CN221021603U

CN221021603U - Box room demoulding device

Info

Publication number: CN221021603U
Application number: CN202322314812.0U
Authority: CN
Inventors: 沈焱; 金健
Original assignee: Tibet Zangjian Technology Co ltd
Current assignee: Tibet Zangjian Technology Co ltd
Priority date: 2023-08-28
Filing date: 2023-08-28
Publication date: 2024-05-28
Anticipated expiration: 2033-08-28

Abstract

The utility model discloses a box room demoulding device, which belongs to the technical field of box rooms and comprises a support frame, wherein a mould shell is arranged above the support frame, a groove matched with the mould shell is embedded in the upper surface of the support frame, and a demoulding mechanism convenient for demoulding is arranged above the support frame. According to the utility model, after concrete is solidified and formed through the demoulding mechanism, the servo electric cylinder contracts to drive the limiting plate A and the limiting plate B to be far away from the formed concrete member, then the servo motor drives the screw rod to reversely rotate, the winch is matched with the torque motor to drive the steel wire rope to wind, the mould shell is driven to slowly move upwards to be far away from the formed concrete member, the electric cylinder simultaneously contracts to drive the limiting block to be far away from the supporting plate, then a worker assists to push the supporting plate and the concrete member formed above the supporting plate to be simultaneously pushed away from the supporting frame, and the demoulding is more thorough.

Description

Box room demoulding device

Technical Field

The utility model belongs to the technical field of box houses, and particularly relates to a box house demoulding device.

Background

The box ovary is a house assembled by using box-shaped three-dimensional components prefabricated in a factory to be transported to a construction site, and in the process of producing the box ovary components, demolding treatment is conveniently carried out on the produced components, and meanwhile, in order to improve production efficiency, the box house demolding device is provided.

Wherein, through retrieving the discovery, there is a application number CN202020923311.6, a box room shedder is disclosed, which comprises an outer shell, the inside of shell is equipped with the centre form, the bottom of shell is equipped with a plurality of supporting springs, be fixed with a plurality of sleeves in the one side of inside orientation supporting spring, can avoid cement to reveal from the drawing of patterns hole when pouring, the leakproofness is high, when carrying out the drawing of patterns, adopt the mode of beating the hammer, and the easy operation of hammer, excellent in use effect has improved the efficiency of drawing of patterns, and staff's intensity of labour has been reduced. When the demolding is carried out, through the action of the worm and the worm wheel, the labor intensity of workers during demolding is further saved, and the detachable installation between the inner mold and the outer shell enables workers to conveniently move cement pieces inside the inner mold, and the separated inner mold and outer shell facilitate cleaning of the inner mold, so that the service life of the device is prolonged.

But it is found through research that: the device is in the drawing of patterns in-process, makes the component drawing of patterns through the mode that the tup was beaten, and at this in-process, the component receives concussion, damages easily, and the device can't directly remove the mould from fashioned component outside simultaneously, and the drawing of patterns is not thorough enough, needs the staff to assist to dismantle structures such as shell, centre form, uses not convenient enough, and work efficiency is not high enough simultaneously, consequently provides a novel device and solves this problem.

Disclosure of utility model

The utility model aims at: in order to solve the problems of insufficient convenience in use and insufficient working efficiency, the box room demolding device is provided.

The technical scheme adopted by the utility model is as follows: the demolding device for the box room comprises a supporting frame, wherein a mold shell is arranged above the supporting frame, and a groove matched with the mold shell is embedded in the upper surface of the supporting frame;

and a demoulding mechanism which is convenient for demoulding is arranged above the supporting frame.

The demolding mechanism comprises a screw rod, a servo motor, limiting plates A, servo electric cylinders and limiting plates B, wherein the screw rod is symmetrically and rotationally connected to two sides above the supporting frame through the servo motor, the screw rod penetrates through one side outside the mold shell, the limiting plates A are symmetrically arranged on two sides inside the mold shell through the servo electric cylinders, the limiting plates B are symmetrically arranged on the other two sides inside the mold shell through the servo electric cylinders, the bottoms of the limiting plates A and the limiting plates B are both in sliding connection with the bottom of the mold shell through sliding rails, the two sides of the limiting plates A and the two sides of the limiting plates B are both inclined 45-degree angle oblique sides, the oblique sides of the two sides of the limiting plates A are both embedded into the concave grooves, bumps which are matched with the concave grooves are respectively arranged at the oblique sides of the two sides of the limiting plates B, the number of the screw rod is four, the number of windlass is four, and the starting ends of the windlass matched steel wire ropes are connected with the mold shell.

