CN210308341U - Sliding-set type gypsum matching strip forming die - Google Patents

Abstract

A sliding-group gypsum matching strip forming die comprises a rack, wherein a bottom edge die is fixedly connected to the rack, forming dies matched with the bottom edge die are arranged on the periphery of the bottom edge die, a linear guide rail is arranged on the rack, the forming dies are arranged on the linear guide rail in a sliding mode, and after the forming dies on the periphery of the bottom edge die are assembled, a die cavity for pouring gypsum matching strips is formed together with the bottom edge die. The utility model discloses a compound die of each module is realized to the linear guide pair of high accuracy, and the mould precision is high, and the gypsum that produces joins in marriage strip size precision height and stability.

Description

Sliding-set type gypsum matching strip forming die

Technical Field

The utility model relates to a construction machinery field, concretely relates to slip group formula gypsum joins in marriage strip forming die.

Background

The gypsum matching strip is a part of a mould for pouring the cast-in-place gypsum wall body and is used for assisting in pouring the cast-in-place gypsum wall body, and the matching strip is used as a reference for pouring the clamping mould of the cast-in-place gypsum wall body, so that the requirement on the size precision of the gypsum matching strip is high, the traditional manual wood mould cannot meet the precision requirement, and the precision of the produced gypsum matching strip is insufficient due to the gradual material accumulation at the hinged part of the steel mould box adopting hinged connection after multiple times of production.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: to the problem that above-mentioned exists, provide a smooth group formula gypsum and join in marriage strip forming die, through the compound die of each module of the vice realization of high accuracy linear guide, the mould precision is high, and the gypsum that produces joins in marriage strip size precision height and stability.

The utility model adopts the technical scheme as follows:

a sliding-group gypsum matching strip forming die comprises a rack, wherein a bottom edge die is fixedly connected to the rack, forming dies matched with the bottom edge die are arranged on the periphery of the bottom edge die, a linear guide rail is arranged on the rack, the forming dies are arranged on the linear guide rail in a sliding mode, and after the forming dies on the periphery of the bottom edge die are assembled, a die cavity for pouring gypsum matching strips is formed together with the bottom edge die.

In the structure, the moulded die around the base mould all slides through linear guide and sets up in the frame to carry out the compound die under linear guide's direction, avoid appearing the skew at the compound die in-process, the gypsum that can effectual assurance was pour joins in marriage a strip size and meets the requirements, the gypsum that its produced joins in marriage a strip size precision height and stability, the gypsum that can be convenient for take out and pour simultaneously joins in marriage the strip, be convenient for clear up the long-pending material of gypsum on each moulded die, avoid the long-pending material of gypsum to influence pouring that the gypsum joined in marriage the strip. The mold cavity can be any shape and is not limited to the mold cavity for pouring the L-shaped gypsum matching strip specifically described in the embodiment in the specification.

Furthermore, one side of the forming die around the bottom edge die is connected with a power device, and the power device enables the forming die to move along the linear guide rail.

Due to the adoption of the structure, the forming die can move along the linear guide rail under the action of the power mechanism.

Furthermore, the power device comprises an air cylinder, the air cylinder comprises a cylinder body and a piston rod movably arranged in the cylinder body, the cylinder body is fixedly arranged on the rack, and one end of the piston rod is connected with one side of the forming die so that the forming die moves along the linear guide rail.

In the above structure, the power device may be a hydraulic cylinder, an air cylinder, an electric push rod, or the like, and is not limited to the air cylinder specifically described in the embodiments in the specification as long as the power device can move the forming die along the linear guide rail.

Further, the forming dies positioned on the front side and the rear side of the bottom edge die are respectively a front end die and a rear end die, the front end die and the rear end die are arranged oppositely, the forming dies positioned on the other two sides of the bottom edge die are respectively a corner die and a straight edge die, the straight edge die and the corner edge die are arranged oppositely, and after the front end die, the rear end die, the corner edge die and the straight edge die are closed, the front end die, the rear end die, the corner edge die and the straight edge die and the bottom edge die form a die cavity together for pouring a gypsum matching strip with a certain angle.

