CN210834458U - Civil engineering concrete strength check out test set - Google Patents

Abstract

The utility model discloses a civil engineering concrete intensity check out test set, including fixture, motor, supporting mechanism and threaded rod, the up end symmetry sliding clamping of supporting mechanism has the fixture that is used for supporting, and is located the up end symmetry fixedly connected with of supporting mechanism is used for the motor of connection. The utility model discloses a set up fixture, when fixing the concrete, at first draw two sets of fixture to suitable distance at the fixed rail, the user can place the concrete detection piece on backup pad upper portion afterwards, places the back that finishes, and the user can twist and move connecting screw, and connecting screw can drive the joint plate and rotate at the spacing inslot portion, and then has improved the stability fixed to the concrete detection piece.

Description

Civil engineering concrete strength check out test set

Technical Field

The utility model relates to the technical field, specifically be a civil engineering concrete intensity check out test set.

Background

As the indispensable material in the building engineering construction process, the concrete material is in the present stage and in a long time in the future, its economic nature and application all are incomparable with many other materials, but there are many concretes now often not enough, its intensity difference is strong and people's intention, especially some national key building engineering projects, the intensity standard to the concrete is very high, current concrete check out test set can not carry out thorough accurate detection to the concrete, can not carry out swift ultimate bearing capacity test to various thickness concretes simultaneously, reduce the convenient performance of device, so the civil engineering concrete intensity check out test set that is needed to solve above-mentioned problem that exists urgently.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a civil engineering concrete intensity check out test set to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the civil engineering concrete strength detection equipment comprises a clamping mechanism, a motor, a supporting mechanism and a threaded rod,

the upper end surface of the supporting mechanism is symmetrically and slidably clamped with a clamping mechanism for supporting, and the upper end surface of the supporting mechanism is symmetrically and fixedly connected with a motor for connection, wherein the center of the bottom end surface of the motor is rotationally connected with a threaded rod for connection,

the supporting mechanism comprises a positioning plate, a pressure block, a supporting frame and a fixed rail, wherein the positioning plate used for supporting is connected to the sliding joint of the inner end face of the supporting frame in a sliding mode, the inner end face of the supporting frame is located on the pressure block used for pressing, the bottom end face of the positioning plate is fixedly connected with the fixed rail in a symmetrical mode and used for sliding, the fixed rail can provide a sufficient supporting base for the clamping mechanism, meanwhile, a follow-up user can conveniently carry out rapid sliding displacement on the clamping mechanism, and meanwhile, the positioning plate can conveniently and subsequently carry out rapid supporting and detecting on the concrete detection block.

Preferably, the clamping mechanisms comprise connecting screw rods, clamping plates, supporting plates, connecting plates, a dynamometer, fixing clamping plates and limiting grooves, the lower end face of the dynamometer is fixedly connected with the fixing clamping plates for connection, the connecting plate for supporting is fixedly connected to the upper end face of the dynamometer, the dynamometer is fixedly clamped with the supporting plates for connection through the connecting plates, the inner end face of the supporting plate is provided with the limiting grooves for clamping, the inner end face of each limiting groove is rotatably connected with the connecting screw rod for limiting, the inner end face of each limiting groove is slidably clamped with the clamping plates for limiting through the connecting screw rods, when concrete is fixed, the two groups of clamping mechanisms are firstly pulled to a proper distance on the fixing rails, then a user can place the concrete detection block on the upper portion of the supporting plate, and after the concrete detection block is placed, the user can twist and move connecting screw, connecting screw can drive the joint board and rotate at the spacing inslot portion, and then improved the fixed stability of concrete detection piece, two sets of fixture are to the fixed back that finishes of concrete detection piece, user's accessible external control device starts two sets of motors, the motor can drive the threaded rod and carry out swift rotation, the threaded rod can drive the locating plate and carry out the downward displacement, the locating plate can support the pressure piece at the concrete piece, the threaded rod can continue to drive the locating plate and carry out the pushing down and begin to test the concrete test piece this moment, two sets of dynamometers can show the pressure that the concrete bore, reach the critical breakage to taking place until the concrete, the accurate nature and the convenience of detecting the concrete have been improved.

