CN216139129U - Lightweight concrete self-insulation building block forming die - Google Patents

Abstract

The utility model relates to a forming die for a lightweight concrete self-insulation building block, which can realize the directional movement of a die box by applying power on a steel wire rope by a winch and guiding the roller and a guide rail, when in use, when the winch applies acting force on the steel wire rope, because a fixed hinge seat is fixedly connected with the steel wire rope, at the moment, two tension arms move relative to a jaw arm in a quadrilateral structure under the action of the tension of the die box, the included angle between the tension arm and the jaw arm is enlarged, at the moment, the distance between a jaw rope rod on the jaw arm and the steel wire rope is shortened, the automatic clamping of the jaw rope rod is realized, the traction movement of the die box is realized, and after the die box is unloaded, the tension action of the die box is smaller than that of the jaw arm, the included angle between the jaw arm and the tension arm is enlarged, the distance between the jaw rope rods is enlarged, the steel wire rope is loosened, realizing automatic opening thereof.

Description

Lightweight concrete self-insulation building block forming die

Technical Field

The utility model relates to the technical field of environment-friendly material forming, in particular to a forming die for a light concrete self-insulation building block.

Background

The related statistical data show that the annual emission of the phosphogypsum newly increased in the world reaches 2.8 hundred million tons, and about 5000 million tons in China accounts for 20 percent of the annual emission of the phosphogypsum in the world. A large amount of phosphogypsum is stacked, so that land resources are occupied, and certain pollution is caused to the environment.

Therefore, researchers have studied by focusing on resource utilization of the phosphogypsum, and the phosphogypsum is applied to cement manufacturing, coating manufacturing, heat-insulating wall brick, hollow block and the like in the prior art, but when the building materials are manufactured, the phosphogypsum is easy to stick to the surface of a mould after being manufactured due to the characteristics of the phosphogypsum, so that the non-building materials are difficult to demould, and therefore, the manufactured heat-insulating wall brick or hollow block needs secondary surface processing, and the production cost is high.

Meanwhile, when the existing lightweight concrete self-insulation building block is molded, the molding volume is large, so that the movement of a molding die is relatively difficult, and the processing efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model provides a light concrete self-insulation building block forming die which is simple in structure, convenient to use and capable of realizing quick start and stop of a die box, and aims to solve the technical problems of low forming and processing efficiency and high cost of the existing self-insulation building block.

According to one aspect of the utility model, the forming die for the lightweight concrete self-insulation building block comprises a die box, a winch and a steel wire rope, wherein rollers are arranged at the bottom of the die box, the rollers run on guide rails, the steel wire rope is connected with the winch through a wire clamp, the wire clamp comprises a fixed hinge seat, two clamp arms, a tension arm and a connecting seat, two hinge holes are formed in the fixed hinge seat, one ends of the two clamp arms are respectively connected with the two hinge holes, the other ends of the two clamp arms are hinged with the tension arm, the other end of the tension arm is connected with the connecting seat, the two clamp arms and the two tension arms form a quadrilateral structure, two clamp rope rods are arranged on one side of each clamp arm, close to the fixed hinge seat, the tail ends of the clamp rope rods are provided with arc-shaped grooves matched with the sections of the steel wire rope, and the steel wire rope penetrates through the middle parts of the fixed hinged seat and the connecting seat to be fixedly connected with the mold box.

Preferably on the basis of the scheme, the mold box comprises a bottom plate, a locking device, a side plate and a vertical plate, wherein the side plate and the vertical plate are arranged on the bottom plate, the side plate is arranged at intervals and passes through the vertical plate, a lug with a through hole is arranged at the bottom of the side plate and the vertical plate, a connecting seat is arranged on the bottom plate, the lug and the connecting seat are oppositely arranged and are connected through a rotating shaft, the locking device comprises two pressing plates, a clamping plate and a connecting rod, the pressing plates are arranged on the side plate at intervals in parallel, hemispherical grooves are formed in opposite surfaces of the pressing plates, a sphere is arranged at one end of the connecting rod, the top and the bottom of the sphere are matched with the grooves, the clamping plate is arranged on the vertical plate, a bayonet is arranged on the clamping plate, and the bayonet is matched with the tail end of the connecting rod and is locked through a nut.

On the basis of the scheme, the mold box further comprises a hexagonal frame formed by rectangular tubes, the bottom plate, the vertical plates and the side plates are arranged on the frame, and a sealing gasket is arranged between every two adjacent rectangular tubes.

