CN215953202U - Building material intensity check out test set - Google Patents

Abstract

The utility model discloses a building material strength detection device which comprises a building material to be detected, a base, vertical plates, an upper stop lever, a lower stop lever, a vertical slide rod and a transverse slide rod, wherein the base is provided with a plurality of building materials to be detected, the base is in an H-shaped design, the vertical plates are arranged on one side of the middle part of the base and are fixedly connected, a cam is arranged on one side surface of each vertical plate and is in rotating connection with the corresponding vertical plate, and one end of the cam penetrates through the vertical plate and is fixedly connected with a motor. The utility model can move the building material to be detected to slide on the base by arranging the electric push, is suitable for detecting materials with different sizes, is more convenient to use, can drive the detection probe to move towards the building material to be detected to detect the materials by arranging the cam structure and controlling the rotation of the cam, can fix the building material to be detected while detecting, and is convenient and quick.

Description

Building material intensity check out test set

Technical Field

The utility model relates to the technical field of strength detection equipment, in particular to building material strength detection equipment.

Background

Building materials are various materials used in construction works, and the building materials are various in types, and are roughly classified into: inorganic materials including metal materials and non-metal materials such as natural stone, burnt soil products, cement, concrete and silicate products, organic materials including plant materials, synthetic polymer materials including plastics, paint, adhesives and asphalt materials, composite materials including asphalt concrete, polymer concrete and the like, generally formed by compounding inorganic non-metal materials and organic materials, no matter which structural building materials are used, a series of quality detection needs to be completed on the building materials, wherein strength detection is carried out on the building materials, specific strength detection equipment needs to be used for the strength detection, and different detection equipment and detection methods are selected for materials with different specifications, shapes and shapes.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to a building material strength detecting apparatus to solve the above-mentioned problems of the background art.

In order to achieve the purpose, the utility model provides the following technical scheme: a building material strength detection device comprises a to-be-detected building material, a base, a vertical plate, an upper stop lever, a lower stop lever, a vertical slide rod and a horizontal slide rod, wherein the base is provided with a plurality of to-be-detected building materials, the base is designed in an H shape, the vertical plate and the lower stop lever are arranged on one side of the middle part of the base, a cam is arranged on one side of the vertical plate and is in rotating connection with the vertical plate, one end of the cam penetrates through the vertical plate to be fixedly connected with a motor, the motor is fixedly arranged on one side of the vertical plate, the upper stop lever and the lower stop lever are respectively arranged on two sides of the cam in a contacting connection manner, the upper stop lever is hinged and arranged on one side of the vertical plate, the lower stop lever is hinged and arranged on one side of the vertical plate, the vertical slide rod is slidably arranged in a first sliding sleeve, the first sliding sleeve is fixedly arranged on the vertical plate, and the lower stop lever is provided with the horizontal slide rod on the lower side of the end far away from the cam, the horizontal sliding rod is slidably mounted in a second sliding sleeve, the second sliding sleeve is fixedly mounted on the vertical plate, a first electric push rod and a second electric push rod are arranged at one end of the base respectively and are linearly distributed, and a third electric push rod and a fourth electric push rod are arranged on two sides of the base respectively.

Preferably, a first clamping block is arranged at one end, close to the upper blocking rod, of the vertical sliding rod and is fixedly connected with the first clamping block, and a return spring is arranged between the first clamping block and the first sliding sleeve.

Preferably, one end of the transverse sliding rod, which is close to the lower stop rod, is provided with a second clamping block and is fixedly connected with the second clamping block, and a return spring is arranged between the second clamping block and the second sliding sleeve.

Preferably, the vertical sliding rod and the transverse sliding rod are provided with a detection probe at one end close to the building material to be detected.

Compared with the prior art, the utility model has the beneficial effects that: the utility model can move the building material to be detected to slide on the base by arranging the electric push, is suitable for detecting materials with different sizes, is more convenient to use, can drive the detection probe to move towards the building material to be detected to detect the materials by arranging the cam structure and controlling the rotation of the cam, can fix the building material to be detected while detecting, and is convenient and quick.

