CN215660892U - Vertical die assembly - Google Patents

Abstract

The utility model provides a vertical die assembly. The vertical type die assembly comprises a bottom frame, two first templates and two second templates, wherein the two first templates are arranged along the X direction of the bottom frame, the two second templates are arranged along the Y direction of the bottom frame, the distance between the two second templates is adjustable, and the two first templates and the two second templates are enclosed to form a vertical prefabricated wallboard pouring area. Compared with the prior art, the vertical die assembly provided by the utility model can be directly adjusted through the structure that the distance between the second template and the bottom frame is adjustable according to the thickness requirement of a die finally formed by using the die assembly, so that the universality and the flexibility of the die assembly are greatly improved.

Description

Vertical die assembly

Technical Field

The utility model relates to the technical field of assembly type buildings, in particular to a vertical type die assembly.

Background

In the field of prefabricated construction, prefabricated partitions play an extremely important role as a common prefabricated concrete component. The existing precast concrete partition wall is mostly horizontally poured. This horizontal system of building of pouring occupies the place great in the production process, and the arrangement of inconvenient built-in fitting, and the drawing of patterns is comparatively difficult, and is fixed single to the thickness control of prefabricated partition wall.

The construction process of the prefabricated wall panel disclosed by the patent publication number CN102535841A, the vertical manufacturing method of the light partition wall large panel disclosed by the patent publication number CN106827175A, and the vertical mold assembly and the prefabricated superposed wall structure disclosed by the patent publication number CN208529366U are improved aiming at the technical scheme of vertical pouring aiming at horizontal pouring, but the construction process does not have the function of adjusting the thickness of a vertical template, so that the use is limited, and the universality is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a vertical die assembly with good universality, which can realize the adjustment of the thickness of a vertical template.

The technical scheme of the utility model is as follows: the utility model provides a vertical mould subassembly includes the chassis, follows two first templates that chassis X direction set up and follow two second templates that chassis Y direction set up, two the second template is in interval on the chassis is adjustable, two first template and two the second template encloses to close and forms vertical prefabricated wallboard and pours the region.

In the above scheme, according to the thickness requirement of the mold finally formed by using the mold assembly, the distance adjustable structure of the second template on the bottom frame is used for direct adjustment, and the universality and the flexibility of the mold assembly are greatly improved.

Preferably, the underframe comprises two first supports arranged in parallel at intervals and two second supports arranged in parallel at intervals, the two second supports are arranged on the two first supports at intervals, and the distance between the two second supports is adjustable; the second template is correspondingly arranged on the second support, and the first template is correspondingly arranged on the first support.

Preferably, a plurality of threaded holes are arranged in the length direction of the first support, mounting holes are formed in two ends of the second support, and the mounting holes are matched with the threaded holes and detachably connected through fasteners.

Preferably, two ends of the second support are provided with slide blocks which are lifted upwards, and the slide blocks are connected with the first support in a sliding mode.

Preferably, the first template comprises a first framework, and the first framework is a framework surrounded by a plurality of transverse and longitudinal staggered square beams.

Preferably, the second template includes second skeleton and bracing, the second skeleton encloses synthetic frame by many horizontal, vertically crisscross square girders, the second skeleton passes through the bracing is installed on the chassis.

Preferably, the joint of the first template and the second template is detachably connected through a fastener.

Compared with the related technology, the utility model has the beneficial effects that:

the thickness of the prefabricated partition wall can be flexibly adjusted, and the universality of a mold assembly is improved;

compared with horizontal pouring, the method has the advantages that the occupied area is small, and the field utilization rate can be effectively improved;

thirdly, vertical pouring enables installation of the embedded part to be more convenient;

fourthly, the prefabricated part can be directly and vertically stored after being demoulded, and turnover equipment is not needed, so that the production efficiency of a PC (polycarbonate) member factory can be effectively improved;

and fifthly, the detachable structure of the mold assembly enables the whole assembly and the mold disassembly to be more convenient, and the whole template system is more stable through the designed structures such as the framework, the inclined strut and the like.

Drawings

Fig. 1 is an exploded view of a vertical mold assembly according to the present invention.

In the drawings: 1-underframe, 11-first support, 111-threaded hole, 12-second support, 121-mounting hole, 2-first template, 21-first framework, 3-second template, 31-second framework, 32-diagonal brace and 10-prefabricated wallboard.

Detailed Description

The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings. It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict. For convenience of description, the words "upper", "lower", "left" and "right" in the following description are used only to indicate the correspondence between the upper, lower, left and right directions of the drawings themselves, and do not limit the structure.

As shown in fig. 1, the vertical mold assembly provided in this embodiment includes a base frame 1, two first mold plates 2 arranged along an X direction of the base frame 1, and two second mold plates 3 arranged along a Y direction of the base frame 1.

