a plurality of cloth holes, the opening directions between every two cloth holes are different, the upper end of the motor mounting plate is fixedly provided with a motor, a rotor at the bottom of the motor is fixedly provided with a transmission inclined plane threaded rod, the bottom end of the transmission inclined plane threaded rod is a forty-five degree inclined threaded surface, the bottom end threaded surface of the transmission inclined plane threaded rod is meshed with the end threaded surface of the stress inclined plane threaded rod, the bottom of the sealing box body is provided with a plurality of vertical holes, the inner side wall of the sealing box body is tightly attached to the outer side wall of the cloth azimuth adjuster to prevent concrete inside the cloth azimuth adjuster from leaking, the motor is electrically connected with an external power supply through an electric wire, a worker controls the motor to operate, the rotor of the motor drives the transmission inclined plane threaded rod to rotate, the atress inclined plane threaded rod rotates cloth position adjuster just also along with rotating, because the cloth hole on the cloth position adjuster is crisscross the offering, can only have a cloth hole and the coincidence of the vertical hole of sealed bottom half at every turn, so the staff can adjust which cloth hole and the coincidence of sealed bottom half numerical value hole according to the cloth progress, the inside concrete of cloth position adjuster can flow out and carry out concrete cloth operation during the coincidence, this design makes this device have the effect of cloth distance adjustment, reached and need not frequent mobile device just can be nimble carry out the operation of cloth on a large scale, and this device provides power compensation condenser for the concrete pump, be favorable to improving the energy-conserving effect of device.

And a power compensation capacitor is electrically installed in the concrete delivery pump circuit.

The feeding pump comprises a feeding pump inlet pipe, a feeding pump outlet pipe, a feeding control box, a connecting control pipe, a connecting control ring, a pressing control column and a pressing control column, wherein the feeding pump inlet pipe is fixedly arranged at the end opening of the feeding pump inlet pipe, the connecting control pipe is internally provided with the connecting control pipe in a penetrating way, one end of the connecting control pipe, far away from the feeding pump inlet pipe, is fixedly connected with the feeding pump inlet pipe and is fixedly connected with the feeding pump inlet pipe, the outer end of the connecting control pipe, far away from the feeding pump inlet pipe, is communicated with external concrete storage equipment through a pipe fitting, the outer side wall of the connecting control pipe is fixedly provided with two limiting clamp rings, the center of the connecting control pipe is provided with an inner air inlet hole, the, the bottom end of the side wall of the pressing control column is fixedly provided with a fixed plate, the upper end of the fixed plate is fixedly provided with a spring, the upper end of the spring is fixedly connected with the inner side wall of the discharging control box, the upper end of the pressing control column is exposed outside the discharging control box, an inner air inlet hole is not in contact with an outer air inlet hole in an initial state, the inner air inlet hole is blocked by the inner side wall of the control ring, the outer air inlet hole is blocked by the outer side wall of the linking control tube, when small-space material distribution operation is carried out or a material distribution container needs to be replaced, an operator can press the pressing control column, the sliding ring sleeve moves downwards along with the pressing control column and does sliding motion on the rotary rod, the rotary rod drives the control ring to rotate, the outer air inlet hole is in contact with the inner air inlet hole, the downward pressing degree of the, the device can adjust the material distribution speed by only using the pressing control column to control the air amount mixed in the concrete, even adjust the material distribution starting and stopping, so that the device has more flexibility and is beneficial to the maintenance of the equipment, when the material distribution machine is required to return to the normal material distribution speed, the pressing control column only needs to be completely loosened, the fixing plate pushes the pressing control column upwards by using the elasticity of the spring to restore the initial state of the pressing control column, at the moment, the inner air inlet hole and the outer air inlet hole return to the non-contact state again, air cannot be mixed in the connecting control pipe, and the material distributing machine normally conducts continuous material distribution.

