CN117071903B - Building material lifting machine structure - Google Patents

Abstract

The invention relates to the technical field of building construction equipment, in particular to a building material lifting machine structure which comprises a frame body, a conveying pipe and a corrugated pipe, wherein the conveying pipe and the corrugated pipe are arranged on the frame body, and the building material lifting machine structure also comprises a first ring block which is arranged on the corrugated pipe; through the transmission cement of start-up equipment operation, drive cement and contact stirring leaf one and stirring She Er through the ripple, and utilize stirring subassembly to drive a plurality of stirring leaves one and stir She Er rotatory together, thereby through rotatory stirring leaf one and stirring She Er, and then make the water outlet subassembly drive the water pipe simultaneously and carry out the drainage, after the cement watering finishes, push away the loop block second through cement, make the loop block second be close to the loop block one, and utilize the warning subassembly to send out and remind, and then remind operating personnel cement watering to finish, thereby make things convenient for constructor operation through reminding the subassembly, thereby increase moisture for the cement of conveyer pipe tip, and then avoid cement loss moisture at the in-process of transmission, guarantee the normal watering of cement.

Description

Building material lifting machine structure

Technical Field

The invention relates to the technical field of building construction equipment, in particular to a building material lifting machine structure.

Background

Building materials are materials for building and repairing buildings, common building materials comprise cement, bricks, wood, steel, glass, stone and the like, play an important role in the building process, can provide functions of structural support, heat preservation, heat insulation, decoration, beautification and the like, are used for cement column feeder equipment in the process of feeding in cement columns, are commonly used for construction sites of concrete buildings, are used for mixing and stirring raw materials such as cement, aggregate, sand, water and the like according to a certain proportion to prepare the concrete, the feeder can automatically or semi-automatically convey the raw materials into a concrete mixer or a concrete mixer truck to meet construction requirements, when the cement is conveyed through the cement column feeder, the cement is placed into a feed hopper on the equipment, then the cement raw materials are conveyed to a designated place through a conveying system, the cement is conveyed into a conveying pipe on the equipment, then the cement is pushed to a target position by the rotary motion of a screw propeller, the cement at the bottom of the feed hopper is pushed from the bottom to a high position in the conveying pipe, and the cement can be extruded by the screw propeller from the bottom to the high position, so that water of the cement can flow out of the cement can be conveyed into the end of the concrete mixer, and the concrete mixer is pushed into the concrete mixer.

Disclosure of Invention

One technical problem to be solved by the present application is: how to supplement the cement water loss at the end of the conveying pipe.

In order to solve the technical problems, the embodiment of the application provides a building material lifting machine structure, which comprises a frame body, a conveying pipe and a corrugated pipe, wherein the conveying pipe and the corrugated pipe are arranged on the frame body, and the building material lifting machine structure further comprises a first ring block, and the first ring block is arranged on the corrugated pipe;

the second ring block is arranged on the first ring block;

a plurality of stirring blades I are arranged, and a plurality of stirring blades She Yigong are arranged on the annular block II;

the stirring assembly is arranged on the corrugated pipe, cement contacts the first stirring blades through the corrugated pipe, and the stirring assembly is utilized to drive the first stirring blades to rotate;

the water pipe is connected to the first annular block in a conducting manner;

the water outlet assembly is arranged on the corrugated pipe, cement passes through the corrugated pipe to be contacted with the first stirring blade and is utilized the water outlet assembly to drive the water pipe to drain, cement is conveyed through starting equipment operation, the cement is driven to be contacted with the first stirring blade and the stirring She Er through the corrugation, the stirring assembly is utilized to drive the first stirring blades to rotate together with the stirring She Er, and accordingly the water outlet assembly is enabled to drive the water pipe to drain through the first stirring blade and the stirring She Er, after cement pouring is finished, the second ring block is enabled to be close to the first ring block through the cement extruding pushing-out ring block, and the reminding assembly is utilized to send out reminding, so that operators are reminded of finishing cement pouring, the operation of constructors is facilitated through the reminding assembly, water is increased for cement at the end part of the conveying pipe, water loss of cement in the process of conveying is avoided, and normal cement pouring is guaranteed.

