CN112412055A - Vertical conveying device for building materials - Google Patents

Abstract

The invention discloses a vertical transportation device for building materials, which comprises: the body is suitable for being arranged at a conveying opening of a floor slab; the conveying body is arranged on the body in a vertically movable mode, and at least part of the conveying body is suitable for extending from the conveying opening to the position below the floor slab when the conveying body is at the lowest position; the conveying driving assembly is used for driving the conveying body to move up and down; the upper clamping assembly is arranged on the body, and the lower clamping assembly is suitable for being pressed against the upper surface of the floor slab; the lower clamping component is arranged on the body, one part of the lower clamping component is suitable for extending out of the conveying opening downwards, and the lower clamping component comprises a pressing part which is pressed on the lower surface of the floor slab. According to the building material vertical conveying device provided by the embodiment of the invention, the construction efficiency can be improved, and the safety of constructors can be improved.

Description

Vertical conveying device for building materials

Technical Field

The invention relates to the technical field of construction machinery, in particular to a vertical transportation device for building materials.

Background

General building materials such as aluminum molds are often required to be installed on each floor. In the construction process, the building materials such as the aluminum mold and the like need to be repeatedly disassembled, transported and installed.

In the correlation technique, the vertical transportation of building materials such as aluminium mould is mostly accomplished by the manual work if transmitting to the upper strata by the lower floor, and work is single, intensity of labour is big, the efficiency of construction is at the bottom, in addition in data send process, has great potential safety hazard if because workman's attention is not concentrated or physical deficiency etc. leads to the aluminium mould to empty and cause the casualties of personnel.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art. Therefore, the invention provides a building material vertical conveying device, which is used for improving the construction efficiency and improving the safety of constructors.

According to the embodiment of the invention, the building material vertical transportation device comprises: the body is suitable for being arranged at a conveying opening of a floor slab; the conveying body is arranged on the body in a vertically movable mode, and at least part of the conveying body is suitable for extending from the conveying opening to the position below the floor slab when the conveying body is at the lowest position; the conveying driving assembly is used for driving the conveying body to move up and down; the upper clamping assembly is arranged on the body, and the lower clamping assembly is suitable for being pressed against the upper surface of the floor slab; the lower clamping component is arranged on the body, one part of the lower clamping component is suitable for extending out of the conveying opening downwards, and the lower clamping component comprises a pressing part which is pressed on the lower surface of the floor slab.

According to the vertical conveying device for the building materials, disclosed by the embodiment of the invention, the conveying driving assembly drives the conveying body to move up and down relative to the body, so that the building materials can move up and down along with the conveying body, the manual conveying is reduced, the labor intensity of workers is reduced, the construction efficiency is improved, the safety of constructors is improved, and the casualties caused by the fact that the building materials are toppled due to the fact that the attention of the workers is not concentrated or the physical strength is insufficient are reduced as far as possible. In addition, through last card subassembly and compress tightly the part and respectively support the upper and lower surface in the floor, can play fixed, limiting displacement to the body for the perpendicular conveyer of building materials is fixed in delivery port department steadily, further improves site operation safety.

In some embodiments, the transport drive assembly comprises: the conveying motor is arranged on the body; the conveying rack is vertically arranged on the conveying body; and the conveying gear is connected with the conveying motor and meshed with the conveying rack.

In some embodiments, the upper clamping assembly includes a plurality of length-adjustable feet, and the feet are respectively disposed at the corners of the body.

In some embodiments, a height-adjusting nut is disposed on the body, and the footing includes: the height-adjustable nut comprises a height-adjustable rod, a rotary table and a base plate, wherein the height-adjustable rod is provided with external threads and matched with the height-adjustable nut, and the rotary table and the base plate are respectively arranged at the upper end and the lower end of the height-adjustable rod.

In some embodiments, the lower card assembly comprises: the connecting plate is arranged on the body in a vertically movable manner, and the pressing part is arranged at the bottom of the connecting plate; the driving piece is connected with the connecting plate to drive the connecting plate to move up and down.

Specifically, a threaded hole is formed in the connecting plate, a screw rod matched with the threaded hole is arranged on the driving piece, and the driving piece drives the connecting plate to move up and down when rotating.

Furthermore, the top of the driving piece extends out of the upper part of the body, and a hand wheel is arranged at the top of the driving piece.

