CN214427201U - Concrete strength nondestructive test equipment support structure and test equipment - Google Patents

Abstract

The utility model discloses a concrete strength nondestructive test equipment supporting structure, which comprises a bracket structure, supporting structure includes two resiliometer bracing pieces, nested resiliometer spacing collar that has between the two resiliometer bracing pieces, and the bottom mounting of two resiliometer bracing pieces has the chassis, one side on chassis is fixed with the holding down frame bracing piece, and the center on chassis has seted up the inspection hole, the bilateral symmetry of resiliometer spacing collar is provided with the spacing collar installation cover, one side embedding of spacing collar installation cover has the dead bolt of lock, the top of holding down the frame bracing piece is provided with the support bar head, the dead bolt of lock closes fixedly through the screw thread with the spacing collar installation cover soon. The utility model discloses a chassis one side is provided with the resiliometer and pushes down the frame, need not to use the hand to directly press the resiliometer when detecting, through the resiliometer push down the frame can be steady press the resiliometer, according to lever principle, use the resiliometer to push down the frame and press the resiliometer more laborsavingly, the practicality is stronger, has reduced the error that produces when manual pressing, and the controllability is stronger.

Description

Concrete strength nondestructive test equipment support structure and test equipment

Technical Field

The utility model belongs to the technical field of the resiliometer, concretely relates to concrete strength nondestructive test equipment supporting structure and check out test set.

Background

The concrete strength detection is divided into destructive detection, nondestructive detection and the like, the destructive detection is mostly a laboratory detection method, the destructive strength detection is carried out on the solidified block concrete, and the test data is more accurate; the nondestructive testing is mostly used for outdoor testing of the concrete strength of the built building, most instruments used for the nondestructive testing are resiliometers, the basic principle of the resiliometers is that a heavy hammer is driven by a spring and impacts a bouncing rod vertically contacted with the surface of the concrete with constant kinetic energy, so that the local concrete deforms and absorbs a part of energy, the other part of energy is converted into rebound kinetic energy of the heavy hammer, when the rebound kinetic energy is completely converted into potential energy, the rebound of the heavy hammer reaches the maximum distance, and the instrument displays the maximum rebound distance of the heavy hammer on the basis of the rebound value.

At present, the existing resiliometer is optimized for many times, but the applicant finds that the existing defect still exists in the using process, for example, the resiliometer with the positioning support is provided with the CN201720243123.7, although the supporting and positioning device is additionally arranged on the resiliometer, the resiliometer still needs to be manually pressed during use, a good labor-saving structure is not provided, and the pressing is relatively labor-saving.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a concrete strength nondestructive test equipment support structure and 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 utility model provides a concrete strength nondestructive test equipment supporting structure, includes supporting structure, supporting structure includes two resiliometer bracing pieces, two nested has the resiliometer spacing collar between the resiliometer bracing piece, and the bottom mounting of two resiliometer bracing pieces has the chassis, one side on chassis is fixed with down the support bracing piece, and the center on chassis has seted up the inspection hole, the bilateral symmetry of resiliometer spacing collar is provided with the spacing collar installation cover, one side embedding of spacing collar installation cover has the dead bolt of lock, the top of pushing down the support bracing piece is provided with the support bar head, it is fixed that the dead bolt of lock closes soon through the screw thread with the spacing collar installation cover.

The invention also provides concrete strength nondestructive testing equipment, which comprises the concrete strength nondestructive testing equipment support structure; a rebound instrument lower pressing frame is fixed at a position of the lower pressing frame supporting rod corresponding to the supporting rod head, and a rebound instrument body is nested in the center of the rebound instrument limiting ring;

one side of resiliometer fuselage is embedded with the parameter and reads the window, and the bottom embedding of resiliometer fuselage has the resiliometer to detect the head.

Preferably, the resiliometer pushes down the one end of frame and is provided with down and pushes down the frame connector, and the resiliometer pushes down the other end of frame and is provided with down and pushes down the frame handle, the rand spout has been seted up to resiliometer push down the inside symmetry of frame, and the position block that the resiliometer push down the frame and correspond the rand spout has the resiliometer rand, the connector bolt hole has been seted up to the one end symmetry of pushing down the frame connector.

Preferably, the top end of the inner side of the resiliometer clamping ring is provided with a limiting frame, and the outer side of the resiliometer clamping ring is symmetrically provided with clamping ring limiting rods.