Drawings

FIG. 1 is a schematic view of the main structure of a building material strength testing apparatus according to the present invention;

FIG. 2 is a front view of a construction material strength testing apparatus according to the present invention;

fig. 3 is an enlarged view of fig. 1 at a.

In the figure: 1. wait to examine building material, 2, first electric push rod, 3, second electric push rod, 4, base, 5, third electric push rod, 6, fourth electric push rod, 7, riser, 8, go up the shelves pole, 9, lower shelves pole, 10, cam, 11, vertical slide bar, 12, sliding sleeve one, 13, horizontal slide bar, 14, sliding sleeve two, 15, motor, 16, fixture block, 17, No. two fixture blocks.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: a building material strength detection device comprises a building material 1 to be detected, a base 4, a vertical plate 7, an upper stop lever 8, a lower stop lever 9, a vertical slide bar 11 and a horizontal slide bar 13, wherein the base 4 is provided with a plurality of building materials 1 to be detected, the base 4 is in an H-shaped design, one side of the middle part of the base 4 is provided with the vertical plate 7 and is fixedly connected with the vertical plate 7, the vertical plate 7 plays a role of fixing and supporting a detection device, one side surface of the vertical plate 7 is provided with a cam 10 and is in rotating connection, the cam 10 rotates to drive the upper stop lever 8 and the lower stop lever 9 to swing, one end of the cam 10 penetrates through the vertical plate 7 to be fixedly connected with a motor 15, the motor 15 provides power for the rotation of the cam 10, the motor 15 is fixedly arranged on one side surface of the vertical plate 7, the two sides of the cam 10 are respectively provided with the upper stop lever 8 and the lower stop lever 9 which are in contact connection, the upper stop lever 8 is hinged to be arranged on one side of the vertical plate 7, the lower stop lever 9 is hinged to be arranged on one side of the vertical plate 7, a vertical slide bar 11 is arranged at the lower side of one end of an upper stop lever 8 far away from a cam 10, the upper stop lever 8 swings to push the vertical slide bar 11 to slide downwards, the vertical slide bar 11 slides downwards to fix a building material 1 to be detected vertically, the vertical slide bar 11 is slidably arranged in a first slide sleeve 12, the first slide sleeve 12 guides the vertical slide bar 11 to slide in the direction, the first slide sleeve 12 is fixedly arranged on a vertical plate 7, a transverse slide bar 13 is arranged at the lower side of one end of a lower stop lever 9 far away from the cam 10, the lower stop lever 9 swings to push the transverse slide bar 13 to slide rightwards, the transverse slide bar 13 slides rightwards to fix the building material 1 to be detected horizontally, the transverse slide bar 13 is slidably arranged in a second slide sleeve 14, the second slide sleeve 14 guides the transverse slide bar 13 to slide in the direction, the second slide sleeve 14 is fixedly arranged on the vertical plate 7, and one end of a base 4 is respectively provided with a first electric push rod 2 and a second electric push rod 3, play the effect that the building material 1 was examined in the promotion and move, both are linear distribution, and the both sides of base 4 are provided with third electric push rod 5 and fourth electric push rod 6 respectively, play the effect that the building material 1 was examined in the promotion and move. A first clamping block 16 is arranged at one end, close to the upper blocking rod 8, of the vertical sliding rod 11 and is fixedly connected with the first clamping block 16, and a return spring is arranged between the first clamping block 16 and the first sliding sleeve 12, so that the vertical sliding rod 11 can automatically rebound to an initial position when the support of the upper blocking rod 8 is lost. A second clamping block 17 is arranged at one end, close to the lower stop lever 9, of the transverse sliding rod 13 and is fixedly connected with the lower stop lever 9, and a return spring is arranged between the second clamping block 17 and the second sliding sleeve 14, so that the transverse sliding rod 13 can automatically rebound to an initial position when the support of the lower stop lever 9 is lost. One end of the building material 1 to be detected, which is close to the vertical sliding rod 11 and the transverse sliding rod 13, is provided with a detection probe for detecting the strength of the building material.

