CN205036088U

CN205036088U - Concrete automatic lifting system

Info

Publication number: CN205036088U
Application number: CN201520826412.0U
Authority: CN
Inventors: 蔡旭东
Original assignee: Individual
Current assignee: Individual
Priority date: 2015-10-21
Filing date: 2015-10-21
Publication date: 2016-02-17
Anticipated expiration: 2025-10-21

Abstract

The utility model provides a concrete automatic lifting system, comprising a base plate, the support device, strutting arrangement, positioner, draw high the device, fixing device and balancing unit, be equipped with the gyro wheel on the bottom plate, the support device includes first bracing piece, first crooked pole, first down tube, first horizontal pole, first support and lug, strutting arrangement includes the second bracing piece, the second down tube, the third down tube, the second horizontal pole, fourth down tube and workbin, positioner includes first locating lever, the third horizontal pole, the second locating lever, the locating rack, the 5th down tube, the 6th down tube, fourth horizontal pole and the 7th down tube, it includes the backup pad to draw high the device, first montant, the second montant, the frame, first connecting wire, pivot and motor, fixing device includes first fixed block, first dead lever, the second dead lever, the third dead lever, the fourth dead lever, the 5th dead lever and the 6th dead lever, balancing unit includes the mount, circle wheel and second connecting wire, the utility model discloses degree of automation is high, reduces the human cost.

Description

A kind of concrete self-lifting system

Technical field

The present invention relates to building machinery technical field, particularly relate to a kind of concrete self-lifting system.

Background technology

Now general building site is commodity in use concrete all, thered is provided by special concrete manufacturers, but in some little building site or when needing the concrete of particular arrangement, often still need to configure voluntarily, artificial loading or haul is needed when building flooring or batching stirs, or use the simple winding plant that promotes to operate, its labour intensity is still very large, and inefficiency.

Therefore, need to provide a kind of new technical scheme to solve the problems of the technologies described above.

Summary of the invention

The object of this invention is to provide a kind of concrete self-lifting system that can effectively solve the problems of the technologies described above.

In order to solve the problems of the technologies described above, the present invention adopts following technical scheme:

A kind of concrete self-lifting system, described concrete self-lifting system comprises base plate, be positioned at the holder device above described base plate, be positioned at the bracing or strutting arrangement on the left of described holder device, be positioned at the positioner on the right side of described bracing or strutting arrangement, be positioned at and draw high device above described positioner, the bascule being arranged at the fastening devices on described holder device and being positioned at above described holder device, described base plate is provided with the roller being positioned at below, and described holder device comprises the first support bar, be positioned at the first bent stick on the right side of described first support bar, be positioned at the first brace on the left of described first support bar, be positioned at the first cross bar above described first brace, be positioned at the first support below described first cross bar and be arranged at the projection of described first support bar left surface, described bracing or strutting arrangement comprises the second support bar, be positioned at the second brace on the left of described second support bar, be positioned at the 3rd brace on the right side of described second support bar, be positioned at the second cross bar above described second brace, the hopper being positioned at the 4th brace below described 3rd brace and being positioned at above described second support bar, described positioner comprises the first backstay, be positioned at the 3rd cross bar on the right side of described first backstay, be positioned at the second backstay on the right side of described 3rd cross bar, be positioned at the locating rack above described second backstay, be positioned at the 5th brace on the right side of described second backstay, be positioned at the 6th brace on the right side of described 5th brace, the 7th brace being positioned at the 4th cross bar on the right side of described locating rack and being positioned at above described locating rack, described in draw high device and comprise gripper shoe, be positioned at the first montant below described gripper shoe, be positioned at the second montant above described gripper shoe, be arranged at the housing on described second montant, be arranged at the first connecting line on described housing, be positioned at the rotating shaft on described first connecting line and motor, described fastening devices comprises the first fixed block, be positioned at the first fixed bar below described first fixed block, be positioned at the second fixed bar on the right side of described first fixed block, be positioned at the 3rd fixed bar above described first fixed block, be positioned at the 4th fixed bar on the left of described 3rd fixed bar, the 6th fixed bar being positioned at the 5th fixed bar on the right side of described motor and being positioned on the right side of described 5th fixed bar, described bascule comprises fixed mount, the second connecting line being arranged at the circle wheel on described fixed mount and being arranged on described circle wheel.

