CN113202294A

CN113202294A - Hoisting type elevator shaft pouring mold

Info

Publication number: CN113202294A
Application number: CN202110562196.3A
Authority: CN
Inventors: 王庆宏
Original assignee: YANGZHOU SAICHUANG NEW MATERIAL TECHNOLOGY CO LTD
Current assignee: YANGZHOU SAICHUANG NEW MATERIAL TECHNOLOGY CO LTD
Priority date: 2021-05-24
Filing date: 2021-05-24
Publication date: 2021-08-03

Abstract

The invention relates to the technical field of elevator shaft construction, in particular to a lifting type elevator shaft pouring mold which comprises a chassis, wherein sliding wheels are symmetrically arranged on the bottom end face of the chassis, a plurality of lifting fixing rings are symmetrically arranged on the top end face of the chassis, angle molds are vertically arranged on the top end faces of four right-angle parts of the chassis, angle mold cover plates are fixedly arranged on two sides of each angle mold, a plurality of reinforcing plates are fixedly arranged between two right-angle inner walls of each angle mold at equal intervals, a template is fixedly arranged between every two adjacent angle molds, each angle mold is detachably connected with the corresponding template, and a moving mechanism is arranged on one side of each angle mold and comprises a moving mechanism A and a moving mechanism B. According to the invention, the moving mechanism A and the moving mechanism B can be used for integrally lifting the template, so that the construction period can be effectively shortened on the basis of ensuring the construction quality, the working efficiency of workers can be improved, and the construction cost is greatly saved.

Description

Hoisting type elevator shaft pouring mold

Technical Field

The invention relates to the technical field of elevator shaft construction, in particular to a hoisting type elevator shaft pouring mold.

Background

The elevartor shaft is the well of installation elevator, and the size of well is confirmed according to the elevator lectotype, and current elevartor shaft concrete wall body adopts little template cast-in-place construction process more when the construction, carries out form removal and formwork operation during the construction repeatedly, and then causes the construction period extension, and staff work efficiency is low to improve construction cost greatly, for this reason, we have proposed a lift formula elevartor shaft and pour mould.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides a hoisting type elevator shaft pouring mold.

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

the utility model provides a hang lift-type elevartor shaft and pour mould, includes the chassis, the bottom face symmetry on chassis is provided with the movable pulley, the top face symmetry on chassis is provided with the solid fixed ring of a plurality of hoist and mount, be provided with the angle mould on the top face at four right angle positions on chassis perpendicularly, the both sides of angle mould are all installed and are fixed with the angle mould apron, and the equidistance installation is fixed with a plurality of reinforcing plate between two right angle inner walls of angle mould, the installation is fixed with the template between per two adjacent angle moulds, the angle mould is connected for dismantling with the template, and one side of angle mould installs moving mechanism, wherein moving mechanism includes moving mechanism A and moving mechanism B.

Preferably, the installation is fixed with the mounting panel between two right-angle sides of angle mould, and the one side of mounting panel and the one side of reinforcing plate are laminated fixedly each other, and wherein the mounting panel includes first mounting panel and second mounting panel.

Preferably, moving mechanism A is installed to one side of first mounting panel, moving mechanism A includes at least three hydro-cylinder and two first sliders, the symmetry is provided with a plurality of scute on the top face of first slider, and the installation of one of them right angle edge of scute is fixed with square pipe, the slotted hole has been seted up on the first slider, the screw thread through-hole has been seted up to the symmetry on the first mounting panel, and carry out fixed connection through bolt and nut in the screw thread through-hole of first mounting panel and between the slotted hole of first slider, the middle part of nut is equipped with the gasket, and the gasket is located between the inner wall of slotted hole.

Preferably, hasps are symmetrically installed and fixed between the top end surfaces of the two first sliding blocks, the oil cylinder is located between the two opposite hasps, oil cylinder piston rods are arranged at the output ends of two sides of the oil cylinder, and the hasps are respectively and fixedly connected with one end of each oil cylinder piston rod.

Preferably, moving mechanism B is installed to one side of second mounting panel, and moving mechanism B includes cylinder, two at least connecting rod transmission structure and two second sliders, and the outside of cylinder is installed fixedly through the middle part of cylinder fixture block with the second mounting panel, and the middle part of cylinder is provided with the cylinder piston rod, and the one end of cylinder piston rod all carries out fixed connection with connecting rod transmission structure.

