CN210123383U - Building crab-bolt tensile strength detection device that pulls out - Google Patents

Abstract

The utility model provides a tensile strength detection device that pulls out of building crab-bolt, include: the oil cylinder, the first sleeve and the first guide pillar; the bottom end of the oil cylinder is provided with a fixed plate, and the fixed plate is connected with the oil cylinder through a bolt; two sides of the inside of the fixing plate are provided with first sleeves, and the first sleeves are connected with the fixing plate through bolts; two sides of the bottom end of the fixing plate are provided with stand columns, and the top ends of the stand columns are connected with the fixing plate in a welding mode; a first guide pillar is arranged in the first sleeve, and the bottom end of the first guide pillar is connected with the first sleeve in a penetrating mode; the bottom of first guide pillar is provided with the second sleeve, and the second sleeve is connected with first guide pillar through the interference mode, the utility model discloses a to the improvement that a building crab-bolt tensile strength detection device was pulled out, have labour saving and time saving, easy operation, advantage that the reading is accurate to effectual solution the utility model discloses the problem that proposes in the background art is with not enough.

Description

Building crab-bolt tensile strength detection device that pulls out

Technical Field

The utility model relates to a construction technical field, more specifically the theory that says so especially relates to a tensile strength detection device that pulls out of building crab-bolt.

Background

The building anchor bolt is often cooperated with a concrete base to play a role in bearing the weight and load of a machine, the purpose is to ensure the stable and normal operation of machinery, and the building anchor bolt can be used for the installation of a post-embedded part in the dry-hanging construction of various curtain walls and marbles, and can also be used for the installation of equipment, the installation of highways and bridge guardrails, the reinforcement and reconstruction of buildings and other occasions.

The existing detection device for the tensile strength of the building anchor bolt is mainly formed by using a jack as power, manual operation is needed due to the fact that the jack is used as power, time and labor are wasted, and the tensile strength of the building anchor bolt is detected by using a pressure gauge, so that manual reading is not accurate.

In view of this, research improvement is carried out to current problem, provides a labour saving and time saving, easy operation, and the accurate building crab-bolt tensile strength detection device of reading, aims at through this technique, reaches the purpose of solving the problem and improving practical value nature.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a tensile strength detection device that pulls out of building crab-bolt to what provide in solving above-mentioned background art needs artificial operation, wastes time and energy because use the jack as power, and, uses the manometer to detect the tensile strength of building crab-bolt, the inaccurate problem of artificial reading and not enough.

In order to achieve the above object, the utility model provides a building crab-bolt tensile strength detection device that pulls out reaches by following specific technical means:

a tensile strength detection device that pulls out of building crab-bolt includes: the device comprises an oil cylinder, a first sleeve, a first guide pillar, a second sleeve, an upper clamp, a lower clamp, a mounting seat, a base, a fixing plate, a guide plate, a tension sensor, a second guide pillar, an upright post and a bearing; the bottom end of the oil cylinder is provided with a fixed plate, and the fixed plate is connected with the oil cylinder through a bolt; two sides of the inside of the fixing plate are provided with first sleeves, and the first sleeves are connected with the fixing plate through bolts; two sides of the bottom end of the fixing plate are provided with stand columns, and the top ends of the stand columns are connected with the fixing plate in a welding mode; a first guide pillar is arranged in the first sleeve, and the bottom end of the first guide pillar is connected with the first sleeve in a penetrating mode; the bottom end of the first guide pillar is provided with a second sleeve, and the second sleeve is connected with the first guide pillar in an interference manner; a guide plate is arranged on the outer wall of the second sleeve and is connected with the second sleeve through a bolt; second guide pillars are arranged inside two ends of the guide plate, and two ends of each second guide pillar are connected with the upright posts through bearings; a tension sensor is arranged in the middle of the bottom end of the guide plate, and the top end of the tension sensor is connected with the guide plate through threaded engagement; the bottom end of the tension sensor is provided with an upper clamp, and the upper clamp is connected with the tension sensor through threaded engagement; the bottom end of the upright post is provided with a base, and the base is connected with the upright post through a bolt; the top end of the base is provided with a mounting seat, and the mounting seat is connected with the base through a bolt; the top of mount pad is provided with down anchor clamps, and lower anchor clamps are connected with the mount pad through the thread engagement mode.

As a further optimization of this technical scheme, the utility model relates to a tensile strength detection device that pulls out of building crab-bolt the type of tension sensor IS LLBLS-IS type and draws pressure sensor.

As this technical scheme's further optimization, the utility model relates to a building crab-bolt tensile strength detection device that pulls out the inside second guide pillar that all is provided with of stand, and the both ends of second guide pillar all are provided with the bearing, and the second guide pillar is the guider of deflector.

As this technical scheme's further optimization, the utility model relates to a building crab-bolt tensile strength detection device that pulls out first guide pillar is bilateral symmetry formula structure and is provided with two, and the deflector of first guide pillar bottom passes through the hydro-cylinder and is reciprocating the device.