In the above structure, after the front end mold, the rear end mold, the corner side mold and the straight side mold are closed, the front end mold, the rear end mold, the corner side mold and the straight side mold form a mold cavity together with the bottom side mold, and the mold cavity can be used for pouring gypsum matching strips at a certain angle, for example, for pouring L-shaped gypsum matching strips at 70 degrees, 80 degrees or 90 degrees, and is not limited to a specific angle.

Furthermore, the front end die and the rear end die are both provided with core rod through holes, core rods penetrate through the core rod through holes, and the core rods are used for forming through hole structures on the gypsum matching strips.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

the utility model discloses in, the compound die is all carried out through the linear guide direction to the moulded die around the base mould, avoids removing the deviation that the in-process appears in the compound die, guarantees the accurate cooperation between each moulded die and the base mould, and the gypsum that can effectual assurance was pour joins in marriage the precision of the size of strip, can be convenient for take out the gypsum of pouring simultaneously and join in marriage the strip, is convenient for clear up the long-pending material of gypsum on each moulded die, avoids the long-pending material of gypsum to influence pouring that the strip was joined in marriage to the gypsum.

Drawings

FIG. 1 is a schematic perspective view of a mold clamping state according to an embodiment;

FIG. 2 is a front view of a mold clamping state of the exemplary embodiment;

FIG. 3 is a sectional view taken along line A-A of FIG. 2;

FIG. 4 is a schematic perspective view of a mold opened state after casting molding of the strip of the embodiment;

the labels in the figure are: 1-a rack, 2-a first cylinder, 3-a first linear guide rail, 4-a first slide block, 5, a first piston rod, 6-a core rod, 7-a front end die, 8-a third cylinder, 9-a straight side die, 10-a die cavity, 11-a rear end die, 12-an angle side die, 13-a second piston rod, 14-a second cylinder, 15-a second linear guide rail, 16-a fourth piston rod, 17-a fourth slide block, 18-a fourth linear guide rail, 19-a fourth cylinder, 20-a bottom side die, 21-a second slide block, 22-a third linear guide rail, 23-a third slide block, 24-a third piston rod and 25-an L-type plaster matching strip.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The utility model provides a smooth group formula gypsum joins in marriage a strip forming die, explains for the detail the utility model discloses, below uses 90L type gypsum wall body to join in marriage strip 25 and exemplifies, including frame 1, fixed connection has bottom mould 20 in the frame 1, the both sides of bottom mould 20 are provided with respectively rather than the front end mould 7 and the rear end mould 11 that match, the other both sides of bottom mould 20 are provided with respectively rather than matched with straight flange mould 9 and angle limit mould 12, behind front end mould 7, rear end mould 11, straight flange mould 9 and the 12 compound dies of angle limit mould, mutually support with bottom mould 20 and form the die cavity 10 that is used for pouring L type gypsum and joins in marriage strip 25, mutually support with bottom mould 20 promptly and form the die cavity 10 that is used for pouring 90 gypsum and joins in marriage strip 25.

The front end die 7 and the rear end die 11 are respectively arranged on two end faces of the L-shaped gypsum distribution strip 25 in a matching mode, the bottom side die 20 and the straight side die 9 are respectively arranged on a long face of the L-shaped gypsum distribution strip 25 in a matching mode, and the corner side die 12 is arranged on a right-angle face of the L-shaped gypsum distribution strip 25 in a matching mode.

Further, a first linear guide rail 3 and a second linear guide rail 15 are respectively arranged on two sides of the bottom edge mold 20, the front end mold 7 and the rear end mold 11 are respectively and correspondingly arranged on the first linear guide rail 3 and the second linear guide rail 15 in a sliding manner, specifically, a first sliding block 4 and a second sliding block 21 are respectively fixedly arranged at the bottoms of the front end mold 7 and the rear end mold 11, and the first sliding block 4 and the second sliding block 21 are respectively arranged on the first linear guide rail 3 and the second linear guide rail 15 in a sliding fit manner to drive the front end mold 7 and the rear end mold 11 to reciprocate along the linear guide rails; a first air cylinder 2 is arranged on one side, far away from the bottom edge mold 20, of the front end mold 7, the first air cylinder 2 is fixedly arranged on the rack 1, the first air cylinder 2 comprises a first piston rod 5, and the first piston rod 5 is connected with the front end mold 7 to drive the front end mold 7 to reciprocate along a first linear guide rail 3; one side of the rear end die 11, which is far away from the bottom edge die 20, is provided with a second cylinder 14, the second cylinder 14 is fixedly arranged on the frame 1, the second cylinder 14 comprises a second piston rod 13, and the second piston rod 13 is connected with the rear end die 11 to drive the rear end die 11 to reciprocate along a second linear guide rail 15.