Compared with the prior art, the invention has the beneficial effects that:

the device has the advantages that the supporting underframe is supported on the ground in a cross shape, the skew phenomenon of the device can be effectively prevented, the arrangement of the thread lifting platform is convenient for operators to adjust the height of the device according to the situation of the site working environment, the rotary table and the rotary supporting platform can carry out relative rotary motion, so that the distribution direction adjuster can also carry out rotary motion, the flexibility of the device is improved, the operators can carry out multidirectional concrete distribution operation without frequently moving the device, the counterweight plate and the counterweight block play a role in balancing the gravity center point of the device, the device can not incline to one side of the distribution direction adjuster due to gravity deviation, the suspension bracket prolongs the conveying length of the device when distributing, the device is favorable for high-efficiency distribution at the top of a building with a complex working environment, the motor mounting plate plays a bearing role for the motor, and plays a supporting role for the right suspension plate, this design makes this device have cloth apart from adjustable effect, if the incessant rotation of starter motor, can also reach the effect that the cloth position far advanced incessantly switching, make the cloth more even, reached and need not frequent mobile device just can be nimble carry out the operation of cloth on a large scale, and this device provides power compensation capacitor for the concrete pump, be favorable to improving the energy-conserving effect of device, this device is through the mode control cloth speed that the air sneaked in, be favorable to the maintenance of equipment and the improvement of cloth efficiency.

Drawings

FIG. 1 is a schematic view of the overall structure of a multi-screw concrete auger distributor with a power compensation module according to the present invention;

FIG. 2 is a schematic structural view of a supporting assembly of the multi-screw concrete spiral distributing machine with a power compensation module according to the present invention;

FIG. 3 is a schematic diagram of a right-side view structure of a distributing direction adjuster of the multi-screw concrete spiral distributing machine with a power compensation module according to the present invention;

FIG. 4 is a left side view schematic diagram of a material distribution orientation adjuster of the multi-screw concrete auger distributor with a power compensation module according to the present invention;

FIG. 5 is a schematic view of a structure of a transmission slant threaded rod of the multi-screw concrete auger distributing machine with a power compensation module according to the present invention;

FIG. 6 is a schematic view of the installation position of a discharge control box of the multi-screw concrete spiral distributing machine with a power compensation module according to the present invention;

FIG. 7 is a schematic view of the internal structure of a discharge control box of the multi-screw concrete auger distributor with a power compensation module according to the present invention;

FIG. 8 is a schematic view of a joining control tube structure of the multi-screw concrete auger distributor with a power compensation module according to the present invention;

fig. 9 is a schematic view of the installation position of the control ring of the multi-screw concrete spiral distributing machine with the power compensation module of the invention.

Reference numbers in the figures: 101. a support chassis; 102. a threaded post; 103. a screw thread lifting platform; 104. a core support frame; 105. rotating the support table; 106. a rotating table; 201. a weight plate; 202. a balancing weight; 203. a suspension frame; 204. a motor mounting plate; 301. a concrete delivery pump; 302. a transfer pump inlet pipe; 303. a transfer pump outlet pipe; 304. a left suspension plate; 305. a right suspension plate; 306. sealing the box body; 307. a cloth orientation adjuster; 308. a stressed inclined plane threaded rod; 309. a material distribution hole; 310. a motor; 311. a transmission bevel threaded rod; 401. a discharging control box; 402. connecting the control tube; 403. a limit snap ring; 404. an inner air inlet hole; 405. a control loop; 406. an outer air inlet hole; 411. rotating the rod; 412. sliding the ring sleeve; 413. pressing the control column; 414. a fixing plate; 415. a spring.

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.