In some embodiments, the stirring assembly comprises a ring groove arranged on the second ring block, and a first ring plate is arranged in the ring groove and connected with a plurality of first stirring blades;

the annular groove is formed in the second annular block, the annular block is arranged in the annular groove, the second annular block is provided with a second annular plate, the second annular plate is provided with a plurality of stirring She Er, the first annular plate is provided with a connecting component, cement is contacted with the first stirring blade through the corrugated pipe, the first stirring blade rotates with the stirring She Er, and the first annular block is enabled to be in movable contact with the first annular block by the aid of the connecting component.

In some embodiments, the connection assembly comprises a connection plate arranged on the first ring block, a connection groove is formed in the second ring block, the connection groove is connected with the connection plate, a plurality of positioning grooves are formed in the connection groove, a plurality of limiting blocks are arranged on the connection plate and connected with the positioning grooves, a reminding assembly is arranged on the first ring block, the second ring block is close to the first ring block through the connection plate, and reminding is sent when the second ring block is moved to one side of the first ring block by the aid of the reminding assembly.

In some embodiments, the reminding component comprises a pressure sensor arranged on the first ring block, and a warning lamp is arranged on the frame body.

In some embodiments, the first stirring vane is of an opposite design to the angle of inclination of the stirring She Er.

In some embodiments, the water outlet component comprises an annular toothed plate arranged on the second annular toothed plate, a plurality of limiting ring plates are arranged on the annular toothed plate, a linkage component is arranged on the annular toothed plate, when cement contacts the stirring She Er, the stirring She Er is enabled to rotate, meanwhile, the annular toothed plate is driven to rotate, and the linkage component is utilized to drive the water pipe to outlet water.

In some embodiments, the linkage assembly comprises a fluted disc meshed with the annular toothed plate, a first shaft is arranged on the fluted disc, the first shaft penetrates through the fluted disc, a plurality of positioning grooves are formed in the first shaft, positioning blocks are arranged in the positioning grooves and are connected with the fluted disc together, a transmission assembly is arranged on the first shaft, the annular toothed plate rotates, and the first shaft rotates and drives the water pipe to discharge water by using the transmission assembly.

In some embodiments, the transmission assembly comprises an i-shaped block arranged on the first shaft, a plurality of rollers are arranged on the i-shaped block through a rotating shaft, a housing is arranged on the first ring block, the water pipe is paved on the inner wall of the housing, the rollers are in common contact with and squeeze the surface of the water pipe, a water tank is arranged on the frame body, one end of the water pipe is connected with the water tank in a conducting manner, the other end of the water pipe penetrates through the housing, one end of the water pipe is connected with the corrugated pipe in a conducting manner, and the first shaft rotates to enable the rollers to squeeze the water pipe to discharge water.

In some embodiments, the first ring block is provided with a first rod, the conveying pipe is provided with a first sleeve ring, and one end of the first rod is connected with the first sleeve ring.

In some embodiments, a loop bar is arranged on the first loop ring through a rotating shaft, one end of the bar is connected with the first loop block through the rotating shaft, a spring is arranged in the loop bar, one end of the spring is connected with one end of the bar, a positioning ring is arranged on the loop bar, a connecting rod is arranged on the positioning ring through the rotating shaft, a second loop ring is arranged on the conveying pipe, the second loop ring is connected with the connecting rod through the rotating shaft, and the first bar is connected with the loop bar;

the one-to-one end of the rod is provided with a pull rope, one end of the pull rope is provided with a winding wheel, the pull rope is wound on the winding wheel, the winding wheel is provided with a second shaft, the conveying pipe is provided with a plurality of side plates, one end of the second shaft penetrates through one side plate and is connected with the side plate, one end of the second shaft is provided with a handle, the conveying pipe is provided with a guide wheel, and the pull rope is connected with the guide wheel;

one side plate is provided with a screw rod, the screw rod penetrates through the one side plate, and one end of the screw rod is provided with a knob.