Further, a third linear guide rail 22 and a fourth linear guide rail 18 are respectively arranged on the other two sides of the bottom edge mold 20, the straight edge mold 9 and the corner edge mold 12 are respectively and correspondingly slidably arranged on the third linear guide rail 22 and the fourth linear guide rail 18, specifically, a third slider 23 and a fourth slider 17 are respectively and fixedly arranged at the bottoms of the straight edge mold 9 and the corner edge mold 12, and the third slider 23 and the fourth slider 17 are respectively and slidably arranged on the third linear guide rail 22 and the fourth linear guide rail 18 to drive the straight edge mold 9 and the corner edge mold 12 to reciprocate along the linear guide rails; a third cylinder 8 is arranged on one side of the straight side die 9, which is far away from the bottom side die 20, the third cylinder 8 is fixedly arranged on the rack 1, the third cylinder 8 comprises a third piston rod 24, and the third piston rod 24 is connected with the straight side die 9 to drive the straight side die 9 to reciprocate along a third linear guide rail 22; a fourth cylinder 19 is arranged on one side, far away from the bottom side die 20, of the corner side die 12, the fourth cylinder 19 is fixedly arranged on the rack 1, the fourth cylinder 19 comprises a fourth piston rod 16, the fourth piston rod 16 is connected with the corner side die 12, and the corner side die 12 is driven to reciprocate along a fourth linear guide rail 18.

The front end die 7 and the rear end die 11 are both provided with core rods 6 for perforation, the core rods 6 penetrate through the inner parts of the core rods 6 for perforation, and the core rods 6 are used for forming through hole structures in the gypsum matching strips along the length direction of the gypsum matching strips.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (5)

1. A sliding-set type gypsum matching strip forming die comprises a frame and is characterized in that a bottom edge die is fixedly connected to the frame, forming dies matched with the bottom edge die are arranged on the periphery of the bottom edge die, a linear guide rail is arranged on the frame, the forming dies are arranged on the linear guide rail in a sliding mode, and after the forming dies on the periphery of the bottom edge die are assembled, a die cavity for pouring gypsum matching strips is formed together with the bottom edge die.

2. The sliding block type gypsum stripe forming die of claim 1, wherein a power device is connected to one side of the forming die around the bottom die, and the power device makes the forming die move along a linear guide rail.

3. The sliding block type gypsum stripe forming die of claim 2, wherein the power device comprises a cylinder, the cylinder comprises a cylinder body and a piston rod movably arranged in the cylinder body, the cylinder body is fixedly arranged on the frame, and one end of the piston rod is connected with one side of the forming die to enable the forming die to move along the linear guide rail.

4. The sliding block type gypsum distributing bar forming mold according to any one of claims 1 to 3, wherein the forming molds located on the front and rear sides of the bottom mold are a front end mold and a rear end mold, respectively, the front end mold and the rear end mold are disposed opposite to each other, the forming molds located on the other two sides of the bottom mold are a corner mold and a straight mold, respectively, the straight mold and the corner mold are disposed opposite to each other, and the front end mold, the rear end mold, the corner mold and the straight mold, after being closed, form a mold cavity for pouring a gypsum distributing bar with a certain angle together with the bottom mold.

5. The sliding block type gypsum distributing bar forming die of claim 4, wherein the front end die and the rear end die are provided with core rod through holes, and core rods are arranged inside the core rod through holes and used for forming through hole structures on the gypsum distributing bars.

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