Described first support bar is cuboid, described first support bar is vertically placed, the lower end of described first support bar is fixedly connected with the upper surface of described base plate, described first bent stick is bending, the lower end of described first bent stick is fixedly connected with the upper surface of described base plate, the upper end of described first bent stick is fixedly connected with the right surface of described first support bar, described first brace is skewed, one end of described first brace is fixedly connected with the upper surface of described base plate, the other end of described first brace is fixedly connected with the left surface of described first support bar, described first cross bar is cuboid, described first cross bar horizontal positioned, the right-hand member of described first cross bar is fixedly connected with the left surface of described first support bar, described first support bar is provided with the first through hole running through its upper and lower surface, described first support is L-type, one end of described first support is fixedly connected with the soffit of described first cross bar, the other end of described first support is horizontal, the cross section of described projection is half elliptic, the right surface of described projection is fixedly connected with the left surface of described first support bar.

Described second support bar is cuboid, described second support bar is vertically placed, the soffit of described second support bar is fixedly connected with the upper surface of described base plate, described second cross bar is cuboid, described second cross bar horizontal positioned, the right-hand member of described second cross bar is fixedly connected with the left surface of described second support bar, described second brace is skewed, one end of described second brace is fixedly connected with the left surface of described second support bar, the other end of described second brace is fixedly connected with the soffit of described second cross bar, described 3rd brace is skewed, the lower end of described 3rd brace is fixedly connected with the right surface of described second support bar, the upper surface of described 3rd brace and the upper surface of described second support bar are in same level, described 4th brace is skewed, the upper end of described 4th brace is fixedly connected with described 3rd brace, described hopper is hollow cuboid.

Described first backstay is cuboid, the soffit of described first backstay is fixedly connected with the upper surface of described base plate, described second backstay is cuboid, the lower end of described second backstay is fixedly connected with the upper surface of described base plate, described locating rack is L-type, the upper end of described second backstay is fixedly connected with the soffit of described locating rack, described 5th brace is skewed, the lower end of described 5th brace is fixedly connected with the right surface of described second backstay, the upper end of described 5th brace is fixedly connected with described locating rack, described 6th brace is skewed, the upper end of described 6th brace is fixedly connected with described 5th brace, the lower end of described 6th brace is fixedly connected with described first brace, described 4th cross bar is cuboid, described 4th cross bar horizontal positioned, the left end of described 4th cross bar is fixedly connected with described locating rack, the right-hand member of described 4th cross bar is fixedly connected with the left surface of described first support bar, described 7th brace is skewed, the upper end of described 7th brace is fixedly connected with described projection, the lower end of described 7th brace is fixedly connected with the upper surface of described locating rack.

Described gripper shoe is cuboid, described gripper shoe horizontal positioned, described first montant is cuboid, described first montant is vertically placed, and the upper end of described first montant is fixedly connected with the soffit of described gripper shoe, and described second montant is cuboid, described second montant is vertically placed, the soffit of described second montant is fixedly connected with the upper surface of described gripper shoe, and described first montant is connected with the right surface sliding of described first backstay, and described second montant and described locating rack are slidably connected.

Described housing is bending, one end of described housing is fixedly connected with the left surface of described second montant, the other end of described housing is fixedly connected with the upper surface of described gripper shoe, described first connecting line is vertical shape, described first connecting line is fixedly connected with described housing, and the upper end of described first connecting line is fixedly connected with described rotating shaft, and the upper surface of described motor is fixedly connected with the soffit of described first cross bar, described rotating shaft is cylinder, and described rotating shaft is connected with described motor.