Preferably, the rear end face of the clamping plate is provided with a sliding plate, and the sliding plate and the inner end face of the limiting groove are arranged in a T shape, wherein the clamping plate is connected inside the limiting groove in a sliding mode through the sliding plate, and the T-shaped arrangement of the sliding plate and the inner end face of the limiting groove can effectively improve the stability of connection between the clamping plate and the limiting groove and prevent the clamping plate and the limiting groove from falling off during detection.

Preferably, the even equidistance fixedly connected with of bottom face of joint board is used for increasing the frictional triangle lug, and is located threaded hole is seted up at the outer terminal surface middle part of sliding plate, and the triangle lug can increase the extrusion force of joint board and concrete detection piece, and then improves follow-up stability to the concrete detection piece centre gripping, and the threaded hole can make things convenient for follow-up stable threaded connection who carries out swift to the screw rod.

Preferably, the bottom end face of the fixed clamping plate is symmetrically provided with slide rail grooves, and the clamping mechanism is in matched sliding clamping connection with the motor through the slide rail grooves, so that stable displacement can be conveniently carried out on the clamping mechanism subsequently.

Preferably, the upper portion and the bottom of support frame are all offered the cell body that is used for connecting symmetrically, just the joint is rotated with threaded rod looks adaptation to the cell body, and convenient follow-up carries out stable spacing and is connected to the threaded rod.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. the utility model has the advantages that by arranging the clamping mechanisms, when the concrete is fixed, firstly, two groups of clamping mechanisms are pulled to a proper distance on the fixed rail, then a user can place the concrete detection block on the upper part of the support plate, after the concrete detection block is placed, the user can screw the connecting screw rod, the connecting screw rod can drive the clamping plate to rotate in the limiting groove, further, the stability of fixing the concrete detection block is improved, after the two groups of clamping mechanisms finish fixing the concrete detection block, the user can start two groups of motors through the external control device, the motors can drive the threaded rod to rotate rapidly, the threaded rod can drive the positioning plate to move downwards, the positioning plate can support the pressure block on the concrete block, at the moment, the threaded rod can continuously drive the positioning plate to press down to start testing the concrete detection block, and two groups of dynamometers can display the pressure born by the concrete, until the concrete reaches the critical state and is broken, the accuracy and the convenience of concrete detection are improved.

2. The utility model discloses a set up supporting mechanism, the fixed rail can provide sufficient support basis for fixture, also can make things convenient for follow-up user to carry out swift slip displacement to fixture simultaneously, and the locating plate can make things convenient for the follow-up concrete detection piece to carry out swift support and detection simultaneously.

Drawings

FIG. 1 is an exploded view of the main body of the present invention;

FIG. 2 is an assembly view of the main body of the present invention;

FIG. 3 is an exploded view of the clamping mechanism of the present invention;

FIG. 4 is an assembly view of the clamping mechanism of the present invention;

fig. 5 is an exploded view of the support mechanism of the present invention;

fig. 6 is an assembly view of the supporting mechanism of the present invention.

In the figure: 1-clamping mechanism, 2-motor, 3-supporting mechanism, 4-threaded rod, 101-connecting screw rod, 102-clamping plate, 103-supporting plate, 104-connecting plate, 105-dynamometer, 106-fixing clamping plate, 107-limiting groove, 301-locating plate, 302-pressure block, 303-supporting frame and 304-fixing rail.

