CN213647985U - Pouring structure for quickly pouring energy-saving heat-insulating wall - Google Patents

Abstract

The utility model relates to a pouring structure for quick pouring energy-saving thermal insulation wall, which relates to the technical field of wall preparation, and comprises a formwork frame, wherein a formwork frame is fixedly arranged on the upper surface of the formwork frame, a bottom formwork is arranged on the upper surface of the formwork frame and positioned inside the formwork frame, an installation rod is vertically arranged on the outer surface of the bottom formwork facing the formwork frame, the installation rod penetrates through the formwork frame, and a driving component for driving the installation rod to move along the height direction of the installation rod is arranged at one end of the installation plate, which is far away from the bottom formwork; this application has the quick dismantlement of the wallboard that realizes the pouring and accomplish, improves the effect of the whole pouring efficiency of wallboard.

Description

Pouring structure for quickly pouring energy-saving heat-insulating wall

Technical Field

The application relates to the technical field of wall body preparation, in particular to a pouring structure for quickly pouring an energy-saving heat-insulating wall body.

Background

Most of the cast walls on the market are formed by pouring concrete into a mold with a certain size.

A related Chinese patent with the publication number of CN205364166U discloses a composite wallboard pouring and forming mold table, which comprises a bottom mold, a pair of vertical templates and a pair of transverse templates, wherein the vertical templates and the transverse templates form a frame, the frame is positioned on the bottom mold, the inner side wall of the frame is matched with the periphery of a formed composite wallboard, the height of the frame is equal to that of the formed composite wallboard, a reinforcing mesh is arranged in the frame, supporting ribs vertical to the mesh surface of the reinforcing mesh are arranged at nodes of longitudinal and transverse reinforcing bars of the reinforcing mesh, and the whole reinforcing mesh is supported on the bottom mold by the supporting ribs; in the pouring process, the prefabricated reinforcing mesh is assembled in the frame, then the concrete is directly injected into the frame, and after the concrete is cured and formed, the formed concrete wall panel is taken out of the frame.

In view of the above-mentioned related technologies, the inventor believes that when the forming die table is used for pouring large-sized concrete wallboards in batches, the poured wallboards are not convenient to take out from the frame due to the large size and the large mass of the wallboards, and the defect that the pouring efficiency of the batch pouring is influenced exists.

SUMMERY OF THE UTILITY MODEL

In order to improve the lower problem of efficiency of pouring that exists among the correlation technique, this application provides a casting structure for pouring energy-conserving thermal insulation wall body fast.

The application provides a casting structure for pouring energy-conserving thermal insulation wall body fast adopts following technical scheme:

the utility model provides a pouring structure for energy-conserving thermal insulation wall of quick casting, includes the template frame, template frame upper surface is fixed and is provided with the template frame, the template frame upper surface just is located the inside die block that is provided with of template frame, the die block is provided with the installation pole towards the surface perpendicular of template frame department, the installation pole runs through the template frame, the one end that the die block department was kept away from to the installation pole is provided with the drive assembly who is used for driving the installation pole to remove along its direction of height.

Through adopting above-mentioned technical scheme, when the construction, can pour into the concrete in the template frame always by the wallboard, after the wallboard shaping, make the installation pole remove towards the direction that is close to the template frame through drive assembly, the die block breaks away from the template frame under supporting of installation pole this moment to make the compound wallboard of accomplishing of preparation break away from the template frame fast, accelerate to pour speed, improve and pour efficiency.

Preferably, the upper surface of the bottom die is symmetrically provided with two isolation plates, and the two isolation plates and the inner side wall of the template frame jointly enclose a heat preservation cavity.

Through adopting above-mentioned technical scheme, pour polyurethane insulation material in the heat preservation chamber and form the heat preservation, lay the reinforcing bar rack in the inside cavity except that the heat preservation chamber of template and pour concrete again in order to form concrete layer to finally form the thermal insulation wall body of the sandwich structure of middle heat preservation both sides concrete layer, so that the wall body of preparing has the compound wallboard of heat preservation function.

Preferably, a plurality of shear keys are respectively arranged on two side walls of the two isolation plates which are mutually deviated.

Through adopting above-mentioned technical scheme, the setting of shear force key can strengthen division board and the later stage and pour the joint strength of the concrete layer that forms to improve the joint strength of the concrete layer of heat preservation rather than both sides.

Preferably, the insulation boards are respectively arranged inside the insulation boards.

By adopting the technical scheme, the heat insulation board has the heat insulation effect, so that the manufactured heat insulation wallboard meets the requirements of energy-saving buildings.

Preferably, a metal net is arranged inside the isolation plate and on one side of the thermal insulation plate.

Through adopting above-mentioned technical scheme, the setting of metal mesh can improve the bulk strength of division board, prevents that the condition of deformation from appearing in the division board.

Preferably, a screw rod is arranged on the upper surface of the bottom die and at one end of the bottom die, each of the side walls of the isolation plates is respectively penetrated and provided with a through hole for the screw rod to be inserted, two side walls of the isolation plates at the positions where the isolation plates are mutually deviated are respectively and rotatably connected with a fixing ring, and the fixing rings are in threaded connection with the outer side wall of the screw rod.