Preferably, the connecting rod transmission structure comprises two fixed connecting rods and two movable connecting rods, the fixed connecting rods are hinged to the movable connecting rods through pin shafts on the connecting rods, the fixed connecting rods are fixedly connected with the second sliding blocks, a plurality of limiting blocks are symmetrically arranged on two sides of the second mounting plate, guide rods are arranged in the middle of the limiting blocks in a penetrating and inserting mode, and the middle of each movable connecting rod is in sliding fit with the corresponding guide rod.

The invention has the beneficial effects that:

according to the invention, when the elevator shaft pouring construction is carried out, the moving mechanism A and the moving mechanism B are used in the pouring mould of the elevator shaft to carry out the integral lifting operation on the template, so that the construction period can be effectively shortened, the working efficiency of workers can be improved and the construction cost is greatly saved on the basis of ensuring the construction quality.

Drawings

Fig. 1 is a front view of a hoisting-type elevator shaft casting mold according to the present invention;

fig. 2 is a top view of a hoisted elevator shaft casting mold according to the present invention;

fig. 3 is a perspective view of a hoisting-type elevator shaft casting mold according to the present invention;

fig. 4 is a perspective view of an angle form in a hoisting-type elevator shaft casting mold according to the present invention;

fig. 5 is a perspective view of an angle mold in a hoisting-type elevator shaft casting mold moving mechanism a according to the present invention;

fig. 6 is a perspective view of a first slide block in a hoisting-type elevator shaft casting mold according to the present invention;

fig. 7 is an enlarged view of a in fig. 6 of a hoisting-type elevator shaft casting mold according to the present invention;

fig. 8 is a cross-sectional view of a bolt, a nut, and a spacer in a hoisted elevator shaft casting mold according to the present invention;

fig. 9 is a perspective view of a second slide block in a hoisted elevator shaft casting mold according to the present invention;

fig. 10 is a perspective view of a moving mechanism a in a hoisting-type elevator shaft casting mold according to the present invention;

fig. 11 is a perspective view of a moving mechanism B in a hoisting-type elevator shaft casting mold according to the present invention.

In the figure: 1 chassis, 2 sliding wheels, 301 angle dies, 302 angle die cover plates, 303 reinforcing plates, 401 first mounting plates, 402 second mounting plates, 5 first sliding blocks, 502 angle plates, 503 square tubes, 601 long round holes, 602 bolts, 603 nuts, 604 gaskets, 7 buckles, 8 oil cylinders, 9 air cylinder clamping blocks, 10 air cylinders, 111 oil cylinder piston rods, 112 air cylinder piston rods, 121 limiting blocks, 122 guide rods, 13 connecting rod transmission structures, 131 fixing connecting rods, 132 moving connecting rods, 133 pin shafts, 134 connecting rods, 14 hoisting fixing rings, 15 templates, 16 second sliding blocks, 171 moving mechanisms A and 172 moving mechanisms B.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-11, a lifting type elevator shaft pouring mold comprises a chassis 1, wherein sliding wheels 2 are symmetrically arranged on the bottom end face of the chassis 1, a plurality of lifting fixing rings 14 are symmetrically arranged on the top end face of the chassis 1, corner molds 301 are vertically arranged on the top end faces of four right-angle parts of the chassis 1, corner mold cover plates 302 are respectively arranged and fixed on two sides of each corner mold 301, a plurality of reinforcing plates 303 are arranged and fixed between two right-angle inner walls of each corner mold 301 at equal intervals, a mold plate 15 is arranged and fixed between every two adjacent corner molds 301, the corner molds 301 are detachably connected with the mold plates 15, and a moving mechanism is arranged on one side of each corner mold 301, wherein the moving mechanism comprises a moving mechanism a171 and a moving mechanism B172;

a mounting plate is fixedly arranged between two right-angle edges of the angle die 301, one side of the mounting plate is fixedly attached to one side of the reinforcing plate 303, the mounting plate comprises a first mounting plate 401 and a second mounting plate 402, and the first mounting plate 401 and the second mounting plate 402 are respectively matched with the moving mechanism A171 and the moving mechanism B172 for use;

a moving mechanism A171 is installed on one side of the first installation plate 401, the moving mechanism A171 comprises at least three oil cylinders 8 and two first sliding blocks 501, a plurality of angle plates 502 are symmetrically arranged on the top end surfaces of the first sliding blocks 501, a square tube 503 is fixedly installed on one right-angle edge of each angle plate 502, hasps 7 are symmetrically installed and fixed between the top end surfaces of the two first sliding blocks 501, the oil cylinders 8 are located between the two opposite hasps 7, and the hasps 7 are respectively and fixedly connected with one end of an oil cylinder piston rod 111;

