CN110863654A - Building and pouring accelerating device for house construction - Google Patents

Abstract

The invention discloses an accelerated construction and pouring device for building construction, which comprises a dynamic lifting device and a flow dividing device, wherein the dynamic lifting device is arranged at the upper part of the flow dividing device, and the flow dividing device comprises a conical flow dividing disc, a charging barrel positioned in the middle of the conical flow dividing disc and a conveying auger. According to the invention, through arranging the dynamic lifting device and the shunting device, the concrete rain-casting can be realized to improve the casting efficiency, specifically, the shunting device comprises an umbrella-shaped shunting disc, a shunting channel and a diversion channel are arranged on the shunting disc, a material barrel is arranged in the middle of the shunting disc, the concrete in the material barrel is lifted through the dynamic lifting device and radially shunted through the radially distributed shunting channels, then the concrete in the shunting channels is coveredly shunted through the annular diversion channel and falls down through a discharge hole in the diversion channel, so that the concrete rain-casting can be realized only by filling the concrete in the material barrel in advance or continuously, and the casting speed is improved.

Description

Building and pouring accelerating device for house construction

Technical Field

The invention relates to the technical field of building concrete pouring, in particular to an accelerated building pouring device for house building construction.

Background

In the building construction process, concrete pouring is the current necessary link, and in order to improve the steadiness of building, at the girder, the fixed connection reinforcing bar cylinder mould between layer and layer usually, then fill the concrete in the reinforcing bar cylinder mould, wait that the concrete hardens and can improve the intensity and the steadiness of the structure of building.

At present, common pouring mode, adopt concrete machineshop car to use folding or extending structure's pipeline to carry out local gradual pouring to the big area of reinforcing bar cylinder mould of eminence, because contain the unequal stone of a large amount of granule sizes in the concrete, and weight is heavier, therefore, in order to improve and build the transmission speed of watering and avoid appearing the not smooth problem of transmission, adopt the single tube to carry usually, and then lead to building to water the scope narrowly, pour unevenly, it is low to build the speed of watering, from this can further lead to the concrete setting speed inequality, inside appears the gas pocket easily, concrete shaping quality is poor, and delay the time limit for a project.

Therefore, the invention provides an accelerated construction pouring device for house construction.

Disclosure of Invention

The invention aims to: the accelerated construction pouring device for the house construction aims to solve the problems that a concrete engineering truck is adopted, the pouring range is narrow and the speed is low due to the fact that single-pipe transmission is adopted to avoid the fact that the transmission speed is increased and the transmission force is insufficient.

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

the accelerated pouring device for building construction comprises a dynamic lifting device and a flow dividing device, wherein the dynamic lifting device is arranged on the upper portion of the flow dividing device, the flow dividing device comprises a conical flow dividing disc, a material cylinder and a conveying auger, the material cylinder and the conveying auger are positioned in the middle of the conical flow dividing disc, a flow dividing channel, a blanking hole and a flow guide channel communicated with the flow dividing channel and the blanking hole are arranged on the conical flow dividing disc, the dynamic lifting device comprises a conical conveying cylinder, a stable device positioned in the conical conveying cylinder, a suspension bracket and a magnetic suspension device, the suspension bracket is movably connected with the conical conveying cylinder through the magnetic suspension device, a support frame is fixedly arranged on the conical flow dividing disc, the top of the suspension bracket is rotatably matched with the bottom of the support frame, the stable device comprises a positioning frame fixedly connected with the conical conveying cylinder and a rotary disc positioned in the positioning frame and rotatably matched with the positioning frame, and the rotary center, the bottom of the magnetic suspension device is connected with the top of the positioning frame through a spherical hinge, the spherical hinge point is lower than the gravity center of the conical conveying cylinder, and spiral guide plates which are uniformly distributed in the circumferential direction are arranged on the outer periphery of the conical conveying cylinder.

As a further description of the above technical solution:

the flow distribution channel is radially distributed, the number of flow distribution channels is three at least and is circumference evenly distributed, the water conservancy diversion way is the annular form of dividing the flow distribution channel partition equally, the number of water conservancy diversion way is a plurality of and the center of relative toper flow distribution disc is along radial gradient distribution.

As a further description of the above technical solution:

the conveying auger is positioned in the flow dividing channel and is in running fit with the flow dividing channel.