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. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides an embodiment: the civil engineering concrete strength detection equipment comprises a clamping mechanism 1, a motor 2, a supporting mechanism 3 and a threaded rod 4,

the upper end surface of the supporting mechanism 3 is symmetrically and slidably clamped with a clamping mechanism 1 for supporting, and the upper end surface of the supporting mechanism 3 is symmetrically and fixedly connected with a motor 2 for connection, wherein the center of the bottom end surface of the motor 2 is rotationally connected with a threaded rod 4 for connection,

supporting mechanism 3 includes locating plate 301, pressure block 302, support frame 303 and fixed rail 304, the interior terminal surface sliding clamping of support frame 303 has locating plate 301 that is used for supporting, and be located the bottom face center fixedly connected with of locating plate 301 and be used for the pressure block 302 of pressfitting, wherein, the bottom face symmetry fixedly connected with of support frame 303 is used for gliding fixed rail 304, fixed rail 304 can provide sufficient support basis for fixture 1, also can make things convenient for follow-up user to carry out swift slip displacement to fixture 1 simultaneously, locating plate 301 can make things convenient for follow-up to carry out swift support and detection to the concrete detection piece simultaneously.

The clamping mechanisms 1 comprise connecting screw rods 101, clamping plates 102, supporting plates 103, connecting plates 104, a dynamometer 105, fixing clamping plates 106 and limiting grooves 107, the lower end face of the dynamometer 105 is fixedly connected with the fixing clamping plates 106 for connection, and the upper end face of the dynamometer 105 is fixedly connected with the connecting plates 104 for supporting, wherein the dynamometer 105 is fixedly clamped with the supporting plates 103 for connection through the connecting plates 104, the inner end face of the supporting plate 103 is provided with the limiting grooves 107 for clamping, and the inner end face of the limiting grooves 107 is rotatably connected with the connecting screw rods 101 for limiting, wherein the inner end face of the limiting grooves 107 is slidably clamped with the clamping plates 102 for limiting through the connecting screw rods 101, when concrete is fixed, firstly the two groups of clamping mechanisms 1 are pulled to a proper distance on the fixing rails 304, and then a user can place concrete detection blocks on the upper portions of the supporting plates 103, after placing and finishing, the user can twist and move connecting screw 101, connecting screw 101 can drive joint board 102 and rotate in spacing groove 107 inside, and then improved the fixed stability of concrete detection piece, two sets of fixture 1 is fixed the back that finishes to the concrete detection piece, user's accessible external control device starts two sets of motors 2, motor 2 can drive threaded rod 4 and carry out swift rotation, threaded rod 4 can drive locating plate 301 and carry out the downward displacement, locating plate 301 can support pressure block 302 at the concrete piece, threaded rod 4 can continue to drive locating plate 301 and press down and begin to test the concrete test piece this moment, two sets of dynamometers 105 can show the pressure that the concrete bore, reach critical to taking place breakage until the concrete, the precision and the convenience that detect the concrete have been improved.

The rear end face of the clamping plate 102 is provided with a sliding plate, and the sliding plate and the inner end face of the limiting groove 107 are arranged in a T shape, wherein the clamping plate 102 is connected inside the limiting groove 107 in a sliding manner through the sliding plate, and the inner end face of the sliding plate and the inner end face of the limiting groove 107 are arranged in a T shape, so that the stability of connection between the clamping plate 102 and the limiting groove 107 can be effectively improved, and the clamping plate is prevented from falling off during detection.

The even equidistance fixedly connected with of clamping plate 102's bottom face is used for increasing the frictional triangle lug, and is located the outer terminal surface middle part of sliding plate and sets up threaded hole, and the triangle lug can increase clamping plate 102 and the extrusion force that the concrete detected the piece, and then improves follow-up stability to the concrete detection piece centre gripping, and the threaded hole can make things convenient for follow-up stable threaded connection who carries on swiftly to threaded rod 4.

The bottom end face of the fixed clamping plate 106 is symmetrically provided with slide rail grooves, and the clamping mechanism 1 is in matched sliding clamping connection with the motor 2 through the slide rail grooves, so that stable displacement can be conveniently carried out on the clamping mechanism 1 in the follow-up process.

The cell body that is used for connecting is all offered to the upper portion and the bottom of support frame 303 symmetry, and the joint is rotated with threaded rod 4 looks adaptation to the cell body, conveniently follow-up carry out stable spacing and connection to threaded rod 4.