Described first fixed block is cuboid, described first fixed block horizontal positioned, one end of described first support is fixedly connected with the left surface of described first fixed block, described first fixed block is provided with the second through hole running through its upper and lower surface, described first fixed bar is bending, one end of described first fixed bar is fixedly connected with the soffit of described first fixed block, described first fixed bar is provided with the third through-hole running through its upper and lower surface, described third through-hole is positioned at the below of described second through hole, described second fixed bar is horizontal, the left end of described second fixed bar is fixedly connected with the right surface of described first fixed block, the right-hand member of described second fixed bar is fixedly connected with described projection, described second fixed bar is provided with the fourth hole running through its upper and lower surface.

Described 3rd fixed bar is cuboid, described 3rd fixed bar is vertically placed, the lower end of described 3rd fixed bar is fixedly connected with the upper surface of described first fixed block, the upper end of described 3rd fixed bar is fixedly connected with the soffit of described motor, described 4th fixed bar is cuboid, described 4th fixed bar horizontal positioned, the left end of described 4th fixed bar is fixedly connected with described first support, the upper surface of described 4th fixed bar contacts with the soffit of described motor, described 5th fixed bar is horizontal, the described left end of the 5th fixed bar is fixedly connected with the right surface of described motor, described 5th fixed bar is provided with the fifth hole running through its upper and lower surface, described 6th fixed bar is skewed, the upper end of described 6th fixed bar is fixedly connected with described first cross bar, the lower end of described 6th fixed bar is fixedly connected with described first support bar, described 6th fixed bar is provided with the 6th through hole running through its upper and lower surface, described 6th through hole is positioned at the below of described first through hole, the right-hand member of described 5th fixed bar is fixedly connected with described 6th fixed bar.

Described fixed mount is L-type, one end of described fixed mount is fixedly connected with the upper surface of described first cross bar, the other end of described fixed mount is horizontal, described fixed mount is provided with groove, described circle wheel is in cylinder, described round wheel is contained in turn in described groove and with described fixed mount axle and is connected, described circle wheel is provided with torsion spring, the upper end of described connecting line is fixedly connected with described round wheel, and the lower end of described connecting line is fixedly connected with the upper surface of described second montant through the first through hole, the 6th through hole and fifth hole.

After adopting technique scheme, tool of the present invention has the following advantages:

Concrete self-lifting system structure of the present invention is simple, easy to use, automatically concrete etc. can be transported to the height of needs, automaticity is high, can reduce the use of personnel, reduces human cost, and reduce the intensity of hand labor, substantially increase conevying efficiency.

Accompanying drawing explanation

Be described further below in conjunction with the detailed description of the invention of accompanying drawing to concrete self-lifting system of the present invention:

Fig. 1 is the structural representation of concrete self-lifting system of the present invention;

Detailed description of the invention

As shown in Figure 1, concrete self-lifting system of the present invention comprises base plate 1, is positioned at holder device 2 above described base plate 1, is positioned at bracing or strutting arrangement 3 on the left of described holder device 2, is positioned at positioner 4 on the right side of described bracing or strutting arrangement 3, is positioned at the bascule 7 drawing high device 5, be arranged at the fastening devices 6 on described holder device 2 and be positioned at above described holder device 2 above described positioner 4.

As shown in Figure 1, described base plate 1 is cuboid, described base plate 1 horizontal positioned, described base plate 1 is provided with the roller 12 being positioned at below, described roller 12 is provided with two and lays respectively at the left and right sides, and described roller 12 is in cylinder, and described roller 12 can drive described base plate 1 to move.