The invention has at least the following beneficial effects: through the transmission cement of start-up equipment operation, drive cement and contact stirring leaf one and stirring She Er through the ripple, and utilize stirring subassembly to drive a plurality of stirring leaves one and stir She Er rotatory together, thereby through rotatory stirring leaf one and stirring She Er, and then make the water outlet subassembly drive the water pipe simultaneously and carry out the drainage, after the cement watering finishes, push away the loop block second through cement, make the loop block second be close to the loop block one, and utilize the warning subassembly to send out and remind, and then remind operating personnel cement watering to finish, thereby make things convenient for constructor operation through reminding the subassembly, thereby increase moisture for the cement of conveyer pipe tip, and then avoid cement loss moisture at the in-process of transmission, guarantee the normal watering of cement.

Drawings

FIG. 1 is a schematic view showing the overall structure of embodiment 1 of the present invention;

FIG. 2 is a schematic view of the structure of the area A in FIG. 1 according to the present invention;

FIG. 3 is a schematic view of the structure of FIG. 1 in another orientation in accordance with the present invention;

FIG. 4 is a schematic view of the structure of the area B in FIG. 3 according to the present invention;

FIG. 5 is a schematic view of the partial cross-section of FIG. 3 in accordance with the present invention;

FIG. 6 is a schematic view of the partial cross-section of FIG. 5 in accordance with the present invention;

FIG. 7 is a schematic view of the partial cross-section of FIG. 6 in accordance with the present invention;

FIG. 8 is a schematic view of the structure of the region C in FIG. 7 according to the present invention;

FIG. 9 is a schematic view of the partial cross-section of FIG. 7 in accordance with the present invention;

FIG. 10 is a schematic view of the structure of the region D in FIG. 9 according to the present invention;

FIG. 11 is a schematic view of the partial cross-section of FIG. 9 in accordance with the present invention;

FIG. 12 is a schematic view of the structure of the E area in FIG. 11 according to the present invention;

FIG. 13 is a schematic view of the alternate orientation of FIG. 11 in accordance with the present invention;

FIG. 14 is a schematic view of the structure of embodiment 2 of the present invention;

FIG. 15 is a schematic view of the partial cross-section of FIG. 14 in accordance with the present invention;

fig. 16 is a schematic view of the structure of the F area in fig. 15 according to the present invention.

In the figure: 1-a frame body; 2-a conveying pipe; 3-bellows; 4-ring block I; 5-a second ring block; 6-stirring leaf I; 7-a stirring assembly; 8-a water pipe; 9-a water outlet assembly; 11-loop bar; 12-a spring; 13-positioning rings; 14-connecting rod; 15-a second sleeve ring; 16-pulling rope; 17-a reel; 18-axis two; 19-side plates; 21-a handle; 22-guide wheels; 23-screw; 24-knob; 61-a transmission assembly; 62-an I-shaped block; 63-a roller; 64-a housing; 65-a water tank; 66-lever one; 67-collar one; 71-ring grooves; 72-a first ring plate; 73-an annular groove; 74-annular blocks; 75-a second annular plate; 76-stirring She Er; 81-a connection assembly; 82-connecting plates; 83-a connecting groove; 84-positioning grooves; 85-limiting blocks; 86-reminder component; 87-pressure sensor; 88-warning lights; 91-annular toothed plates; 92-limiting ring plates; 93-linkage assembly; 94-fluted disc; 95-axis one; 96-positioning grooves; 97-positioning block.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1: referring to fig. 1-13, the present invention provides a technical solution: the building material hoister structure comprises a frame body 1, a conveying pipe 2 and a corrugated pipe 3 which are arranged on the frame body 1, wherein the conveying pipe 2 is fixedly connected with the corrugated pipe 3, and the building material hoister structure further comprises a ring block I4, and the ring block I4 is arranged on the corrugated pipe 3;