As a further description of the above technical solution:

the flow dividing device further comprises a bevel gear combination which is positioned at the periphery of the conical flow dividing disc and is connected in a rotating mode, and an auger shaft of the conveying auger is fixedly connected with the bevel gear combination.

As a further description of the above technical solution:

the bevel gear combination comprises rotating shafts which are distributed tangentially relative to the horizontal direction of the periphery of the conical splitter plate, a first gear and a second gear, wherein the first gear is sleeved on the rotating shafts, the second gear is sleeved on the auger shaft, and the rotating shafts are connected with a driving motor in series through a transmission flexible shaft.

As a further description of the above technical solution:

the magnetic suspension device comprises a rectangular frame fixedly connected with the bottom of the suspension frame, a bearing column which penetrates through the bottom of the rectangular frame and is in up-and-down sliding fit with the bottom of the rectangular frame, and a magnetic suspension device, wherein the magnetic suspension device comprises a permanent magnet part fixedly connected with the top of the rectangular frame and an electromagnetic part fixedly connected with the top of the bearing column.

As a further description of the above technical solution:

and an annular sealing cover is fixedly arranged on the outer periphery of the conical conveying cylinder and positioned at the upper part of the guide plate.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. according to the invention, through arranging the dynamic lifting device and the shunting device, the concrete rain-casting can be realized to improve the casting efficiency, specifically, the shunting device comprises an umbrella-shaped shunting disc, a shunting channel and a diversion channel are arranged on the shunting disc, a material barrel is arranged in the middle of the shunting disc, the concrete in the material barrel is lifted through the dynamic lifting device and radially shunted through the radially distributed shunting channels, then the concrete in the shunting channels is coveredly shunted through the annular diversion channel and falls down through a discharge hole in the diversion channel, so that the concrete rain-casting can be realized only by filling the concrete in the material barrel in advance or continuously, and the casting speed is improved.

2. According to the invention, the dynamic lifting device comprises a conical conveying cylinder, a stable device, a suspension bracket device and a magnetic suspension device, wherein the bottom of the stable device is fixedly connected with the bottom in the conical conveying cylinder, the stable device is connected with the bottom of the magnetic suspension device in a spherical hinge mode, the stable device comprises a rotary table, the rotary conical conveying cylinder can tend to be in a stable state by utilizing the principle of a gyroscope, when the phenomenon of local aggregation of concrete occurs in the material cylinder 22, abnormal stirring sound or severe vibration can occur, the unsmooth discharging can be caused or the strength of the whole device can be damaged, the stable device can swing at any angle and then tends to be stable, and further the discharging is smooth and the strength of the whole device is improved.

3. The magnetic suspension device comprises a rectangular frame and a bearing column which is in sliding fit with the bottom of the rectangular frame in a penetrating mode, a permanent magnet part and an electromagnetic part are connected between the rectangular frame and the bearing column, and the height of the conical conveying cylinder in the charging cylinder can be further controlled by utilizing the magnetic suspension principle, so that when excessive concrete appears in the charging cylinder, the height of the conical conveying cylinder can be increased, the rotating load of the conical conveying cylinder is reduced, and the magnetic suspension device has a protection effect.

4. The invention also comprises a bevel gear combination which is positioned at the outer periphery of the conical splitter disc and is in rotary connection with the outer periphery of the conical splitter disc, wherein the bevel gear combination comprises rotating shafts which are distributed tangentially relative to the outer periphery of the conical splitter disc in the horizontal direction, a first gear which is sleeved on the rotating shafts and a second gear which is sleeved on a screw shaft, and a plurality of rotating shafts are also connected in series with a driving motor through a transmission flexible shaft, so that the driving motor can drive a plurality of conveying screws to synchronously rotate through the transmission flexible shaft, the uniform splitting and blanking of the conical splitter disc are realized, and the weight and the production investment of the whole.

5. According to the invention, the annular sealing cover is fixedly arranged on the outer periphery of the conical conveying cylinder and positioned at the upper part of the guide plate, when pouring is not needed, the conical conveying cylinder stops rotating and stops supplying power to the electromagnetic part, at the moment, the whole conical conveying cylinder descends, and the annular sealing cover is in contact with the top of the charging barrel, so that the effect of sealing the charging barrel to prevent water in the charging barrel from volatilizing is achieved, and the phenomenon of hardening concrete is avoided.

