CN214703635U - Concrete testing device - Google Patents

Abstract

The application is a concrete testing device, which comprises a substrate and a supporting piece arranged on the substrate, wherein the top end of the supporting piece is provided with a swinging part which is in a strip structure and extends to the other end along one end of the substrate, and a vibrating seat is fixed on the other end head of the supporting piece; a vibrator is fixed on the substrate at the bottom of the vibration seat; a concrete hopper used for containing concrete materials is inserted in the vibration seat; the concrete hopper is a frame-type container, so that the concrete hopper can be used for testing flowing and solid concrete, the concrete hopper is arranged on the upper part of the vibrator, and the concrete in different states is tested through the frame-type container formed by the concrete hopper, so that the flowing concrete and the detection in the concrete state are realized.

Description

Concrete testing device

Technical Field

The application relates to the field of concrete, in particular to a concrete testing device.

Background

Concrete is an important building material, and is mainly prepared by mixing a cementing material, chemical additives such as water, sand, stones and the like and mineral admixtures according to a proper proportion, and the cementing material is solidified to form a hardened firm state.

Wherein, because of the different ingredients, the concrete has different coagulability in use, and different hardness grades are realized.

How to test the concrete in different states is very important to realize the detection of the flowing concrete and the concrete in the flowing state.

Disclosure of Invention

The purpose of the application is: and testing the concrete in different states to realize the detection of the flowing concrete and the concrete in the flowing state.

The concrete testing device comprises a base and a support arranged on the base, wherein the support is used for supporting the base, and the concrete testing device is arranged on the support

The top end of the supporting piece is provided with

The swinging part is of a strip structure, extends to the other end along one end of the substrate, and is fixed with a vibrating seat at the other end head;

a vibrator is fixed on the substrate at the bottom of the vibration seat;

a concrete hopper used for containing concrete materials is inserted in the vibration seat;

the concrete hopper is a frame-type container, and can be used for testing flowing and solid concrete.

Preferably, the first and second electrodes are formed of a metal,

the vibrating seat is provided with a vibrating disk with a structure similar to a cuboid,

the top of the vibrating disk is open and is provided with an insertion opening which is open outwards;

a concrete bucket is inserted inwards along the insertion opening, and the concrete bucket is a frame type container.

Preferably, the first and second electrodes are formed of a metal,

the bottom of the vibrating disk is provided with a vibrating plate for reinforcing the flatness of the bottom surface of the vibrating disk;

a track wheel for butting the vibrator is arranged along the bottom of the vibrating plate;

supporting legs are fixed between the vibrating plate and the track wheel.

Preferably, the first and second electrodes are formed of a metal,

the top of the vibrating disk is open, and the side wall of the vibrating disk also extends outwards to form a hopper shape;

a first limiting shaft and a second limiting shaft are fixedly separated along the side wall of the vibration disc;

a rectangular frame type limiting frame is hinged between the first limiting shaft and the second limiting shaft;

the limiting frame is clamped at the top end of the concrete hopper, and a frame clamping angle for clamping the edge of the concrete hopper is arranged along the side edge of the limiting frame.

Preferably, the first and second electrodes are formed of a metal,

the vibrator has a base plate fixed to a surface of the substrate,

the bottom plate extends upwards to provide a support disc column,

an oblique column is fixed along the oblique direction of the disc column,

motors are fixed on the disc column and the oblique column, a cam disc is fixed on the shaft of the motor,

the edge of the cam disk rolls against the edge of the track wheel.

Preferably, the first and second electrodes are formed of a metal,

the whole concrete hopper is similar to a cuboid structure, and the bottom of the concrete hopper is provided with a rectangular concrete chassis;

a concrete side wall is fixed along the rear side of the front and the rear positions of the concrete chassis, and a concrete top wall is fixed along the front side;

the side wall and the top wall are arranged in parallel in a rectangle.

Preferably, the first and second electrodes are formed of a metal,

at least two coagulation partition plates are fixed between the coagulation side wall and the coagulation top wall;

the adjacent concrete partition plates are arranged at intervals and are in a bucket shape accommodated along the middle position;

the hopper shape is a coagulation tank and a cuboid tank with an open top.

