Liftable electrode type conductive concrete mold

Abstract

The utility model provides a kind of liftable electrode formula conductive concrete mould, it is related to conductive concrete mould technical field, comprising: concrete mould, the upper end position of the both sides surface of concrete mould is evenly provided with the first fixed seat of installation, the surface of two first fixed seat is evenly provided with lifting assembly, the surface of two lifting assemblies is evenly provided with the spiral female seat of connection, the side of two spiral female seats is evenly fixed with the second fixed seat of installation, the inside of two second fixed seat is provided with the horizontal scale bar of connection, the surface of horizontal scale bar is provided with multiple clamping assemblies.The utility model, by the lifting assembly and clamping assembly being set, electrode sheet can be freely adjusted and effectively fixed in vertical direction, prevent electrode sheet from sinking, slipping during block making;By setting horizontal scale bar and vertical sleeve rod, inner rod, T-shaped clamping plate and the scale line on the surface of clamping assembly, the accurate placement of electrode sheet position can be realized.

Description

Technical Field

[0001] This utility model relates to the field of conductive concrete mold technology, and in particular to a conductive concrete mold with liftable electrodes. Background Technology

[0002] Electroconcrete is a special type of concrete that combines excellent mechanical and electrical properties. It can be applied in various fields such as monitoring internal structural damage, snow removal and de-icing, electromagnetic shielding, building heating, lightning protection, and industrial antistatic applications, possessing extremely broad application prospects. Therefore, conductive concrete has gradually become a hot topic in the field of civil engineering materials. Currently, the main laboratory methods for testing the conductivity of concrete are the two-electrode method and the four-electrode method. Both methods require electrode plates to complete the test. Nowadays, embedded electrodes are widely accepted due to their more accurate measurement results.

[0003] However, most common electrode-type conductive concrete molds lack auxiliary measurement measures and stabilization measures. In actual work, the position of the electrode is usually roughly placed by the experimenter using a ruler to measure or manually estimate. This method is prone to inaccurate placement. Moreover, during the vibration of the test block, the electrode will inevitably sink or shift.

[0004] To address this issue, a liftable electrode-type conductive concrete mold is proposed. Utility Model Content

[0005] The purpose of this invention is to solve the problems existing in the prior art.

[0006] To achieve the above objectives, the present invention adopts the following technical solution: a liftable electrode-type conductive concrete mold, comprising: a concrete mold, wherein a first fixed seat is installed at the upper end of both sides of the concrete mold, a lifting component is provided on the surface of each of the two first fixed seats, a screw female seat is connected to the surface of each of the two lifting components, a second fixed seat is fixedly installed on one side of each of the two screw female seats, a horizontal scale rod is connected to the inner side of each of the two second fixed seats, a scale is provided on the surface of the horizontal scale rod, and a plurality of clamping components are provided on the surface of the horizontal scale rod;

[0007] The lifting assembly includes a vertical sleeve rod, and an inner rod is movably fitted inside the vertical sleeve rod. Both the vertical sleeve rod and the inner rod have scale lines on their surfaces.

[0008] Furthermore, a first fastening bolt is threaded onto the surface of the vertical sleeve rod, one end of which penetrates the side wall of the vertical sleeve rod and abuts against the surface of the inner rod.

[0009] Furthermore, the surface of the spiral female seat is provided with a threaded groove, the top of the inner rod is connected to a second threaded rod, the second threaded rod is threadedly embedded in the threaded groove, and the bottom of the vertical sleeve rod is connected to a first threaded rod, the first threaded rod is threadedly embedded in the first fixed seat.

[0010] Furthermore, the clamping assembly includes a T-shaped clamping plate and a square clamping plate. A third fastening bolt is threaded through and embedded on the surface of the T-shaped clamping plate and the square clamping plate. A fastening nut is threaded onto one end of the third fastening bolt. The side walls of the T-shaped clamping plate and the square clamping plate are provided with scale lines. The inner sides of the T-shaped clamping plate and the square clamping plate are provided with wear-resistant elastic pads.

[0011] Furthermore, the surface of the horizontal scale rod moves through the surface of the T-shaped clamp, and both ends of the horizontal scale rod are connected to a third threaded rod. The two third threaded rods are correspondingly threaded and installed inside the two second fixed seats.