The working principle is as follows: when the concrete is fixed, firstly, two groups of clamping mechanisms 1 are pulled to a proper distance on a fixed rail 304, then a user can place a concrete detection block on the upper part of a supporting plate 103, after the placement is finished, the user can screw a connecting screw 101, the connecting screw 101 can drive a clamping plate 102 to rotate in a limiting groove 107, and further the stability of the fixation of the concrete detection block is improved, after the two groups of clamping mechanisms 1 finish the fixation of the concrete detection block, the user can start two groups of motors 2 through an external control device, the motors 2 can drive a threaded rod 4 to rotate rapidly, the threaded rod 4 can drive a positioning plate 301 to move downwards, the positioning plate 301 can support a pressure block 302 on the concrete block, at the moment, the threaded rod 4 can continue to drive the positioning plate 301 to press downwards to start the test of the concrete detection block, and two groups of dynamometers 105 can display the pressure born by the concrete, until the concrete reaches the critical state and is broken, the accuracy and the convenience of concrete detection are improved.

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. The utility model provides a civil engineering concrete strength check out test set which characterized in that: comprises a clamping mechanism (1), a motor (2), a supporting mechanism (3) and a threaded rod (4),

the upper end surface of the supporting mechanism (3) is symmetrically and slidably clamped with a clamping mechanism (1) for supporting, and the upper end surface of the supporting mechanism (3) is symmetrically and fixedly connected with a motor (2) for connection, wherein the center of the bottom end surface of the motor (2) is rotationally connected with a threaded rod (4) for connection,

the supporting mechanism (3) comprises a positioning plate (301), a pressure block (302), a supporting frame (303) and a fixed rail (304), the positioning plate (301) used for supporting is clamped on the inner end face of the supporting frame (303) in a sliding mode, the pressure block (302) used for pressing is fixedly connected to the center of the bottom end face of the positioning plate (301), and the fixed rail (304) used for sliding is symmetrically and fixedly connected to the bottom end face of the supporting frame (303).

2. The civil engineering concrete strength detection apparatus of claim 1, wherein: the clamping mechanism (1) comprises a connecting screw rod (101), a clamping plate (102), a supporting plate (103), a connecting plate (104), a dynamometer (105), a fixed clamping plate (106) and a limiting groove (107), the lower end surface of the dynamometer (105) is fixedly connected with a fixed clamping plate (106) for connection, and a connecting plate (104) for supporting is fixedly connected with the upper end surface of the dynamometer (105), wherein the dynamometer (105) is fixedly clamped with a supporting plate (103) for connection through the connecting plate (104), the inner end surface of the supporting plate (103) is provided with a limit groove (107) for clamping connection, and the inner end surface of the limit groove (107) is rotationally connected with a connecting screw rod (101) for limiting, the inner end face of the limiting groove (107) is slidably clamped with a clamping plate (102) for limiting through the connecting screw rod (101).

3. The civil engineering concrete strength detection apparatus of claim 2, wherein: the rear end face of the clamping plate (102) is provided with a sliding plate, the sliding plate and the inner end face of the limiting groove (107) are arranged in a T shape, and the clamping plate (102) is connected inside the limiting groove (107) in a sliding mode through the sliding plate.

4. The civil engineering concrete strength detection apparatus of claim 3, wherein: the bottom end face of the clamping plate (102) is uniformly and equidistantly fixedly connected with triangular lugs for increasing friction, and the middle of the outer end face of the sliding plate is provided with a threaded hole.

5. The civil engineering concrete strength detection apparatus of claim 2, wherein: the bottom end face of the fixed clamping plate (106) is symmetrically provided with slide rail grooves, and the clamping mechanism (1) is in matched sliding clamping connection with the motor (2) through the slide rail grooves.

6. The civil engineering concrete strength detection apparatus of claim 1, wherein: the upper portion and the bottom of support frame (303) are all offered the cell body that is used for connecting symmetrically, just the joint is rotated with threaded rod (4) looks adaptation to the cell body.

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