the second ring block 5 is arranged on the first ring block 4;

the stirring blades I6 are provided with a plurality of stirring blades I6, and the stirring blades I6 are jointly arranged on the annular block II 5;

the stirring assembly 7 is arranged on the corrugated pipe 3, cement contacts the stirring first 6 through the corrugated pipe 3, and the stirring assembly 7 is utilized to drive the stirring first 6 to rotate;

the water pipe 8 is connected to the first ring block 4 in a conducting manner;

the water outlet assembly 9, the water outlet assembly 9 is arranged on the corrugated pipe 3, cement contacts the stirring blade I6 through the corrugated pipe 3, and the water outlet assembly 9 is utilized to drive the water pipe 8 to drain water.

The stirring assembly 7 comprises a ring groove 71 arranged on the second ring block 5, a first ring plate 72 is connected in a sliding manner in the ring groove 71, and the first ring plate 72 is fixedly connected with the first stirring blades 6;

the annular groove 73 is formed in the second annular block 5, the annular block 74 is connected in the annular groove 73 in a sliding mode, the annular block 74 can rotate relative to the annular groove 73, the second annular block 75 is fixedly connected to the annular block 74, a plurality of stirring She Er are fixedly connected to the second annular block 75, the first annular block 4 is provided with a connecting component 81, accordingly, the starting device drives cement to enter the corrugated pipe 3 through the conveying pipe 2 to contact the first stirring blade 6, the first stirring blade 6 and the stirring She Er are enabled to rotate, the first annular block 72 is driven to rotate in the annular groove 71, the second annular block 75 and the annular block 74 are driven to rotate together, the annular block 74 rotates in the annular groove 73, and the second annular block 5 is enabled to be in displacement contact with the first annular block 4 by the aid of the connecting component 81.

The connecting assembly 81 comprises a connecting plate 82 fixedly connected with the first ring block 4, a connecting groove 83 is formed in the second ring block 5, the connecting groove 83 is in sliding connection with the connecting plate 82, a plurality of positioning grooves 84 are formed in the connecting groove 83, a plurality of limiting blocks 85 are fixedly connected to the connecting plate 82, the limiting blocks 85 are in sliding connection with the positioning grooves 84, a reminding assembly 86 is arranged on the first ring block 4, and cement in a construction site casting wall is poured, so that the cement pushes the second ring block 5, and then the second ring block 5 moves along the connecting plate 82 on the first ring block 4 through the connecting groove 83 on the second ring block 5, so that the second ring block 5 is close to the first ring block 4, and reminding is sent when the second ring block 5 moves to one side of the first ring block 4 by the aid of the reminding assembly 86.

The reminding component 86 comprises a pressure sensor 87 fixedly connected with the first ring block 4, a warning lamp 88 is fixedly connected to the frame body 1, the second ring block 5 is displaced to one side of the first ring block 4 and extruded to the pressure sensor 87, and then the warning lamp 88 is started simultaneously to light up to remind operators of finishing cement pouring.

The first stirring blade 6 adopts a design opposite to the inclination angle of the stirring She Er and when the first stirring blade 6 and the stirring She Er are simultaneously rotated to stir, and the first stirring blade 6 and the stirring She Er are stirred at opposite angles, so that cement stirring is more fully and uniformly performed.

The water outlet assembly 9 comprises an annular toothed plate 91 fixedly connected with the annular toothed plate II 75, a plurality of limiting annular plates 92 are fixedly connected to the annular toothed plate 91, a linkage assembly 93 is arranged on the annular toothed plate 91, when cement contacts with the stirring She Er, the stirring She Er is enabled to rotate, the annular toothed plate II 75 is driven to rotate together with the annular toothed plate 91, the linkage assembly 93 is utilized to drive the water pipe 8 to outlet water, the cement contacts with the stirring blade I6 and the stirring She Er 76, the stirring blade I6 is driven to rotate together with the stirring She Er 76, the water pipe 8 outlet water and the cement flow from the corrugated pipe 3 to the stirring blade I6 and the stirring She Er to be uniformly stirred and mixed, the water is further increased for the cement at the end part of the conveying pipe 2, the water loss of the cement in the conveying process is avoided, and the normal watering of the cement is ensured.

