CN220927923U - Pouring die for wind power generation counterweight base - Google Patents

Abstract

The invention discloses a pouring die for a wind power generation counterweight base, which comprises a plurality of arc-shaped templates, wherein the templates are sequentially connected to form a circle, concave-convex matched grooves and convex strips are correspondingly arranged at the ends of two sides of each template, connecting plates are outwards arranged at the two ends of each template, fastening rods are transversely arranged at the outer sides of adjacent connecting plates through bolt fixing connecting plates, threads are arranged at the two ends of each fastening rod, color marks are arranged at the two ends of each fastening rod, the two adjacent fastening rods are connected through a fastening sleeve, threads with opposite screwing directions are arranged in the corresponding fastening rods in the fastening sleeve, and the corresponding fastening rods are respectively connected with the two fastening rods through threads. Through set up unsmooth matched recess and sand grip at the template both ends, can realize fast that the template splices into circular mould, improve location accuracy nature and work efficiency and utilize the adapter sleeve to connect the fastening pole, accomplish the fixed of adjacent template to through the colour sign at fastening pole both ends, confirm whether fastening in place, and be convenient for look over whether go out not hard up, improve construction convenience.

Description

Pouring die for wind power generation counterweight base

Technical Field

The utility model belongs to the technical field of concrete pouring, and particularly relates to a pouring die for a wind power generation counterweight base.

Background

The wind power generation counterweight base is a foundation structure for installing a fan, is a large-volume round reinforced concrete expansion foundation with a diameter, is formed by casting the foundation once, and is usually customized according to the requirement before construction. The mould that uses at present adopts the plywood, adds 50X 100 square timber and erects and consolidate with short steel pipe staple bolt, and the mould that square timber erects and corrugated is to the interval setting according to 300mm, sets up two-way single row phi 16 on the post mould and draws the screw rod to drawing the vertical interval setting according to 500mm, and the template seam is pasted with tape paper and is sealed.

The template is easy to deviate in the splicing process, the use process is required to be continuously positioned, the operation is troublesome, and due to the large casting quantity, mortar can be leaked out along a splicing gap in the vibrating process in the casting process, and deformation cannot be found in time.

Disclosure of utility model

The utility model aims to provide a pouring die for a wind power generation counterweight base, which solves the problems that the die adopted in the prior art is troublesome in splicing operation, easy to leak slurry and incapable of finding deformation in time.

The technical scheme includes that the pouring die for the wind power generation counterweight base comprises a plurality of arc-shaped templates, wherein the templates are sequentially connected to form a circle, concave grooves and convex strips matched with each other are correspondingly formed in the ends of two sides of each template, connecting plates are outwards arranged at the two ends of each template, and adjacent connecting plates are fixed through bolts.

Preferably, the outside of the connecting plate is transversely provided with a fastening rod, threads are arranged at the two ends of the fastening rod, color marks are arranged at the two ends of the fastening rod, two adjacent fastening rods are connected through a fastening sleeve, threads with opposite rotation directions are arranged in the fastening sleeve in a matching manner, and the fastening rods are respectively in threaded connection with the two fastening rods.

Preferably, the middle part of the fastening sleeve is provided with a rotating ring, the rotating ring is provided with a rubber sleeve, and the fastening sleeve is screwed up through the rotating ring.

Preferably, the upper part and the lower part of the outer side of the connecting plate are respectively provided with a connecting ring, and the fastening rod is inserted into the connecting rings to be connected with the connecting plate.

Preferably, the L-shaped movable groove is formed in the upper portion of the connecting plate, a spring is horizontally arranged at the bottom end of the movable groove, the outer end of the spring is fixedly connected with the head end of the movable block, the head end of the movable block is in a smooth curve shape, a marking rod is arranged above the head end of the movable block, the bottom end of the marking rod is contacted with the movable block through a sliding block, the outer end of the movable block extends out of the connecting plate, pressure is generated on the movable block through a connecting fastening rod, the head end of the movable block moves inwards, the lifting sliding block moves upwards, and the marking rod extends out of the top end of the connecting plate.

Compared with the prior art, the utility model has the beneficial effects that:

1) By arranging concave-convex matched grooves and convex strips at two ends of the template, the template can be quickly spliced into a circular die, and the positioning accuracy and the working efficiency are improved;

2) The fastening sleeve is used for connecting the fastening rod, so that the adjacent templates are fixed, whether the fastening rod is fastened in place or not is determined through color marks at two ends of the fastening rod, whether loosening occurs or not is checked conveniently, and the construction convenience is improved;

3) The movable groove is formed in the upper portion of the connecting plate, the movable block connecting sliding block is arranged in the movable groove, pressure is generated to the movable block through the connecting fastening rod, the head of the movable block moves inwards, the jacking sliding block moves upwards, the marking rod stretches out of the top end of the connecting plate, workers can check whether the fastening rod is installed in place or not from the outside of the foundation pit, loose connection positions can be found in time conveniently, mortar is prevented from leaking along a splicing gap in the vibrating process, and the problem of deformation of a die is solved.

Drawings

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

FIG. 2 is a schematic diagram of the connection of the movable block and the sliding block according to the present utility model;

FIG. 3 is a schematic illustration of the connection plate, the fastening rod and the fastening sleeve;

The drawing is marked: 1. the device comprises a module, 101, a groove, 102, a convex strip, 2, a connecting plate, 201, a connecting ring, 202, a movable groove, 3, a fastening rod, 301, a color mark, 4, a fastening sleeve, 401, a rotary ring, 5, a spring, 6, a movable block, 7, a mark rod, 8 and a sliding block.