Drawings

FIG. 1 is a schematic structural diagram of a dynamic lifting device, a shunting device, a flexible transmission shaft and a driving motor in an accelerated construction device for house construction according to the present invention;

FIG. 2 is a schematic structural diagram of the cooperation of the shunting device, the flexible transmission shaft and the driving motor of the accelerated construction pouring device for house construction provided by the invention;

FIG. 3 is a schematic structural diagram of the dynamic lifting device, the charging barrel, the conveying auger, the transmission flexible shaft and the driving motor of the accelerated construction pouring device for building construction provided by the invention;

FIG. 4 is a schematic structural view of a partial view "a" in FIG. 3 of the accelerated construction equipment for building construction according to the present invention;

FIG. 5 is a schematic structural diagram of the dynamic lifting device and the charging barrel of the accelerated casting device for house construction according to the present invention;

fig. 6 is a schematic structural diagram of a front view of a conical conveying cylinder of the accelerated casting device for house construction.

Illustration of the drawings:

1. a dynamic lifting device; 11. a conical delivery cylinder; 111. a baffle; 112. an annular cover; 13. a steady state device; 131. a positioning frame; 132. a turntable; 14. a suspension bracket; 15. a magnetic suspension device; 151. a rectangular frame; 152. a load bearing column; 153. a magnetic levitation device; 1531. a permanent magnet section; 1532. an electromagnetic section; 2. a flow divider; 21. a conical diverter tray; 211. a flow dividing channel; 212. a blanking hole; 213. a flow guide way; 214. a support frame; 22. a charging barrel; 23. conveying the auger; 24. a bevel gear combination; 241. a rotating shaft; 242. a first gear; 243. a second gear; 3. a flexible transmission shaft; 4. the motor is driven.

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. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

Example 1

Referring to fig. 1-6, an accelerated construction and pouring device for building construction comprises a dynamic lifting device 1 and a diversion device 2, wherein the dynamic lifting device 1 is arranged on the upper portion of the diversion device 2, the diversion device 2 comprises a conical diversion disc 21, a material cylinder 22 and a conveying auger 23, the material cylinder 22 and the conveying auger 23 are arranged in the middle of the conical diversion disc 21, the conical diversion disc 21 can be made into an umbrella shape, the bottom of the conical diversion disc 21 can be connected with supporting legs for supporting, the diversion channel 211, a blanking hole 212 and a diversion channel 213 for communicating the diversion channel 211 with the blanking hole 212 are arranged on the conical diversion disc 21, the diversion channel 211 is radially distributed, the number of the diversion channel 211 is at least three and is circumferentially and uniformly distributed, the diversion channel 211 is of a concave structure, the centripetal end of the diversion channel 211 penetrates through the material cylinder 22, the bottom of the material cylinder 22 is lower than the centripetal end of the diversion channel 211, the diversion channel, the number of the diversion tunnels 213 is a plurality and is distributed along the radial direction in a gradient manner relative to the center of the conical diversion tray 21, the diversion tunnels 211 are also concave, and both ends of each diversion tunnel 213 are communicated with the two adjacent diversion tunnels 211, wherein the blanking holes 212 are positioned in the diversion tunnels 213 and are uniformly distributed along the arc direction, the conveying auger 23 is positioned in the diversion tunnels 211 and is in running fit, and both ends of the diversion tunnels 211 can be welded with supporting plates for supporting the conveying auger 23, therefore, after the concrete in the charging barrel 22 is lifted, the concrete enters the diversion tunnels 211 which are distributed in an inclined manner, and simultaneously the conveying auger 23 can be driven by an external rotating motor to rotate to push the concrete to flow in the diversion tunnels 211, the flowing concrete can dispersedly slide into the diversion tunnels 213 and fall into the pouring area below through the blanking holes 212, and because the conical diversion tray 21 covers a wide area, moreover, rain type pouring is adopted, so that the pouring efficiency is improved; the dynamic lifting device 1 comprises a conical conveying cylinder 11, a steady-state device 13 positioned in the conical conveying cylinder 11, a suspension bracket 14 and a magnetic suspension device 15, wherein the suspension bracket 14 is movably connected with the conical conveying cylinder 11 through the magnetic suspension device 15, a support frame 214 is fixedly arranged on a conical flow distribution disc 21, the top of the suspension bracket 14 is in rotating fit with the bottom of the support frame 214, the support frame 214 can adopt a door-shaped frame structure and is used for connecting the magnetic suspension device 15 through the suspension bracket 14 and facilitating the lifting of external lifting equipment, the steady-state device 13 comprises a positioning frame 131 fixedly connected with the conical conveying cylinder 11 and a rotating disc 132 positioned in the positioning frame 131 and in rotating fit with the positioning frame 131, the positioning frame 131 can adopt a rectangular frame structure, the rotating center of the rotating disc 132 is superposed with the center line of the conical conveying cylinder 11, one end of a rotating shaft on the rotating disc 132 is rotatably connected with one side in the, the bottom of the magnetic suspension device 15 is connected with the top of the positioning frame 131 by a spherical hinge, the spherical hinge structure adopts a spherical hinge cross universal joint structure, the spherical hinge point is lower than the gravity center of the conical conveying cylinder 11, the periphery of the conical conveying cylinder 11 is provided with spiral guide plates 111 which are uniformly distributed in the circumferential direction, the conical conveying cylinder 11 rotates, the guide plates 111 on the conical conveying cylinder can lift the concrete in the material cylinder 22 by utilizing the inclined planes of the guide plates, the top of the supporting frame 214 is provided with a stirring motor, a motor shaft on the stirring motor is fixedly connected with the top of the suspension frame 14, the stirring motor rotates to drive the conical conveying cylinder 11 to rotate, so that the concrete material is lifted and thrown into the diversion channel 211, the conical conveying cylinder 11 is higher than the hinge point of the magnetic suspension device 15 due to the position of the gravity center, at this time, the conical conveying cylinder 11 can tilt, at this time, according to the 'gyroscope' principle, the rotating turntable 132 generates an axial stabilizing force, so that the central line of the conical conveying cylinder 11 is in a vertical state, the technical convenience is realized, the effect of uneven mixing in the charging cylinder 22 is realized, for example, when the charging cylinder 22 has a phenomenon of local aggregation, abnormal stirring sound or severe vibration can be generated, the intensity of the whole device is not smooth or damaged due to discharging, the conical conveying cylinder 11 can swing at any angle through the structure of the turntable 132 added with the 'gyroscope' principle, and then the conical conveying cylinder tends to be stable, so that the discharging is smooth and the intensity of the whole device is improved.