As shown in Figure 1, described holder device 2 comprises the first support bar 21, is positioned at the first bent stick 22 on the right side of described first support bar 21, is positioned at the first brace 23 on the left of described first support bar 21, is positioned at the first cross bar 24 above described first brace 23, is positioned at the first support 25 below described first cross bar 24 and is arranged at the projection 26 of described first support bar 21 left surface.Described first support bar 21 is in cuboid, and described first support bar 21 is vertically placed, and the lower end of described first support bar 21 is fixedly connected with the upper surface of described base plate 1.Described first bent stick 22 is in bending, and the lower end of described first bent stick 22 is fixedly connected with the upper surface of described base plate 1, and the upper end of described first bent stick 22 is fixedly connected with the right surface of described first support bar 21.Described first brace 23 is in skewed, and one end of described first brace 23 is fixedly connected with the upper surface of described base plate 1, and the other end of described first brace 23 is fixedly connected with the left surface of described first support bar 21.Described first cross bar 24 is in cuboid, described first cross bar 24 horizontal positioned, the right-hand member of described first cross bar 24 is fixedly connected with the left surface of described first support bar 21, and described first support bar 24 is provided with the first through hole 241 running through its upper and lower surface, and described first through hole 241 is in cylindrical shape.Described first support 25 is in L-type, and one end of described first support 25 is fixedly connected with the soffit of described first cross bar 24, and the other end of described first support 25 is horizontal.Described projection 26 is provided with several and is arranged in order up and down, and the cross section of described projection 26 is half elliptic, and the right surface of described projection 26 is fixedly connected with the left surface of described first support bar 21.

As shown in Figure 1, described bracing or strutting arrangement 3 hopper 36 that comprises the second support bar 31, be positioned at the second brace 32 on the left of described second support bar 31, be positioned at the 3rd brace 33 on the right side of described second support bar 31, be positioned at the second cross bar 34 above described second brace 32, be positioned at the 4th brace 35 below described 3rd brace 33 and be positioned at above described second support bar 31.Described second support bar 31 is in cuboid, and described second support bar 31 is vertically placed, and the soffit of described second support bar 31 is fixedly connected with the upper surface of described base plate 1.Described second cross bar 34 is in cuboid, and described second cross bar 34 horizontal positioned, the right-hand member of described second cross bar 34 is fixedly connected with the left surface of described second support bar 31.Described second brace 32 is in skewed, and one end of described second brace 32 is fixedly connected with the left surface of described second support bar 31, and the other end of described second brace 32 is fixedly connected with the soffit of described second cross bar 34.Described 3rd brace 33 is in skewed, and the lower end of described 3rd brace 33 is fixedly connected with the right surface of described second support bar 31, and the upper surface of described 3rd brace 33 and the upper surface of described second support bar 31 are in same level.Described 4th brace 35 is in skewed, and the upper end of described 4th brace 35 is fixedly connected with described 3rd brace 33.Described hopper 36 is in hollow cuboid, and the soffit of described hopper 36 contacts with the upper surface of described second support bar 31, second cross bar 34 and the 3rd brace 33.

As shown in Figure 1, described positioner 4 the 7th brace 48 that comprises the first backstay 41, be positioned at the 3rd cross bar 42 on the right side of described first backstay 41, be positioned at the second backstay 43 on the right side of described 3rd cross bar 42, be positioned at locating rack 44 above described second backstay 43, be positioned at the 5th brace 45 on the right side of described second backstay 43, be positioned at the 6th brace 46 on the right side of described 5th brace 45, be positioned at the 4th cross bar 47 on the right side of described locating rack 44 and be positioned at above described locating rack 44.Described first backstay 41 is in cuboid, and described first backstay 41 is vertically placed, and the soffit of described first backstay 41 is fixedly connected with the upper surface of described base plate 1, and the lower end of described 4th brace 35 is fixedly connected with the upper surface of described first backstay 41.Described second backstay 43 is in cuboid, and described second backstay 43 is vertically placed, and the lower end of described second backstay 43 is fixedly connected with the upper surface of described base plate 1.Described 3rd cross bar 42 is in cuboid, and described 3rd cross bar 42 horizontal positioned, the left end of described 3rd cross bar 42 is fixedly connected with described first backstay 41, and the right-hand member of described 3rd cross bar 42 is fixedly connected with described second backstay 43.Described locating rack 44 is in L-type, and the upper end of described second backstay 43 is fixedly connected with the soffit of described locating rack 44.Described 5th brace 45 is in skewed, and the lower end of described 5th brace 45 is fixedly connected with the right surface of described second backstay 43, and the upper end of described 5th brace 45 is fixedly connected with described locating rack 44.Described 6th brace 46 is in skewed, and the upper end of described 6th brace 46 is fixedly connected with described 5th brace 45, and the lower end of described 6th brace 46 is fixedly connected with described first brace 23.Described 4th cross bar 47 is in cuboid, and described 4th cross bar 47 horizontal positioned, the left end of described 4th cross bar 47 is fixedly connected with described locating rack 44, and the right-hand member of described 4th cross bar 47 is fixedly connected with the left surface of described first support bar 21.Described 7th brace 48 is in skewed, and the upper end of described 7th brace 48 is fixedly connected with described projection 26, and the lower end of described 7th brace 48 is fixedly connected with the upper surface of described locating rack 44.

