CN216847608U - A assembled wall testing device for $ monitoring closely knit degree of grout - Google Patents

Abstract

The utility model relates to the technical field of wall grouting compactness detection devices, and particularly discloses an assembly type wall body testing device for monitoring grouting compactness. According to the utility model, the sound is transmitted to the audio monitoring device through the sound transmission device, so that the detection on the wall grouting compactness can be effectively realized.

Description

A assembled wall testing device for $ monitoring closely knit degree of grout

Technical Field

The utility model relates to the technical field of wall grouting compactness detection devices, in particular to an assembled wall testing device for monitoring grouting compactness.

Background

Grouting is to pour some solidification materials, such as cement, lime or other chemical materials into a model in a certain range under a foundation to fill the pores of the model, such as wall pouring, in a building, a building structure is constructed by a common grouting method.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is to provide an assembly type wall body testing device for monitoring grouting compactness, and the detection of the wall body grouting compactness can be effectively realized by transmitting sound to an audio monitoring device.

The technical problem to be solved by the utility model is as follows:

the utility model provides an assembled wall testing device for monitoring closely knit degree of grout, includes assembly bracket component, the transaudient device of slidable mounting on assembly bracket component, be connected with the transaudient device and be used for driving the transaudient device and be close to or keep away from the drive arrangement of assembled wall on the detachable installation on the assembled wall.

When the audio monitoring device is used, the sound transmission device is connected with the audio monitoring device, and the audio monitoring device is fixed on the side surface of an assembly type wall body through the assembly bracket component; pass through drive arrangement control transaudient device and remove to the one side that is close to the assembled wall body to make transaudient device strike the assembled wall body, strike during the sound that sends transmits audio monitoring devices, supply audio monitoring devices to detect this sound, thereby judge whether accord with the requirement of the closely knit degree of grout of this wall body.

In some possible embodiments, in order to effectively realize the transmission of the sound emitted by the sound transmission device when the wall body is knocked;

the sound transmission device comprises a sound transmission cavity structure, a sound transmission conducting pipe, a sound guide shell and a sound guide shell mounting plate, wherein a cavity is arranged at one side close to the assembled wall body;

the sound conduction pipe is arranged on the outer side of the sound conduction shell mounting plate and is communicated with the cavity, and the sound conduction shell mounting plate is detachably connected with one side, close to the assembled wall, of the sound conduction cavity structure;

the sound guide shell mounting plate is provided with a through hole communicated with the cavity, the sound guide shell is arranged on one side, away from the sound transmission cavity structure, of the through hole, and is connected with the driving device.

In some possible embodiments, the sound guiding shell has a hemispherical shell structure, and the opening of the sound guiding shell is arranged at one side close to the sound guiding shell mounting plate, and the center of the sound guiding shell is collinear with the axis of the through hole.

In some possible embodiments, in order to effectively realize the connection of the assembly bracket assembly and the assembly wall body;

the assembly bracket assembly comprises a main device bracket, a bracket mounting plate connected with one end of the main device bracket, and a plurality of wall connection expansion bolts arranged on the bracket mounting plate;

The other end of the main bracket of the device is connected with the driving device.

In some possible embodiments, in order to effectively drive the sound transmission device to move towards one side close to the assembled wall body and apply force to the wall body to realize knocking;

the driving device comprises a pressurizing telescopic cylinder, a cylinder mounting bracket, a cylinder connecting air pipe and a cylinder telescopic rod;

the pressurizing telescopic cylinder is fixedly connected with the end part of the main bracket of the device through the cylinder mounting bracket;

the cylinder connecting air pipe is connected with the air inlet end of the pressurizing telescopic cylinder, the cylinder telescopic rod is connected with the pressurizing telescopic cylinder, and the end part of the cylinder telescopic rod is connected with the sound transmission device.

In some possible embodiments, in order to enable the acoustic transmission device to return to the initial state after completing one test;

the sound transmission cavity structure and the driving device are provided with a secondary elastic pressurizing device;

the second-stage elastic pressurizing device comprises a pressurizing connecting plate which is connected with the assembling support assembly in a sliding mode and is connected with the telescopic rod of the air cylinder, a sound transmission device connecting plate of which one end is connected with the sound transmission cavity structure, and pressurizing elastic pieces which are respectively connected with the sound transmission device connecting plate and the pressurizing connecting plate.

In some possible embodiments, in order to ensure that the sound-transmitting means can be moved in the driving direction of the driving means under the action of the pressure elasticity;

the secondary elastic pressurizing device also comprises a guide rod connected with one side of the sound transmission device connecting plate close to the pressurizing elastic piece, and a sliding rod radial bearing arranged on one side of the pressurizing connecting plate far away from the pressurizing elastic piece;

the pressurizing elastic piece is sleeved outside the guide rod; the guide rod penetrates through the pressurizing connecting plate and is sleeved in the sliding rod radial bearing.