the first slider 501 is provided with a long round hole 601, the first mounting plate 401 is symmetrically provided with threaded through holes, the threaded through holes of the first mounting plate 401 and the long round hole 601 of the first slider 501 are fixedly connected through bolts 602 and nuts 603, the middle part of the nut 603 is provided with a gasket 604, and the gasket 604 is positioned between the inner walls of the long round holes 601, wherein the long round holes 601 are arranged, so that the cylinder piston rod 111 of the subsequent cylinder 8 can better and stably move the first slider 501 along the groove of the long round holes 601;

a moving mechanism B172 is installed on one side of the second installation plate 402, the moving mechanism B172 comprises an air cylinder 10, at least two connecting rod transmission structures 13 and two second sliding blocks 16, the outer side of the air cylinder 10 is fixedly installed on the middle portion of the second installation plate 402 through an air cylinder clamping block 9, an air cylinder piston rod 112 is arranged on the middle portion of the air cylinder 10, and one end of the air cylinder piston rod 112 is fixedly connected with the connecting rod transmission structure 13;

the connecting rod transmission structure 13 comprises two fixed connecting rods 131 and two movable connecting rods 132, the fixed connecting rods 131 are hinged to the movable connecting rods 132 through pin shafts 133 on the connecting rods 134, the fixed connecting rods 131 are fixedly connected with the second sliding blocks 16, a plurality of limiting blocks 121 are symmetrically arranged on two sides of the second mounting plate 402, guide rods 122 are inserted in the middle of the limiting blocks 121 in a penetrating mode, the middle of each movable connecting rod 132 is in sliding fit with the corresponding guide rod 122, and therefore the cylinder piston rod 112 of the subsequent cylinder 10 can drive the connecting rod transmission structure 13 to move stably along the corresponding guide rod 122.

Example one

An operator firstly assembles a chassis 1, a sliding wheel 2, a hoisting fixing ring 14, an angle die 301 and a template 15 in sequence, a fixed hoisting mechanism is installed between the hoisting fixing rings 14, wherein the angle die 301 is detachably connected with the template 15, a first mounting plate 401 is installed on one side of the angle die 301, a moving mechanism A171 is arranged on the first mounting plate 401, and the first mounting plate 401 is matched with the moving mechanism A171 for use;

the moving mechanism A171 comprises at least three oil cylinders 8 and two first sliding blocks 501, the top end surfaces of the first sliding blocks 501 are fixedly provided with square pipes 503 through angle plates 502, hasps 7 are symmetrically and fixedly arranged between the top end surfaces of the two first sliding blocks 501, the oil cylinders 8 are positioned between the two opposite hasps 7, and the hasps 7 are respectively and fixedly connected with one end of an oil cylinder piston rod 111, so that the subsequent oil cylinders 8 can better drive the first sliding blocks 501 to move through the oil cylinder piston rod 111;

further, the threaded through hole of the first mounting plate 401 and the long circular hole 601 of the first slider 501 are fixedly connected through a bolt 602 and a nut 603, a gasket 604 is arranged in the middle of the nut 603, and the gasket 604 is located between the inner walls of the long circular holes 601, wherein the long circular holes 601 are arranged, so that the cylinder piston rod 111 of the subsequent cylinder 8 can better and stably move the first slider 501 along the groove of the long circular hole 601;

after the moving mechanism a171 drives the first sliding block 501 to retract, the worker can perform an integral lifting operation on the elevator shaft casting mold through the lifting mechanism connected and fixed with the lifting fixing ring 14.

Example two

An operator firstly assembles a chassis 1, a sliding wheel 2, a hoisting fixing ring 14, an angle die 301 and a template 15 in sequence, a fixed hoisting mechanism is arranged between the hoisting fixing rings 14, wherein the angle die 301 is detachably connected with the template 15, a second mounting plate 402 is arranged on one side of the angle die 301, a moving mechanism B172 is arranged on the second mounting plate 402, and the second mounting plate 402 is matched with the moving mechanism B172 for use;

the moving mechanism B172 comprises an air cylinder 10, at least two connecting rod transmission structures 13 and two second sliding blocks 16, the air cylinder 10 is fixedly installed on the second installation plate 402 through an air cylinder fixture block 9, an air cylinder piston rod 112 is arranged in the middle of the air cylinder 10, and one end of the air cylinder piston rod 112 is fixedly connected with the connecting rod transmission structure 13, so that the subsequent air cylinder 10 can better drive the second sliding block 16 to move through the air cylinder piston rod 112;