In some alternative embodiments, the vertical building material transport device further includes a stop member coupled to the body and cooperating with the connecting plate.

In some embodiments, the building material vertical transport apparatus further comprises: the guide assembly is arranged on the body and comprises at least one group of guide wheels which are rolled on two opposite sides of the conveying body.

In some embodiments, the delivery body comprises: the left frame and the right frame are arranged along the left-right direction, the middle connecting frame is connected between the left frame and the right frame, and building materials are suitable for being placed among the left frame, the right frame and the middle connecting frame; the body is suitable for surrounding the conveying opening and is sleeved on the conveying body, and guide blocks which are stopped to abut against the left frame and the right frame are arranged on the left side and the right side of the body respectively.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a schematic view of a vertical transport device for building material for transporting building material on a floor according to an embodiment of the present invention (shown on a lower floor);

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is a perspective view of a floor in an embodiment of the present invention;

FIG. 4 is a schematic cross-sectional view of another embodiment of a vertical transport for building material at a junction with a floor slab;

fig. 5 is a schematic view of the embodiment of fig. 1 with building materials being transported to an upper floor.

Reference numerals:

a building material vertical transportation device 100,

A body 1, a heightening nut 11, a guide block 12,

A conveying body 2, a left frame 21, a right frame 22, a middle connecting frame 23,

A conveying driving component 3, a conveying motor 31, a conveying rack 32, a conveying gear 33,

An upper clamping component 4, a base 41, a regulating rod 411, a turntable 412, a chassis 413,

A lower clamping component 5, a connecting plate 51, a pressing part 52, a driving part 53, a hand wheel 531, a screw 532,

A guide component 6, a guide wheel 61,

A stopper 7,

Floor 200, transfer port 210,

And (300) building materials.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", "length", "vertical", "horizontal", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

A vertical building material transport apparatus 100 according to an embodiment of the present invention is described with reference to fig. 1-5.

According to an embodiment of the present invention, a vertical building material transport device 100, as shown in fig. 1 to 4, the vertical building material transport device 100 includes: the device comprises a body 1, a conveying body 2, a conveying driving assembly 3, an upper clamping assembly 4 and a lower clamping assembly 5. As shown in fig. 1 and 3, the body 1 is adapted to be provided at a transfer port 210 of a floor slab 200. Here, the delivery port 210 is a through hole penetrating vertically and provided at a certain position on the floor 200, and the building material 300 at the lower layer is transported to the upper layer through the delivery port 210, or the building material 300 at the upper layer is transported to the lower layer through the delivery port 210. As shown in fig. 1 and 5, the transporting body 2 is provided on the body 1 to be movable up and down, and the transporting body 2 is adapted to extend from the transfer port 210 to below the floor 200 at least in part when it is lowermost. The conveying driving assembly 3 is used for driving the conveying body 2 to move up and down. As shown in fig. 1 and 4, the upper card assembly 4 is provided on the body 1, and the lower card assembly 5 is adapted to press against the upper surface of the floor 200. As shown in fig. 4, the lower card assembly 5 is provided on the body 1, a portion of the lower card assembly 5 is adapted to protrude downward from the transfer opening 210, and the lower card assembly 5 includes a pressing portion 52 pressed against the lower surface of the floor 200.

It can be understood that, as shown in fig. 1, during the vertical transportation of the building material 300 in the lower layer through the transfer opening 210, the conveyor 2 may extend from the transfer opening 210 to the lower floor, so that the building material 300 may be mounted on the conveyor 2, and as shown in fig. 5, the building material 300 may follow the conveyor 2 to move upward relative to the body 1 under the driving of the conveying driving assembly 3, so that the building material 300 may be transported from the lower floor to the upper floor. Of course, the building material 300 on the upper floor can be transported downward through the delivery opening 210, and at this time, a part of the conveyor 2 still can extend from the delivery opening 210 to the lower part of the floor 200 at the lowest part, and the building material 300 is fixed on the conveyor 2, and under the driving of the conveying driving assembly 3, the building material 300 can be transported downward along with the conveyor 2, so that the building material 300 can be transported from the upper floor to the lower floor. That is, the conveying driving assembly 3 drives the building material 300 to be transported across layers without being transported by workers, so that the labor intensity of the workers is reduced, the construction efficiency is improved, the safety of constructors is improved, and casualties caused by the fact that the building materials such as aluminum molds topple over due to the fact that the workers are not concentrated or lack of physical strength is reduced as much as possible.