The support frame is characterized in that a support plate is arranged in the groove above the support frame in a sliding manner through a sliding rail, a roller is embedded in the position, corresponding to the sliding block, of the bottom of the support plate, one side of the support frame is provided with an inclined plane, an electric cylinder is embedded in the middle of the upper side of the support frame, a limiting block is fixed at the upper end of the electric cylinder, and a clamping groove matched with the limiting block is embedded in the center of the bottom of the support plate.

In summary, due to the adoption of the technical scheme, the beneficial effects of the utility model are as follows:

1. According to the utility model, after concrete is solidified and formed through the demoulding mechanism, the servo electric cylinder contracts to drive the limiting plate A and the limiting plate B to be far away from the formed concrete member, then the servo motor drives the screw rod to reversely rotate, the winch is matched with the torque motor to drive the steel wire rope to roll, the mould shell is driven to slowly move upwards to be far away from the formed concrete member, the electric cylinder contracts simultaneously to drive the limiting block to be far away from the supporting plate, then the supporting plate is driven by staff to assist in pushing the supporting plate and the concrete member formed above the supporting plate away from the supporting frame, the demoulding is more thorough, the forming member cannot be damaged, the demoulding effect is better, the formed member is prevented from occupying a working area, the concrete member can be continuously produced after the supporting plate is replaced, and the working efficiency is higher.

2. According to the utility model, the matched torque motor of the winch works simultaneously along with the servo motor to drive the matched steel wire rope of the winch to roll or unreel, and the steel wire rope provides an upward pulling force for the die shell, so that the die shell is more stable to lift, the die shell is prevented from falling due to sliding of the screw rod, and the use is safer.

Drawings

FIG. 1 is a schematic diagram of the overall three-dimensional structure of the present utility model;

FIG. 2 is a schematic diagram of the overall side cross-sectional structure of the present utility model;

FIG. 3 is a schematic diagram of the enlarged construction of FIG. 2 at A in accordance with the present utility model;

fig. 4 is a schematic diagram of a partial top view of a mold shell according to the present utility model.

The marks in the figure: 1. a support frame; 101. a screw rod; 1011. a servo motor; 102. a hoist; 103. an electric cylinder; 1031. a limiting block; 2. a mold shell; 201. a limiting plate A; 2011. a servo electric cylinder; 202. a limiting plate B; 203. a support plate; 2031. and a roller.

Detailed Description

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

In the utility model, the following components are added:

Referring to fig. 1-4, a box room demoulding device comprises a support frame 1, wherein a mould shell 2 is arranged above the support frame 1, and a groove matched with the mould shell 2 is embedded in the upper surface of the support frame 1;

A demoulding mechanism which is convenient for demoulding is arranged above the supporting frame 1.

Referring to fig. 1, 2 and 3, in this embodiment, a support plate 203 is slidably connected in a groove above a support frame 1 through a slide rail, a roller 2031 is embedded in a position corresponding to a slide block at the bottom of the support plate 203, one side of the support frame 1 is inclined, an electric cylinder 103 is embedded in the middle of the upper side of the support frame 1, a limit block 1031 is fixedly mounted at the upper end of the electric cylinder 103, and a clamping groove matched with the limit block 1031 is embedded in the center of the bottom of the support plate 203;

The staff pushes a supporting plate 203 from the inclined plane to the inside of the groove above the supporting frame 1, the roller 2031 enables the supporting plate 203 to move conveniently, the center of the supporting plate 203 corresponds to the center of the supporting frame 1, then the electric cylinder 103 stretches, and the limiting block 1031 is pushed to move upwards to be clamped into the clamping groove at the bottom of the supporting plate 203, so that the supporting plate 203 is fixed.