In some possible embodiments, in order to make the acoustic cavity structure more stable in recovery under the drive of the secondary elastic compression means;

the two groups of secondary elastic pressurizing devices are symmetrically arranged along the sliding direction.

In some possible embodiments, the main support of the device is provided with a slide rail, and the bottom of the pressure connecting plate) is provided with a slide block which is in sliding fit with the slide rail.

In some possible embodiments, to avoid the sliding rail from disengaging from the slider; the dovetail slide rail is arranged on the slide rail, and a dovetail groove matched with the dovetail slide rail to slide is arranged on the slide block.

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

The driving device drives the sound transmission device to knock on the assembled wall body, and sound generated by knocking is transmitted to the audio monitoring device, so that the compactness of the assembled wall body after grouting is detected;

the sound transmission device and the pressurizing connecting plate are provided with the secondary elastic pressurizing devices, so that the sound transmission device can be restored to the initial state to wait for the next detection after each detection;

the guide rod is arranged, so that the elastic force provided by the pressurizing elastic piece to the sound transmission device is effectively guided;

by arranging the dovetail groove to be matched with the dovetail slide rail, on one hand, the sliding direction of the pressurizing connecting plate can be guided, and on the other hand, the pressurizing connecting block can be prevented from being separated from the assembling bracket assembly;

the utility model has simple structure and strong practicability.

Drawings

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

fig. 2 is a schematic structural view of the sound transmitting device of the present invention;

FIG. 3 is a schematic three-dimensional structure of the present invention;

wherein: 1. a main device support; 2. a bracket mounting plate; 3. the wall body is connected with an expansion bolt; 4. a slide rail; 5. a slider; 6. pressurizing the connecting plate; 7. a sound transmission device connecting plate; 8. a guide bar; 9. a pressurizing elastic member; 10. a slide bar radial bearing; 11. a sound transmission cavity structure; 12. a sound conduction tube; 13. a sound guiding shell; 14. a sound guide housing mounting plate; 15. a pressurized telescopic cylinder; 16. a cylinder mounting bracket; 17. the air cylinder is connected with an air pipe; 18. the cylinder telescopic link.

Detailed Description

In the present invention, unless otherwise explicitly stated or limited, the terms "mounted," "connected," "fixed," and the like are to be construed broadly, e.g., as being permanently connected, detachably connected, or integral; they may be directly connected or indirectly connected through intervening media, or may be connected through the use of two elements or the interaction of two elements. Reference herein to "first," "second," and similar words, does not denote any order, quantity, or importance, but rather are used to distinguish one element from another. Also, the use of the terms a, an, etc. do not denote a limitation of quantity, but rather denote the presence of at least one. In the implementation of the present application, "and/or" describes an association relationship of associated objects, which means that there may be three relationships, for example, a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone. In the description of the embodiments of the present application, the meaning of "a plurality" means two or more unless otherwise specified. For example, the plurality of positioning posts refers to two or more positioning posts. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The present invention will be described in detail below.

As shown in fig. 1-3:

the utility model provides an assembled wall testing device for monitoring closely knit degree of grout, includes assembly bracket component, the transaudient device of slidable mounting on assembly bracket component, be connected with the transaudient device and be used for driving the transaudient device and be close to or keep away from the drive arrangement of assembled wall on the detachable installation on the assembled wall.

When the audio monitoring device is used, the sound transmission device is connected with the audio monitoring device, and the audio monitoring device is fixed on the side surface of an assembly type wall body through the assembly bracket component; pass through drive arrangement control transaudient device and remove to the one side that is close to the assembled wall body to make transaudient device strike the assembled wall body, strike during the sound that sends transmits audio monitoring devices, supply audio monitoring devices to detect this sound, thereby judge whether accord with the requirement of the closely knit degree of grout of this wall body.

In some possible embodiments, in order to effectively realize the transmission of the sound emitted by knocking the wall body by the sound transmission device;

the sound transmission device comprises a sound transmission cavity structure 11, a sound transmission conducting pipe 12, a sound guide shell 13 and a sound guide shell mounting plate 14, wherein a cavity is arranged at one side close to the assembled wall; the sound conduction pipe 12 is externally connected with an audio monitoring device;

The sound conduction pipe 12 is arranged on the outer side of the sound conduction shell mounting plate 14 and is communicated with the cavity, and the sound conduction shell mounting plate 14 is detachably connected with one side, close to the assembled wall, of the sound conduction cavity structure 11; the detachable connection is adopted, so that the sound guide shell mounting plate 14 and the sound guide shell 13 mounted on the sound guide shell mounting plate can be replaced when damaged;

leading the through-hole that sound shell mounting panel 14 was provided with and the cavity intercommunication, leading sound shell 13 and being located the through-hole and keeping away from one side of passing sound cavity structures 11 and leading sound shell mounting panel 14, pass sound cavity structures 11 and keep away from one side of leading sound shell 13 and be connected with drive arrangement.