Preferably, the first and second electrodes are formed of a metal,

a concrete convex disc extends outwards from the concrete bottom disc at the outer side of the concrete top wall,

the side wall of the convex disc is fixed on the concrete convex disc;

the side wall of the convex disc is inserted with a rotatable convex disc clamping shaft.

Preferably, the first and second electrodes are formed of a metal,

a supporting piece and a vibrator are respectively fixed at two ends of the substrate;

a reinforcing part is fixed between the supporting part and the bottom of the vibrator;

the reinforcing piece is provided with at least two shaft bodies, and the two shaft bodies are fixed on the bottom end of the supporting piece and the bottom plate of the vibrator in parallel.

Preferably, the first and second electrodes are formed of a metal,

and a controller for recording and controlling the vibrator is fixedly connected to the outer side of the vibrator.

Compared with the prior art, the application has the following obvious advantages and effects:

1 the upper portion of vibrator is located to the utilization concrete fill, through the frame-type container that the concrete fill formed, and then tests the concrete that different states are in, realizes the detection under mobile concrete and the concrete state.

Drawings

Fig. 1 is a diagram of the overall structural arrangement of the present application.

Fig. 2 is a physical combination diagram of the vibration seat and the vibrator in the present application.

Fig. 3 is a perspective view of the bucket of the present application.

Fig. 4 is a schematic diagram of the structure of the vibrating base and the concrete bucket in the present application.

List of parts in this application

Detailed Description

Specific embodiments thereof are described below in conjunction with the following description and the accompanying drawings to teach those skilled in the art how to make and use the best mode of the present application. For the purpose of teaching application principles, the following conventional aspects have been simplified or omitted. Those skilled in the art will appreciate variations from these embodiments that fall within the scope of the application. Those skilled in the art will appreciate that the features described below can be combined in various ways to form multiple variations of the present application. In the present application, the terms "upper", "lower", "left", "right", "middle" and "one" are used for clarity of description, and are not used to limit the scope of the invention, and the relative relationship between the terms and the corresponding terms may be changed or adjusted without substantial technical change. Thus, the present application is not limited to the specific embodiments described below, but only by the claims and their equivalents.

Fig. 1 to 4 show a concrete testing apparatus according to an embodiment of the present invention.

A concrete testing device 100 comprises a base 1 and a support 2 arranged on the base 1, wherein the top end of the support 2 is provided with a swinging part 3 which is in a strip structure and extends from one end of the base 1 to the other end, and the other end of the swinging part is fixed with a vibrating seat 4; a vibrator 5 is fixed on the substrate 1 at the bottom of the vibration seat 4; a concrete hopper 6 for containing concrete materials is inserted in the vibration seat 4; the concrete hopper 6 is a frame-type container, so that the concrete can be tested for flowing and solid concrete, the concrete hopper 6 is arranged on the upper part of the vibrator 5, and the concrete in different states can be tested through the frame-type container formed by the concrete hopper 6, so that the detection of the flowing concrete and the concrete in different states can be realized.

As shown in fig. 1 to 4, in the present embodiment,

a concrete testing device 100 comprises a base 1, a supporting piece 2, a swinging part 3, a vibrating seat 4, a vibrator 5, a concrete hopper 6, a controller 7, a reinforcing piece 8 and other parts.

Wherein, basement 1 is a massive base, and it can adopt materials such as concrete to make, perhaps is a stone platform, and its top is a plane, combines the solid base structure that figure 1 can know to be the cuboid, and along the vertical support frame of fixed mounting on basement 1 support piece 2 promptly, through vertical bearing structure, utilizes support piece 2 to support corresponding oscillating structure, guarantees that corresponding structure realizes stable vibration.

Wherein be equipped with swing portion 3 along the top of support piece 2, carry out the articulated strong point that realizes the swing through the top of support piece 2 and the right-hand member of swing portion 3.

The swinging part 3 is arranged in a strip shape along the top end of the integral supporting piece 2, extends from the right end to the left end of the base 1 along the top end of the supporting piece 2, and is fixed with a vibrating seat 4 on the left end head of the base 1; a cam structure for driving the vibration seat 4 to vibrate is fixed at the bottom of the vibration seat 4, wherein a vibrator 5 is fixed on the substrate 1 along the bottom of the vibration seat 4; the vibrator 5 adopts a cam disc combined with a cam to perform rotary vibration to form a corresponding vibration structure to perform a corresponding structural vibration effect, a vibration disc is driven to rotate by the rotation of a motor in the vibrator 5, and rolling rollers are integrated to realize the motion of influence.