Example 2

Referring to fig. 2-3, the difference from embodiment 1 is that the splitter 2 further includes a bevel gear assembly 24 rotatably connected to the outer periphery of the tapered splitter disc 21, and the auger shaft of the conveying auger 23 is fixedly connected to the bevel gear assembly 24, further described that the bevel gear assembly 24 includes a rotating shaft 241 tangentially distributed in the horizontal direction relative to the outer periphery of the tapered splitter disc 21, a first gear 242 sleeved on the rotating shaft 241 and a second gear 243 sleeved on the auger shaft, and the rotating shafts 241 are further connected in series with a driving motor 4 through a driving flexible shaft 3, so that the driving motor 4 can drive the conveying augers 23 to synchronously rotate through the driving flexible shaft 3, thereby achieving uniform splitting and blanking of the tapered splitter disc 21, and greatly reducing the weight and production investment of the whole device.

Example 3

Referring to fig. 5, the difference from embodiment 1 is that the magnetic levitation device 15 includes a rectangular frame 151 fixedly connected to the bottom of the suspension frame 14, a bearing pillar 152 slidably fitted up and down through the bottom of the rectangular frame 151, and a magnetic levitation device 153, where the magnetic levitation device 153 includes a permanent magnetic part 1531 fixedly connected to the top of the rectangular frame 151 and an electromagnetic part 1532 fixedly connected to the top of the bearing pillar 152, and the bearing pillar 152 "floats up and down relative to the rectangular frame 151 by using the principle of" magnetic levitation ", and the position of the bearing pillar 152, the bottom of the bearing pillar 152, and the top of the positioning frame 131 are cross-ball hinged by changing the magnitude of the current in the electromagnetic part 1532, so as to control the height of the conical conveying cylinder 11 in the charging cylinder 22, thereby increasing the height of the conical conveying cylinder 11, reducing the rotational load of the conical conveying cylinder 11, and having a protection effect when excessive concrete is present in the charging cylinder 22.