further, the connecting rod transmission structure 13 includes two fixed connecting rods 131 and two movable connecting rods 132, the fixed connecting rods 131 are hinged to the movable connecting rods 132 through the pin shafts 133 on the connecting rods 134, the fixed connecting rods 131 are fixedly connected to the second slider 16, a plurality of limiting blocks 121 are symmetrically arranged on two sides of the second mounting plate 402, guide rods 122 are inserted in the middle of the limiting blocks 121 in a penetrating manner, and the middle of the movable connecting rods 132 is in sliding fit with the guide rods 122, so that the cylinder piston rods 112 of the subsequent cylinders 10 can drive the connecting rod transmission structure 13 to move smoothly along the guide rods 122;

after the moving mechanism B172 drives the second sliding block 16 to retract, the worker can perform the integral lifting operation on the elevator shaft casting mold through the lifting mechanism connected and fixed with the lifting fixing ring 14.

When carrying out the elevartor shaft and pouring the construction, can carry out whole hoist operation to the template through use moving mechanism A and moving mechanism B in the pouring mould of elevartor shaft, on the basis of guaranteeing construction quality, not only can effectual reduction construction period, can also improve staff's work efficiency simultaneously, and then saved construction cost greatly.

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

Claims

1. The utility model provides a lift formula elevartor shaft and pour mould, including chassis (1), a serial communication port, the bottom face symmetry of chassis (1) is provided with movable pulley (2), the top face symmetry of chassis (1) is provided with the solid fixed ring of a plurality of hoist and mount (14), be provided with angle mould (301) on the top face at four right angle positions on chassis (1) perpendicularly, the both sides of angle mould (301) are all installed and are fixed with angle mould apron (302), and the equidistance installation is fixed with a plurality of reinforcing plate (303) between two right angle inner walls of angle mould (301), install between per two adjacent angle moulds (301) and be fixed with template (15), angle mould (301) and template (15) are for dismantling to be connected, and moving mechanism is installed to one side of angle mould (301), wherein moving mechanism includes moving mechanism A (171) and moving mechanism B (172).

2. Lifting type elevator shaft pouring mould according to claim 1, characterized in that a mounting plate is fixedly arranged between the two right-angle sides of the angle form (301), and one side of the mounting plate and one side of the reinforcing plate (303) are fixedly attached to each other, wherein the mounting plate comprises a first mounting plate (401) and a second mounting plate (402).

3. Hoisting elevator shaft casting mould according to claim 2, a moving mechanism A (171) is arranged on one side of the first mounting plate (401), the moving mechanism A (171) comprises at least three oil cylinders (8) and two first sliding blocks (501), a plurality of angle plates (502) are symmetrically arranged on the top end surface of each first sliding block (501), a square tube (503) is fixedly arranged on one right-angle side of the angle plate (502), a long round hole (601) is arranged on the first sliding block (501), threaded through holes are symmetrically arranged on the first mounting plate (401), and the threaded through hole of the first mounting plate (401) and the long round hole (601) of the first sliding block (501) are fixedly connected through a bolt (602) and a nut (603), a gasket (604) is arranged in the middle of the nut (603), and the gasket (604) is positioned between the inner walls of the long round holes (601).

4. The hoisting-type elevator shaft pouring mold according to claim 3, wherein hasps (7) are symmetrically installed and fixed between the top end surfaces of the two first sliding blocks (501), the oil cylinder (8) is located between the two opposite hasps (7), the output ends of two sides of the oil cylinder (8) are provided with oil cylinder piston rods (111), and the hasps (7) are respectively and fixedly connected with one end of each oil cylinder piston rod (111).

5. The hoisting-type elevator shaft pouring mold according to claim 2, wherein a moving mechanism B (172) is installed on one side of the second mounting plate (402), the moving mechanism B (172) comprises a cylinder (10), at least two connecting rod transmission structures (13) and two second sliding blocks (16), the outer side of the cylinder (10) is fixedly installed in the middle of the second mounting plate (402) through a cylinder fixture block (9), a cylinder piston rod (112) is arranged in the middle of the cylinder (10), and one end of the cylinder piston rod (112) is fixedly connected with the connecting rod transmission structure (13).

6. The hoisting-type elevator shaft pouring mold according to claim 5, wherein the connecting rod transmission structure (13) comprises two fixed connecting rods (131) and two movable connecting rods (132), the fixed connecting rods (131) are hinged to the movable connecting rods (132) through pin shafts (133) on the connecting rods (134), the fixed connecting rods (131) are fixedly connected with the second sliding blocks (16), a plurality of limiting blocks (121) are symmetrically arranged on two sides of the second mounting plate (402), guide rods (122) are inserted in the middle of the limiting blocks (121), and the middle of the movable connecting rods (132) is in sliding fit with the guide rods (122).