CN213055288U - Gypsum slat production mould of adjustable product length - Google Patents

Abstract

The utility model provides a gypsum slat production mould of adjustable product length, including the mould frame, be equipped with a splint supporting beam in the mould frame, install a plurality of parallel arrangement's splint through slide rail sliding fit on the splint supporting beam, leave the space between the splint and pour fashioned space as the gypsum slat, splint can slide along the slide rail, and the both ends of splint in the mould frame are equipped with one respectively and can follow splint length direction round trip movement's end template, the bottom in space between the splint is equipped with the bottom plate, and the both sides of bottom plate and the splint side sealing contact of homonymy are equipped with the end plate on the end template, and the end plate is located between two splint, and the adjustable mounting structure of adoption distance between end plate and the end template is connected, makes the adjustable distance that the end plate stretched into between two splint adjustable. The technical scheme in this application has realized the length specification of shaping slat freely adjusts in the production of slat building block, the automatic operation of drawing of patterns, has improved production efficiency and production flexibility.

Description

Gypsum slat production mould of adjustable product length

Technical Field

The utility model relates to a building materials production facility technical field especially indicates a gypsum slat production mould of adjustable product length.

Background

The gypsum hollow lath is one kind of gypsum board, and is made up by using building gypsum as base material and adding inorganic light aggregate and inorganic fibre reinforced material, and is mainly used for non-bearing internal wall of building. The gypsum hollow lath is used as the inner partition wall of the building, and has the same advantages as the gypsum building block, lighter weight in unit area and higher construction efficiency. The self-weight of the building can be reduced, the foundation bearing is reduced, and the construction cost can be effectively reduced. The length of the lath is determined according to the storey height of the building, so that the construction efficiency is higher. The gypsum hollow lath has the advantages of light weight, high strength, heat insulation, sound insulation, water resistance and the like, and can be sawed, planed, drilled and simply constructed. The production of the gypsum hollow lath generally comprises the working procedures of slurry mixing, casting molding, core pulling, drying and the like, and the operations of casting, core pulling, mold opening and the like are all completed manually when the gypsum hollow lath is produced at present, so that the production efficiency is low.

Therefore, the existing gypsum block production equipment is transformed by the inventor, a new gypsum batten production equipment is designed, and the production efficiency is obviously improved. The mould part is redesigned, and a plurality of clamping plates and a bottom plate are arranged at intervals and matched with an end template to form a space for pouring the batten. In the actual production, the gypsum laths with different length specifications are often needed, so that the production mold is continuously improved by the inventor, the laths with different length specifications can be produced by small adjustment, and the improved structure is applied for patent and protected.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the not enough of above-mentioned prior art, provide a gypsum slat production mould of adjustable product length, can adjust the length in shaping space in the mould, reach the purpose of producing different length products, can improve the production efficiency and the production flexibility of the hollow slat of gypsum greatly.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a gypsum batten production mold with adjustable product length comprises a mold frame, wherein a splint supporting beam is arranged on the mold frame, a plurality of splints which are arranged in parallel are arranged on the splint supporting beam in a sliding fit mode through a sliding rail, a gap is reserved between the splints and is used as a space for gypsum batten pouring forming, the splints can slide along the sliding rail, two ends of the splint on the mold frame are respectively provided with an end template which can move back and forth along the length direction of the splint, the bottom of the gap between the splints is provided with a bottom plate, two long side edges of the bottom plate are in sealing contact with the side faces of the splints at the same side, an auxiliary end plate is arranged on the end template and is positioned between the two splints, two side faces of the auxiliary end plate are in sealing contact with the side faces of the splints, the lower end face of the auxiliary end plate is in sealing contact with the upper surface of the bottom plate, the distance between the auxiliary template and the two clamping plates can be adjusted.

Further, the assistant end plate is connected to the end formwork through a connecting column penetrating through the end formwork, the connecting column is provided with a connecting screw rod, the connecting length of the connecting screw rod is adjusted through two positioning nuts located on two sides of the end formwork, the distance that the assistant end plate stretches into can be adjusted by adjusting the length of the connecting column, and therefore the specification length of the pouring batten is adjusted.

Furthermore, the auxiliary end plates are connected with a push-pull frame arranged on the outer side of the end template through connecting columns penetrating through the end template, and the push-pull frame is connected with the connecting columns controlling the plurality of auxiliary end plates.

Furthermore, a power device I and a power device II which are respectively used for pulling the clamping plate and the end template to move are arranged on the die rack.