Example (b): as shown in fig. 1-9, the multi-screw concrete spiral material distributor with the power compensation module comprises a support component, a balance component and a material distribution component, wherein the support component is positioned at the lowest end of the whole device and plays a role of supporting and balancing the whole device, the balance component is arranged above the support component and plays a role of enhancing the balance effect of the whole device, the material distribution component is arranged below the balance component and can carry out flexible material distribution operation in a large range, the device is placed on a building needing concrete pouring, a support chassis 101 is supported on the ground in a cross shape and can effectively prevent the device from being inclined, a thread lifting platform 103 is in threaded connection with a thread column 102, an operator rotates the thread lifting platform 103 clockwise, the thread lifting platform 103 can move upwards along the thread direction, and further the overall height of the device is improved, the thread lifting platform 103 is rotated anticlockwise, the thread lifting platform 103 moves downwards along the thread direction, so that the overall height of the device is reduced, the thread lifting platform 103 is convenient for an operator to adjust the height of the device according to the situation of the field working environment, the core support frame 104 plays a supporting role, the rotary table 106 and the rotary support table 105 can perform relative rotary motion, so that the material distribution direction adjuster 307 can also perform rotary motion, the flexibility of the device is improved, the operator can perform multidirectional concrete material distribution operation without frequently moving the device, the counterweight plate 201 and the counterweight block 202 play a role in balancing the gravity center point of the device, the device cannot incline to one side of the material distribution direction adjuster 307 due to gravity deviation, the suspension frame 203 prolongs the transmission length of the device during material distribution, and is favorable for high-efficiency material distribution at the top of a building with a complicated working environment, the motor mounting plate 204 plays a bearing role for the motor 310 and also plays a supporting role for the right suspension plate 305, the bottom of the sealed box 306 is provided with a plurality of vertical holes, the inner side wall of the sealed box 306 is tightly attached to the outer side wall of the cloth direction adjuster 307, thereby preventing concrete inside the cloth direction adjuster 307 from leaking, the motor 310 is electrically connected with an external power supply through an electric wire, a worker controls the operation of the motor 310, a rotor of the motor 310 drives the transmission inclined threaded rod 311 to rotate, the transmission inclined threaded rod 311 drives the stress inclined threaded rod 308 to rotate through the effect of gear engagement, the stress inclined threaded rod 308 rotates the cloth direction adjuster 307 to rotate, because the cloth holes 309 on the cloth direction adjuster 307 are staggered, only one cloth hole 309 can coincide with the vertical hole at the bottom of the sealed box 306 at each time, the worker can adjust which cloth hole 309 coincides with the numerical value of the bottom of the sealed box 306 according to the cloth progress, the concrete inside cloth azimuth adjuster 307 can flow out to carry out concrete distribution operation during coincidence, and this design makes this device have the effect of cloth distance adjustment, has reached the operation that just can be nimble carry out cloth on a large scale of not needing frequent mobile device, and this device provides the power compensation condenser for screw thread elevating platform 103, is favorable to improving the energy-conserving effect of device.

The supporting component comprises a supporting underframe 101, a threaded column 102, a threaded lifting platform 103, a core supporting frame 104, a rotary supporting platform 105 and a rotary platform 106, the supporting underframe 101 is positioned at the lowest end of the whole device, the threaded column 102 is fixedly installed at the center of the upper end of the supporting underframe 101, threads are arranged on the outer side wall of the threaded column 102, the threaded lifting platform 103 is fixedly installed above the threaded column 102, the core supporting frame 104 is fixedly installed above the threaded lifting platform 103, the rotary supporting platform 105 is fixedly installed at the top end of the core supporting frame 104, an annular groove is formed in the bottom end of the rotary supporting platform 105, the rotary platform 106 is rotatably installed above the rotary supporting platform 105, an annular clamping ring is arranged at the lower end of the rotary platform 106 and clamped into the annular groove, the device is placed on a building needing concrete pouring, the supporting, threaded connection is between screw thread elevating platform 103 and screw thread post 102, operating personnel clockwise turning screw thread elevating platform 103, screw thread elevating platform 103 can be along screw thread direction rebound, and then improve the holistic height of this device, anticlockwise turning screw thread elevating platform 103, screw thread elevating platform 103 moves down along the screw thread direction, and then reduced the holistic height of this device, the setting up of screw thread elevating platform 103 makes things convenient for operating personnel to highly adjust this device according to the site work environment situation, core support frame 104 plays the supporting role, can carry out relative rotary motion between revolving stage 106 and the rotatory supporting bench 105, and then make cloth position adjuster 307 also can carry out rotary motion, the flexibility of this device has been improved, operating personnel need not frequently remove this device just can carry out diversified concrete cloth operation.

The balancing assembly comprises a balance weight plate 201, a balance weight 202, a suspension frame 203, a motor mounting plate 204, a balance weight plate 201 is fixedly mounted on one side of a rotating platform 106, a balance weight 202 is fixedly mounted at the bottom end of the balance weight plate 201, the rotating platform 106 is far away from one side of the balance weight plate 201 and is fixedly mounted on one side of the suspension frame 203, the suspension frame 203 is far away from one side of the rotating platform 106 and is fixedly mounted on the motor mounting plate 204, the balance weight plate 201 and the balance weight 202 play a role in balancing the gravity center point of the device, the device can not incline towards one side of a cloth azimuth adjuster 307 due to gravity deviation, the suspension frame 203 prolongs the conveying length of the device during material distribution, high-efficiency material distribution at the top of a building with a complex working environment is facilitated, the motor mounting plate 204.

