CN217168964U - Wallboard leak protection thick liquid mould - Google Patents

Abstract

The application relates to the field of partition board forming, and particularly discloses a wallboard pulp leakage preventing mold which comprises a side mold, a vertical mold and a bottom mold; the vertical mold is in a rectangular plate shape, and a plurality of vertical molds are distributed in parallel side by side; the bottom die is in a strip plate shape and is inserted into a crack at the bottom end of two vertical dies which are arranged side by side; the side dies are rectangular plate-shaped, a plurality of round holes are formed in the middle of the side dies, the side dies are divided into two groups which are inserted into the head end and the tail end of the two side-by-side vertical dies, and the bottom die is tightly pressed by the bottom ends of the side dies; the joints of the head end and the tail end of the vertical die and the side die are provided with baffles for limiting the side die; the bottom end of the vertical die is provided with a smooth steel plate as a sliding bottom plate, the sliding bottom plate is fixedly welded with the vertical die, and the bottom die is connected with the sliding bottom plate in a sliding manner; rectangular calcium carbonate plates are arranged on two side walls of the vertical die, the length of the calcium carbonate plates is shorter than that of the vertical die, and the calcium carbonate plates are abutted against the side die; the side molds, the vertical molds and the bottom molds are connected to form a plurality of box bodies with upward openings.

Description

Wallboard leak protection thick liquid mould

Technical Field

The utility model relates to a partition plate shaping field, concretely relates to wallboard mould of leaking control.

Background

Partition plate is comparatively commonly used in the building field, to the non-bearing wall of present building, uses light partition plate usually, and light partition plate sets up the through-hole in order to alleviate its quality through the middle part, convenient transportation, save material. The partition board is mainly produced by pouring and molding through a mold.

Partition plate mould among the prior art has solved dismantlement, equipment, cleanness, batch processing scheduling problem, does not solve to the problem of leaking the thick liquid, pours the in-process and leaks the thick liquid and can influence the partition plate quality. The utility model provides a wallboard mould of preventing leaking thick liquid in this scheme, lies in solving the problem that the partition plate mould leaks thick liquid, improves the problem of dismantling the equipment simultaneously.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a wallboard mould of leaking control to solve the mould side and leak the problem of thick liquid, installation and drawing of patterns that thick liquid and bottom surface are leaked.

A wallboard slurry leakage prevention mold comprises a side mold, a vertical mold and a bottom mold; the vertical mold is in a rectangular plate shape, and a plurality of vertical molds are distributed in parallel side by side; the bottom die is in a strip plate shape and is inserted into a crack at the bottom end of two vertical dies which are arranged side by side; the side dies are rectangular plate-shaped, a plurality of round holes are formed in the middle of the side dies, the side dies are divided into two groups which are inserted into the head end and the tail end of the two side-by-side vertical dies, and the bottom die is tightly pressed by the bottom ends of the side dies; the joints of the head end and the tail end of the vertical die and the side die are provided with baffles for limiting the side die; the bottom end of the vertical die is provided with a smooth steel plate as a sliding bottom plate, the sliding bottom plate is fixedly welded with the vertical die, and the bottom die is connected with the sliding bottom plate in a sliding manner; rectangular calcium carbonate plates are arranged on two side walls of the vertical die, the length of each calcium carbonate plate is shorter than that of the vertical die, and the calcium carbonate plates abut against the side die; the side molds, the vertical molds and the bottom molds are connected to form a plurality of box bodies with upward openings. The wallboard mould that this scheme provided can prevent that the side from leaking thick liquid and bottom surface from leaking thick liquid to and conveniently install and the drawing of patterns.

The first preferred scheme is as follows: as a further optimization of the basic scheme, the side die comprises a side die outer plate and a side die inner plate, the side die inner plate and the side die outer plate are overlapped and fixed through bolts, and the width of the side die inner plate is larger than that of the side die outer plate. The side forms inner panel differs with the planking width and can make the inner panel contact with founding the mould and planking and baffle contact, and the equal in close contact with of bilayer is better than in individual layer leak protection effect.