Furthermore, the two side faces of the batten are provided with protruding positioning pins, the end templates on the two sides of the clamping plate are provided with positioning holes corresponding to the positioning pins, when the clamping plate is in a clamping position, the end templates clamp the end portions of the clamping plate and the bottom plate, and the positioning pins are inserted into the positioning holes.

Furthermore, two ends of the die rack are respectively provided with four horizontal guide pillars, the end die plate is installed in a matched mode with the guide pillars through the guide sleeves, and the end die plate moves back and forth along the guide pillars.

Furthermore, the power device II is provided with two groups of end mold oil cylinders which are respectively arranged at two ends of the mold rack and used for driving the end mold plates to move, one end of each end mold oil cylinder is connected with the side surface of each end mold plate, and the other end of each end mold oil cylinder is connected with the mold rack.

Further, the bottom plate with the splint bottom is through linking the plate structural connection, even the plate structure enables and leaves a space between all splint and the bottom plate after the outside splint are pulled open, splint are pushed back all splint and bottom plate resealing contact, link the plate structure and include a plurality of connection arm-tie, the both ends of connecting the arm-tie are connected respectively in the bottom of splint and bottom plate, and connect the arm-tie and be equipped with one along the rectangular hole that splint moving direction set up with the splint link, the connecting plate is installed through the connector that passes the rectangular hole and the cooperation of being connected the arm-tie, the connector passes the downthehole part of rectangular and can remove in the rectangular hole.

Furthermore, power device I is for locating at least one splint hydro-cylinder of opening of mould frame one side.

When the auxiliary template is used, the installation distance between the auxiliary end plate and the end template is adjusted before grouting into the mold, namely, the distance between the auxiliary template and the clamping plate is adjusted, and then grouting is performed. Opening the mold, performing core pulling operation after the slurry reaches certain solidification strength in the mold, and after core pulling is completed, pushing the end mold plates at two ends by the end mold oil cylinder to drive the auxiliary end plate to be separated from the clamp plates and the end surfaces of the molding battens and separate the auxiliary end plate from the two clamp plates; after the auxiliary end plate is separated in place, the clamping plate at the outermost side is pulled, and due to the existence of the long strip holes on the connecting pulling plate, the bottom plate and the clamping plate are sequentially pulled apart to a certain distance, so that the side surface of the clamping plate is separated from the side surface of the gypsum lath for demoulding. At the moment, the lath is clamped and lifted from the clamping plates by a special clamp and is transferred out. Then the clamping plate and the bottom plate are reset, the end template is reset, and grouting is carried out again. When other battens with different lengths are produced, the installation distance between the auxiliary end plate and the end template is readjusted.

The utility model has the advantages that: the technical scheme in the application realizes the automatic operation of free adjustment of the length specification and demoulding of the formed batten in the production of the batten building block, improves the production efficiency and the production flexibility, and can meet the customization requirements of different customers by simple adjustment; and structural design is reasonable, and the operation is stable, long service life.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic top view of the core bar of the slat mold in an inserted state;

FIG. 3 is a schematic view of the structure of the bottom plate and the bottom of the clamping plate matching with the connecting plate structure;

FIG. 4 is a partially enlarged schematic view of the connecting plate structure;

FIG. 5 is a schematic view showing the bottom plate and the bottom of the clamping plate in a scheme that the clamping plate is pulled to two sides;

FIG. 6 is a schematic top view of the cleat-side split slat mold;

FIG. 7 is a schematic view of a structure of the clamping plate and the bottom plate;

FIG. 8 is a schematic view of a connection between the end plate and the end form;

fig. 9 is another schematic view of the connection of the secondary end plate and the end form.