The utility model relates to a forming die for a lightweight concrete self-insulation building block, which can realize the directional movement of a die box by applying power on a steel wire rope by a winch and guiding the roller and a guide rail, when in use, when the winch applies acting force on the steel wire rope, because a fixed hinge seat is fixedly connected with the steel wire rope, at the moment, two tension arms move relative to a jaw arm in a quadrilateral structure under the action of the tension of the die box, the included angle between the tension arm and the jaw arm is enlarged, at the moment, the distance between a jaw rope rod on the jaw arm and the steel wire rope is shortened, the automatic clamping of the jaw rope rod is realized, the traction movement of the die box is realized, and after the die box is unloaded, the tension action of the die box is smaller than that of the jaw arm, the included angle between the jaw arm and the tension arm is enlarged, the distance between the jaw rope rods is enlarged, the steel wire rope is loosened, realizing automatic opening thereof.

The forming die for the light concrete self-insulation building block is simple in structure and convenient to use, a containing cavity is formed by utilizing the bottom plate, the side plates and the vertical plate, the novel building material synthesized by phosphogypsum is realized by installing the building material synthesized by the phosphogypsum in the containing cavity, the vertical plate, the side plates and the vertical plate on the bottom plate are combined, the vertical plate, the side plates and the bottom plate can rotate relative to each other, the vertical plate and the side plates can be quickly locked by utilizing the locking device, the connection tightness of the vertical plate and the side plates is ensured, meanwhile, the locking device is combined with the connecting seat and the lug, the quick loosening and locking can be realized, the quick demolding of the building material synthesized by the phosphogypsum is realized, and the forming die is convenient and quick to use.

Drawings

FIG. 1 is a structural diagram of a lightweight concrete self-insulation building block forming mold of the utility model;

FIG. 2 is an enlarged view of the wire trap of the present invention;

FIG. 3 is a front view of the lightweight concrete self-insulation building block forming mold of the utility model;

fig. 4 is a perspective view of the lightweight concrete self-insulation block forming mold of the utility model.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the utility model but are not intended to limit the scope of the utility model.

Referring to fig. 1, and referring to fig. 2, 3 and 4, the lightweight concrete self-insulation building block forming mold of the present invention comprises a mold box 10, a winch and a steel wire rope 30, wherein a roller 11 is installed at the bottom of the mold box 10, the roller 11 runs on a guide rail 12, the steel wire rope 30 is connected to the winch through a wire clamp 40, the wire clamp 40 comprises a fixed hinge seat 41, two clamp arms 43, a tension arm 44 and a connecting seat 5445, the fixed hinge seat 41 is provided with two hinge holes 42, one end of each of the two clamp arms 43 is connected to the two hinge holes 42, the other end of each of the two clamp arms 43 is hinged to the tension arm 44, the other end of the tension arm 44 is connected to the connecting seat 5445, the two clamp arms 43 and the two tension arms 44 form a quadrilateral structure, one side of the clamp 43 close to the fixed hinge seat 41 is provided with two clamp rope rods 46, the end of each clamp rope rod 46 is provided with an arc-shaped groove adapted to the section of the steel wire rope 30, the wire rope 30 passes through the middle parts of the fixed hinge base 41 and the connecting base 5445 to be fixedly connected with the mould box 10.

Wherein, the mold box 10 comprises a bottom plate 50, a locking device 60, a side plate 51 and a vertical plate 52 which are arranged on the bottom plate 50, the two side plates 51 are arranged at intervals and connected through the vertical plate 52, lugs 53 with through holes are arranged at the bottoms of the side plate 51 and the vertical plate 52, a connecting seat 5445 is arranged on the bottom plate 50, the lugs 53 are arranged opposite to the connecting seat 5445 and connected through a rotating shaft 55, the locking device 60 comprises two pressing plates 56, a clamping plate 57 and a connecting rod 58, the pressing plates 56 are arranged on the side plates 51 at parallel intervals, hemispherical grooves are formed in opposite surfaces of the pressing plates 56, one end of the connecting rod 58 is provided with a sphere 581, the top and the bottom of the sphere 581 are matched with the grooves, the clamping plate 57 is arranged on the vertical plate 52, a bayonet 59 is arranged on the clamping plate 57, and the bayonet 59 is matched with the tail end of the connecting rod 58 and locked through nuts.

Further, in order to ensure the strength of the mold box 10, the mold box 10 of the present invention further comprises a hexagonal frame formed by rectangular tubes, wherein the bottom plate 50, the vertical plate 52 and the side plate 51 are mounted on the frame, and prevent the slurry leakage problem of the ceramsite mixed slurry, and a sealing gasket is arranged between two adjacent rectangular tubes.