The cloth subassembly includes concrete pump 301, delivery pump import pipe 302, delivery pump outlet pipe 303, the inside fixed mounting of core support frame 104 has concrete pump 301, the fixed intercommunication in concrete pump 301 one side has delivery pump import pipe 302, concrete pump 301 keeps away from the fixed intercommunication in delivery pump import pipe 302 one side and has delivery pump outlet pipe 303, concrete pump 301, delivery pump import pipe 302, delivery pump outlet pipe 303 play and carry the effect in this device with external concrete.

The material distribution component also comprises a left suspension plate 304, a right suspension plate 305, a sealed box 306, a material distribution orientation adjuster 307, a stress inclined plane threaded rod 308, a material distribution hole 309, a motor 310 and a transmission inclined plane threaded rod 311, wherein the left suspension plate 304 is installed on one side of the delivery pump outlet pipe 303 far away from the concrete delivery pump 301 in a penetrating way, the upper end of the left suspension plate 304 is fixedly connected with the suspension frame 203, the sealed box 306 is fixedly installed on one end of the left suspension plate 304 far away from the delivery pump outlet pipe 303, the right suspension plate 305 is arranged on one end of the sealed box 306 far away from the left suspension plate 304, the top end of the right suspension plate 305 is fixedly connected with the motor mounting plate 204, the material distribution orientation adjuster 307 is rotatably installed on one end of the delivery pump outlet pipe 303 far away from the delivery pump outlet pipe 308, the stress inclined plane threaded rod 308 is arranged on the end part of the stress inclined, the cloth orientation adjuster 307 is a hollow cloth orientation adjuster 307, the side wall of the cloth orientation adjuster 307 is provided with a plurality of cloth holes 309, the opening directions between every two cloth holes 309 are different, the upper end of the motor mounting plate 204 is fixedly provided with a motor 310, a rotor at the bottom of the motor 310 is fixedly provided with a transmission inclined plane threaded rod 311, the bottom end of the transmission inclined plane threaded rod 311 is a forty-five degree inclined threaded surface, the threaded surface at the bottom end of the transmission inclined plane threaded rod 311 is meshed with the threaded surface at the end part of the stress inclined plane threaded rod 308, the bottom of the sealed box 306 is provided with a plurality of vertical holes, the inner side wall of the sealed box 306 is tightly attached to the outer side wall of the cloth orientation adjuster 307, the concrete inside the cloth orientation adjuster 307 can be prevented from leaking, the motor 310 is electrically connected with an external power supply through an, the transmission inclined plane threaded rod 311 drives the stress inclined plane threaded rod 308 to rotate through the effect of gear engagement, the stress inclined plane threaded rod 308 rotates, the cloth orientation adjuster 307 rotates along with the rotation, because the cloth holes 309 on the cloth orientation adjuster 307 are staggered, only one cloth hole 309 can be coincided with the vertical hole at the bottom of the sealed box 306 each time, therefore, the worker can adjust which material distribution hole 309 is coincided with the numerical hole at the bottom of the sealed box 306 according to the material distribution progress, when the material distribution holes are coincided, the concrete in the material distribution direction adjuster 307 can flow out for carrying out the concrete material distribution operation, the design ensures that the device has the effect of adjusting the material distribution distance, the operation of flexibly carrying out the large-range material distribution without frequently moving the device is achieved, and the device provides a power compensation capacitor for the thread lifting platform 103, which is beneficial to improving the energy-saving effect of the device.

A power compensation capacitor is electrically installed in the circuit of the concrete pump 301.