As the further optimization of this technical scheme, the utility model relates to a building crab-bolt tensile strength detection device that pulls out the flexible post of hydro-cylinder runs through the fixed plate and is connected through the welding mode with the deflector, and the first guide pillar of the flexible post both sides of hydro-cylinder is the supplementary guider of deflector.

As the further optimization of this technical scheme, the utility model relates to a building crab-bolt tensile strength detection device that pulls out first sleeve all is bilateral symmetry formula structure with the second sleeve and is provided with two sets ofly.

Because of above-mentioned technical scheme's application, compared with the prior art, the utility model have the following advantage:

1. the utility model discloses force sensor's model IS the setting that LLBLS-IS type draws force sensor, IS favorable to the reading accuracy.

2. The utility model discloses first guide pillar is bilateral symmetry formula structure and is provided with two, and the deflector of first guide pillar bottom passes through the hydro-cylinder and for reciprocating device's setting, is favorable to the device when using, reaches labour saving and time saving's purpose, the operation of being convenient for through the hydro-cylinder.

3. The utility model discloses a to the improvement of a building crab-bolt tensile strength detection device of pulling out, have labour saving and time saving, easy operation, the accurate advantage of reading to effectual solution the utility model discloses the problem that proposes in background art one with not enough.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification. In the drawings:

fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic side view of the present invention;

fig. 3 is a schematic diagram of the moving structure of the guide plate of the present invention.

In the figure: the device comprises an oil cylinder 1, a first sleeve 2, a first guide pillar 3, a second sleeve 4, an upper clamp 5, a lower clamp 6, a mounting seat 7, a base 8, a fixing plate 9, a guide plate 10, a tension sensor 11, a second guide pillar 12, an upright column 13 and a bearing 14.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

It is to be noted that, in the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Meanwhile, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "connected" and "connected" should be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; the connection can be mechanical connection or electrical connection; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 3, the present invention provides a specific technical implementation of a device for detecting tensile strength of a building anchor bolt:

a tensile strength detection device that pulls out of building crab-bolt includes: the device comprises an oil cylinder 1, a first sleeve 2, a first guide pillar 3, a second sleeve 4, an upper clamp 5, a lower clamp 6, a mounting seat 7, a base 8, a fixing plate 9, a guide plate 10, a tension sensor 11, a second guide pillar 12, an upright column 13 and a bearing 14; the method is characterized in that: the bottom end of the oil cylinder 1 is provided with a fixing plate 9, and the fixing plate 9 is connected with the oil cylinder 1 through a bolt; two sides of the inside of the fixed plate 9 are provided with first sleeves 2, and the first sleeves 2 are connected with the fixed plate 9 through bolts; two sides of the bottom end of the fixed plate 9 are provided with upright columns 13, and the top ends of the upright columns 13 are connected with the fixed plate 9 in a welding mode; a first guide pillar 3 is arranged inside the first sleeve 2, and the bottom end of the first guide pillar 3 is connected with the first sleeve 2 in a penetrating manner; the bottom end of the first guide pillar 3 is provided with a second sleeve 4, and the second sleeve 4 is connected with the first guide pillar 3 in an interference manner; a guide plate 10 is arranged on the outer wall of the second sleeve 4, and the guide plate 10 is connected with the second sleeve 4 through a bolt; a second guide post 12 is arranged inside two ends of the guide plate 10, and two ends of the second guide post 12 are connected with the upright post 13 through bearings 14; a tension sensor 11 is arranged at the middle position of the bottom end of the guide plate 10, and the top end of the tension sensor 11 is connected with the guide plate 10 through threaded engagement; an upper clamp 5 is arranged at the bottom end of the tension sensor 11, and the upper clamp 5 is connected with the tension sensor 11 through threaded engagement; the bottom end of the upright column 13 is provided with a base 8, and the base 8 is connected with the upright column 13 through a bolt; the top end of the base 8 is provided with a mounting seat 7, and the mounting seat 7 is connected with the base 8 through a bolt; the top end of the mounting seat 7 is provided with a lower clamp 6, and the lower clamp 6 is connected with the mounting seat 7 in a threaded engagement mode.

Specifically, the tension sensor 11 IS a LLBLS-IS tension and pressure sensor.

Specifically, the inside of the upright column 13 is provided with a second guide post 12, and two ends of the second guide post 12 are provided with bearings 14, and the second guide post 12 is a guiding device of the guide plate 10.

Specifically, the first guide pillar 3 is provided with two in a bilateral symmetry structure, and the guide plate 10 at the bottom end of the first guide pillar 3 is an up-down moving device through the oil cylinder 1.