As shown in Figure 1, draw high described in that device 5 comprises gripper shoe 51, is positioned at the first montant 52 below described gripper shoe 51, is positioned at the second montant 53 above described gripper shoe 51, the housing 54 be arranged on described second montant 53, the first connecting line 55 be arranged on described housing 54, be positioned at rotating shaft 56 on described first connecting line 55 and motor 57.Described gripper shoe 51 is cuboid, described gripper shoe 51 horizontal positioned.Described first montant 52 is in cuboid, and described first montant 52 is vertically placed, and the upper end of described first montant 52 is fixedly connected with the soffit of described gripper shoe 51.Described second montant 53 is in cuboid, described second montant 53 is vertically placed, the soffit of described second montant 53 is fixedly connected with the upper surface of described gripper shoe 51, described first montant 52 is connected with the right surface sliding of described first backstay 41, and described second montant 53 is slidably connected with described locating rack 44.Described housing 54 is in bending, and one end of described housing 54 is fixedly connected with the left surface of described second montant 53, and the other end of described housing 54 is fixedly connected with the upper surface of described gripper shoe 51.Described first connecting line 55 is in vertical shape, and the lower end of described first connecting line 55 is divided into three sub-lines, and described first connecting line 55 is fixedly connected with described housing 54, and the upper end of described first connecting line 55 is fixedly connected with described rotating shaft 56.The upper surface of described motor 57 is fixedly connected with the soffit of described first cross bar 24.Described rotating shaft 56 is in cylinder, and described rotating shaft 56 is connected with described motor 57, makes described motor 57 drive described rotating shaft 56 to rotate.