Detailed Description

The utility model will be further explained in relation to the drawings of the specification, so as to be better understood by those skilled in the art.

Example 1

As shown in fig. 1-3, a pouring mold for a wind power generation counterweight base comprises a plurality of arc-shaped templates 1, wherein the templates 1 are sequentially connected to form a circle, concave grooves 101 and convex strips 102 which are matched with each other are correspondingly arranged at the two side ends of the templates 1 respectively, connecting plates 2 are outwards arranged at the two ends of the templates 1, and adjacent connecting plates 2 are fixed through bolts. The grooves 101 and the raised strips 102 are correspondingly matched with the splicing templates 1, so that the assembly of the die can be completed rapidly, the positioning accuracy is improved, and the shape integrity of the die is ensured.

In order to fasten the connection between the templates 1, the outside of the connecting plate 2 is transversely provided with a fastening rod 3, specifically, the upper part and the lower part of the outside of the connecting plate 2 are respectively provided with a connecting ring 201, the fastening rod 3 is inserted into the connecting ring 201 to be connected with the connecting plate 2, threads are arranged at two ends of the fastening rod 3, and color marks 301 are arranged at the two ends of the fastening rod, two adjacent fastening rods 3 are connected through a fastening sleeve 4, the matching fastening rods 3 in the fastening sleeve 4 are provided with threads with opposite rotation directions, and the threads are respectively connected with the two fastening rods 3. The tightening sleeve 4 is screwed to draw the two tightening rods 3 towards the middle, the tightening of the tightening rods 5 is completed, the mold is tightened, the color mark 301 is positioned in the tightening sleeve 4, whether the mold is tightened in place can be determined by checking the color mark 301, and later loosening is indicated if the color mark 301 is exposed.

The middle part of the fastening sleeve 4 is provided with a rotary ring 401, the rotary ring 401 is provided with a rubber sleeve, and the fastening sleeve 4 is screwed up through the rotary ring 401, so that the operation of constructors is facilitated.

The L-shaped movable groove 202 is formed in the upper portion of the connecting plate 2, the spring 5 is horizontally arranged at the bottom end of the movable groove 202, the outer end of the spring 5 is fixedly connected with the head end of the movable block 6, the head end of the movable block 6 is of a smooth curve type, the upper portion of the head end of the movable block 6 is provided with the marking rod 7, the bottom end of the marking rod 7 is in contact with the movable block 6 through the sliding block 8, the sliding block 8 can be designed into a sphere, the outer end of the movable block 6 extends out of the connecting plate 2, pressure is generated on the movable block 6 through the connecting fastening rod 3, the head end of the movable block 6 moves inwards, the jacking sliding block 8 moves upwards, and the marking rod 7 extends out of the top end of the connecting plate 2. In the concrete placement process, constructors can confirm the connection stability of the fastening rod 3 through whether the marking rod 7 stretches out of the connecting plate 2 from the upper side of the foundation pit, if the marking rod 7 does not stretch out, the fastening rod 3 is loose, the template 2 at the position is unstable in connection, leakage and deformation are easy to occur, and the constructors are reminded of timely repairing.

The above embodiments are only for illustrating the technical solution of the present utility model, but not for limiting, and other modifications and equivalents thereof by those skilled in the art should be included in the scope of the claims of the present utility model without departing from the spirit and scope of the technical solution of the present utility model.

Claims (5)

1. The utility model provides a wind power generation counter weight base pouring die, includes a plurality of arc templates (1), and template (1) connect gradually and be circular, its characterized in that, template (1) both sides tip corresponds recess (101) and sand grip (102) that are equipped with unsmooth matching respectively, and template (1) both ends outwards are equipped with connecting plate (2), and adjacent connecting plate (2) pass through the bolt fastening.

2. The pouring die for the wind power generation counterweight base according to claim 1, wherein fastening rods (3) are transversely arranged on the outer side of the connecting plate (2), threads are arranged at two ends of each fastening rod (3) and provided with color marks (301), two adjacent fastening rods (3) are connected through a fastening sleeve (4), threads with opposite rotation directions are arranged in the fastening sleeve (4) in a matching mode, and the fastening rods (3) are respectively connected with the two fastening rods (3) in a threaded mode.

3. The pouring die for the wind power generation counterweight base according to claim 2, wherein a rotating ring (401) is arranged in the middle of the fastening sleeve (4), a rubber sleeve is arranged on the rotating ring (401), and the fastening sleeve (4) is screwed by the rotating ring (401).

4. The casting mold for the wind power generation counterweight base according to claim 2, wherein the upper part and the lower part of the outer side of the connecting plate (2) are respectively provided with a connecting ring (201), and the fastening rod (3) is inserted into the connecting rings (201) to be connected with the connecting plate (2).

5. The pouring die for the wind power generation counterweight base according to claim 3 is characterized in that an L-shaped movable groove (202) is formed in the upper portion of the connecting plate (2), a spring (5) is horizontally arranged at the bottom end of the movable groove (202), the outer end of the spring (5) is fixedly connected with the head end of a movable block (6), the head of the movable block (6) is of a smooth curve type, a marking rod (7) is arranged above the head end of the movable block (6), the bottom end of the marking rod (7) is in contact with the movable block (6) through a sliding block (8), the outer end of the movable block (6) extends out of the connecting plate (2), pressure is generated on the movable block (6) through a connecting fastening rod (3), the head of the movable block (6) moves inwards, a jacking sliding block (8) moves upwards, and the marking rod (7) extends out of the top end of the connecting plate (2).