The chassis 1 comprises two first supports 11 arranged in parallel at intervals and two second supports 12 arranged in parallel at intervals, the two second supports 12 are connected to the two first supports 11 at intervals, and the distance between the two second supports 12 on the first supports 11 is adjustable. The method specifically comprises the following steps: the first support 11 is provided with a plurality of threaded holes 111 arranged in the length direction, the two ends of the second support 12 are provided with mounting holes 121, and the mounting holes 121 are matched with the threaded holes 111 at appropriate positions and detachably connected through fasteners, so that the distance adjustment is realized. In addition, two ends of the second bracket 12 are provided with sliders 122 which are lifted upwards, and the lifting height of the sliders 122 is matched with that of the first bracket 11, so that the sliders 122 can be slidably connected with the first bracket 11, and thus, the first bracket 11 forms a slide rail.

The second template 3 is arranged on the second support 12, and the first template 2 is arranged on the first support 11. The second formworks 3 are adjusted together with the second brackets 12, so that the distance between the second formworks 3 at two ends on the base frame 1 can be adjusted, namely, the thickness of the prefabricated wall panel 10 is adjusted.

And the two first formworks 2 and the two second formworks 3 enclose to form a vertical prefabricated wallboard pouring area. The joint of the first template 2 and the second template 3 is detachably connected through a fastener.

First template 2 includes first skeleton 21, first skeleton 21 encloses synthetic frame by many horizontal, vertically crisscross square beams.

Second template 3 includes second skeleton 31 and bracing 32, second skeleton 31 encloses synthetic frame by many horizontal, crisscross square beams, second skeleton 31 passes through bracing 32 install in on the second support 12 of chassis 1. The square beams and the inclined struts can be made of square steel.

During installation, the distance between the second templates 3 is calculated according to the thickness of the prefabricated wall panel 10 which is finally formed, then the steel bar binding process is carried out, and after the steel bar binding process is finished, the embedded parts are placed for binding and fixing. And then the second bracket 12 is mounted at a proper position on the first bracket 11 according to the calculation result. The base frame 1 is placed on a mold table (not shown), the second form 3 is then placed upright, and the bottom of the second frame 31 is placed on the mold table and between the two first supports 11. The diagonal brace 32 is connected to the second bracket 12 and the second frame 31 at corresponding positions. The second formwork 3 on the other side is also mounted in the same way.

The first template 2 with a suitable width dimension is selected according to the spacing of the second templates 3. The bottom of the first template 2 is placed on the first support 11, and then the side surfaces of the first template 2 are attached to the end surfaces of the two second templates 3 and fixed by fasteners (bolts, gaskets, etc.). The first formwork 2 on the other side is also mounted in the same way.

The first and second forms 2, 3 thus enclose a vertical frame, the upper end of which (the end remote from the die table) is required to be flush. And after the adjustment treatment, concrete is poured into the frame. And (3) removing the vertical die assembly after forming to finally form the vertically placed prefabricated wall panel 10.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (7)

1. The utility model provides a vertical mould subassembly, its characterized in that includes chassis (1), follows two first template (2) that chassis (1) X direction set up and follow two second template (3) that chassis (1) Y direction set up, two second template (3) are in interval on chassis (1) is adjustable, two first template (2) and two second template (3) enclose to close and form vertical prefabricated wallboard and pour the region.

2. The vertical die assembly according to claim 1, characterized in that the base frame (1) comprises two first brackets (11) arranged in parallel and spaced apart and two second brackets (12) arranged in parallel and spaced apart, the two second brackets (12) are arranged in spaced apart relation on the two first brackets (11), and the distance between the two second brackets (12) is adjustable; the second template (3) is correspondingly arranged on the second support (12), and the first template (2) is correspondingly arranged on the first support (11).

3. The vertical die assembly according to claim 2, wherein a plurality of threaded holes (111) are arranged in the length direction of the first support (11), and mounting holes (121) are arranged at both ends of the second support (12), wherein the mounting holes (121) are matched with the threaded holes (111) and detachably connected through fasteners.

4. The vertical die assembly according to claim 2, characterized in that the second bracket (12) is provided at both ends with upwardly raised slides (122), said slides (122) being slidably connected to the first bracket (11).

5. The vertical die assembly according to any one of claims 1 to 4, characterized in that the first die plate (2) comprises a first framework (21), and the first framework (21) is a frame surrounded by a plurality of cross and longitudinal staggered square beams.

6. The vertical die assembly according to any one of claims 1 to 4, characterized in that the second die plate (3) comprises a second framework (31) and a diagonal brace (32), the second framework (31) is a frame surrounded by a plurality of cross and longitudinal staggered square beams, and the second framework (31) is installed on the bottom frame (1) through the diagonal brace (32).

7. The vertical die assembly according to any one of claims 1 to 4, wherein the joint of the first die plate (2) and the second die plate (3) is detachably connected by a fastener.

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