Through adopting above-mentioned technical scheme, through rotating solid fixed ring so that solid fixed ring drives the division board and slides along lead screw length direction to be convenient for adjust the interval between two division boards according to actual production needs, adjust the thickness in heat preservation chamber promptly, improve the suitability.

Preferably, the inner side wall of the isolation plate close to the through hole is provided with a sealing ring, and the sealing ring is attached to the outer side wall of the screw rod.

Through adopting above-mentioned technical scheme, the setting of sealed ring improves the leakproofness that the division board is close to through-hole department under the prerequisite that does not hinder the division board and smoothly slide along the lead screw, improves the isolation effect of division board to heat preservation chamber and concrete chamber, prevents that the concrete from oozing into heat preservation intracavity portion in the through-hole.

Preferably, the template frame is connected with a leveling plate in a sliding manner along the length direction of the template frame.

Through adopting above-mentioned technical scheme, after heat preservation and concrete placement, remove the screed-plate along the length direction of template frame to make heat preservation and concrete layer surface keep leveling.

In summary, the present application includes at least one of the following beneficial technical effects:

1. during construction, concrete can be injected into the template frame and is always filled into the wallboard, after the wallboard is formed, the mounting rod is enabled to move towards the direction close to the template frame through the driving assembly, and the bottom die is pushed by the mounting rod to be separated from the template frame, so that the prepared composite wallboard is quickly separated from the template frame, the pouring speed is accelerated, and the pouring efficiency is improved;

2. pouring polyurethane heat-insulating materials in the heat-insulating cavity to form a heat-insulating layer, paving a reinforcing steel bar net rack in the cavity except the heat-insulating cavity in the template, and pouring concrete to form a concrete layer, so that a heat-insulating wall body with a sandwich structure of the concrete layers on two sides of the middle heat-insulating layer is finally formed, and the prepared wall body is provided with a composite wallboard with a heat-insulating function;

3. through rotating solid fixed ring so that solid fixed ring drives the division board and slides along lead screw length direction to be convenient for adjust the interval between two division boards according to the actual production needs, adjust the thickness of heat preservation promptly, improve the suitability.

Drawings

FIG. 1 is a schematic diagram of a pouring structure for a rapid pouring energy-saving thermal insulation wall in the embodiment;

FIG. 2 is a cross-sectional view of a structure for embodying the position between the mold frame and the bottom mold in the embodiment;

FIG. 3 is a partial schematic view of the connection relationship between the partition plate and the lead screw in the embodiment.

Description of reference numerals: 1. a formwork support; 11. a template frame; 111. a leveling plate; 12. bottom die; 121. mounting a rod; 1211. a drive assembly; 122. a screw rod; 13. a separator plate; 131. a through hole; 1311. sealing the ring; 132. fixing grooves; 1321. a fixing ring; 133. a cavity; 1331. a heat insulation plate; 1332. a metal mesh; 134. a shear key; 135. a heat preservation cavity; 136. a concrete cavity.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses a pouring structure for quickly pouring an energy-saving heat-insulating wall body. Referring to fig. 1 and 2, the formwork support comprises a formwork support 1, a formwork frame 11 with an upper opening and a lower opening is vertically welded on the upper surface of the formwork support 1, a bottom formwork 12 is inserted into the upper surface of the formwork support 1 and positioned inside the formwork frame 11, and the outer side wall of the bottom formwork 12 is in seamless fit with the inner side wall of the formwork frame 11; the lower surface of the bottom die 12 is vertically welded with a mounting rod 121, one end of the mounting rod 121 far away from the bottom die 12 penetrates through the template frame 1, a driving assembly 1211 used for driving the mounting rod 121 to move along the height direction of the template frame 1 is placed below the template frame 1, the driving assembly 1211 can be an oil cylinder, and the driving end of the driving assembly 1211 is fixedly welded on the end wall of the mounting rod 121.

Referring to fig. 2, a screw rod 122 is welded on the upper surface of the bottom die 12 and at one end of the bottom die, two insulation plates 13 are sleeved on the outer side wall of the screw rod 122, the outer side wall of each insulation plate 13 is in seamless fit with the upper surface of the bottom die 12, the two end walls of each insulation plate 13 are in fit with the inner side wall of the corresponding template frame 11, two insulation plates 13 and two end walls of each template frame 11 jointly enclose a heat preservation cavity 135, the spaces inside the corresponding template frame 11 and located at two sides of the corresponding heat preservation cavity 135 are concrete cavities 136, polyurethane heat preservation materials are injected into the heat preservation cavities 135 to foam the heat preservation cavities to form heat preservation layers, steel reinforcement frameworks are placed in the concrete cavities 136, and concrete.