The linkage assembly 93 comprises a fluted disc 94 which is engaged and connected to the annular toothed plate 91, a first shaft 95 is connected to the fluted disc 94 in a sliding manner, the first shaft 95 penetrates through the fluted disc 94, a plurality of positioning grooves 96 are formed in the first shaft 95, a positioning block 97 is connected to the positioning grooves 96 in a sliding manner, the plurality of positioning blocks 97 are fixedly connected with the fluted disc 94, the first shaft 95 is provided with a transmission assembly 61, the annular toothed plate 91 rotates to drive the fluted disc 94 to rotate, and accordingly the second ring plate 75 is driven to move when the second ring plate 5 moves, the fluted disc 94 is driven to move along the first shaft 95 through the limiting ring plate 92, and accordingly the positioning block 97 is driven to slide in the positioning grooves 96 and simultaneously can drive the first shaft 95 to deflect together, and the transmission assembly 61 is utilized to drive the water pipe 8 to discharge water.

The transmission assembly 61 comprises an I-shaped block 62 fixedly connected with a first shaft 95, a plurality of rollers 63 are rotatably connected to the I-shaped block 62 through a rotating shaft, a housing 64 is fixedly connected to a second ring block 4, a water pipe 8 is paved on the inner wall of the housing 64, the plurality of rollers 63 jointly contact and squeeze the surface of the water pipe 8, a water tank 65 is fixedly connected to the frame body 1, one end of the water pipe 8 is connected with the water tank 65 in a conducting manner, the other end of the water pipe 8 penetrates through the housing 64, one end of the water pipe 8 is connected with the corrugated pipe 3 in a conducting manner, the first shaft 95 rotates, the I-shaped block 62 is driven to rotate, and the two rollers 63 are driven through the rotating shaft to alternately squeeze the water pipe 8 attached to the inner wall of the housing 64 so that water flows in the water pipe, and the water is transmitted into the corrugated pipe 3.

The first ring block 4 is fixedly connected with a first rod 66, the conveying pipe 2 is fixedly connected with a first sleeve ring 67, one end of the first rod 66 is fixedly connected with the first sleeve ring 67, and the corrugated pipe 3 is further supported through the first rod 66, so that the end part of the corrugated pipe 3 is vertically poured with cement.

In the normal working process of the construction material elevator structure, cement is conveyed by starting equipment, when the cement contacts the stirring blade I6 and the stirring She Er 76 through the corrugated pipe 3, the stirring blade I6 drives the annular block I4 to rotationally slide in the annular groove 71, so that the stirring blade I6 stirs the cement, and simultaneously drives the stirring She Er 76 and the annular plate II 75 to rotate together in the annular block II 5, so that the stirring She Er 76 stirs the cement, and further drives the annular block 74 to rotationally slide in the annular groove 73, and when the annular plate II 75 rotates, the annular toothed plate 91 is driven to rotate, so that the fluted disc 94 is driven to rotate, then the positioning block 97 on the fluted disc 94 and the positioning groove 96 on the shaft I95 drive the I-shaped block 62 to rotate through the rotating shaft I95, so that the two rollers 63 are simultaneously driven to alternately squeeze the water pipe 8 attached to the inner wall of the shell 64 through the rotating shaft, so that water flows in the water-saving type cement pouring device and is transmitted into the corrugated pipe 3, when the stirring blade I6 and the stirring She Er 76 rotate and simultaneously drive the roller 63 to squeeze the water pipe 8 to drain, further when cement pouring in a construction site is finished, the ring block II 5 is pushed by cement, then the ring block II 5 is close to the ring block I4 by the displacement of the connecting groove 83 on the ring block II 5 along the connecting plate 82 on the ring block I4, meanwhile, the fluted disc 94 is driven by the limiting ring plate 92 on the annular toothed plate 91 to displace along the shaft I95, so as to drive the positioning block 97 to slide in the positioning groove 96, so that the shaft I95 can be driven to deflect together, the ring block II 5 is displaced to one side of the ring block I4 and is extruded to the pressure sensor 87, and then the warning lamp 88 is started to light to remind operators that cement pouring is finished, the construction personnel operate conveniently by the warning component 86, so that the cement at the end of the conveying pipe 2 is increased in water, thereby avoiding the water loss of the cement in the process of transmission and ensuring the normal irrigation of the cement.

