CN219768587U - Vertical die layout structure of prefabricated part die with corner - Google Patents

Abstract

The utility model discloses a vertical die layout structure of a prefabricated component die with a corner, which comprises the following steps: the die boxes are vertically arranged at intervals and are clamped and fixed by connecting mechanisms arranged on the side surfaces of the die boxes in a die clamping state; and a space is reserved between the middle part of the connecting mechanism and the side surface of the die box, so that the prefabricated component die with the corner is clamped between two adjacent die boxes, and the corner structure is arranged in the space. The layout structure not only can be used for producing linear prefabricated parts, but also can be simultaneously applied to production and manufacture of prefabricated parts with corners, and the application range of the prefabricated part vertical mold manufacturing equipment is enlarged.

Description

Vertical die layout structure of prefabricated part die with corner

Technical Field

The utility model relates to the field of prefabricated part production, in particular to a vertical die layout structure of a prefabricated part die with a corner.

Background

When the prefabricated part is manufactured by standing a mould, a plurality of mould boxes are generally arranged at intervals, and prefabricated part moulds are arranged between adjacent mould boxes and clamped. And pouring into the prefabricated part die from top to bottom.

The mould box is generally of a linear box-shaped structure, is generally only suitable for manufacturing linear prefabricated parts, and has poor suitability for prefabricated parts with corners.

The present utility model has been made in view of this.

Disclosure of Invention

The utility model aims to provide a vertical die layout structure of a prefabricated part die with a corner, which not only can be used for producing linear prefabricated parts, but also can be suitable for producing and manufacturing prefabricated parts with corners, and the application range of prefabricated part vertical die manufacturing equipment is enlarged.

In order to solve the above problems, an embodiment of the present utility model provides a vertical mold layout structure of a prefabricated member mold with a corner, including:

the die boxes are vertically arranged at intervals and are clamped and fixed by connecting mechanisms arranged on the side surfaces of the die boxes in a die clamping state;

the middle part of the connecting mechanism and the side surface of the die box leave a space so that:

the prefabricated component mold with the corner is clamped between two adjacent mold boxes, and the corner structure is placed in the space.

Optionally, take corner prefabricated component mould includes backplate, outer page or leaf, heat preservation and the interior page or leaf mould that sets gradually from outside to inside, wherein interior page or leaf mould is the linear type, and other parts have the corner structure.

Optionally, in the mold box, the corner structures of two adjacent groups of prefabricated component molds with corners are respectively arranged at two sides of the mold box, so that when a plurality of prefabricated component molds with corners are arranged, the corner structures are alternately arranged at two sides of the mold box.

Alternatively, in a plurality of the mold boxes, the angled preform molds and the linear preform molds are alternately arranged.

Optionally, the connecting mechanism includes folding pole, folding pole's one end is connected in first stage moulding box side, and the other end is connected in last stage moulding box side, remaining moulding boxes with leave between the folding pole the space.

Compared with the prior art, the utility model has the following beneficial effects: a certain space is reserved between the side surface of the die box and the connecting mechanism for the corner structure of the die to be placed in, so that the die can be used for producing linear prefabricated parts, can be simultaneously applied to production and manufacture of prefabricated parts with corners, and expands the application range of the prefabricated part vertical die manufacturing equipment.

Drawings

FIG. 1 is a schematic structural view of a corner-equipped prefabricated part mold in a vertical mold layout structure of the corner-equipped prefabricated part mold according to an embodiment of the present utility model;

FIG. 2 is a schematic top view of the mold structure of the corner preform of FIG. 1;

FIG. 3 is a schematic view of a vertical mold layout structure of a prefabricated component mold with a corner according to an embodiment of the present utility model;

FIG. 4 is an enlarged schematic view of the placement of the vertical mold of FIG. 3 in the vicinity of the mold box;

FIG. 5 is a schematic top view of the placement of the vertical mold of FIG. 3 in the vicinity of the mold box;

FIG. 6 is an enlarged schematic view of the structure of FIG. 5 in the vicinity of the folding bar;

FIG. 7 is a schematic view of a prefabricated part made of a prefabricated part mold with a corner;

in the figure: 1-a mold box; a 2-pulley assembly; 3-track; 4-folding bars; 41-a rod body; 42-a first fixing seat; 43-nut; 44-a second fixing seat; 45-connecting piece; 5-space; 6-a prefabricated part mold with a corner; 61-a back plate; 62-outer page; 63-an insulating layer; 64-inner page mould; 65-corner structure; 7-an outer page plate; 8-inner page plate; 9-lifting a platform; 10-step ladder; 11-a standing platform; 12-ground; 13-dent.