Referring to fig. 1 and 3, the through-hole 131 that supplies lead screw 122 to insert to establish is seted up through to division board 13 lateral wall, the fixed bonding of through-hole 131 inside wall has sealed ring 1311, sealed ring 1311 inside wall and the laminating of lead screw 122 outside wall mutually, fixed slot 132 has been seted up on the lateral wall that division board 13 deviates from each other, the cross-section of fixed slot 132 is the T type, fixed ring 1321 is equipped with in the interpolation of fixed slot 132, fixed ring 1321 screw sleeve connects in the lead screw 122 lateral wall, rotate fixed ring 1321 through the screw so that fixed ring 1321 drives division board 13 and remove along lead screw 122 length direction, thereby adjust the distance between two division boards 13 according to the actual production needs, adjust the size in a flexible.

Referring to fig. 1 and 2, a cavity 133 is formed in the partition board 13, a heat insulation board 1331 is inserted into the cavity 133, the heat insulation board 1331 may be a rock wool board, and a metal mesh 1332 is inserted into the cavity 133 and located at one side of the heat insulation board 1331, so as to enhance the heat insulation effect of the manufactured wall board, and simultaneously improve the structural strength of the partition board 13 and prevent the partition board 13 from being deformed; the side walls of the two isolation plates 13 which face away from each other are respectively welded with a plurality of shear keys 134 along the length direction, the number of the shear keys 134 on each isolation plate 13 can be three, and the arrangement of the shear keys 134 can enhance the connection shear strength between the isolation plates 13 and the formed concrete slab.

Referring to fig. 1, a leveling plate 111 is slidably connected to an upper surface of a formwork frame 11 at one end thereof, and when a polyurethane thermal insulation material is injected into a thermal insulation cavity 135 and a concrete material is injected into a concrete cavity 136, the leveling plate 111 is slidably moved along a length direction of a formwork frame 1 to level the outer surfaces of the concrete and the thermal insulation material, thereby ensuring the leveling of the outer surface of the manufactured thermal insulation wallboard.

The implementation principle of the pouring structure for quickly pouring the energy-saving heat-insulating wall body in the embodiment of the application is as follows: firstly, respectively moving two isolation plates 13 along the length direction of a screw rod 122 according to production requirements so as to adjust the distance between the two isolation plates 13; then, a reinforcing steel bar net rack is erected in the concrete cavity 136, then polyurethane heat insulation materials are injected into the heat insulation cavity 135, concrete is injected into the concrete cavity 136, and then the leveling plate 111 is used for trowelling the outer surface of the heat insulation materials and the outer surface of the concrete materials; after the polyurethane heat insulation material is foamed and formed into a heat insulation layer and the concrete is cured and formed into a concrete layer, the heat insulation wallboard is finally formed; finally, the driving assembly 1211 is started to drive the mounting rod 121 to move towards the direction close to the formwork frame 1, so that the formed thermal insulation wallboard is separated from the formwork frame 11 along with the bottom formwork 12, and the thermal insulation wallboard is detached.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a pouring structure for quick pouring energy-conserving thermal insulation wall which characterized in that: including template grillage (1), fixed surface is provided with template frame (11) on template grillage (1), template grillage (1) upper surface just is located inside die block (12) that is provided with of template frame (11), die block (12) are provided with installation pole (121) towards the surface of template grillage (1) department perpendicularly, installation pole (121) run through template grillage (1), the one end that die block (12) department was kept away from in installation pole (121) is provided with and is used for driving drive assembly (1211) that installation pole (121) removed along its direction of height.

2. The casting structure for the rapid casting of the energy-saving and heat-insulating wall body according to claim 1, wherein: the upper surface of the bottom die (12) is symmetrically provided with isolation plates (13), and the isolation plates (13) and the inner side wall of the die plate frame (11) jointly enclose a synthetic heat preservation cavity (135).

3. The pouring structure for the fast pouring energy-saving heat-insulating wall body according to claim 2, characterized in that: and a plurality of shear keys (134) are respectively arranged on two side walls of the two isolation plates (13) which are deviated from each other.

4. The casting structure for the rapid casting of the energy-saving and heat-insulating wall body as claimed in claim 3, wherein: and a heat insulation plate (1331) is arranged in the isolation plate (13).

5. The casting structure for the rapid casting of the energy-saving and heat-insulating wall body as claimed in claim 4, wherein: and a metal net (1332) is arranged inside the isolation plate (13) and positioned at one side of the heat insulation plate (1331).

6. The casting structure for the rapid casting of the energy-saving and heat-insulating wall body as claimed in claim 5, wherein: a screw rod (122) is arranged on the upper surface of the bottom die (12) and positioned at one end of the bottom die, and a through hole (131) for the screw rod (122) to insert is respectively formed in the side wall of each isolation plate (13) in a penetrating manner; two on the lateral wall that division board (13) deviate from the department each other respectively the rotation be connected with solid fixed ring (1321), gu fixed ring (1321) threaded connection in lead screw (122) lateral wall.

7. The casting structure for the rapid casting of the energy-saving and heat-insulating wall body as claimed in claim 6, wherein: the inner side wall of the isolation plate (13) close to the through hole (131) is provided with a sealing ring (1311), and the sealing ring (1311) is attached to the outer side wall of the screw rod (122).

8. The casting structure for the rapid casting of the energy-saving and heat-insulating wall body according to claim 1, wherein: the template frame (11) is connected with a leveling plate (111) in a sliding mode along the length direction of the template frame.

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