Referring to fig. 1, 2, 3 and 4, in this embodiment, the demolding mechanism includes a screw rod 101, a servo motor 1011, a limiting plate a201, a servo cylinder 2011 and a limiting plate B202, two sides above the supporting frame 1 are symmetrically connected with the screw rod 101 through the servo motor 1011 in a rotating way, the screw rod 101 penetrates through the screw to be connected to one side outside the mold shell 2, two sides inside the mold shell 2 are symmetrically provided with the limiting plate a201 through the servo cylinder 2011, two other sides inside the mold shell 2 are symmetrically provided with the limiting plate B202 through the servo cylinder 2011, the bottoms of the limiting plate a201 and the limiting plate B202 are both in sliding connection with the bottom of the mold shell 2 through sliding rails, two sides of the limiting plate a201 and two sides of the limiting plate B202 are both inclined 45-degree bevel edges, the two bevel edges of the limiting plate a201 are both embedded into a recess, the bevel edges of the two sides of the limiting plate B202 are both provided with bumps matching with the recess, and the number of the screw rods 101 is four;

The four servo motors 1011 drive the four screw rods 101 to rotate in the same direction, so that the die shell 2 slowly moves downwards until the die shell 2 moves into the groove, then the servo cylinders 2011 stretch simultaneously to drive the limiting plates A201 and the limiting plates B202 to be close to each other and coincide, the convex blocks are exactly clamped into the concave parts, a staggered sealing structure is provided at the joint of the limiting plates A201 and the limiting plates B202, the bottoms of the two limiting plates A201 and the two limiting plates B202 are respectively and tightly clamped at four sides of the supporting plate 203, and the two limiting plates A201, the two limiting plates B202 and the supporting plate 203 jointly form a U-shaped die;

The staff pours the concrete into the U-shaped mould formed by two limiting plates A201, two limiting plates B202 and a supporting plate 203, after the concrete is solidified and formed, a servo electric cylinder 2011 contracts to drive the limiting plates A201 and B202 to be far away from the formed concrete member, then a servo motor 1011 drives a screw rod 101 to reversely rotate to drive a mould shell 2 to slowly move away from the formed concrete member, an electric cylinder 103 simultaneously contracts to drive a limiting block 1031 to be far away from the supporting plate 203, then the staff assists in pushing the supporting plate 203, the supporting plate 203 and the concrete member formed above the supporting plate are pushed away from the supporting frame 1 simultaneously, then a new supporting plate 203 is pushed to the upper part of the supporting frame 1, and the next concrete member is continuously manufactured.

Referring to fig. 1 and 2, in this embodiment, two sides above the supporting frame 1 are symmetrically provided with winches 102, the number of the winches 102 is four, the starting end of the winches 102 matched with a wire rope is connected with the die shell 2, the winches 102 matched with a torque motor work simultaneously along with a servo motor 1011 to drive the winches 102 matched with the wire rope to wind or unwind, the wire rope provides an upward pulling force for the die shell 2, so that the die shell 2 is more stable in lifting, the die shell 2 is prevented from falling due to the sliding wire of the screw rod 101, and the use is safer.

Referring to fig. 1, 2, 3 and 4, in the present embodiment, the servo motor 1011, the hoist 102, the electric cylinder 103 and the servo electric cylinder 2011 are all electrically connected to an external power supply through a control panel.