Detailed Description

The principles and spirit of the present utility model will be described below with reference to several exemplary embodiments shown in the drawings. It should be understood that these embodiments are described only to enable those skilled in the art to better understand and to practice the utility model, and are not intended to limit the scope of the utility model in any way.

Referring to fig. 1-7, an embodiment of the present utility model provides a vertical mold layout structure of a mold with a corner prefabricated member, which includes a plurality of mold boxes arranged at vertical intervals, wherein a first mold box can be used as a platform for a worker to stand at the same time, and two sides of the plurality of mold boxes are connected with a rail through pulley assemblies 2, so that each mold box 1 moves along the rail 3, and thus mold opening and closing actions are realized. When the mold is opened, the prefabricated part molds are placed between the mold boxes 1, then the mold boxes 1 are moved close to each other to clamp the prefabricated part molds, and the mold boxes 1 can be fastened by using the connecting mechanism arranged on the side surfaces of the mold boxes. In this embodiment, the connecting mechanism is a folding bar 4. As an example, at the time of mold closing, the first mold box 1 as a stage is held stationary, and the remaining mold boxes 1 are moved toward each other, thereby completing the mold closing operation.

As described above, the prefabricated part mold is arranged between two adjacent mold boxes 1, only a linear mold can be arranged between the traditional vertical mold boxes, and the mold with a corner structure cannot be operated when encountering the mold, and the mold box assembly with the corner structure needs to be additionally used for fixing the mold. For this problem, in the present embodiment, the connecting mechanism has a certain space 5 reserved between the rest and the side face of the mold box 1 except for the connecting ends of the head and tail ends, and then the corner structure 65 in the prefabricated member mold 6 with the corner can be placed in the space when the mold is placed, and the inner side is attached to the outer side face of the mold box 1.

In one embodiment, the prefabricated corner component mold 6 comprises a back plate 61, an outer page 62, an insulating layer 63 and an inner page mold 64 which are sequentially arranged from outside to inside. The outer sheet 62 may be a sheet which has been cast in a flat mold state of the prefabricated member mold, or may be an outer sheet mold. The back plate, the outer page, the heat preservation and the inner die can be connected together through components such as bolts to form an integral structure, so that the integral structure is strong, and the integral die structure is not easy to disintegrate in the process of lifting and transporting to the die box. The inner sheet mold 64 is substantially linear, and the back plate 61, the outer sheet 62, the insulating layer 63, and the like include both a linear portion and a corner structure 65 disposed on an edge side of the linear portion, and the corner structure 65 is 90 degrees with respect to the linear portion. The corner structure 65 can extend from the side of the mold and be placed into the space on the side of the mold box 1 to fit the side end surface of the mold box 1. After the casting of the mould is completed, the prefabricated part formed by removing the mould comprises an outer leaf 7, an insulating layer 63 and an inner leaf 8.

As described above, in one embodiment, the connection mechanism may be a folding bar 4, for example, the folding bar 4 includes at least two bar bodies 41 connected to each other by a connection piece, and the tail end of the last bar body 41 is hinged to a second fixing seat 44, where the second fixing seat 44 is disposed on the side of the last mold box 1. The head end of the head rod 41 may be connected to the first fixing seat 42 by a nut 43 or the like to achieve fixation, and the first fixing seat 42 is disposed on the side surface of the first mold box 1. The adjacent rod bodies 41 can also be mutually hinged through the connecting piece 45, and the axis of the hinge shaft of each hinge point is vertical to the ground, so that the folding rod 4 can rotate in the horizontal direction, and the unfolding and folding states can be realized. When the die is assembled, the folding rod 4 is unfolded, two ends of the folding rod are respectively fixed with the head end die box 1 and the tail end die box 1, and a space is reserved between the rod body and the side surfaces of the rest die boxes 1. When the mold is opened, the fixed end of the folding rod 4 is released, and then the folding is performed so that the mold boxes 1 are away from each other, and the molded prefabricated part mold is taken out.