In order to ensure the corresponding vibration effect, the rotating speed of the motor is adjustable, and the frequency of vibration of the vibration disc can be controlled through the rotating speed of the motor, wherein a concrete hopper 6 for containing concrete materials is inserted in the vibration seat 4; the concrete flow state can be accommodated through the hopper by combining a corresponding hopper structure, the concrete can be vibrated up and down under different solidification states of the concrete, the solidification efficiency of the concrete can be controlled by combining a corresponding rotation rate, and the vibration height can be controlled by combining the size of a corresponding rotary cam disc, so that the concrete in the concrete hopper 6 can be accommodated by combining the corresponding concrete hopper 6, and a corresponding vibration effect can be realized, wherein the concrete hopper 6 is a frame-type container, and can be tested aiming at the flowing and solid concrete, so that the flowability of the concrete can be tested, and the influence of the solidification of the vibrating concrete when the concrete is solidified under different states can be tested.

Specifically, as shown in fig. 1 and 2, in the embodiment of the present application,

vibration seat 4 has a vibration dish 41 similar to cuboid structure, combine concrete real object, wherein, vibration seat 4 is the disc structure, consequently, the top of this vibration dish 41 is opened, form an outside open inserted hole 43 along left side border position, the opening of fretwork promptly, place concrete bucket 6 through this opening and dip in, and carry out the joint along the top of concrete bucket 6 and fix, consequently, inwards peg graft along this inserted hole 43 and have a concrete bucket 6, this concrete bucket 6 is frame-type container, the frame-type container that has is the cuboid shape, moreover, the steam generator is simple in structure, and be convenient for hold.

It should be noted that, as shown in fig. 2, in the embodiment of the present application,

in order to ensure the corresponding positioning and structural support,

therefore, a vibration plate 42 for reinforcing the flatness of the bottom surface of the vibration plate 41 is provided along the bottom of the vibration plate 41 to ensure flat positioning, and a track wheel 422 for abutting against the vibrator 5 is provided along the bottom of the vibration plate 42, and the track wheel 422, i.e., a bearing structure followed by the cam plate.

The support structure is used to support and fix two sides of the track wheel 422, and a support foot 421, i.e. a support column, is fixed between the vibration plate 42 and the track wheel 422.

It is also specifically noted that, as shown in fig. 1 and 2, in the embodiment of the present application,

to further define the respective structure to ensure stable testing:

therefore, along the vibration plate 41 with a plate structure, the top of the vibration plate 41 is open, and the vibration plate 41 also extends outwards along the side wall of the vibration plate 41 and has a bucket-shaped structure;

wherein, two shaft bodies are fixedly separated along the front side wall of the vibration disc 41 for limiting, namely a first limiting shaft 44 and a second limiting shaft 45; a rectangular frame type limiting frame 46 is hinged between the first limiting shaft 44 and the second limiting shaft 45; wherein the frame downside edge laminating of this rectangle is in the top surface of thoughtlessly congealing fill 6, and spacing 46 joint is in the top of thoughtlessly congealing fill 6 promptly, sets up corresponding joint structure along spacing 46 side, carries out the location of thoughtlessly congealing fill 6 through the joint, and the location that has is along the position of the relative spacing post of thoughtlessly congealing fill 6, and relative edge sets up downwardly extending's a calorie of angle 461, forms the fixed point joint of border position promptly, also can carry out some joint or multiple spot joint certainly.

It should be noted that, as shown in fig. 2 and 3, in the embodiment of the present application,

in order to assist the corresponding vibration structure to be firmly combined with the base:

wherein a fixed structure is provided along the bottom of the vibrator 5, i.e., a corresponding bottom plate 51 is fixed along the surface of the substrate 1, the pillars of the vibrator 5 are extended upward through the bottom plate 51, corresponding support is provided by the pillar structure, and thus a disc pillar 52 of a pillar structure is formed.

Wherein, for further reinforcing fixed knot structure:

not only in the vertical direction but also in the oblique direction, so that the oblique column 53 is fixed in the oblique direction of the disc column 52, and the motor 54 in the vibrator 5 is fixed between the disc column 52 and the oblique column 53.