Preferably, the diameter of the inner cylinder of the rebound apparatus clamping ring is matched with the outer diameter of the rebound apparatus body in size, and the rebound apparatus clamping ring and the clamping ring sliding groove are fixedly clamped through a clamping ring limiting rod.

Preferably, the lower pressure frame connector and the support rod head are fixedly connected through bolts.

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

the utility model discloses a chassis one side is provided with the resiliometer and pushes down the frame, need not to use the hand to directly press the resiliometer when detecting, through the resiliometer push down the frame can be steady press the resiliometer, according to lever principle, use the resiliometer to push down the frame and press the resiliometer more laborsavingly, the practicality is stronger, has reduced the error that produces when manual pressing, and the controllability is stronger.

Drawings

Fig. 1 is a schematic perspective view of the support structure of the present invention;

fig. 2 is a schematic perspective view of the body of the resiliometer of the present invention;

fig. 3 is a schematic perspective view of the lower pressing frame of the resiliometer of the present invention;

fig. 4 is a schematic perspective view of the rebounding device retainer ring of the present invention;

in the figure: 1. a scaffold structure; 101. a rebound tester supporting rod; 102. a chassis; 103. a detection hole; 104. a lower pressing frame support rod; 105. a rebound instrument limiting ring; 106. a limiting ring mounting sleeve; 107. locking the bolt; 108. a support rod head; 21. a resiliometer body; 22. a parameter reading window; 23. a resiliometer detection head; 31. pressing the frame under the resiliometer; 32. a lower pressure frame connector; 33. pressing down a frame handle; 34. a collar chute; 35. a connector bolt hole; 41. a resiliometer collar; 42. a limiting frame; 43. rand gag lever post.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Example 1

Referring to fig. 1, a support structure of a concrete strength nondestructive testing apparatus is characterized in that: including supporting structure 1, supporting structure 1 includes two resiliometer bracing pieces 101, two the nested resiliometer spacing collar 105 that has between resiliometer bracing piece 101, and the bottom mounting of two resiliometer bracing pieces 101 has chassis 102, one side on chassis 102 is fixed with holding down frame bracing piece 104, and the center on chassis 102 has seted up inspection hole 103, the bilateral symmetry of resiliometer spacing collar 105 is provided with spacing collar installation cover 106, one side embedding of spacing collar installation cover 106 has dead bolt 107 of lock, the top of holding down frame bracing piece 104 is provided with support rod head 108 down, it is fixed that dead bolt 107 of lock closes through the screw thread soon with spacing collar installation cover 106.

Example 2

Referring to fig. 1-4, the present invention provides the following technical solutions: the utility model provides a concrete strength nondestructive test equipment, including supporting structure 1, supporting structure 1 includes two resiliometer bracing pieces 101, nested resiliometer spacing collar 105 between two resiliometer bracing pieces 101, and the bottom mounting of two resiliometer bracing pieces 101 has chassis 102, one side of chassis 102 is fixed with holding down frame bracing piece 104, and the center of chassis 102 has seted up inspection hole 103, the bilateral symmetry of resiliometer spacing collar 105 is provided with spacing collar installation cover 106, one side embedding of spacing collar installation cover 106 has dead bolt 107, the top of holding down frame bracing piece 104 is provided with support rod head 108, and the rigidity that holding down frame bracing piece 104 corresponds support rod head 108 has resiliometer holding down frame 31, the center nested resiliometer fuselage 21 that has of resiliometer spacing collar 105, it is fixed that dead bolt 107 and spacing collar installation cover 106 close through the screw thread soon.

For the convenience of detection, in the present embodiment, it is preferable that a parameter reading window 22 is embedded in one side of the resiliometer body 21, and a resiliometer detection head 23 is embedded in a bottom end of the resiliometer body 21.

In order to save more labor, in this embodiment, preferably, one end of the resiliometer lower pressing frame 31 is provided with a lower pressing frame connector 32, the other end of the resiliometer lower pressing frame 31 is provided with a lower pressing frame handle 33, the inside of the resiliometer lower pressing frame 31 is symmetrically provided with a collar sliding groove 34, a resiliometer collar 41 is clamped at a position of the resiliometer lower pressing frame 31 corresponding to the collar sliding groove 34, and one end of the lower pressing frame connector 32 is symmetrically provided with a connector bolt hole 35.