Example 2: referring to fig. 1 to 16, the present invention provides the following technical solutions: a building material elevator construction, example 2 being optimized on the basis of example 1.

The first sleeve ring 67 is rotationally connected with a sleeve rod 11 through a rotating shaft, one end of a first rod 66 is rotationally connected with a first ring block 4 through a rotating shaft, a spring 12 is fixedly connected in the sleeve rod 11, one end of the spring 12 is fixedly connected with one end of the first rod 66, a positioning ring 13 is fixedly connected with the sleeve rod 11, the positioning ring 13 is rotationally connected with a connecting rod 14 through the rotating shaft, the conveying pipe 2 is fixedly connected with a second sleeve ring 15, the second sleeve ring 15 is rotationally connected with the connecting rod 14 through the rotating shaft, and the first rod 66 is in sliding connection with the sleeve rod 11;

one end of the first rod 66 is fixedly connected with a pull rope 16, one end of the pull rope 16 is fixedly connected with a winding wheel 17, the pull rope 16 is wound on the winding wheel 17, the winding wheel 17 is fixedly connected with a second shaft 18, the conveying pipe 2 is fixedly connected with a plurality of side plates 19, one end of the second shaft 18 penetrates through one side plate 19 and is rotationally connected with the same through a bearing, one end of the second shaft 18 is fixedly connected with a handle 21, the conveying pipe 2 is fixedly connected with a guide wheel 22, and the pull rope 16 is in sliding connection with the guide wheel 22;

the screw 23 is connected to one side plate 19 in a threaded manner, the screw 23 penetrates one side plate 19, one end of the screw 23 is fixedly connected with the knob 24, when the corrugated pipe 3 needs to be adjusted, the handle 21 is rotated to drive the second 18 rotating shaft to rotate, the winding wheel 17 is driven to rotate, the pull rope 16 is driven to wind on the winding wheel 17, the pull rope 16 penetrates through the guide wheel 22, the pull rope 16 drives the first rod 66 to slide in the sleeve rod 11 to squeeze the spring 12 to bear force, self-resetting capability is provided for the first rod 66, the screw 23 is driven to rotate on the side plate 19 by rotating the knob 24, the handle 21 is locked, and the first adjusting rod 66 is driven to move the corrugated pipe 3 by rotating the handle 21, so that an operator can conveniently use the corrugated pipe.