The preferred scheme II is as follows: as a further optimization of the first preferred scheme, a side die lower hook is arranged on the side die outer plate, a long rod-shaped lifting rod is arranged at the side die lower hook, and the lifting rod is movably contacted with the side die lower hook; the lifting rod is matched with the lower hook of the side die to press the side die on the bottom die. The lifting rod downwards compresses the lower hook of the side die, so that the side die is contacted with the bottom die, and the bottom end of the side die is prevented from leaking slurry.

The preferable scheme is three: as a further optimization of the second preferred scheme, the side formwork outer plate is provided with a side formwork upper hook, the lifting rod is movably contacted with the side formwork upper hook, and the lifting rod is matched with the side formwork upper hook to lift the side formwork to separate from the vertical formwork. The lifting rod is lifted upwards to pull and integrally demould, the operation is simple, manual single disassembly is avoided, and labor is saved.

The preferable scheme is four: as a further optimization of the preferable scheme three, a bottom die hook is arranged at the end part of the bottom die, and the bottom die hook is welded and fixed with the bottom die. The hook pushes and pulls the bottom die to push in and pull out.

The preferable scheme is five: as a further optimization of the preferable scheme four, the bottom end of the vertical die is fixedly connected with a hydraulic oil cylinder telescopic shaft, and the hydraulic oil cylinder telescopic shaft is perpendicular to the plane of the vertical die. The telescopic shaft is unfolded to erect the die, so that the side surface can be rapidly demoulded.

The preferable scheme is six: and as a further optimization of the preferable scheme five, a calcium carbonate plate is arranged at the contact plane of the vertical mold and the bottom mold, a groove is formed on the upper surface of the bottom mold and the vertical mold, and the groove is clamped with the calcium carbonate plate. The calcium carbonate board has the functions of separating the vertical mold from cement slurry, facilitating demolding after molding and facilitating slurry leakage between the bottom mold and the vertical mold.

Drawings

FIG. 1 is a front view of an embodiment of the present invention;

fig. 2 is a schematic view of the insertion tube according to the embodiment of the present invention after being inserted into 1 side mold;

FIG. 3 is a schematic view of a side form according to an embodiment of the present invention;

fig. 4 is a top view of the present invention.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the side die comprises a side die 10, a side die inner plate 11, a side die outer plate 12, a side die upper hook 121, a side die lower hook 122, a lifting rod 13, a bottom die 20, a bottom die hook 21, a vertical die 30, an insertion pipe 40, a baffle 50 and a calcium carbonate plate 60.

The embodiment is basically as shown in the attached figure 1: a wallboard grout leakage prevention mold comprising: the side die 10, the vertical die 30 and the bottom die 20; the vertical mold 30 is rectangular plate-shaped, and a plurality of vertical molds 30 are arranged side by side and in parallel; the bottom die 20 is in a strip plate shape and is inserted into a crack at the bottom end of two vertical dies 30 which are arranged side by side; the side dies 10 are rectangular plate-shaped, a plurality of round holes are formed in the middle of the side dies, the side dies 10 are divided into two groups which are inserted into the head end and the tail end of two side-by-side vertical dies 30, and the bottom ends of the side dies 10 tightly press the bottom dies 20; baffles 50 are arranged at the joints of the head end and the tail end of the vertical die 30 and the side die 10 to limit the side die 10; the bottom end of the vertical mold 30 is provided with a smooth steel plate as a sliding bottom plate, the sliding bottom plate is fixed with the vertical mold 30 through welding, and the bottom mold 20 is connected with the sliding bottom plate in a sliding manner; rectangular calcium carbonate plates 60 are arranged on two side walls of the vertical die 30, the length of each calcium carbonate plate 60 is shorter than that of the vertical die 30, and the calcium carbonate plates 60 abut against the side die 10; the side forms 10, the vertical forms 30 and the bottom form 20 are connected to form a plurality of box bodies with upward openings.