Shown in the figure: 1. the die comprises a die rack, 2, a clamping plate supporting beam, 3, a clamping plate, 4, an end die plate, 5, a guide pillar, 6, an end die oil cylinder, 7, a clamping plate opening oil cylinder, 8, a positioning pin, 9, a bottom plate, 10, a connecting pull plate, 11, a strip hole, 12, a connector, 13, a core rod, 14, an auxiliary end plate, 15, a connecting column, 16 and a push-pull frame.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1 to fig. 9, a gypsum lath production mould of adjustable product length, including mould frame 1, be equipped with a splint supporting beam 2 on the mould frame 1, splint supporting beam 2 is last to install a plurality of parallel arrangement's splint 3 through dovetail slide rail sliding fit, leave the space between the splint 3 and pour fashioned space as the gypsum lath, splint 3 can slide along the slide rail, the both ends of the splint on the mould frame 1 are equipped with one respectively and can follow 3 length direction round trip movement's of splint end template 4, wherein be equipped with a plurality of confession core bar 13 male eyelets on one side end template 4. Be equipped with power device I and power device II that are used for pulling splint 3 and end template 4 respectively to remove on the mould frame 1, the bottom in the space between splint 3 is equipped with bottom plate 9, the sealed contact of splint 3 side of two long sides and the homonymy of bottom plate 9, be equipped with vice end plate 14 on the end template 4, vice end plate 14 is located between two splint 3, vice end plate 14 both sides face and the sealed contact of splint 3 side, the lower part terminal surface of vice end plate 14 and the last surface seal contact of bottom plate 9, splint 3 and vice end plate 14 form the space that the gypsum lath was pour to shape, the adoption distance adjustable mounting structure between vice end plate 14 and the end template 4 is connected, it is adjustable to make vice template 14 stretch into the distance between two splint 3. The end plate 14 is provided with a hole for the end of the core rod 13 to pass through.

As shown in fig. 8, as a preferred distance-adjustable mounting structure between the secondary end plate 14 and the end formwork 4, each secondary end plate 14 is connected to the end formwork 4 through four connecting columns 15 penetrating through the end formwork 4, the connecting columns 15 are connecting screws, the connecting length of the connecting screws is adjusted through two positioning nuts located at two sides of the end formwork 4, and the distance that the secondary end plate 14 extends into can be adjusted by adjusting the length of the connecting columns 15, so that the specification length of the pouring batten is adjusted.

As shown in fig. 9, as another preferred distance-adjustable mounting structure between the end secondary plate 14 and the end formwork 4, the end secondary plate 14 is connected to a push-pull frame 16 disposed outside the end formwork 4 through four connecting columns 15 penetrating through the end formwork 4, the connecting columns 15 can freely slide on the end formwork 4 along the axial direction, the push-pull frame 16 is connected to the connecting columns 15 controlling a plurality of end secondary plates 14, and an oil cylinder is connected between the push-pull frame 16 and the end formwork 4 and pushes the push-pull frame to move or be fixed.

The bottom plate 9 and the bottom of the clamping plate 3 are connected through a connecting plate structure, the connecting plate structure enables all the clamping plates 3 and the bottom plate 9 to be separated from a gap after the outer clamping plate 3 is pulled away, and all the clamping plates 3 and the bottom plate 9 are in sealing contact again after the clamping plates 3 are pushed back. The even board structure includes a plurality of connection arm-tie 10, the both ends of connecting arm-tie 10 are connected respectively in the terminal surface bottom of splint 3 and the tip bottom of bottom plate 9, and the link of connecting arm-tie 10 and splint 3 is equipped with one and follows the rectangular hole 11 that splint 3 moving direction set up, it is equipped with the round hole to connect arm-tie 10 and bottom plate 9 link, connect arm-tie 10 through pass rectangular hole 11 or round hole connector 12 with connect arm-tie 10 cooperation installation, connector 12 passes the part ability in rectangular hole 11 and removes in rectangular hole 11. The connection head 12 is preferably a fixing screw, and the shaft of the fixing screw passes through the elongated hole 11 or the circular hole. The screw-fixing rod cannot move in the elongated hole 11.

Two ends of the die rack 1 are respectively provided with four horizontal guide pillars 5, the end die plate 4 is installed in a matching way with the guide pillars 5 through guide sleeves, and the end die plate 4 moves back and forth along the guide pillars 5.

The power device II comprises two groups of end mold oil cylinders 6 which are respectively arranged at two ends of the mold rack and are used for driving the end mold plates to move, one end of each end mold oil cylinder 6 is connected with the side surface of the corresponding end mold plate 4, and the other end of each end mold oil cylinder is connected with the mold rack 1.

The power device I is two splint opening oil cylinders 7 arranged on one side of the die rack 1.

In order to ensure that the clamping position of the clamping plate 3 and the end mold plate 4 is accurate when the clamping plate 3 and the end mold plate 4 are matched, the two side surfaces of the clamping plate 3 are provided with the raised positioning pins 8, the end mold plates 4 at the two sides of the clamping plate 3 are provided with positioning holes corresponding to the positioning pins 8, when the clamping plate 3 is in the clamping position, the end mold plates 4 clamp the clamping plate and the end part of the bottom plate 9, the positioning pins 8 are inserted into the positioning holes, and.