Example 4

Referring to fig. 5, based on embodiment 3 and the difference from embodiment 1, an annular sealing cover 112 is fixedly disposed on the outer periphery of the conical conveying cylinder 11 and above the flow guide plate 111, when pouring is not needed, the conical conveying cylinder 11 stops rotating and stops supplying power to the electromagnetic part 1532, at this time, the whole conical conveying cylinder 11 descends, and the annular sealing cover 112 contacts with the top of the cylinder 22, so as to achieve the effect of sealing the cylinder 22 and preventing moisture in the cylinder 22 from volatilizing, and prevent the concrete from hardening.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (7)

1. The utility model provides a building device with higher speed for building construction in room, its characterized in that, including dynamic lifting device (1) and diverging device (2), dynamic lifting device (1) sets up the upper portion at diverging device (2), diverging device (2) include toper reposition of redundant personnel dish (21), be located feed cylinder (22) and the transport auger (23) in toper reposition of redundant personnel dish (21) middle part, be provided with diversion channel (211), blanking hole (212) and water conservancy diversion way (213) that communicate diversion channel (211) and blanking hole (212) on toper reposition of redundant personnel dish (21), dynamic lifting device (1) include toper conveying cylinder (11), be located steady state device (13), mounted frame (14) and magnetic suspension device (15) in toper conveying cylinder (11), mounted frame (14) are through magnetic suspension device (15) and toper conveying cylinder (11) swing joint, the improved cone-shaped flow distribution device is characterized in that a support frame (214) is fixedly arranged on the cone-shaped flow distribution disc (21), the top of the suspension frame (14) is in running fit with the bottom of the support frame (214), the stable state device (13) comprises a positioning frame (131) fixedly connected with the cone-shaped conveying cylinder (11) and a turntable (132) positioned in the positioning frame (131) in running fit, the center of rotation of the turntable (132) is overlapped with the center line of the cone-shaped conveying cylinder (11), the bottom of the magnetic suspension device (15) is in spherical hinge connection with the top of the positioning frame (131), the spherical hinge point is lower than the gravity center of the cone-shaped conveying cylinder (11), and the periphery of the cone-shaped conveying cylinder (11) is provided with guide plates (111.

2. The accelerated construction pouring device for house construction according to claim 1, wherein the diversion channels (211) are radially distributed, the number of the diversion channels (211) is at least three, the diversion channels are circumferentially and uniformly distributed, the diversion channels (213) are in the shape of a ring equally divided by the diversion channels (211), and the diversion channels (213) are multiple and are radially and gradiently distributed relative to the center of the conical diversion plate (21).

3. The building pouring accelerating device for house construction according to claim 2, wherein the conveying auger (23) is positioned in the diversion channel (211) and is in running fit with the diversion channel.

4. The building pouring accelerating device for house building construction according to claim 3, wherein the diversion device (2) further comprises a bevel gear assembly (24) which is rotatably connected with the outer periphery of the conical diversion plate (21), and the auger shaft of the conveying auger (23) is fixedly connected with the bevel gear assembly (24).

5. The accelerated construction pouring device for house construction according to claim 4, wherein the bevel gear assembly (24) comprises a rotating shaft (241) which is distributed tangentially relative to the outer periphery of the conical diversion plate (21) in the horizontal direction, a first gear (242) which is sleeved on the rotating shaft (241) and a second gear (243) which is sleeved on the auger shaft, and the rotating shafts (241) are also connected with a driving motor (4) in series through a transmission flexible shaft (3).

6. The accelerated construction and pouring device for house construction according to claim 1, wherein the magnetic suspension device (15) comprises a rectangular frame (151) fixedly connected with the bottom of the suspension frame (14), a bearing column (152) sliding up and down through the bottom of the rectangular frame (151), and a magnetic suspension device (153), and the magnetic suspension device (153) comprises a permanent magnet part (1531) fixedly connected with the inner top of the rectangular frame (151) and an electromagnetic part (1532) fixedly connected with the top of the bearing column (152).

7. The building pouring accelerating device for house construction according to claim 6, wherein an annular sealing cover (112) is fixedly arranged on the outer periphery of the conical conveying cylinder (11) and above the guide plate (111).

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