As shown in Figure 1, described fastening devices 6 the 6th fixed bar 67 that comprises the first fixed block 61, be positioned at the first fixed bar 62 below described first fixed block 61, be positioned at the second fixed bar 63 on the right side of described first fixed block 61, be positioned at the 3rd fixed bar 64 above described first fixed block 61, be positioned at the 4th fixed bar 65 on the left of described 3rd fixed bar 64, be positioned at the 5th fixed bar 66 on the right side of described motor 57 and be positioned on the right side of described 5th fixed bar 66.Described first fixed block 61 is in cuboid, described first fixed block 61 horizontal positioned, one end of described first support 25 is fixedly connected with the left surface of described first fixed block 61, described first fixed block 61 is provided with the second through hole 611 running through its upper and lower surface, and described second through hole 611 is in cylindrical shape.Described first fixed bar 62 is in bending, one end of described first fixed bar 62 is fixedly connected with the soffit of described first fixed block 61, described first fixed bar 62 is provided with the third through-hole 621 running through its upper and lower surface, and described third through-hole 621 is positioned at the below of described second through hole 611.Described second fixed bar 63 is horizontal, the left end of described second fixed bar 63 is fixedly connected with the right surface of described first fixed block 61, the right-hand member of described second fixed bar 63 is fixedly connected with described projection 26, described second fixed bar 63 is provided with the fourth hole 631 running through its upper and lower surface, and described fourth hole 631 is in cylindrical shape.Described 3rd fixed bar 64 is in cuboid, and described 3rd fixed bar 64 is vertically placed, and the lower end of described 3rd fixed bar 64 is fixedly connected with the upper surface of described first fixed block 61, and the upper end of described 3rd fixed bar 64 is fixedly connected with the soffit of described motor 57.Described 4th fixed bar 65 is in cuboid, and described 4th fixed bar 65 horizontal positioned, the left end of described 4th fixed bar 65 is fixedly connected with described first support 25, and the upper surface of described 4th fixed bar 65 contacts with the soffit of described motor 57.Described 5th fixed bar 66 is horizontal, and the left end of described 5th fixed bar 66 is fixedly connected with the right surface of described motor 57, and described 5th fixed bar 66 is provided with the fifth hole 661 running through its upper and lower surface, and described fifth hole 611 is in cylindrical shape.Described 6th fixed bar 67 is in skewed, the upper end of described 6th fixed bar 67 is fixedly connected with described first cross bar 24, the lower end of described 6th fixed bar 67 is fixedly connected with described first support bar 21, described 6th fixed bar 67 is provided with the 6th through hole 671 running through its upper and lower surface, described 6th through hole 671 is positioned at the below of described first through hole 241, and the right-hand member of described 5th fixed bar 66 is fixedly connected with described 6th fixed bar 67.

As shown in Figure 1, described bascule 7 comprises fixed mount 71, is arranged at the round wheel 72 on described fixed mount 71 and is arranged at the second connecting line 73 on described round wheel 72.Described fixed mount 71 is in L-type, and one end of described fixed mount 71 is fixedly connected with the upper surface of described first cross bar 24, and the other end of described fixed mount 71 is horizontal, and described fixed mount 71 is provided with groove 711, and described groove 711 is in rectangular-shaped.Described round wheel 72 is in cylinder, described round wheel 72 is contained in turn in described groove 711 and with described fixed mount 71 axle and is connected, described round wheel 72 can be rotated in described groove 711, and described round wheel 72 is provided with torsion spring, thus makes connecting line 73 have the tendency moved up.The upper end of described connecting line 73 is fixedly connected with described round wheel 72, and the lower end of described connecting line 73 is fixedly connected with the upper surface of described second montant 53 through the first through hole 241, the 6th through hole 671 and fifth hole 661.

As shown in Figure 1, when described concrete self-lifting system of the present invention uses, first concrete is put into hopper 36, then promote hopper 36 to the right, make hopper 36 in gripper shoe 51, then starter motor 57, makes rotating shaft 56 rotate, and makes the first connecting line 55 upwards pull housing 54, and then make gripper shoe 51 drive hopper 36 to move up, due to the setting of projection 26 and the second connecting line 73, make gripper shoe 51 can be in equilibrium state always, thus ensure that hopper 36 can not be toppled over.And due to the setting of the first fixed block 61 and the first fixed bar 62, prevent the first connecting line 55 double swerve, ensure that the stable of hopper 36.So far, concrete self-lifting system of the present invention use procedure is described.

The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, any those skilled in the art are in the technical scope that the present invention discloses; change can be expected easily or replace, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection domain of described claim.