In addition, in the vertical transportation process of the building materials such as the aluminum mold, the impact force generated by the building material 300 risks to push down the machine, and poses a threat to the personal safety and the property safety. To solve the problem, as shown in fig. 4, the present invention provides an upper clamping assembly 4 and a lower clamping assembly 5, wherein a portion of the lower clamping assembly 5 can extend downward from the conveying opening 210, the pressing portion 52 presses against the lower surface of the floor 200, and the upper clamping assembly 4 presses against the upper surface of the floor 200, so that the fixing and limiting effects can be exerted on the body 1, the vertical conveying device 100 for building materials can be stably fixed at the conveying opening 210, the situations of shaking, vertical movement, even overturning and the like of the vertical conveying device 100 for building materials can be effectively reduced, and the safety of field construction can be further improved.

According to the building material vertical conveying device 100 provided by the embodiment of the invention, the conveying body 2 is driven by the conveying driving component 3 to move up and down relative to the body 1, so that the building material 300 can move up and down along with the conveying body 2, the manual conveying and carrying is reduced, the labor intensity of workers is reduced, the construction efficiency is improved, the safety of constructors is improved, and the casualties caused by the fact that aluminum molds topple over due to the fact that the attention of the workers is not concentrated or the physical strength is insufficient are reduced as far as possible. In addition, the upper clamping assembly 4 and the pressing part 52 are respectively pressed against the upper surface and the lower surface of the floor slab 200, so that the fixing and limiting effects on the body 1 can be achieved, the building material vertical conveying device 100 is stably fixed at the conveying opening 210, and the site construction safety is further improved.

In some embodiments, as shown in fig. 1 and 2, the transport drive assembly 3 comprises: a conveying motor 31, a conveying rack 32 and a conveying gear 33. The conveying motor 31 is arranged on the body 1, the conveying rack 32 is vertically arranged on the conveying body 2, and the conveying gear 33 is connected with the conveying motor 31 and meshed with the conveying rack 32. It can be understood that, under the driving of the conveying motor 31, the conveying gear 33 can make a rotational motion, and the conveying rack 32 engaged with the conveying gear 33 can convert the rotational motion into a moving motion, that is, the conveying rack 32 can move up and down, so that the conveying gear 33 can drive the conveying body 2 to move up and down. The conveying driving assembly 3 adopts the driving structure, so that the number of parts is small, the structure is compact, the simplified design of the building material vertical conveying device 100 is facilitated, the driving structure is high in stability, and the transmission is more reliable.

Of course, in other embodiments of the present invention, the conveying driving assembly 3 may also adopt other structures, such as using a chain transmission mechanism, or directly adopting a linear motor as the conveying motor 31, etc.

In some embodiments, as shown in fig. 2, the upper clamping assembly 4 includes a plurality of length-adjustable feet 41, and the feet 41 are respectively disposed at the corners of the body 1. Thus, the plurality of feet 41 can support the body 1 together, and the working stability of the body 1 is improved. In addition, the plurality of feet 41 can also improve the fatigue resistance life of the feet 41, that is, the impact force generated by the building material 300 can be distributed on each foot 41, and the impact force received by a single foot 41 is reduced, so that the fatigue resistance of the foot 41 is improved, and the service life of the foot 41 is further prolonged.

In addition, if there is a certain height of the upper surface of the floor slab 200, the gap between the footing 41 and the upper surface of the floor slab 200 may cause the vertical transportation device 100 to be unstably fixed on the upper surface of the floor slab 200. The body 1 is provided with the footing 414 capable of moving up and down, and the length of the footing 41 can be adjusted to enable the footing 41 to be abutted against the upper surface of the floor slab 200, so that the stability of the body 1 is improved, and the working stability of the building material vertical transportation device 100 is further improved.

In some embodiments, as shown in fig. 2, the height-adjusting nut 11 is disposed on the body 1, and the footing 41 includes: the adjustable rod 411, the rotary table 412 and the chassis 413, the adjustable rod 411 is provided with an external thread and is matched on the height-adjusting nut 11, and the rotary table 412 and the chassis 413 are respectively arranged at the upper end and the lower end of the adjustable rod 411. It can be understood that by rotating the dial 412, the adjusting rod 411 can be rotated, and the adjusting rod 411 can convert the rotation motion into up and down movement, thereby changing the distance between the height-adjusting nut 11 and the chassis 413.