Because the lifting platform 9 is arranged in the recess 13 of the ground 12, in order to facilitate the operator to complete the opening and closing operation of the mold box 1 on the ground 12 and improve the safety and efficiency of the operation, in this embodiment, the first fixing seat 42 is located on the side surface of the first mold box 1, and the first mold box 1 is located on the ground 12, so that when the nut 43 of the first fixing seat 42 is operated to fix or release the fixing of the folding rod 4, the operator can complete on the ground 12 without entering the recess area where the lifting platform 9 is located, and the operation is safer.

In one embodiment, the corner prefabricated component dies 6 may be disposed between the mold boxes 1, where two adjacent sets of corner structures 65 of the corner prefabricated component dies are located on two sides of the mold box 1, for example, the corner structure 65 of the first set of corner prefabricated component dies 6 is located on the left side of the mold box 1, and then the corner structure 65 of the next set of corner prefabricated component dies 6 is located on the right side of the mold box 1, so that the corner prefabricated component dies 6 are alternately reciprocated, which is beneficial to fully and compactly utilizing the space 5 on the side surface of the mold box 1, and arranging as many corner prefabricated component dies 6 as possible, so as to improve the manufacturing efficiency. In other embodiments, the angular prefabricated part molds 6 and the linear prefabricated part molds may be alternately arranged, for example, the angular prefabricated part molds 6 are arranged between the first mold box and the second mold box, the linear prefabricated part molds are arranged between the second mold box and the third mold box, and thus the angular prefabricated part molds 6 are alternately reciprocated, so that the casting of the angular prefabricated part molds 6 is realized, and meanwhile, the casting of the linear prefabricated part molds may also be performed. However, whatever the form used, the types of dies that can be used by the prefabricated part vertical die making apparatus are expanded.

In some preferred embodiments, the bottom of the mold box 1 is provided with a recessed area, wherein a lifting platform 9 is provided, so that the lifting platform 9 can go back and forth between the mold boxes 1, and the pre-embedding operation of the prefabricated component mold is facilitated. A step ladder 10 may also be provided connected to the standing platform 11 to facilitate the pouring operation of the operator on top of the platform.

Specific examples are set forth herein to illustrate the utility model in detail, and the description of the above examples is only for the purpose of aiding in understanding the core concept of the utility model. It should be noted that any obvious modifications, equivalents, or other improvements to those skilled in the art without departing from the inventive concept are intended to be included in the scope of the present utility model.

Claims (6)

1. Take upright mould layout structure of corner prefabricated component mould, its characterized in that includes:

the die boxes are vertically arranged at intervals and are clamped and fixed by connecting mechanisms arranged on the side surfaces of the die boxes in a die clamping state;

the middle part of the connecting mechanism and the side surface of the die box leave a space so that:

the prefabricated component mold with the corner is clamped between two adjacent mold boxes, and the corner structure is placed in the space.

2. The vertical mold layout structure of the prefabricated component mold with the corner according to claim 1, wherein the prefabricated component mold with the corner comprises a back plate, an outer page, an insulating layer and an inner page mold which are sequentially arranged from outside to inside, wherein the inner page mold is linear, and the rest part of the inner page mold has a corner structure.

3. The vertical mold layout structure of the corner prefabricated member molds according to claim 1, wherein among the plurality of mold boxes, corner structures of two adjacent sets of corner prefabricated member molds are respectively provided on both sides of the mold boxes, so that when a plurality of the corner prefabricated member molds are arranged, the corner structures are alternately arranged on both sides of the mold boxes.

4. The vertical mold layout structure of the corner preform mold according to claim 1, wherein the corner preform mold and the linear preform mold are alternately arranged in a plurality of the mold boxes.

5. The vertical mold layout structure of the prefabricated component mold with the corner according to claim 1, wherein the connecting mechanism comprises a folding rod, one end of the folding rod is connected to the side surface of the first stage mold box, the other end of the folding rod is connected to the side surface of the last stage mold box, and the space is reserved between the rest mold boxes and the folding rod.

6. The vertical mold layout structure of a prefabricated mold with corner according to claim 5, wherein the ground is below the first stage mold box, the recess area is formed below the rest of the mold boxes for the reciprocating movement of the lifting platform, and the fixed ends of the folding bars are provided on the side surfaces of the first stage mold box.