It should be noted that the contact positions among the surface of the core rod 13, the bottom plate 9, the clamping plate 3, and the sub-end plate should be in sealing contact as long as the positions where slurry may leak are all in sealing contact, and the sealing contact of the corresponding positions can be realized by processing grooves on the corresponding contact surfaces and embedding and fixing adhesive tapes in the grooves.

As shown in fig. 5 and 6, the clamping plates 3 can be pulled away from both sides on the basis of the technical solution of the present application, at this time, the clamping plates 3 at the outermost sides of both sides can move, the bottom plate 9 at the middle position is fixed, and the clamping plates 3 are pulled away from both sides.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. The utility model provides a gypsum lath production mould of adjustable product length which characterized in that: comprises a mould frame, a splint supporting beam is arranged on the mould frame, a plurality of splints which are arranged in parallel are arranged on the splint supporting beam in a sliding fit way through a sliding rail, a gap is left between the splints to be used as a space for pouring and molding the gypsum batten, the splints can slide along the sliding rail, two ends of the splint on the mould frame are respectively provided with an end template which can move back and forth along the length direction of the splint, the bottom of the gap between the clamping plates is provided with a bottom plate, two long side edges of the bottom plate are in sealing contact with the side surfaces of the clamping plates at the same side, the end template is provided with an auxiliary end plate, the auxiliary end plate is positioned between the two clamping plates, two side surfaces of the auxiliary end plate are in sealing contact with the side surfaces of the clamping plates, the lower end surface of the auxiliary end plate is in sealing contact with the upper surface of the bottom plate, the clamping plates and the auxiliary end plate form a space for pouring and molding, the auxiliary end plate is connected with the end template by adopting a distance-adjustable mounting structure, so that the distance between the auxiliary template and the two clamping plates can be adjusted.

2. The adjustable product length gypsum lath production mold of claim 1, wherein: the auxiliary end plate is connected to the end formwork through a connecting column penetrating through the end formwork, the connecting column is provided with a connecting screw rod, the connecting length of the connecting screw rod is adjusted through two positioning nuts positioned on two sides of the end formwork, the distance that the auxiliary end plate stretches into can be adjusted by adjusting the length of the connecting column, and therefore the specification length of the pouring batten is adjusted.

3. The adjustable product length gypsum lath production mold of claim 1, wherein: the auxiliary end plates are connected with a push-pull frame arranged on the outer side of the end template through connecting columns penetrating through the end template, and the push-pull frame is connected with the connecting columns controlling the plurality of auxiliary end plates.

4. The adjustable product length gypsum lath production mold of claim 1, wherein: and the mold frame is provided with a power device I and a power device II which are respectively used for pulling the clamping plate and the end template to move.

5. The adjustable product length gypsum lath production mold of claim 1, wherein: the two side faces of the batten are provided with protruding positioning pins, the end templates on the two sides of the clamping plate are provided with positioning holes corresponding to the positioning pins, when the clamping plate is in a clamping position, the end templates clamp the end portions of the clamping plate and the bottom plate, and the positioning pins are inserted into the positioning holes.

6. The adjustable product length gypsum lath production mold of claim 1, wherein: the two ends of the die rack are respectively provided with four horizontal guide pillars, the end die plate is installed in a matched mode with the guide pillars through the guide sleeves, and the end die plate moves back and forth along the guide pillars.

7. The adjustable product length gypsum lath production mold of claim 4, wherein: and the power device II is composed of two groups of end mold oil cylinders which are respectively arranged at two ends of the mold rack and are used for driving the end mold plates to move, one end of each end mold oil cylinder is connected with the side surface of each end mold plate, and the other end of each end mold oil cylinder is connected with the mold rack.

8. The adjustable product length gypsum lath production mold of claim 1, wherein: the bottom plate with splint bottom is through linking the plate structural connection, even the plate structure enables and leaves a space between all splint and the bottom plate after the outside splint are pulled open, splint are pushed back all splint and bottom plate reseal contact, link the plate structure and include a plurality of connection arm-tie, the both ends of connecting the arm-tie are connected respectively in the bottom of splint and bottom plate, and connect the arm-tie and be equipped with one along the rectangular hole that splint moving direction set up with the splint link, the connecting plate is installed through the connector that passes the rectangular hole with being connected the arm-tie cooperation, the connector passes the downthehole part of rectangular and can remove in the rectangular hole.

9. The adjustable product length gypsum lath production mold of claim 4, wherein: and the power device I is at least one splint opening oil cylinder arranged on one side of the die rack.

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