The matching of the height-adjusting nut 11 and the adjusting rod 411 is equivalent to a screw structure, in this way, the chassis 413 is driven to move, the rotating motion form is converted into the moving motion form, and the footing 41 converts a small rotating force into a large pressing force, so that the chassis 413 can support the body 1 conveniently.

In some embodiments, as shown in FIG. 4, the lower card assembly 5 includes: a connecting plate 51, a pressing portion 52 and a driving member 53. A connecting plate 51 is provided on the body 1 to be movable up and down, and a pressing portion 52 is provided at the bottom of the connecting plate 51. The driving member 53 is connected to the connecting plate 51 to drive the connecting plate 51 to move up and down. That is, the driving member 53 can drive the connecting plate 51 to move up and down, and the pressing portion 52 provided at the bottom of the connecting plate 51 can move up and down along with the connecting plate 51. Thus, when the vertical building material conveying device 100 is suitable for the arrangement of the conveying opening 210, the position of the pressing part 52 can be adjusted up and down so that the pressing part 52 is pressed against the lower surface of the floor slab 200.

The connection plate 51 moves up and down to drive the pressing part 52 to move up and down, and the operation is simple when the pressing part 52 is adjusted. And because the compressing part 52 can move up and down, the lower clamping component 5 can be repeatedly adjusted and then compressed, which is beneficial to keeping the stability of the building material vertical transportation device 100 when in long-term use. The transfer of the vertical building material transport device 100 from one transport opening 210 to another transport opening 210 is also very easy to accomplish. The driving member 53 may be driven manually or electrically or in other manners, and the driving member 53 drives the connecting plate 51 to move to adjust the pressing portion 52, which is more labor-saving than directly drawing the connecting plate 51 on the premise of reasonably arranging the driving member 53.

In addition, if the connection plate 51 is manually extended and contracted only from below the floor 200, a worker at a lower floor may touch the connection plate 51 only by stepping on the traveling ladder, in which case it is difficult to press the pressing portion 52 against the floor 200. And adopt driving piece 53 to drive connecting plate 51 and remove, the position of driving piece 53 is more nimble, can set up driving piece 53 in the position of convenient operation.

It is mentioned above that the driving member 53 may be driven manually, electrically or otherwise, for example, the driving member 53 may be a cylinder, and for example, the driving member 53 may be a linear motor.

Specifically, as shown in fig. 4, a threaded hole (not shown) is formed in the connecting plate 51, a threaded rod 532 engaged with the threaded hole is formed in the driving member 53, and the driving member 53 drives the connecting plate 51 to move up and down when rotating. Thus, the driving member 53 can be connected to the connecting plate 51 by the engagement of the threaded rod 532 of the driving member 53 and the threaded hole of the connecting plate 51, so that the driving member 53 can move the connecting plate 51 up and down when rotating.

The threaded hole and the screw rod 532 are matched to be equivalent to a screw rod structure, the connecting plate 51 is driven to move in this way, the rotating motion form is converted into the moving motion form, the structural volume of the driving piece 53 can be very small, and small rotating force can be converted into large pressing force, so that the pressing part 52 can be favorably pressed on the floor slab 200.

The driving member 53 can be a manual driving member 53, and the manual driving member 53 can rotate the screw 532. The driving member 53 may be an electric driving member 53, and the driving member 53 may be a rotating motor.

Further, as shown in fig. 4, the top of the driving member 53 extends from above the body 1, and the top of the driving member 53 is provided with a hand wheel 531. That is, the hand wheel 531 protrudes from above the body 1, so that the worker can easily rotate the hand wheel 531 to rotate the drive screw 532. When the driving member 53 is a manual driving member 53, the hand wheel 531 is arranged to conveniently rotate the screw 532 to adjust the position of the pressing portion 52.

In some alternative embodiments, as shown in fig. 4, the vertical building material transport device 100 further comprises a stop member 7 attached to the body 1 and cooperating with the connecting plate 51. The stop member 7 can cooperate with the connecting plate 51 to clamp the connecting plate 51, so that the stop member 7 can fix and limit the connecting plate 51, and the connecting plate 51 can be fastened in both vertical and horizontal directions. Specifically, after the connection plate 51 moves up and down to press the pressing portion 52 against the lower surface of the floor 200, the stopper 7 may be fitted on the connection plate 51, so that the connection plate 51 may be smoothly fixed to the body 1, so that the pressing portion 52 firmly presses the lower surface of the floor 200.