A motor 54 fixed to the disc column 52 and the diagonal column 53 has a motor shaft to which a rotatable cam disc 55 is fixed by a rotation output shaft of the motor 54, i.e., a rotation shaft of the motor.

To ensure the corresponding cam disk movement path, the path wheel 422 is ensured by the corresponding weight force to be in downward contact with the outer contour of the cam disk 55, and the edge of the cam disk 55 and the edge of the path wheel 422 are in interference rolling to form vibration combination.

It is further noted that, as shown in fig. 1, 2 and 3, in the embodiment of the present application,

the provided combined support is used for carrying out the receptivity test on the concrete under different states by utilizing the hopper structure of the concrete:

wherein, the whole body of the concrete bucket 6 is set to be a structure similar to a cuboid, and a rectangular concrete chassis 61 is arranged along the bottom of the concrete bucket 6; the concrete is accommodated by the concrete base plate 61, and the concrete is guaranteed to be continuously solidified in the test under different states.

In order to ensure that the concrete at different positions is synchronously tested or is compared and tested, a concrete side wall 62 is fixed along the rear side and a concrete top wall 63 is fixed along the front side of the front and rear positions of the concrete chassis 61; different receiving cavities are formed, wherein the concrete side walls 62 and the concrete top wall 63 are front and back sides arranged in parallel in a rectangle, and the multi-position concrete synchronous test is formed along the arranged receiving cavities.

It should be noted that, as shown in fig. 3, in the embodiment of the present application,

in order to ensure that the concrete in different areas is synchronously tested:

therefore, at least two coagulation partition plates 64 are fixed between the coagulation side wall 62 and the coagulation top wall 63; and a plurality of receiving grooves for receiving concrete tests are formed between the adjacent concrete partition plates 64.

Wherein, the adjacent concrete partition plates 64 are arranged at intervals and take the shape of a hopper accommodated along the middle position; that is, the formed accommodating groove is a bucket-shaped concrete groove 64a, and the top of the concrete groove 64a is an open rectangular groove, so that concrete can be directly poured into the accommodating groove along the top pair of rectangular frames, and corresponding concrete can be placed into the accommodating groove to be accommodated.

It should be further noted that, as shown in fig. 3, in the embodiment of the present application,

for the inside stable fixed knot who guarantees corresponding concrete bucket 6 constructs, and concrete bucket 6 overall stability:

therefore, the concrete bottom plate 61 along the outer side of the concrete top wall 63 is extended with a concrete convex disc 611,

utilize protruding structure on this protruding dish 611 of coagulating, fix corresponding front side position, and slot-in type's joint structure between corresponding lateral wall and the space bar, wherein, be equipped with corresponding draw-in groove in the lateral wall 62 and the inside wall of the roof 63 of coagulating respectively, and then with a plurality of baffles 64 joint of coagulating on lateral wall 62 and the roof 63 lateral wall of coagulating. The plurality of concrete partition plates 64 are clamped for the auxiliary concrete side wall 62 and the concrete top wall 63, so that a corresponding butt joint structure is set, wherein the auxiliary fixed side wall is a convex plate side wall 612 fixed on a concrete convex plate 611.

In combination with the corresponding fixing structure, a rotatable cam shaft 613 is inserted along the cam sidewall 612, and the interference fixation of the coagulation top wall 63 is realized by the rotation of the cam shaft 613.

It should also be noted that, as shown in fig. 1, in the present embodiment,

to assist the respective vibrator 5 in performing stable vibration:

designing a corresponding structure: a supporting member 2 and a vibrator 5 are respectively fixed along both ends of the substrate 1; a reinforcing member 8 is fixed between the supporting member 2 and the bottom of the vibrator 5.

By means of a corresponding support, in particular a rod-structured support, the particular reinforcement 8 has at least two shaft bodies which are fixed in parallel to the bottom end of the support element 2 and to the bottom plate 51 of the vibrator 5.

Preferably, to ensure the control of the respective motor and to ensure the stability of the respective support:

wherein, a corresponding recording device and a control device are arranged, and a controller 7 for recording and controlling the recording device is fixedly connected with the outer side of the vibrator 5.

The controller 7 may be a corresponding recording device or a display device with a processor that records or sets the time, frequency amplitude, and number of oscillations.