[0012] Furthermore, a second fastening bolt is threadedly installed on the top of the T-shaped clamp, the second fastening bolt passing through the top of the T-shaped clamp and abutting against the surface of the horizontal scale rod.

[0013] Furthermore, the concrete mold is made of plastic.

[0014] Compared with the prior art, the advantages and positive effects of this utility model are as follows:

[0015] 1. This utility model, through the lifting components set on both sides of the concrete mold and the clamping components set on the surface of the horizontal scale rod, can realize the free adjustment and effective fixation of the electrode sheet in the vertical direction, and prevent the electrode sheet from sinking or slipping during the block making process.

[0016] 2. This utility model, by setting scale lines on the surfaces of a horizontal scale rod, a vertical sleeve rod, an inner rod, a T-shaped clamping plate, and a square clamping plate, can assist in the measurement and placement of the electrode sheet during adjustment, thereby achieving precise placement. Attached Figure Description

[0017] Figure 1 A front view of a liftable electrode-type conductive concrete mold provided by this utility model;

[0018] Figure 2 A structural diagram of a lifting component for a liftable electrode-type conductive concrete mold provided by this utility model;

[0019] Figure 3 This utility model provides a structural diagram of a clamping assembly for a liftable electrode-type conductive concrete mold.

[0020] Legend:

[0021] 1. Concrete mold; 101. First fixed seat; 2. Lifting assembly; 201. Vertical sleeve rod; 202. Inner rod; 203. First fastening bolt; 204. First threaded rod; 205. Second threaded rod; 3. Spiral nut; 301. Threaded groove; 4. Second fixed seat; 5. Clamping assembly; 501. T-shaped clamp; 502. Square clamp; 503. Second fastening bolt; 504. Third fastening bolt; 505. Fastening nut; 6. Horizontal scale rod; 601. Third threaded rod. Detailed Implementation

[0022] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0023] Please see Figure 1-3 This utility model provides a technical solution: a liftable electrode type conductive concrete mold, including: a concrete mold 1, with first fixed seats 101 installed at the upper ends of both sides of the concrete mold 1, lifting components 2 on the surfaces of the two first fixed seats 101, spiral female seats 3 connected to the surfaces of the two lifting components 2, and second fixed seats 4 fixedly installed on one side of the two spiral female seats 3, with horizontal scale rods 6 connected to the inner sides of the two second fixed seats 4, scales on the surface of the horizontal scale rods 6, and multiple clamping components 5 on the surface of the horizontal scale rods 6;

[0024] The lifting assembly 2 includes a vertical sleeve rod 201, and an inner rod 202 is movably fitted inside the vertical sleeve rod 201. Both the vertical sleeve rod 201 and the inner rod 202 have scale lines on their surfaces.

[0025] Specifically: Concrete mold 1 is an open-top cubic structure, injection molded from a base plate and four side plates; the lifting components 2 on both sides of concrete mold 1 and the clamping components 5 on the surface of the horizontal scale rod 6 can achieve free adjustment and effective fixation of the electrode sheet in the vertical direction, preventing the electrode sheet from sinking or slipping during the block making process; the horizontal scale rod 6 and the scale lines on the surface of the vertical sleeve rod 201, inner rod 202, T-shaped clamping plate 501 and clamping components 5 can achieve precise placement of the electrode sheet; the scale lines can be set around as needed, making it easy to refer to from all angles; the number of clamping components 5 can be installed according to actual needs, making it easy to clamp multiple electrode sheets;

[0026] The T-shaped clamp 501 is set at a certain height so that when the inner rod 202 moves down inside the vertical sleeve rod 201, it moves down and extends into the interior of the concrete mold 1.

[0027] In one embodiment, a first fastening bolt 203 is threadedly installed on the surface of the vertical sleeve rod 201. One end of the first fastening bolt 203 passes through the side wall of the vertical sleeve rod 201 and abuts against the surface of the inner rod 202.

[0028] Specifically, such as Figure 2 As shown: The first fastening bolt 203 is used to press and fix the inner rod 202.