As shown in the attached drawing 2, the circular hole of the side form 10 is used for being inserted into a columnar insertion pipe 40, and the insertion pipe 40 is inserted into the slurry leakage prevention mold and then cement slurry pouring is carried out, so that the demolded partition board is a light partition board with through holes.

The bottom end of each vertical die 30 is fixed with a hydraulic oil cylinder telescopic shaft, and the hydraulic oil cylinder telescopic shaft is vertical to the plane of the vertical die 30. The telescopic shaft can enable the vertical dies 30 to transversely move in parallel to unfold the two vertical dies 30. The vertical molds 30 serve as left and right side surfaces of the case, the side molds 10 serve as front and rear surfaces of the case, and the bottom mold 20 serves as a bottom surface of the case. The telescopic shaft direction of the hydraulic oil cylinder is horizontal, the upward extending direction of the side die is vertical, and the extending direction of the bottom die is vertical.

As shown in fig. 4, the side forms 10 are arranged at the head and tail ends of the vertical form 30 and are clamped on the vertical form 30 through the baffle plates 50; the baffle 50 is rectangular plate-shaped steel sheet, the baffle 50 passes through the bolt fastening at the head and the tail both ends of standing 30, and the baffle 50 width is greater than standing mould 30 width, and the baffle 50 blocks side forms 10 and is spacing to it, prevents that side forms 10 from falling to the outside.

The bottom die 20 is inserted into a gap formed at the bottom ends of the two vertical dies 30, and the bottom die 20 is drawn out and pushed in through the sliding connection of the sliding bottom plate.

As shown in fig. 4, the side forms 10 are divided into two groups, i.e., a front group and a rear group, and are pressed on the bottom form 20 in a pressure-equalizing manner; as shown in figure 3, the side die 10 is divided into an inner side die layer 11 and an outer side die layer 12, the inner side die layer and the outer side die layer are fixed and overlapped together through bolts, and the width of the inner side die layer 11 is larger than that of the outer side die layer 12. The two ends of the inner side formwork plate 11 are just contacted with the calcium carbonate plate 60, and the two ends of the outer side formwork plate 12 are just contacted with the edge of the baffle 50, so that the cement slurry is prevented from overflowing.

The surface of the side form outer plate 12 is fixed with a right-angle hook-shaped iron block by welding, wherein the opening of the right-angle hook faces downwards to form an upper side form hook 121, and the opening of the right-angle hook faces upwards to form a lower side form hook 122. The side die lower hook 122 is matched with the long rod-shaped lifting rod 13 with large mass, and the lifting rod 13 is pressed on the side die lower hook 122. The lifting rod 13 is used for pressing the side forms 10 on the bottom mold 20, so that gaps between the side forms 10 and the bottom mold 20 are avoided.

The lifting rod 13 is lifted by the lifting device to be in contact with the side form upper hook 121, and the lifting rod 13 jacks up the side form upper hook 121, so that the side form 10 is separated from the vertical form 30.

The bottom die 20 is fixedly welded with a bottom die hook 21, and the hook is positioned outside the bottom end of the side die 10. The bottom die 20 can be pushed into the gap of the vertical die 30 and pulled out of the vertical die 30 by pushing and pulling the bottom die hook 21.

The side wall of the vertical mold 30 uses the calcium carbonate plate 60 as an interlayer, a surface bulge arranged on the bottom mold 20 at the bottom just forms a groove with the vertical mold 30, and the calcium carbonate plate 60 is clamped in the groove; the upper end of the calcium carbonate plate is clamped by the side die inner plate 11. The calcium carbonate plate 60 is used for separating the vertical mold 30 from the cement slurry, facilitating demolding after molding and preventing slurry leakage between the bottom mold 20 and the vertical mold 30.