In the normal working process of the construction material elevator structure, cement is conveyed by starting equipment, when the cement contacts the stirring blade I6 and the stirring She Er 76 through the corrugated pipe 3, the stirring blade I6 drives the annular block I4 to rotationally slide in the annular groove 71, so that the stirring blade I6 stirs the cement, and simultaneously drives the stirring She Er 76 and the annular plate II 75 to rotate together in the annular block II 5, so that the stirring She Er 76 stirs the cement, and further drives the annular block 74 to rotationally slide in the annular groove 73, and when the annular plate II 75 rotates, the annular toothed plate 91 is driven to rotate, so that the fluted disc 94 is driven to rotate, then the positioning block 97 on the fluted disc 94 and the positioning groove 96 on the shaft I95 drive the I-shaped block 62 to rotate through the rotating shaft I95, so that the two rollers 63 are simultaneously driven to alternately squeeze the water pipe 8 attached to the inner wall of the shell 64 through the rotating shaft, so that water flows in the water-saving type cement pouring device and is transmitted into the corrugated pipe 3, when the stirring blade I6 and the stirring She Er 76 rotate and simultaneously drive the roller 63 to squeeze the water pipe 8 to drain, further when cement pouring in a construction site is finished, the ring block II 5 is pushed by cement, then the ring block II 5 is close to the ring block I4 by the displacement of the connecting groove 83 on the ring block II 5 along the connecting plate 82 on the ring block I4, meanwhile, the fluted disc 94 is driven by the limiting ring plate 92 on the annular toothed plate 91 to displace along the shaft I95, so as to drive the positioning block 97 to slide in the positioning groove 96, so that the shaft I95 can be driven to deflect together, the ring block II 5 is displaced to one side of the ring block I4 and is extruded to the pressure sensor 87, and then the warning lamp 88 is started to light to remind operators that cement pouring is finished, the construction personnel operate conveniently by the warning component 86, so that the cement at the end of the conveying pipe 2 is increased in water, and then avoid cement to run off moisture at the in-process of transmission, guarantee the normal watering of cement, when needs adjust bellows 3, thereby rotate handle 21 drive axle two 18 pivots, drive reel 17 rotation simultaneously, and drive stay cord 16 winding is on reel 17, and then stay cord 16 passes guide pulley 22, thereby stay cord 16 drive pole one 66 and push spring 12 atress in the telescopic link 11 sliding, and for pole one 66 provides from the ability of replying, and then place the curb plate 19 of handle 21 one side with screw rod 23, drive screw rod 23 through rotatory knob 24 and rotate on curb plate 19, and then lock handle 21, thereby adjust pole one 66 through the rotation handle 21 and drive bellows 3 displacement, and then make things convenient for the operator to use.

It is noted that relational terms such as first and second, and the like are 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. Moreover, 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.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a building material lifting machine structure, includes support body (1) and sets up conveyer pipe (2), bellows (3) on support body (1), its characterized in that: the corrugated pipe also comprises a first ring block (4), wherein the first ring block (4) is arranged on the corrugated pipe (3);

the second ring block (5) is arranged on the first ring block (4);

the stirring blades I (6) are arranged in a plurality, and the stirring blades I (6) are jointly arranged on the annular block II (5);

the stirring assembly (7) is arranged on the corrugated pipe (3), cement is contacted with the stirring first (6) through the corrugated pipe (3), and the stirring assembly (7) is utilized to drive the stirring first (6) to rotate;

the water pipe (8) is connected to the first annular block (4) in a conducting manner;

the water outlet component (9), the water outlet component (9) is arranged on the corrugated pipe (3), cement is contacted with the stirring blade I (6) through the corrugated pipe (3), and the water outlet component (9) is utilized to drive the water pipe (8) to drain water;

the stirring assembly (7) comprises a ring groove (71) formed in the second ring block (5), a first ring plate (72) is arranged in the ring groove (71), and the first ring plate (72) is connected with the first stirring blades (6);

an annular groove (73) is formed in the second annular block (5), an annular block (74) is arranged in the annular groove (73), a second annular plate (75) is arranged on the annular block (74), a plurality of stirring She Er (76) are arranged on the second annular plate (75), a connecting component (81) is arranged on the first annular block (4), cement contacts the first stirring blade (6) through the corrugated pipe (3), the first stirring blade (6) and the stirring She Er (76) rotate, and the second annular block (5) is enabled to be in displacement contact with the first annular block (4) by utilizing the connecting component (81);

the water outlet assembly (9) comprises an annular toothed plate (91) arranged on the annular toothed plate II (75), a plurality of limiting annular plates (92) are arranged on the annular toothed plate (91), a linkage assembly (93) is arranged on the annular toothed plate (91), when cement contacts the stirring She Er (76), the stirring She Er (76) rotates, the annular toothed plate (91) is driven to rotate, and the linkage assembly (93) is utilized to drive the water pipe (8) to outlet water;