[0029] In one embodiment, a threaded groove 301 is provided through the surface of the spiral female seat 3, a second threaded rod 205 is connected to the top of the inner rod 202, the second threaded rod 205 is threadedly embedded in the threaded groove 301, and a first threaded rod 204 is connected to the bottom of the vertical sleeve rod 201, the first threaded rod 204 is threadedly embedded in the first fixed seat 101.

[0030] Specifically, such as Figure 1-2 As shown: for easy docking and disassembly.

[0031] In one embodiment, the clamping assembly 5 includes a T-shaped clamping plate 501 and a square clamping plate 502. A third fastening bolt 504 is threaded through and installed on the surfaces of the T-shaped clamping plate 501 and the square clamping plate 502. A fastening nut 505 is threaded onto one end of the third fastening bolt 504. The side walls of the T-shaped clamping plate 501 and the square clamping plate 502 are provided with scale lines. The inner sides of the T-shaped clamping plate 501 and the square clamping plate 502 are provided with wear-resistant elastic pads.

[0032] Specifically, such as Figure 3 As shown: The third fastening bolt 504 and the fastening nut 505 are used to fasten the T-shaped clamp 501 and the square clamp 502 to clamp the electrode sheet, and the wear-resistant elastic pad protects the clamped object.

[0033] In one embodiment, the surface of the horizontal scale rod 6 moves through the surface of the T-shaped clamp 501, and both ends of the horizontal scale rod 6 are connected to a third threaded rod 601. The two third threaded rods 601 are threadedly embedded in the interior of the two second fixed seats 4.

[0034] Specifically, such as Figure 1 As shown: the horizontal scale rod 6 serves to support the T-shaped clamp 501, and the third threaded rod 601 facilitates the docking and fixing of the horizontal scale rod 6 and the second fixed seat 4.

[0035] In one embodiment, a second fastening bolt 503 is threadedly installed on the top of the T-shaped clamp 501, and the second fastening bolt 503 passes through the top of the T-shaped clamp 501 and abuts against the surface of the horizontal scale rod 6.

[0036] Specifically, such as Figure 1 , 3 As shown: The second fastening bolt 503 is used to press against the surface of the horizontal scale rod 6 to fix the T-shaped clamp 501.

[0037] In one embodiment, the concrete mold 1 is made of plastic.

[0038] Specifically, such as Figure 1 As shown, plastic materials have advantages such as low price and low maintenance cost.

[0039] Working principle:

[0040] In use, by rotating the third fastening bolt 504 and the fastening nut 505, the T-shaped clamp 501 and the square clamp 502 are released from their fixation. Then, the electrode plate is placed inside the T-shaped clamp 501 and the square clamp 502, and the third fastening bolt 504 and the fastening nut 505 are screwed in again to fix it, thereby using the T-shaped clamps 501 and 52 to fix the electrode plate.

[0041] Then, rotate the first fastening bolt 203 on the vertical sleeve rod 201 to disengage the first fastening bolt 203 from the inner rod 202, thereby releasing the restriction on the inner rod 202. Then, loosen the inner rods 202 on both sides to move them vertically downwards. Determine the distance the electrode sheet moves in the vertical direction by reading the position of the scale line on the surface of the inner rod 202. Fix the inner rod 202 by tightening the first fastening bolt 203 against the surface of the inner rod 202. At this time, the clamping assembly 5 extends into the interior of the concrete mold 1 and drives the electrode sheet to extend into the interior of the concrete mold 1. Then, loosen the second fastening bolt 503 to disengage the second fastening bolt 503 from the horizontal scale rod 6, thereby releasing the restriction on the T-shaped clamp 501. Then, adjust the position of the T-shaped clamp 501 on the horizontal scale rod 6 and tighten the second fastening bolt 503 again to fix the T-shaped clamp 501 against the surface of the horizontal scale rod 6. The distance x of the electrode sheet in the horizontal direction can be adjusted.

[0042] After determining the spatial position of the electrode plate in the concrete mold 1 through the above adjustments, the concrete is poured into the concrete mold 1 and vibrated. After the concrete has set, the fastening nut 505 is rotated to release the T-shaped clamp 501 and the square clamp 502, so that the square clamp 502 moves horizontally and the electrode plate is separated from the clamping assembly 5.