Claims

1. a concrete self-lifting system, is characterized in that: described concrete self-lifting system comprises base plate, be positioned at the holder device above described base plate, be positioned at the bracing or strutting arrangement on the left of described holder device, be positioned at the positioner on the right side of described bracing or strutting arrangement, be positioned at and draw high device above described positioner, the bascule being arranged at the fastening devices on described holder device and being positioned at above described holder device, described base plate is provided with the roller being positioned at below, and described holder device comprises the first support bar, be positioned at the first bent stick on the right side of described first support bar, be positioned at the first brace on the left of described first support bar, be positioned at the first cross bar above described first brace, be positioned at the first support below described first cross bar and be arranged at the projection of described first support bar left surface, described bracing or strutting arrangement comprises the second support bar, be positioned at the second brace on the left of described second support bar, be positioned at the 3rd brace on the right side of described second support bar, be positioned at the second cross bar above described second brace, the hopper being positioned at the 4th brace below described 3rd brace and being positioned at above described second support bar, described positioner comprises the first backstay, be positioned at the 3rd cross bar on the right side of described first backstay, be positioned at the second backstay on the right side of described 3rd cross bar, be positioned at the locating rack above described second backstay, be positioned at the 5th brace on the right side of described second backstay, be positioned at the 6th brace on the right side of described 5th brace, the 7th brace being positioned at the 4th cross bar on the right side of described locating rack and being positioned at above described locating rack, described in draw high device and comprise gripper shoe, be positioned at the first montant below described gripper shoe, be positioned at the second montant above described gripper shoe, be arranged at the housing on described second montant, be arranged at the first connecting line on described housing, be positioned at the rotating shaft on described first connecting line and motor, described fastening devices comprises the first fixed block, be positioned at the first fixed bar below described first fixed block, be positioned at the second fixed bar on the right side of described first fixed block, be positioned at the 3rd fixed bar above described first fixed block, be positioned at the 4th fixed bar on the left of described 3rd fixed bar, the 6th fixed bar being positioned at the 5th fixed bar on the right side of described motor and being positioned on the right side of described 5th fixed bar, described bascule comprises fixed mount, the second connecting line being arranged at the circle wheel on described fixed mount and being arranged on described circle wheel.

2. concrete self-lifting system according to claim 1, it is characterized in that: described first support bar is cuboid, described first support bar is vertically placed, the lower end of described first support bar is fixedly connected with the upper surface of described base plate, described first bent stick is bending, the lower end of described first bent stick is fixedly connected with the upper surface of described base plate, the upper end of described first bent stick is fixedly connected with the right surface of described first support bar, described first brace is skewed, one end of described first brace is fixedly connected with the upper surface of described base plate, the other end of described first brace is fixedly connected with the left surface of described first support bar, described first cross bar is cuboid, described first cross bar horizontal positioned, the right-hand member of described first cross bar is fixedly connected with the left surface of described first support bar, described first support bar is provided with the first through hole running through its upper and lower surface, described first support is L-type, one end of described first support is fixedly connected with the soffit of described first cross bar, the other end of described first support is horizontal, the cross section of described projection is half elliptic, the right surface of described projection is fixedly connected with the left surface of described first support bar.

3. concrete self-lifting system according to claim 2, it is characterized in that: described second support bar is cuboid, described second support bar is vertically placed, the soffit of described second support bar is fixedly connected with the upper surface of described base plate, described second cross bar is cuboid, described second cross bar horizontal positioned, the right-hand member of described second cross bar is fixedly connected with the left surface of described second support bar, described second brace is skewed, one end of described second brace is fixedly connected with the left surface of described second support bar, the other end of described second brace is fixedly connected with the soffit of described second cross bar, described 3rd brace is skewed, the lower end of described 3rd brace is fixedly connected with the right surface of described second support bar, the upper surface of described 3rd brace and the upper surface of described second support bar are in same level, described 4th brace is skewed, the upper end of described 4th brace is fixedly connected with described 3rd brace, described hopper is hollow cuboid.

4. concrete self-lifting system according to claim 3, it is characterized in that: described first backstay is cuboid, the soffit of described first backstay is fixedly connected with the upper surface of described base plate, described second backstay is cuboid, the lower end of described second backstay is fixedly connected with the upper surface of described base plate, described locating rack is L-type, the upper end of described second backstay is fixedly connected with the soffit of described locating rack, described 5th brace is skewed, the lower end of described 5th brace is fixedly connected with the right surface of described second backstay, the upper end of described 5th brace is fixedly connected with described locating rack, described 6th brace is skewed, the upper end of described 6th brace is fixedly connected with described 5th brace, the lower end of described 6th brace is fixedly connected with described first brace, described 4th cross bar is cuboid, described 4th cross bar horizontal positioned, the left end of described 4th cross bar is fixedly connected with described locating rack, the right-hand member of described 4th cross bar is fixedly connected with the left surface of described first support bar, described 7th brace is skewed, the upper end of described 7th brace is fixedly connected with described projection, the lower end of described 7th brace is fixedly connected with the upper surface of described locating rack.

