CN221219661U - Concrete pouring template fixing system for transformer substation frame beam - Google Patents

Abstract

The utility model discloses a concrete pouring formwork fixing system of a frame beam of a transformer substation, and provides a formwork fixing system of a small-size frame structure beam, which has good fastening effect and is rapid to install and detach; the two sides of the frame beam pouring space are provided with a portal frame consisting of a left screw rod supporting sleeve bracket (8), a right screw rod supporting sleeve bracket (10) and a rotatable screw rod (12), the top beam of the portal frame is the rotatable screw rod (12), left threads on the rotatable screw rod (12) and right threads on the rotatable screw rod (12) are reversely arranged, a left screw rod nut block (14) and a right screw rod nut block (16) are respectively screwed on the reversely arranged threads, a left clamping plate (15) is fixedly hung on the bottom end face of the left screw rod nut block (14), a right clamping plate (17) is fixedly hung on the bottom end face of the right screw rod nut block (16), and the two clamping plates clamp two side templates.

Description

Concrete pouring template fixing system for transformer substation frame beam

Technical Field

The utility model relates to a concrete pouring template, in particular to a concrete pouring template fixing system for a frame beam of a transformer substation.

Background

In the prior art, when concrete beams are poured, a batten and a wall penetrating bolt are generally adopted as fixing members, the batten is supported on the outer sides of the templates, and the templates on two sides are fastened by the wall penetrating bolt; the size of the concrete structure beam of the transformer substation distribution room is smaller, and if the beam template is reinforced in a mode of not penetrating a screw rod, the main keels on two sides are difficult to fix, and the step-by-step fixation is not firm enough for the reinforcement of the small-size beam template; if the wall penetrating bolts are used for reinforcing the formwork, holes are left on the small-size beam body after the formwork is disassembled, and the quality of the small-component concrete beam is seriously affected; meanwhile, as the dimensional space precision requirement of the transformer substation frame beam is higher, the traditional fixing mode of the concrete beam support template cannot meet the construction precision requirement of the transformer substation frame beam; therefore, there is an urgent need to develop a formwork fixing system for small-sized frame structural beams, which has a good fastening effect, high control accuracy, and quick assembly and disassembly.

Disclosure of Invention

The utility model provides a concrete pouring template system of a frame beam of a transformer substation, and provides a template fixing system of a small-size frame structure beam, which has the advantages of good fastening effect, high control precision and quick assembly and disassembly.

The utility model solves the technical problems by the following technical proposal:

The concrete pouring template fixing system of the transformer substation frame beam comprises a full framing, a frame beam pouring bottom template is arranged on the full framing, a frame beam pouring left template and a frame beam pouring right template are respectively arranged on the frame beam pouring bottom template, an inner supporting rod is arranged between the frame beam pouring left template and the frame beam pouring right template, a screw left supporting sleeve support is arranged on the full framing on the left side of the frame beam pouring left template, a screw left supporting sleeve is fixedly arranged on the screw left supporting sleeve support, a screw right supporting sleeve support is arranged on the full framing on the right side of the frame beam pouring right template, a screw right supporting sleeve is fixedly arranged on the screw right supporting sleeve support, a rotatable screw is arranged between the screw left supporting sleeve and the screw right supporting sleeve, the rotatable screw is arranged right above the frame beam pouring left template and the frame beam pouring right template, the left screw thread on the rotatable screw rod and the right screw thread on the rotatable screw rod are reversely arranged, the left screw nut block is screwed on the left screw thread on the rotatable screw rod, the right screw nut block is screwed on the right screw thread on the rotatable screw rod, the left clamping plate is fixedly hung on the bottom end surface of the left screw nut block, the right clamping plate is fixedly hung on the bottom end surface of the right screw nut block, the left clamping plate is abutted against the left vertical surface of the frame beam pouring left template, the right clamping plate is abutted against the right vertical surface of the frame beam pouring right template, the left U-shaped limiting frame which horizontally stretches right is fixedly connected on the screw rod left support sleeve bracket, the left clamping plate is movably arranged in the left U-shaped limiting frame, the right U-shaped limiting frame which horizontally stretches left is fixedly arranged on the screw rod right support sleeve bracket, the right side clamping plate is movably arranged in the right U-shaped limiting frame.

Left wood edges are arranged between the left clamping plate and the frame beam pouring left side template at intervals, and right wood edges are arranged between the right clamping plate and the frame beam pouring right side template; a crank is arranged at the left end of the rotatable screw rod.

When the utility model is adopted to fix the cast-in-place concrete structural beam, the opposite-pull screw rod is not required to be installed, the perpendicularity of the templates at two sides of the beam is ensured, the operation of personnel is convenient in the installation and disassembly processes, the beams with different widths can be quickly adjusted, the construction is simple, and the on-site erection is easy.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

Fig. 2 is a schematic structural view of the clamp of the present utility model.