The specific implementation process is as follows:

when a front casting mold is installed: the bottom ends of the vertical dies 30 are fixedly connected to a telescopic shaft of a hydraulic oil cylinder, and the distances among the vertical dies 30 are equal; then the bottom die 20 is pushed into the gap between the vertical dies 30; then the front and the rear groups of side moulds 10 are inserted from top to bottom; the calcium carbonate plate 60 is inserted between the two vertical molds 30; finally, the insert tube 40 is inserted into the circular hole of the side form 10.

Before pouring, a release agent is sprayed on each inner surface of the mold.

The steps of demoulding after the partition board is formed are as follows: 1. the cannula 40 is pulled back to effect detachment; 2. lifting the front and rear groups of side forms 10 upwards respectively to realize separation; 3. operating a hydraulic oil cylinder to horizontally move and unfold the vertical die 30 to realize separation; 4. removing the calcium carbonate sheet 60 attached to the partition wall sheet; 5. dropping the vertical partition plate into a transport vehicle through a hoisting device so as to separate from the bottom die 20; the vertical mold 30 is unfolded in turn and the partition plate is removed in turn.

The above description is only an example of the present invention, and the common general knowledge of the known specific structures and characteristics of the embodiments is not described herein. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several modifications and improvements can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (7)

1. The utility model provides a wallboard mould that leaks thick liquid which characterized in that: comprises a side die, a vertical die and a bottom die; the vertical mold is in a rectangular plate shape, and a plurality of vertical molds are distributed in parallel side by side; the bottom die is in a strip plate shape and is inserted into a crack at the bottom end of two vertical dies which are arranged side by side; the side dies are rectangular plate-shaped, a plurality of round holes are formed in the middle of the side dies, the side dies are divided into two groups which are inserted into the head end and the tail end of the two side-by-side vertical dies, and the bottom ends of the side dies are tightly pressed on the bottom die; the joints of the head end and the tail end of the vertical die and the side die are provided with baffles for limiting the side die; the bottom end of the vertical die is provided with a smooth steel plate as a sliding bottom plate, the sliding bottom plate is fixedly welded with the vertical die, and the bottom die is connected with the sliding bottom plate in a sliding manner; rectangular calcium carbonate plates are arranged on two side walls of the vertical die, the length of each calcium carbonate plate is shorter than that of the vertical die, and the calcium carbonate plates abut against the side die; the side molds, the vertical molds and the bottom molds are connected to form a plurality of box bodies with upward openings.

2. The wallboard mold of claim 1, wherein: the side die comprises a side die outer plate and a side die inner plate, the side die inner plate and the side die outer plate are overlapped and fixed through bolts, and the width of the side die inner plate is larger than that of the side die outer plate.

3. The wallboard mold of claim 2, wherein: the side die outer plate is provided with a side die lower hook, a long rod-shaped lifting rod is arranged at the side die lower hook, and the lifting rod is movably contacted with the side die lower hook; and the lifting rod is matched with the lower hook of the side die to press the side die on the bottom die.

4. The wallboard mold of claim 3, wherein: set up the side forms on the side forms planking and go up the hook, lifter and side forms overhead hook swing joint, lifter cooperation limit is herd the overhead hook and is mentioned the side forms in order to break away from upright mould.

5. The wallboard mold of claim 4, wherein: the end part of the bottom die is provided with a bottom die hook, and the bottom die hook is welded and fixed with the bottom die.

6. The wallboard mold of claim 5, wherein: the bottom end of the vertical die is fixedly connected with a telescopic shaft of the hydraulic oil cylinder, and the telescopic shaft of the hydraulic oil cylinder is perpendicular to the plane of the vertical die.

7. The wallboard mold of claim 6, wherein: the calcium carbonate plate is arranged on the contact plane of the vertical mold and the bottom mold, a groove is formed on the upper surface of the bottom mold and the vertical mold, and the calcium carbonate plate is clamped in the groove.

Images