Since any modifications, equivalents, improvements, etc. made within the spirit and principles of the application may readily occur to those skilled in the art, it is intended to be included within the scope of the claims of this application.

Claims (10)

1. A concrete testing device, the testing device (100) is including basement (1), locate support piece (2) on basement (1), its characterized in that: the above-mentioned

The top end of the supporting piece (2) is provided with

A swinging part (3) which is in a strip structure, extends along one end of the substrate (1) to the other end and is fixed with a vibrating seat (4) at the other end;

a vibrator (5) is fixed on the substrate (1) at the bottom of the vibration seat (4);

a concrete hopper (6) for containing concrete materials is inserted in the vibration seat (4);

the concrete hopper (6) is a frame-type container and can be used for testing flowing and solid concrete.

2. The concrete testing device of claim 1, wherein: the above-mentioned

The vibrating seat (4) is provided with a vibrating disk (41) with a structure similar to a cuboid,

the top of the vibrating disk (41) is open and is provided with an insertion opening (43) which is open outwards;

a concrete bucket (6) is inserted inwards along the insertion opening (43), and the concrete bucket (6) is a frame type container.

3. The concrete testing device according to claim 2, wherein: the above-mentioned

The bottom of the vibration disk (41) is provided with a vibration plate (42) for reinforcing the flatness of the bottom surface of the vibration disk;

a track wheel (422) for butting the vibrator (5) is arranged along the bottom of the vibrating plate (42);

supporting feet (421) are fixed between the vibrating plate (42) and the track wheel (422).

4. The concrete testing device according to claim 2, wherein: the above-mentioned

The top of the vibration disc (41) is open, and the side wall of the vibration disc also extends outwards to form a hopper shape;

a first limit shaft (44) and a second limit shaft (45) are fixedly separated along the side wall of the vibration disc (41);

a rectangular frame type limiting frame (46) is hinged between the first limiting shaft (44) and the second limiting shaft (45);

the limiting frame (46) is clamped at the top end of the concrete hopper (6), and a frame clamping angle (461) for clamping the edge of the concrete hopper (6) is arranged along the side edge of the limiting frame (46).

5. The concrete testing device according to claim 2, wherein: the above-mentioned

The vibrator (5) has a base plate (51) fixed to the surface of the base (1),

the bottom plate (51) extends upwards to provide a support disc column (52),

an inclined column (53) is fixed along the inclination of the disc column (52),

a motor (54) is fixed on the disc column (52) and the oblique column (53), a cam disc (55) is fixed on the shaft of the motor (54),

the edge of the cam disk (55) rolls against the edge of the tracking wheel (422).

6. The concrete testing device of claim 1, wherein: the whole concrete hopper (6) is similar to a cuboid structure, and the bottom of the concrete hopper is provided with a rectangular concrete chassis (61);

fixing a concrete side wall (62) and a concrete top wall (63) along the rear side and the front side of the concrete chassis (61) in front and rear positions;

the concrete side wall (62) and the concrete top wall (63) are front and back sides which are arranged in parallel in a rectangle.

7. The concrete testing device of claim 6, wherein: at least two coagulation partition plates (64) are fixed between the coagulation side wall (62) and the coagulation top wall (63);

the adjacent concrete partition plates (64) are arranged at intervals and are in a bucket shape accommodated along the middle position;

the hopper shape is a coagulation tank (64a) and a rectangular parallelepiped tank with an open top.

8. The concrete testing device of claim 7, wherein: a concrete convex disc (611) extends outwards from the concrete bottom disc (61) at the outer side of the concrete top wall (63),

the side wall (612) of the convex plate is fixed on the concrete convex plate (611);

the side wall (612) of the convex disc is inserted with a rotatable convex disc clamping shaft (613).

9. The concrete testing device of claim 1, wherein: a supporting piece (2) and a vibrator (5) are respectively fixed at two ends of the substrate (1);

a reinforcing part (8) is fixed between the supporting part (2) and the bottom of the vibrator (5);

the reinforcing piece (8) is provided with at least two shaft bodies which are fixed on the bottom end of the supporting piece (2) and the bottom plate (51) of the vibrator (5) in parallel.

10. The concrete testing device of claim 1, wherein: and a controller (7) for recording and controlling the vibrator (5) is fixedly connected to the outer side of the vibrator.

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