Description of the embodiments

The utility model is described in detail below with reference to the attached drawing figures:

The concrete pouring formwork fixing system of the transformer substation frame beams comprises a full framing support 1, a frame beam pouring bottom formwork 2 is arranged on the full framing support 1, a frame beam pouring left side formwork 3 and a frame beam pouring right side formwork 4 are respectively arranged on the frame beam pouring bottom formwork 2, an inner supporting rod 5 is arranged between the frame beam pouring left side formwork 3 and the frame beam pouring right side formwork 4, a screw left supporting sleeve support 8 is arranged on the full framing support 1 on the left side of the frame beam pouring left side formwork 3, a screw left supporting sleeve 9 is fixedly arranged on the screw left supporting sleeve support 8, a screw right supporting sleeve support 10 is arranged on the full framing support 1 on the right side of the frame beam pouring right side formwork 4, a screw right supporting sleeve 11 is fixedly arranged on the screw right supporting sleeve support 10, the bottom end of the screw left supporting sleeve support 8 is fixedly connected to the full framing support 1, the bottom end of the screw right supporting sleeve support 10 is fixedly connected to the full framing support 1, a rotatable screw rod 12 is arranged between the screw rod left support sleeve 9 and the screw rod right support sleeve 11, the rotatable screw rod 12 takes the screw rod left support sleeve 9 and the screw rod right support sleeve 11 as two ends of a fixed support frame, the rotatable screw rod 12 is arranged right above the frame beam pouring left side template 3 and the frame beam pouring right side template 4, left threads on the rotatable screw rod 12 and right threads on the rotatable screw rod 12 are reversely arranged, left screw rod nut blocks 14 are screwed on the left threads on the rotatable screw rod 12, right screw rod nut blocks 16 are screwed on the right threads on the rotatable screw rod 12, when the rotatable screw rod 12 is rotated clockwise, the left screw rod nut blocks 14 and the right screw rod nut blocks 16 move in opposite directions, a left clamping plate 15 is fixedly hung on the bottom end surface of the left screw rod nut blocks 14, a right clamping plate 17 is fixedly hung on the bottom end surface of the right lead screw nut block 16, a left clamping plate 15 is abutted against the left vertical surface of the frame beam pouring left template 3, the right clamping plate 17 is abutted against the right vertical surface of the frame beam pouring right template 4, a left U-shaped limiting frame 18 which horizontally stretches out rightward is fixedly connected to the left lead screw supporting sleeve support 8, the left clamping plate 15 is movably arranged in the left U-shaped limiting frame 18, a right U-shaped limiting frame 19 which horizontally stretches out leftward is fixedly arranged on the right lead screw supporting sleeve support 10, and the right clamping plate 17 is movably arranged in the right U-shaped limiting frame 19; the two U-shaped limiting frames are arranged to limit the rotation of the clamping plate, so that the clamping plate can only move left and right.

A left wood ridge 6 is arranged between the left clamping plate 15 and the frame beam pouring left side template 3 at intervals, and a right wood ridge 7 is arranged between the right clamping plate 17 and the frame beam pouring right side template 4; a crank 13 is arranged at the left end of the rotatable screw rod 12; after the concrete pouring templates are erected, the rotatable screw rod 12 is rotated clockwise through the crank 13, so that the left clamping plate 15 and the right clamping plate 17 are clamped between the templates on two sides, and the two templates are clamped and fixed; the lower ends of the left clamping plate 15 and the right clamping plate 17 are arranged below the middle parts of the two side templates to ensure the clamping stability.

Claims (2)

1. The utility model provides a concrete placement template fixed system of transformer substation's frame roof beam, including full framing (1), be provided with frame roof beam on full framing (1) and pour die block (2), be provided with frame roof beam on frame roof beam and pour left side template (3) and frame roof beam and pour right side template (4) respectively, be provided with interior vaulting pole (5) between frame roof beam and pour right side template (3) and frame roof beam, characterized in that, be provided with lead screw left side support sleeve support (8) on frame roof beam and pour full framing (1) on left side of left side template (3), be provided with lead screw left side support sleeve (9) on lead screw left side support sleeve support (8) fixed on full framing (1) on right side of frame roof beam pouring right side template (4), be provided with lead screw right side support sleeve (11) on lead screw right side support sleeve support (10) fixed on, be provided with rotatable support sleeve (12) between lead screw left side support sleeve (9) and frame roof beam pouring right side template (4), rotatable support sleeve (12) are rotatable screw portion on lead screw left side of lead screw (12) and screw left side upper portion of rotatable portion of lead screw (12) on the right side of frame roof beam pouring right side template (4), the left screw nut block (14) is screwed on the left screw thread on the rotatable screw rod (12), the right screw nut block (16) is screwed on the right screw thread on the rotatable screw rod (12), the left clamping plate (15) is fixedly hung on the bottom end surface of the left screw nut block (14), the right clamping plate (17) is fixedly hung on the bottom end surface of the right screw nut block (16), the left clamping plate (15) is abutted to the left vertical surface of the frame beam pouring left side template (3), the right clamping plate (17) is abutted to the right vertical surface of the frame beam pouring right side template (4), the left U-shaped limiting frame (18) which horizontally stretches out to the right is fixedly connected to the screw left support sleeve bracket (8), the left clamping plate (15) is movably arranged in the left U-shaped limiting frame (18), the right U-shaped limiting frame (19) which horizontally stretches out to the left is fixedly arranged on the screw right support sleeve bracket (10), and the right clamping plate (17) is movably arranged in the right U-shaped limiting frame (19).

2. The concrete pouring formwork fixing system for the transformer substation frame beams, according to claim 1, is characterized in that left wood ridges (6) are arranged between a left clamping plate (15) and a frame beam pouring left formwork (3) at intervals, and right wood ridges (7) are arranged between a right clamping plate (17) and a frame beam pouring right formwork (4); a crank (13) is arranged at the left end of the rotatable screw rod (12).