In order to facilitate sliding movement of the resiliometer collar 41 inside the resiliometer lower pressure frame 31, in the present embodiment, it is preferable that the inside top end of the resiliometer collar 41 is provided with a limiting frame 42, and the outside of the resiliometer collar 41 is symmetrically provided with collar limiting rods 43.

In order to make the resiliometer collar 41 facilitate pressing the resiliometer body 21 downward, in the present embodiment, it is preferable that the inner cylinder diameter of the resiliometer collar 41 is matched with the outer diameter of the resiliometer body 21, and the resiliometer collar 41 and the collar sliding groove 34 are fixed by the collar stopper rod 43 in a clamping manner.

In order to facilitate the installation of the lower frame connector 32 and enable the lower frame connector to rotate, in the present embodiment, it is preferable that the lower frame connector 32 and the support rod head 108 are fixed by a bolt connection.

The utility model discloses a theory of operation and use flow:

the utility model discloses install the back, at first inspect the utility model discloses an installation is fixed and safety protection, then just can use, in using, examine time measuring when needs, at first place resiliometer fuselage 21 in the inside of resiliometer spacing collar 105, then install resiliometer rand 41 in the inside that resiliometer pushed down frame 31, and push down frame 31 with resiliometer and be connected fixedly through bolt and support bar head 108, it is nested on the top of resiliometer fuselage 21 with resiliometer rand 41 after that, place chassis 102 and wait to detect the surface of concrete object, hold down frame handle 33 with the hand, and push down, can carry out the reading until resiliometer detection head 23 contracts the inside that gets into resiliometer fuselage 21 completely.

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 concrete strength nondestructive test equipment supporting structure which characterized in that: including supporting structure (1), supporting structure (1) includes two resiliometer bracing pieces (101), two nested resiliometer spacing collar (105) between resiliometer bracing piece (101), and the bottom mounting of two resiliometer bracing pieces (101) has chassis (102), one side on chassis (102) is fixed with pushes down a bracing piece (104), and the center on chassis (102) has seted up inspection hole (103), the bilateral symmetry of resiliometer spacing collar (105) is provided with spacing collar installation cover (106), one side embedding of spacing collar installation cover (106) has dead bolt of lock (107), the top of pushing down a bracing piece (104) is provided with support rod head (108), dead bolt of lock (107) and spacing collar installation cover (106) close fixedly through the screw thread soon.

2. The utility model provides a concrete strength nondestructive test equipment which characterized in that: comprises the concrete strength nondestructive testing equipment support structure of claim 1; a rebound instrument lower pressing frame (31) is fixed at the position of the lower pressing frame supporting rod (104) corresponding to the supporting rod head (108), and a rebound instrument body (21) is nested in the center of the rebound instrument limiting ring (105);

one side embedding of resiliometer fuselage (21) has parameter to read window (22), and the bottom embedding of resiliometer fuselage (21) has resiliometer to detect head (23).

3. The concrete strength nondestructive testing device of claim 2, wherein: the utility model discloses a rebound device, including resiliometer push down frame (31), rand spout (34), and resiliometer push down frame (31), the one end of resiliometer push down frame (31) is provided with push down frame connector (32), and the other end of resiliometer push down frame (31) is provided with push down frame handle (33), rand spout (34) have been seted up to the inside symmetry of resiliometer push down frame (31), and the position block that resiliometer push down frame (31) corresponds rand spout (34) has resiliometer rand (41), connector bolt hole (35) have been seted up to the one end symmetry of push down frame connector (32).

4. The concrete strength nondestructive testing apparatus according to claim 3, wherein: the inside top of resiliometer rand (41) is provided with spacing (42), and the outside symmetry of resiliometer rand (41) is provided with rand gag lever post (43).

5. The concrete strength nondestructive testing device of claim 4, wherein: the diameter of the inner cylinder of the rebound apparatus clamping ring (41) is matched with the size of the outer diameter of the rebound apparatus body (21), and the rebound apparatus clamping ring (41) is clamped and fixed with the clamping ring sliding groove (34) through a clamping ring limiting rod (43).

6. The concrete strength nondestructive testing apparatus according to claim 3, wherein: the lower pressing frame connector (32) and the support rod head (108) are fixedly connected through bolts.

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