the linkage assembly (93) comprises a fluted disc (94) meshed with the annular toothed plate (91), a first shaft (95) is arranged on the fluted disc (94), the first shaft (95) penetrates through the fluted disc (94), a plurality of positioning grooves (96) are formed in the first shaft (95), positioning blocks (97) are arranged in the positioning grooves (96), the positioning blocks (97) are connected with the fluted disc (94) together, a transmission assembly (61) is arranged on the first shaft (95), the annular toothed plate (91) rotates, the first shaft (95) rotates, and the transmission assembly (61) is utilized to drive the water pipe (8) to discharge water;

the transmission assembly (61) comprises an I-shaped block (62) arranged on a first shaft (95), a plurality of rollers (63) are arranged on the I-shaped block (62) through a rotating shaft, a shell (64) is arranged on a first ring block (4), a water pipe (8) is paved on the inner wall of the shell (64), the rollers (63) are in common contact with and squeeze the surface of the water pipe (8), a water tank (65) is arranged on the frame body (1), one end of the water pipe (8) is connected with the water tank (65) in a conducting mode, the other end of the water pipe (8) penetrates through the shell (64), one end of the water pipe (8) is connected with the corrugated pipe (3) in a conducting mode, and the first shaft (95) rotates to enable the rollers (63) to squeeze water out of the water pipe (8).

2. The building material elevator arrangement of claim 1, wherein: the connecting assembly (81) comprises a connecting plate (82) arranged on the first ring block (4), a connecting groove (83) is formed in the second ring block (5), the connecting groove (83) is connected with the connecting plate (82), a plurality of positioning grooves (84) are formed in the connecting groove (83), a plurality of limiting blocks (85) are arranged on the connecting plate (82), the limiting blocks (85) are connected with the positioning grooves (84), a reminding assembly (86) is arranged on the first ring block (4), the second ring block (5) is close to the first ring block (4) through the connecting plate (82), and reminding is sent out when the second ring block (5) is moved to one side of the first ring block (4) by the aid of the reminding assembly (86).

3. The building material elevator arrangement of claim 2, wherein: the reminding component (86) comprises a pressure sensor (87) arranged on the first annular block (4), and a warning lamp (88) is arranged on the frame body (1).

4. A building material elevator arrangement according to claim 3, wherein: the first stirring blade (6) adopts a design opposite to the inclined angle of the stirring She Er (76).

5. The building material elevator arrangement of claim 4, wherein: the first annular block (4) is provided with a first rod (66), the conveying pipe (2) is provided with a first sleeve ring (67), and one end of the first rod (66) is connected with the first sleeve ring (67).

6. The building material elevator arrangement of claim 5, wherein: a loop bar (11) is arranged on the loop bar (67) through a rotating shaft, one end of the loop bar (66) is connected with the loop block I (4) through the rotating shaft, a spring (12) is arranged in the loop bar (11), one end of the spring (12) is connected with one end of the loop bar (66), a positioning ring (13) is arranged on the loop bar (11), a connecting rod (14) is arranged on the positioning ring (13) through the rotating shaft, a loop bar (15) is arranged on the conveying pipe (2), the loop bar (15) is connected with the connecting rod (14) through the rotating shaft, and the loop bar (66) is connected with the loop bar (11);

one end of the first rod (66) is provided with a pull rope (16), one end of the pull rope (16) is provided with a winding wheel (17), the pull rope (16) is wound on the winding wheel (17), the winding wheel (17) is provided with a second shaft (18), the conveying pipe (2) is provided with a plurality of side plates (19), one end of the second shaft (18) penetrates through one side plate (19) and is connected with the side plate, one end of the second shaft (18) is provided with a handle (21), the conveying pipe (2) is provided with a guide wheel (22), and the pull rope (16) is connected with the guide wheel (22);

one side plate (19) is provided with a screw rod (23), the screw rod (23) penetrates through one side plate (19), and one end of the screw rod (23) is provided with a knob (24).