Specifically, the telescopic column of the oil cylinder 1 penetrates through the fixing plate 9 and is connected with the guide plate 10 in a welding mode, and the first guide columns 3 on two sides of the telescopic column of the oil cylinder 1 are auxiliary guide devices of the guide plate 10.

Specifically, the first sleeve 2 and the second sleeve 4 are arranged in two groups in a bilateral symmetry structure.

The method comprises the following specific implementation steps:

the method comprises the steps of firstly switching on a power supply, fixing the bottom end of an anchor bolt in a lower clamp 6, fixing the top end of the anchor bolt in an upper furniture 5, then controlling a telescopic column of an oil cylinder 1 to move upwards and slowly through an external controller, directly displaying drawing force on an external display screen under the action of a tension sensor 11 until the reading is not increased any more (namely, damage load) or the reading is loaded to a designed load, displaying the working pressure of the tension sensor 11 through the displayed reading, and comparing the displayed reading value with a force value table determined through verification to obtain a drawing force value.

In summary, the following steps: this tensile strength detection device that pulls out of building crab-bolt, the model through force sensor IS the setting that LLBLS-IS type pulled pressure sensor, it IS accurate to be favorable to the reading, first guide pillar IS bilateral symmetry formula structure and IS provided with two, and the deflector of first guide pillar bottom passes through the hydro-cylinder and IS the setting of reciprocating the device, be favorable to the device when using, reach labour saving and time saving's purpose through the hydro-cylinder, the operation of being convenient for, solved because it IS power to use the jack, need artificial operation, waste time and energy, and, use the manometer to detect the tensile strength of building crab-bolt, the inaccurate problem of artificial reading.

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 invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A tensile strength detection device that pulls out of building crab-bolt includes: the device comprises an oil cylinder (1), a first sleeve (2), a first guide pillar (3), a second sleeve (4), an upper clamp (5), a lower clamp (6), a mounting seat (7), a base (8), a fixing plate (9), a guide plate (10), a tension sensor (11), a second guide pillar (12), an upright post (13) and a bearing (14); the method is characterized in that: the bottom end of the oil cylinder (1) is provided with a fixing plate (9), and the fixing plate (9) is connected with the oil cylinder (1) through a bolt; two sides of the inside of the fixing plate (9) are provided with first sleeves (2), and the first sleeves (2) are connected with the fixing plate (9) through bolts; two sides of the bottom end of the fixing plate (9) are provided with upright columns (13), and the top ends of the upright columns (13) are connected with the fixing plate (9) in a welding mode; a first guide post (3) is arranged in the first sleeve (2), and the bottom end of the first guide post (3) is connected with the first sleeve (2) in a penetrating manner; the bottom end of the first guide pillar (3) is provided with a second sleeve (4), and the second sleeve (4) is connected with the first guide pillar (3) in an interference manner; a guide plate (10) is arranged on the outer wall of the second sleeve (4), and the guide plate (10) is connected with the second sleeve (4) through a bolt; a second guide post (12) is arranged inside two ends of the guide plate (10), and two ends of the second guide post (12) are connected with the upright post (13) through bearings (14); a tension sensor (11) is arranged in the middle of the bottom end of the guide plate (10), and the top end of the tension sensor (11) is connected with the guide plate (10) through threaded engagement; an upper clamp (5) is arranged at the bottom end of the tension sensor (11), and the upper clamp (5) is connected with the tension sensor (11) through threaded engagement; the bottom end of the upright post (13) is provided with a base (8), and the base (8) is connected with the upright post (13) through a bolt; the top end of the base (8) is provided with a mounting seat (7), and the mounting seat (7) is connected with the base (8) through a bolt; the top of mount pad (7) is provided with down anchor clamps (6), and down anchor clamps (6) are connected with mount pad (7) through the thread engagement mode.

2. The building anchor bolt tensile strength detection device according to claim 1, characterized in that: the type of the tension sensor (11) IS an LLBLS-IS type tension and pressure sensor.

3. The building anchor bolt tensile strength detection device according to claim 1, characterized in that: the inner part of the upright post (13) is provided with a second guide post (12), two ends of the second guide post (12) are provided with bearings (14), and the second guide post (12) is a guide device of the guide plate (10).

4. The building anchor bolt tensile strength detection device according to claim 1, characterized in that: the two first guide pillars (3) are arranged in a bilateral symmetry structure, and the guide plate (10) at the bottom end of the first guide pillars (3) is an up-down moving device through the oil cylinder (1).

5. The building anchor bolt tensile strength detection device according to claim 1, characterized in that: the telescopic column of the oil cylinder (1) penetrates through the fixing plate (9) and is connected with the guide plate (10) in a welding mode, and the first guide columns (3) on two sides of the telescopic column of the oil cylinder (1) are auxiliary guide devices of the guide plate (10).

6. The building anchor bolt tensile strength detection device according to claim 1, characterized in that: the first sleeve (2) and the second sleeve (4) are arranged in a bilateral symmetry mode.

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