A discharge control box 401 is fixedly installed at the port of the inlet pipe 302 of the delivery pump, a linking control pipe 402 is installed inside the discharge control box 401 in a penetrating manner, one end of the linking control pipe 402 close to the inlet pipe 302 of the delivery pump is fixedly connected with the inlet pipe 302 of the delivery pump, one end of the linking control pipe 402 far away from the inlet pipe 302 of the delivery pump is communicated with external concrete storage equipment through a pipe fitting, the outer side wall of the linking control pipe 402 is fixedly provided with two limit snap rings 403, the center of the linking control pipe 402 is provided with an inner air inlet 404, a control ring 405 is rotatably installed between the two limit snap rings 403, the control ring 405 is provided with an outer air inlet 406, the outer side wall of the control ring 405 is fixedly provided with a rotating rod 411, one end of the rotating rod 411 far away from the control ring 405 is sleeved with a sliding ring sleeve 412, the sliding ring sleeve 412 can slide on, the bottom end of the side wall of the pressing control column 413 is fixedly provided with a fixing plate 414, the upper end of the fixing plate 414 is fixedly provided with a spring 415, the upper end of the spring 415 is fixedly connected with the inner side wall of the discharging control box 401, the upper end of the pressing control column 413 is exposed outside the discharging control box 401, the inner air inlet 404 is not in contact with the outer air inlet 406 in an initial state, the inner air inlet 404 is blocked by the inner side wall of the control ring 405, the outer air inlet 406 is blocked by the outer side wall of the connecting control tube 402, when small-space material distribution operation is carried out or a material distribution container needs to be replaced, an operator can press the pressing control column 413, the sliding ring sleeve 412 moves downwards along with the pressing control column 413 and does sliding motion on the rotary rod 411, the rotary rod 411 drives the control ring 405 to rotate, so that the outer air inlet 406 is in contact with the inner air inlet 404, and, the larger the amount of air which can be introduced into the connection control pipe 402 is, the more flexible and continuous operability the device is, the more the device can reduce the material distribution speed by mixing air into the concrete, the more the device can be operated, the concrete delivery pump 301 does not need to be started and stopped frequently, the effect of stopping or continuing material distribution can only be achieved by starting and stopping the delivery pump, the concrete backflow in the delivery pipeline can be caused when the delivery pump is stopped every time, the concrete needs to be pumped again when the pump is restarted, the material distribution efficiency is reduced while the service life of the pump is reduced, the device can adjust the material distribution speed by only controlling the amount of air mixed into the concrete by using the pressing control column 413, even the material distribution starting and stopping are adjusted, the device has more flexibility and is beneficial to the maintenance of the device, when the material distribution machine needs to return to the normal material distribution speed, only the pressing control column 413 needs to be loosened, the fixing plate 414 pushes the pressing control column 413 upwards by the elastic force of the spring 415 to return to the initial state of the pressing control column 413, at this time, the inner air inlet 404 and the outer air inlet 406 return to the non-contact state again, air cannot be mixed in the connecting control pipe 402, and the material distributor continues to distribute materials normally.

The working principle is as follows:

the device is arranged on a building needing concrete pouring, the supporting underframe 101 is supported on the ground in a cross shape, the skew phenomenon of the device can be effectively prevented, the thread lifting platform 103 is in threaded connection with the thread column 102, an operator rotates the thread lifting platform 103 clockwise, the thread lifting platform 103 moves upwards along the thread direction, the integral height of the device is further improved, the thread lifting platform 103 rotates anticlockwise, the thread lifting platform 103 moves downwards along the thread direction, the integral height of the device is further reduced, the arrangement of the thread lifting platform 103 is convenient for the operator to adjust the height of the device according to the field working environment condition, the core supporting frame 104 plays a supporting role, the rotary platform 106 and the rotary supporting platform 105 can perform relative rotary motion, the cloth direction adjuster 307 can also perform rotary motion, and the flexibility of the device is improved, an operator can carry out multidirectional concrete distribution operation without frequently moving the device, the counterweight plate 201 and the counterweight 202 play a role in balancing the gravity center point of the device, so that the device cannot incline to one side of the distribution direction adjuster 307 due to gravity deviation, the suspension frame 203 prolongs the transmission length of the device during distribution, high-efficiency distribution at the top of a building with a complex working environment is facilitated, the motor mounting plate 204 plays a bearing role for the motor 310 and also plays a supporting role for the right suspension plate 305, the bottom of the sealed box body 306 is provided with a plurality of vertical holes, the inner side wall of the sealed box body 306 is tightly attached to the outer side wall of the distribution direction adjuster 307, concrete leakage inside the distribution direction adjuster 307 can be prevented, the motor 310 is electrically connected with an external power supply through an electric wire, the operator controls the motor 310 to operate, and the rotor of the motor 310 drives the transmission inclined plane threaded rod 311 to rotate, the transmission inclined plane threaded rod 311 drives the stress inclined plane threaded rod 308 to rotate through the effect of gear meshing, the stress inclined plane threaded rod 308 rotates the cloth direction adjuster 307 to rotate, because the cloth holes 309 on the cloth direction adjuster 307 are staggered, only one cloth hole 309 can coincide with a vertical hole at the bottom of the sealed box 306 at each time, so a worker can adjust which cloth hole 309 coincides with a numerical hole at the bottom of the sealed box 306 according to the cloth progress, concrete in the cloth direction adjuster 307 can flow out to perform concrete cloth operation during coincidence, the design enables the device to have the effect of adjusting the cloth distance, if the motor is started to rotate ceaselessly, the effect of switching the far and ceaselessly feeding of the cloth position can be achieved, the cloth is more uniform, and the operation of distributing in a large range can be achieved flexibly without frequently moving the device, and the device provides a power compensation capacitor for the thread lifting platform 103, which is beneficial to improving the energy-saving effect of the device.