5. concrete self-lifting system according to claim 4, it is characterized in that: described gripper shoe is cuboid, described gripper shoe horizontal positioned, described first montant is cuboid, described first montant is vertically placed, the upper end of described first montant is fixedly connected with the soffit of described gripper shoe, described second montant is cuboid, described second montant is vertically placed, the soffit of described second montant is fixedly connected with the upper surface of described gripper shoe, described first montant is connected with the right surface sliding of described first backstay, described second montant and described locating rack are slidably connected.

6. concrete self-lifting system according to claim 5, it is characterized in that: described housing is bending, one end of described housing is fixedly connected with the left surface of described second montant, the other end of described housing is fixedly connected with the upper surface of described gripper shoe, described first connecting line is vertical shape, described first connecting line is fixedly connected with described housing, the upper end of described first connecting line is fixedly connected with described rotating shaft, the upper surface of described motor is fixedly connected with the soffit of described first cross bar, described rotating shaft is cylinder, described rotating shaft is connected with described motor.

7. concrete self-lifting system according to claim 6, it is characterized in that: described first fixed block is cuboid, described first fixed block horizontal positioned, one end of described first support is fixedly connected with the left surface of described first fixed block, described first fixed block is provided with the second through hole running through its upper and lower surface, described first fixed bar is bending, one end of described first fixed bar is fixedly connected with the soffit of described first fixed block, described first fixed bar is provided with the third through-hole running through its upper and lower surface, described third through-hole is positioned at the below of described second through hole, described second fixed bar is horizontal, the left end of described second fixed bar is fixedly connected with the right surface of described first fixed block, the right-hand member of described second fixed bar is fixedly connected with described projection, described second fixed bar is provided with the fourth hole running through its upper and lower surface.

8. concrete self-lifting system according to claim 7, it is characterized in that: described 3rd fixed bar is cuboid, described 3rd fixed bar is vertically placed, the lower end of described 3rd fixed bar is fixedly connected with the upper surface of described first fixed block, the upper end of described 3rd fixed bar is fixedly connected with the soffit of described motor, described 4th fixed bar is cuboid, described 4th fixed bar horizontal positioned, the left end of described 4th fixed bar is fixedly connected with described first support, the upper surface of described 4th fixed bar contacts with the soffit of described motor, described 5th fixed bar is horizontal, the described left end of the 5th fixed bar is fixedly connected with the right surface of described motor, described 5th fixed bar is provided with the fifth hole running through its upper and lower surface, described 6th fixed bar is skewed, the upper end of described 6th fixed bar is fixedly connected with described first cross bar, the lower end of described 6th fixed bar is fixedly connected with described first support bar, described 6th fixed bar is provided with the 6th through hole running through its upper and lower surface, described 6th through hole is positioned at the below of described first through hole, the right-hand member of described 5th fixed bar is fixedly connected with described 6th fixed bar.

9. concrete self-lifting system according to claim 8, it is characterized in that: described fixed mount is L-type, one end of described fixed mount is fixedly connected with the upper surface of described first cross bar, the other end of described fixed mount is horizontal, described fixed mount is provided with groove, described circle wheel is in cylinder, described round wheel is contained in turn in described groove and with described fixed mount axle and is connected, described circle wheel is provided with torsion spring, the upper end of described connecting line is fixedly connected with described round wheel, the lower end of described connecting line is through the first through hole, 6th through hole and fifth hole are fixedly connected with the upper surface of described second montant.