Specifically, the stopper 7 may be a stopper bolt. It can be understood that the stop bolt is matched with the connecting plate 51, and the stop bolt is screwed into the connecting plate 51, so that the stop bolt can clamp the connecting plate 51, the shaking of the connecting plate 51 is reduced as much as possible, and the stability of the connecting plate 51 is improved. Thus, when the connecting plate 51 needs to be fixed, the stop bolt can be conveniently screwed into the connecting plate 51. When the connecting plate 51 needs to be moved up and down to adjust the position of the pressing portion 52, the stopper bolt can be easily unscrewed from the connecting plate 51. The stop bolt is convenient to disassemble and assemble and can be repeatedly used.

In some embodiments, as shown in fig. 1 and 5, the delivery body 2 comprises: the left frame 21, the right frame 22 and the intermediate link 23, the left frame 21 and the right frame 22 are arranged in the left-right direction, the intermediate link 23 is connected between the left frame 21 and the right frame 22, and the building material 300 is adapted to be placed between the left frame 21, the right frame 22 and the intermediate link 23. The body 1 is suitable for surrounding the conveying opening 210 and is sleeved on the conveying body 2, and the body 1 is respectively provided with guide blocks 12 which are stopped on the left frame 21 and the right frame 22 at the left side and the right side. It will be appreciated that the body 1 surrounds the transfer opening 210 and is wrapped around the conveying body 2 such that the conveying body 2 can move up and down relative to the body 1 through the transfer opening 210. The left frame 21, the right frame 22 and the middle connecting frame 23 can limit and support the conveying body 2, and can improve the up-and-down moving stability of the conveying body 2. The guide blocks 12 which are stopped on the left frame 21 and the right frame 22 can limit and guide the movement of the conveying body 2, improve the movement flexibility of the conveying body 2 and reduce the friction force between the conveying body 2 and the left frame 21 and the right frame 22.

In some embodiments, as shown in fig. 4 and 5, the vertical building material transporting device 100 further includes a guide assembly 6, the guide assembly 6 is disposed on the body 1, and the guide assembly 6 includes at least one set of guide wheels 61 rolling on opposite sides of the conveyor body 2. The guide wheel 61 can be used for guiding the up-and-down movement of the conveying body 2 to play a role in guiding, and in addition, the arrangement of the guide wheel 61 can change sliding friction into rolling friction, so that the friction force between the conveying body 2 and the body 1 is reduced, and the energy loss is reduced.

A vertical transport apparatus 100 for building materials in one embodiment of the invention is described below with reference to fig. 1.

The vertical transportation apparatus 100 for building materials according to an embodiment of the present invention includes: the device comprises a body 1, a conveying body 2, a conveying driving assembly 3, an upper clamping assembly 4, a lower clamping assembly 5, a stop piece 7 and a guide assembly 6.

The body 1 is provided at the transfer port 210 of the floor slab 200.

The conveying body 2 is provided on the main body 1 so as to be movable up and down, and a part of the conveying body 2 extends from the transfer port 210 to a position below the floor 200 at the lowermost position. The conveyance body 2 includes: the left frame 21, the right frame 22 and the intermediate frame 23, the left frame 21 and the right frame 22 are arranged in the left-right direction, the intermediate frame 23 is connected between the left frame 21 and the right frame 22, and the building material 300 is placed between the left frame 21, the right frame 22 and the intermediate frame 23. The body 1 is suitable for surrounding the conveying opening 210 and is sleeved on the conveying body 2, and the body 1 is respectively provided with guide blocks 12 which are stopped on the left frame 21 and the right frame 22 at the left side and the right side.

The conveying driving assembly 3 is used for driving the conveying body 2 to move up and down. The conveyance drive assembly 3 includes: a conveying motor 31, a conveying rack 32 and a conveying gear 33. The conveying motor 31 is provided on the body 1. The conveyor rack 32 is vertically provided on the conveyor body 2. The conveying gear 33 is connected to the conveying motor 31 and engaged with the conveying rack 32.