When the small-space material distribution operation is carried out or a material distribution container needs to be replaced, an operator can press the pressing control column 413, the sliding ring sleeve 412 moves downwards along with the pressing control column 413 and makes sliding motion on the rotary rod 411, the rotary rod 411 drives the control ring 405 to rotate, so that the outer air inlet hole 406 is in contact with the inner air inlet hole 404, the pressing control column 413 is pressed downwards to a larger extent, the contact surface between the inner air inlet hole 404 and the outer air inlet hole 406 is larger, the air volume which can be introduced into the connection control pipe 402 is larger, the material distribution speed is reduced by mixing air into concrete, the device has higher flexibility and continuous operability, the concrete conveying pump 301 does not need to be started and stopped frequently, the effect of stopping or continuing material distribution can only be achieved by starting and stopping the conveying pump every time, concrete in the conveying pipeline flows back, and the concrete needs to be extracted again, make the life of pump reduce in, cloth efficiency has more been reduced, and this device only needs to utilize and presses the control post 413 to control the air volume that the concrete was sneaked into, just can adjust cloth speed, open to stop to the cloth even and adjust, make equipment have more the flexibility, and be favorable to the maintenance of equipment, when the needs cloth machine replied normal cloth speed, only need loosen completely and press the control post 413, fixed plate 414 utilizes the elasticity of spring 415, will press the control post 413 upwards to push up, reply the initial state of pressing the control post 413, the non-contact state is got back to again with outer inlet port 406 to interior inlet port 404 this moment, can't sneak into the air in the linking control tube 402, the cloth machine normally lasts the cloth.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (3)

1. The utility model provides a take multi-screw rod concrete spiral material machine of power compensation module which characterized in that: the cloth device comprises a supporting component, a balancing component and a cloth component, wherein the supporting component is positioned at the lowest end of the whole device and plays a role in supporting and balancing the whole device;

the supporting component comprises a supporting chassis (101), a threaded column (102), a threaded lifting platform (103), a core supporting frame (104), a rotary supporting platform (105) and a rotary platform (106), the supporting chassis (101) is located at the lowest end of the whole device, the threaded column (102) is fixedly mounted in the center of the upper end of the supporting chassis (101), threads are formed in the outer side wall of the threaded column (102), the threaded lifting platform (103) is fixedly mounted above the threaded column (102), the core supporting frame (104) is fixedly mounted above the threaded lifting platform (103), the rotary supporting platform (105) is fixedly mounted at the top end of the core supporting frame (104), a circular ring-shaped groove is formed in the bottom end of the rotary supporting platform (105), the rotary platform (106) is rotatably mounted above the rotary supporting platform (105), and an annular clamping ring is formed at the, the annular retainer ring is clamped in the annular groove;

the balance assembly comprises a balance weight plate (201), a balance weight (202), a suspension frame (203) and a motor mounting plate (204), the balance weight plate (201) is fixedly mounted on one side of the rotating platform (106), the balance weight (202) is fixedly mounted at the bottom end of the balance weight plate (201), the suspension frame (203) is fixedly mounted on one side, away from the balance weight plate (201), of the rotating platform (106), and the motor mounting plate (204) is fixedly mounted on one side, away from the rotating platform (106), of the suspension frame (203);