[0043] Through the coordinated arrangement of the above structures, the spatial position of the electrode inserting into the concrete mold is determined by the vertically moving inner rod 202, referring to the position of the scale line on its surface and the position of the scale line when the T-shaped clamp 501 is adjusted on the surface of the horizontal scale rod 6. The horizontal distance between the electrode sheets can be adjusted according to the test requirements, and the accuracy of the embedding depth of the electrode sheets is ensured. This avoids the situation where the vertical and horizontal positions of the electrode sheets differ too much due to manual embedding of the electrode sheets. The electrode sheets are clamped and fixed by the clamping component 5, and the electrode sheets are stabilized inside the concrete mold 1 by the fastening action of the first fastening bolt 203 and the second fastening bolt 503. This avoids the slippage and settlement of the electrode sheets during the vibration and setting of the conductive concrete.

[0044] The above description is merely a preferred embodiment of the present utility model and is not intended to limit the present utility model in any other way. Any person skilled in the art may make changes or modifications to the above-disclosed technical content to create equivalent embodiments for application in other fields. However, any simple modifications, equivalent changes, and modifications made to the above embodiments based on the technical essence of the present utility model without departing from the technical solution of the present utility model shall still fall within the protection scope of the technical solution of the present utility model.

Claims

1. A liftable electrode type conductive concrete mold, characterized in that, include: A concrete mold (1) is provided with a first fixed seat (101) at the upper end of both sides of the concrete mold (1). A lifting component (2) is provided on the surface of each of the two first fixed seats (101). A screw female seat (3) is provided on the surface of each of the two lifting components (2). A second fixed seat (4) is fixedly installed on one side of each of the two screw female seats (3). A horizontal scale rod (6) is provided on the inner side of each of the two second fixed seats (4). A scale is provided on the surface of the horizontal scale rod (6). A plurality of clamping components (5) are provided on the surface of the horizontal scale rod (6). The lifting assembly (2) includes a vertical sleeve rod (201), and an inner rod (202) is movably fitted inside the vertical sleeve rod (201). Both the vertical sleeve rod (201) and the inner rod (202) have scale lines on their surfaces.

2. The liftable electrode type conductive concrete mold according to claim 1, characterized in that: The vertical sleeve (201) is threaded with a first fastening bolt (203), one end of which penetrates the side wall of the vertical sleeve (201) and abuts against the surface of the inner rod (202).

3. The liftable electrode type conductive concrete mold according to claim 1, characterized in that: The surface of the spiral female seat (3) is provided with a threaded groove (301). The top of the inner rod (202) is connected to a second threaded rod (205), which is threadedly embedded in the threaded groove (301). The bottom of the vertical sleeve rod (201) is connected to a first threaded rod (204), which is threadedly embedded in the first fixed seat (101).

4. The liftable electrode type conductive concrete mold according to claim 1, characterized in that: The clamping assembly (5) includes a T-shaped clamping plate (501) and a square clamping plate (502). A third fastening bolt (504) is threaded through and installed on the surface of the T-shaped clamping plate (501) and the square clamping plate (502). A fastening nut (505) is threaded on one end of the third fastening bolt (504). The side walls of the T-shaped clamping plate (501) and the square clamping plate (502) are provided with scale lines. The inner side of the T-shaped clamping plate (501) and the square clamping plate (502) are provided with wear-resistant elastic pads.

5. A liftable electrode type conductive concrete mold according to claim 4, characterized in that: The surface of the horizontal scale rod (6) moves through the surface of the T-shaped clamp (501). Both ends of the horizontal scale rod (6) are connected to a third threaded rod (601). The two third threaded rods (601) are threadedly embedded in the interior of the two second fixed seats (4).

6. The liftable electrode type conductive concrete mold according to claim 4, characterized in that: The top of the T-shaped clamp (501) is threaded with a second fastening bolt (503), which passes through the top of the T-shaped clamp (501) and abuts against the surface of the horizontal scale rod (6).

7. The liftable electrode type conductive concrete mold according to claim 1, characterized in that: The concrete mold (1) is made of plastic.

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