Working principle: firstly, a worker pushes a supporting plate 203 into a groove above a supporting frame 1 from an inclined plane, a roller 2031 facilitates the movement of the supporting plate 203, the center of the supporting plate 203 corresponds to the center of the supporting frame 1, then an electric cylinder 103 stretches to push a limiting block 1031 to move upwards and clamp into a clamping groove at the bottom of the supporting plate 203, the supporting plate 203 is fixed, then four servo motors 1011 drive four screw rods 101 to rotate in the same direction, so that a mould shell 2 slowly moves downwards, a winch 102 matched torque motor works simultaneously with the servo motors 1011 to drive a winch 102 matched steel wire rope to unwind, the steel wire rope provides an upward pulling force for the mould shell 2, so that the mould shell 2 is more stable in descending, the situation that the mould shell 2 falls down due to sliding of the screw rods 101 is avoided, the use is safer until the mould shell 2 moves into the groove, then the servo electric cylinder 2011 stretches simultaneously to drive a limiting plate A201 and a limiting plate B202 to be close to each other and coincide, the protruding block is just clamped into the concave part, a staggered sealing structure is provided at the joint of the limiting plate A201 and the limiting plate B202, the bottoms of the two limiting plates A201 and the two limiting plates B202 are respectively clamped at the four sides of the supporting plate 203 tightly, the two limiting plates A201, the two limiting plates B202 and the supporting plate 203 jointly form a U-shaped die, then a worker pours concrete into the U-shaped die formed by the two limiting plates A201, the two limiting plates B202 and the supporting plate 203 jointly, finally after the concrete is solidified and formed, the servo electric cylinder 2011 contracts to drive the limiting plates A201 and the limiting plates B202 to be far away from the formed concrete member, then the servo motor 1011 drives the screw rod 101 to reversely rotate, the winch 102 is matched with the moment motor to drive the steel wire rope to wind up to drive the die shell 2 to slowly move away from the formed concrete member, the electric cylinder 103 is contracted simultaneously to drive the limiting block 1031 to be far away from the supporting plate 203, then the worker assists to push the supporting plate 203, the supporting plate 203 and the concrete member formed above the supporting plate are pushed away from the supporting frame 1 simultaneously, then a new supporting plate 203 is pushed to the upper part of the supporting frame 1, the above work is continued, and the next concrete member is continuously manufactured.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims

1. The utility model provides a box room shedder, includes support frame (1), its characterized in that: a die shell (2) is arranged above the support frame (1), and a groove matched with the die shell (2) is embedded in the upper surface of the support frame (1);

A demoulding mechanism which is convenient for demoulding is arranged above the supporting frame (1);

The demolding mechanism comprises a screw rod (101), a servo motor (1011), a limiting plate A (201), a servo electric cylinder (2011) and a limiting plate B (202);

The utility model discloses a die comprises a die shell, a support frame (1), a support frame, a limiting plate A (201), a limiting plate B (202), a sliding rail, a limiting plate A (201) and a limiting plate B (202) are arranged on two sides above the support frame (1), the screw rod (101) is symmetrically connected to the screw rod (101) through a servo motor (1011) in a rotating mode, the screw rod (101) penetrates through one side outside the die shell (2), the limiting plate A (201) is symmetrically arranged on two sides inside the die shell (2) through a servo motor cylinder (2011), the limiting plate B (202) is symmetrically arranged on two other sides inside the die shell (2), the bottoms of the limiting plate A (201) and the limiting plate B (202) are both connected with the bottom of the die shell (2) in a sliding mode through the sliding rail, the two sides of the limiting plate A (201) and the two sides of the limiting plate B (202) are both inclined 45-degree angle oblique sides, the oblique sides of the limiting plate A (201) are both embedded into a concave recess, and the oblique sides of the two sides of the limiting plate B (202) are both provided with bumps matched with the concave recess.

2. A box house demolding apparatus as claimed in claim 1, wherein: the number of the screw rods (101) is four.

3. A box house demolding apparatus as claimed in claim 1, wherein: two sides above the supporting frame (1) are symmetrically provided with winches (102), the number of the winches (102) is four, and the winding start ends of the steel wire ropes matched with the winches (102) are connected with the die shell (2).

4. A box house demolding apparatus as claimed in claim 1, wherein: the support frame (1) is characterized in that a support plate (203) is connected inside the groove above the support frame (1) through a sliding rail in a sliding manner, a roller (2031) is embedded and installed at the position, corresponding to the sliding block, of the bottom of the support plate (203), and one side of the support frame (1) is in an inclined plane.

5. A box house demolding apparatus as claimed in claim 1, wherein: an electric cylinder (103) is embedded and installed in the middle of the upper portion of the supporting frame (1), a limiting block (1031) is fixedly arranged at the upper end of the electric cylinder (103), and a clamping groove matched with the limiting block (1031) is embedded and arranged in the center of the bottom of the supporting plate (203).