The working principle of the utility model is as follows: before use, a building material 1 to be detected is placed in a base 4 in front of a first electric push rod 2 and a second electric push rod 3, the second electric push rod 3 is started to push the building material 1 to be detected to the front of a third electric push rod 5, a building material 1 to be detected is newly placed in a vacant position, the third electric push rod 5 is started to push the building material 1 to be detected to an area to be detected, a motor 15 is started to rotate to drive a cam 10 to rotate, the cam 10 rotates to drive an upper stop lever 8 and a lower stop lever 9 to swing, the upper stop lever 8 swings to push a vertical slide rod 11 to slide downwards, the lower stop lever 9 swings to push a transverse slide rod 13 to slide rightwards, the vertical slide rod 11 slides downwards to vertically fix the building material 1 to be detected and carry out strength detection on the upper surface of the vertical slide rod 11, the transverse slide rod 13 slides rightwards to transversely fix the building material 1 to be detected and carry out strength detection on the side surface of the vertical slide rod 9, after the detection is finished, the second electric push rod 3 is started again to push the building material 1 to be detected to the front of the third electric push rod 5, and starting the third electric push rod 5 to push the building material 1 to be detected on the area to be detected to the other side by utilizing the building material 1 to be detected in front of the third electric push rod, retreating the building material 1 to be detected which is not detected to the area to be detected to complete the next detection, and so on, and continuously completing the detection task for multiple times.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (4)

1. A building material intensity check out test set which characterized in that: including waiting to examine building material (1), base (4), riser (7), go up shelves pole (8), shelves pole (9) down, vertical slide bar (11) and horizontal slide bar (13), it waits to examine building material (1) to be provided with a plurality of on base (4), base (4) are the design of H shape, and middle part one side of base (4) is provided with riser (7) and fixed connection, be provided with cam (10) and rotate the connection on a side of riser (7), riser (7) and motor (15) fixed connection are passed to the one end of cam (10), motor (15) fixed mounting is in a side of riser (7), and the both sides of cam (10) are provided with respectively and go up shelves pole (8) and all contact with the connection of shelves pole (9) down, go up the articulated one side of installing in riser (7) of pole (8), shelves pole (9) are articulated to be installed in one side of riser (7) down, go up shelves pole (8) and keep away from the one end downside of cam (10) and be provided with vertical slide bar (11), vertical slide bar (11) slidable mounting is in sliding sleeve (12), sliding sleeve (12) fixed mounting is on riser (7), and the one end downside that cam (10) were kept away from in lower shelves pole (9) is provided with horizontal slide bar (13), horizontal slide bar (13) slidable mounting is in sliding sleeve two (14), sliding sleeve two (14) fixed mounting is on riser (7), and the one end of base (4) is provided with first electric push rod (2) and second electric push rod (3) respectively, and both are linear distribution, and the both sides of base (4) are provided with third electric push rod (5) and fourth electric push rod (6) respectively.

2. The building material strength detection apparatus according to claim 1, wherein: one end of the vertical sliding rod (11) close to the upper blocking rod (8) is provided with a first clamping block (16) and is fixedly connected with the first clamping block, and a return spring is arranged between the first clamping block (16) and the first sliding sleeve (12).

3. The building material strength detection apparatus according to claim 1, wherein: one end of the transverse sliding rod (13) close to the lower stop rod (9) is provided with a second clamping block (17) and is fixedly connected with the second clamping block, and a return spring is arranged between the second clamping block (17) and the second sliding sleeve (14).

4. The building material strength detection apparatus according to claim 1, wherein: one end of the building material (1) to be detected, which is close to the vertical sliding rod (11) and the horizontal sliding rod (13), is provided with a detection probe.

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