The utility model relates to a forming die for a lightweight concrete self-insulation building block, which can realize the directional movement of a die box 10 by applying power on a steel wire rope 30 by adopting a winch and utilizing the guide of a roller 11 and a guide rail 12, when in use, when the winch applies acting force on the steel wire rope 30, because a fixed hinge seat 41 is fixedly connected with the steel wire rope 30, at the moment, two tension arms 44 move relative to a jaw arm 43 in a quadrilateral structure under the action of the tension of the die box 10, so that the included angle between the tension arms 44 and the jaw arm 43 is enlarged, at the moment, the distance between the jaw rope rod 46 on the jaw arm 43 and the steel wire rope 30 is shortened, thereby realizing the automatic clamping of the jaw rope rod 46, realizing the traction movement of the die box 10, and after the die box 10 is unloaded, because the action of the tension of the die box 10 is smaller than the action of the jaw arm 43, the included angle between the jaw arm 43 and the tension arm 44 is enlarged, the distance between the rope clamping rods 46 is increased, and the steel wire rope 30 is loosened to realize automatic opening.

The forming die for the lightweight concrete self-insulation building block is simple in structure and convenient to use, a containing cavity is formed by utilizing the bottom plate 50, the side plate 51 and the vertical plate 52, the building material synthesized by phosphogypsum is filled in the containing cavity, the novel building material synthesized by the phosphogypsum is realized, the vertical plate 52, the side plate 51 and the bottom plate 50 can rotate relative to each other by combining the connecting seat 5445 on the bottom plate 50 and the vertical plate 52 and the lug 53 on the side plate 51, the locking of the vertical plate 52 and the side plate 51 is quickly realized by utilizing the locking device 60, the connection tightness of the vertical plate 52 and the side plate 51 is ensured, the problem of displacement of the bottom plate 50, the side plate 51 and the vertical plate 52 in the slurry filling process is avoided, meanwhile, the locking device 60 is combined with the connecting seat 5445 and the lug 53, the quick loosening and locking of the building material synthesis can be realized, and the rapid demoulding of the phosphogypsum is realized, and the forming die is convenient and rapid to use.

Finally, the method of the present application is only a preferred embodiment and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (3)

1. A forming die for a lightweight concrete self-insulation building block is characterized by comprising a die box, a winch and a steel wire rope, wherein rollers are arranged at the bottom of the die box, the rollers run on guide rails, the steel wire rope is connected with the winch through a wire clamp, the wire clamp comprises a fixed hinge seat, two clamp arms, a tension arm and a connecting seat, two hinge holes are formed in the fixed hinge seat, one ends of the two clamp arms are respectively connected with the two hinge holes, the other ends of the two clamp arms are hinged with the tension arm, the other end of the tension arm is connected with the connecting seat, the two clamp arms and the two tension arms form a quadrilateral structure, two clamp rope rods are arranged on one side, close to the fixed hinge seat, of the clamp arms, the tail ends of the clamp rope rods are provided with arc-shaped grooves matched with the sections of the steel wire rope, and the steel wire rope penetrates through the middle parts of the fixed hinged seat and the connecting seat to be fixedly connected with the mold box.

2. The lightweight concrete self-insulation block forming mold as claimed in claim 1, the mould box comprises a bottom plate, a locking device, and a side plate and a vertical plate which are arranged on the bottom plate, wherein the two side plates are arranged at intervals and connected through the vertical plate, the bottom of the side plate and the vertical plate is provided with a lug with a through hole, the bottom plate is provided with a connecting seat, the lug and the connecting seat are oppositely arranged and connected through a rotating shaft, the locking device comprises two pressing plates, a clamping plate and a connecting rod, the pressing plates are arranged on the side plates in parallel at intervals, and the opposite surface of the pressure plate is provided with a hemispherical groove, one end of the connecting rod is provided with a ball body, the top and the bottom of the sphere are matched with the groove, the clamping plate is arranged on the vertical plate, and a bayonet is arranged on the clamping plate, and the bayonet is matched with the tail end of the connecting rod and is locked through a nut.

3. The forming mold for the lightweight concrete self-insulation building block according to claim 2, wherein the mold box further comprises a hexagonal frame formed by rectangular tubes, the bottom plate, the vertical plate and the side plate are arranged on the frame, and a sealing gasket is arranged between two adjacent rectangular tubes.

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