the distribution assembly comprises a concrete delivery pump (301), a delivery pump inlet pipe (302) and a delivery pump outlet pipe (303), the concrete delivery pump (301) is fixedly installed inside the core support frame (104), the delivery pump inlet pipe (302) is fixedly communicated with one side of the concrete delivery pump (301), and the delivery pump outlet pipe (303) is fixedly communicated with one side of the concrete delivery pump (301) far away from the delivery pump inlet pipe (302);

the cloth component further comprises a left suspension plate (304), a right suspension plate (305), a sealed box body (306), a cloth position adjuster (307), a stress inclined threaded rod (308), a cloth hole (309), a motor (310) and a transmission inclined threaded rod (311), wherein the left suspension plate (304) is installed on one side, away from the concrete delivery pump (301), of the delivery pump outlet pipe (303) in a penetrating mode, the upper end of the left suspension plate (304) is fixedly connected with the suspension frame (203), the sealed box body (306) is fixedly installed on one end, away from the delivery pump outlet pipe (303), of the left suspension plate (304), of the sealed box body (306) in a penetrating mode, the right suspension plate (305) is arranged at one end, away from the left suspension plate (304), of the right suspension plate (305) in the top end of the right suspension plate (305) is fixedly connected with the motor mounting plate (204), the cloth position adjuster (307) is installed on one end, through the left suspension, a stress inclined plane threaded rod (308) is fixedly installed at one end, far away from the outlet pipe (303) of the conveying pump, of the cloth direction adjuster (307), the end of the stress inclined plane threaded rod (308) is a forty-five-degree inclined threaded surface, the cloth direction adjuster (307) is a cloth direction adjuster (307) which is hollow inside, a plurality of cloth holes (309) are formed in the side wall of the cloth direction adjuster (307), the opening directions between every two cloth holes (309) are different, a motor (310) is fixedly installed at the upper end of the motor installation plate (204), a transmission inclined plane threaded rod (311) is fixedly installed on a rotor at the bottom of the motor (310), the bottom end of the transmission inclined plane threaded rod (311) is a forty-five-degree inclined threaded surface, and the threaded surface at the bottom end of the transmission inclined plane threaded rod (311) is meshed with the threaded;

the supporting underframe (101) is supported on the ground in a cross shape; the bottom of the sealed box body (306) is provided with a plurality of vertical holes, and the inner side wall of the sealed box body (306) is attached to the outer side wall of the cloth azimuth adjuster (307); the cloth holes (309) on the cloth direction regulator (307) are staggered, and only one cloth hole (309) can be coincided with the vertical hole at the bottom of the sealed box body (306) each time.

2. The multi-screw concrete auger distributor with power compensation module of claim 1, wherein: and a power compensation capacitor is electrically installed in the circuit of the concrete delivery pump (301).

3. The multi-screw concrete auger distributor with power compensation module of claim 1, wherein: the conveying pump inlet pipe (302) port department fixed mounting has ejection of compact control box (401), ejection of compact control box (401) inside runs through and installs linking control tube (402), linking control tube (402) is close to conveying pump inlet pipe (302) one end and conveying pump inlet pipe (302) fixed connection, linking control tube (402) is kept away from conveying pump inlet pipe (302) one end and is passed through pipe fitting and external concrete storage device intercommunication, linking control tube (402) lateral wall fixed mounting has spacing snap ring (403), spacing snap ring (403) have two, linking control tube (402) central authorities have seted up interior inlet port (404), two rotatory control circle (405) of installing between spacing snap ring (403), outer inlet port (406) have been seted up on control circle (405), fixed mounting has swing arm (411) on control circle (405) lateral wall, the utility model discloses a material discharging control box, including swing arm (411), sliding ring cover (412) can slide on swing arm (411), sliding ring cover (412) top is rotatory to be installed and to press down control post (413), press down control post (413) lateral wall bottom fixed mounting and have fixed plate (414), fixed plate (414) upper end fixed mounting has spring (415), spring (415) upper end and ejection of compact control box (401) inside wall fixed connection, it is outside in ejection of compact control box (401) to press down control post (413) upper end exposure.

Images