The upper clamping component 4 is arranged on the body 1, and the lower clamping component 5 is suitable for being pressed against the upper surface of the floor slab 200. The height-adjustable nut 11 and the plurality of feet 41 are arranged on the body 1, the plurality of feet 41 are arranged at the corners of the body 1 respectively. The footing 41 includes: the adjustable rod 411, the rotary table 412 and the chassis 413, the adjustable rod 411 is provided with an external thread and is matched on the height-adjusting nut 11, and the rotary table 412 and the chassis 413 are respectively arranged at the upper end and the lower end of the adjustable rod 411.

The lower card assembly 5 is provided on the body 1, a portion of the lower card assembly 5 protrudes downward from the transfer port 210, and the lower card assembly 5 includes: a connecting plate 51, a pressing portion 52 and a driving member 53. The top of the driving member 53 extends from the upper part of the body 1, and the top of the driving member 53 is provided with a hand wheel 531. A threaded hole is formed in the connecting plate 51, a screw 532 matched with the threaded hole is arranged on the driving piece 53, and the driving piece 53 drives the connecting plate 51 to move up and down when rotating. The pressing portion 52 is disposed at the bottom of the connecting plate 51 and can press against the lower surface of the floor 200.

The stop 7 is attached to the body 1 and cooperates with the connecting plate 51.

The guide assembly 6 is arranged on the body 1, and the guide assembly 6 comprises at least one group of guide wheels 61 rolling on two opposite sides of the conveying body 2.

In the description herein, references to the description of the terms "embodiment," "example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. A vertical transport device for building materials, comprising:

the body is suitable for being arranged at a conveying opening of a floor slab;

the conveying body is arranged on the body in a vertically movable mode, and at least part of the conveying body is suitable for extending from the conveying opening to the position below the floor slab when the conveying body is at the lowest position;

the conveying driving assembly is used for driving the conveying body to move up and down;

the upper clamping assembly is arranged on the body, and the lower clamping assembly is suitable for being pressed against the upper surface of the floor slab;

the lower clamping component is arranged on the body, one part of the lower clamping component is suitable for extending out of the conveying opening downwards, and the lower clamping component comprises a pressing part which is pressed on the lower surface of the floor slab.

2. A building material vertical transport device of claim 1, wherein the transport drive assembly comprises:

the conveying motor is arranged on the body;

the conveying rack is vertically arranged on the conveying body;

and the conveying gear is connected with the conveying motor and meshed with the conveying rack.

3. A building material vertical transport device as in claim 1, wherein the upper clamp assembly comprises a plurality of feet with adjustable length, the feet being disposed at respective corners of the body.

4. A building material vertical transport device of claim 1, wherein the body is provided with a height-adjusting nut, and the footing comprises: the height-adjustable nut comprises a height-adjustable rod, a rotary table and a base plate, wherein the height-adjustable rod is provided with external threads and matched with the height-adjustable nut, and the rotary table and the base plate are respectively arranged at the upper end and the lower end of the height-adjustable rod.

5. A building material vertical transport device of claim 1, wherein the lower clamp assembly comprises:

the connecting plate is arranged on the body in a vertically movable manner, and the pressing part is arranged at the bottom of the connecting plate;

the driving piece is connected with the connecting plate to drive the connecting plate to move up and down.

6. A building material vertical transportation device as claimed in claim 5, wherein the connecting plate is provided with a threaded hole, and the driving member is provided with a screw rod engaged with the threaded hole, and the driving member drives the connecting plate to move up and down when rotated.

7. A building material vertical transport device as in claim 6, wherein a top portion of the drive member extends above the body, the top portion of the drive member having a hand wheel.

8. A building material vertical transport device as in claim 5, further comprising a stop member connected to the body and engaging the connecting plate.

9. A building material vertical transport device of any of claims 1-8, further comprising: the guide assembly is arranged on the body and comprises at least one group of guide wheels which are rolled on two opposite sides of the conveying body.

10. A building material vertical transport device of any of claims 1-8, wherein the conveyor comprises: the left frame and the right frame are arranged along the left-right direction, the middle connecting frame is connected between the left frame and the right frame, and building materials are suitable for being placed among the left frame, the right frame and the middle connecting frame;

the body is suitable for surrounding the conveying opening and is sleeved on the conveying body, and guide blocks which are stopped to abut against the left frame and the right frame are arranged on the left side and the right side of the body respectively.

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