Preferably, the plurality of sound conduction tubes 12 are respectively communicated with the chamber, and the plurality of sound conduction tubes 12 are respectively connected with the plurality of audio monitoring devices, so that the sensitivity of the audio monitoring signals is improved.

In some possible embodiments, the sound guiding shell 13 has a hemispherical shell structure, and the opening of the hemispherical shell structure is disposed at one side close to the sound guiding shell mounting plate 14, and the center of the sound guiding shell 13 is aligned with the axis of the through hole.

The sound guide shell mounting plate 14 is provided with a through hole, the sound guide shell 13 is mounted at one end of the through hole, which is far away from the sound transmission cavity structure 11, the inner side of the hemispherical structure is communicated with the through hole, and the other end of the through hole is communicated with the cavity, so that sound generated during knocking is transmitted into the cavity through the through hole, and then the sound is transmitted into an audio monitoring device through the sound transmission conducting pipe 12 communicated with the cavity for monitoring, and whether grouting is dense is judged;

In some possible embodiments, in order to effectively realize the connection of the assembly bracket assembly and the assembly wall body;

the assembly bracket assembly comprises a main bracket 1 of the device, a bracket mounting plate 2 connected with one end of the main bracket 1 of the device, and a plurality of wall body connecting expansion bolts 3 arranged on the bracket mounting plate 2;

the other end of the main bracket 1 of the device is connected with the driving device.

The support mounting plate 2 is connected with the assembly type wall body through a wall body connecting expansion bolt 3, so that the support mounting plate 2 is fixedly mounted on the side surface of the assembly type wall body; the bracket mounting plate 2 is mainly used for supporting the driving device and the sound transmission device.

The driving device is mainly used for enabling the sound transmission device to approach one side of the assembled wall body and enabling the sound guide shell 13 to knock the assembled wall body; the sound transmission device seat can be controlled to move linearly to be close to or far away from the side surface of the assembled wall body by adopting modes of an electric push rod, a lead screw and the like.

In some possible embodiments, in order to effectively drive the sound transmission device to move towards one side close to the assembled wall body and apply acting force to the wall body to realize knocking, the structure of the device is simple;

the driving device comprises a pressurizing telescopic cylinder 15, a cylinder mounting bracket 16, a cylinder connecting air pipe 17 and a cylinder telescopic rod 18;

The pressurizing telescopic cylinder 15 is fixedly connected with the end part of the device main bracket 1 through the cylinder mounting bracket 16;

the cylinder connecting air pipe 17 is connected with the air inlet end of the pressurizing telescopic cylinder 15, the cylinder telescopic rod 18 is connected with the pressurizing telescopic cylinder 15, and the end part of the cylinder telescopic rod 18 is connected with the sound transmission device.

When the device is used, the pressurizing telescopic cylinder 15 controls the telescopic rod 18 of the cylinder to extend out, so that the sound transmission device is driven to move towards the side surface close to the assembled wall body, and after knocking is realized, the telescopic rod 18 of the cylinder is controlled to be recovered, so that the sound transmission device moves towards the side far away from the assembled wall body;

in some possible embodiments, in order to enable the acoustic transmission device to return to the initial state after a test has been completed;

the sound transmission cavity structure 11 and the driving device are provided with a secondary elastic pressurizing device;

the second-stage elastic pressurizing device comprises a pressurizing connecting plate 6 which is connected with the assembling support assembly in a sliding manner and is connected with an air cylinder telescopic rod 18, a sound transmission device connecting plate 7 of which one end is connected with the sound transmission cavity structure 11, and pressurizing elastic pieces 9 which are respectively connected with the sound transmission device connecting plate 7 and the pressurizing connecting plate 6.

The cylinder telescopic rod 18 is driven by the cylinder to control the pressurizing connecting plate 6 to slide on the bracket mounting plate 2, so that the sound transmission device is close to or far away from the assembled wall body;

The secondary elastic pressurizing device is mainly used for enabling the sound transmission device to be recovered to an initial state after detection is finished; when the driving device drives the sound transmission device to move towards one side close to the assembled wall body, after the sound guide shell 13 knocks the wall body, the pressurizing elastic piece 9 is in a compressed state after receiving the acting force applied by the driving device; after knocking is finished, the driving device controls the sound transmission device to move away from one side of the assembled wall body, the compression elastic piece 9 restores the compression state to the initial state, and then the sound transmission device restores to the initial state.

In some possible embodiments, in order to ensure that the sound-transmitting means can be moved in the driving direction of the driving means under the action of the pressure elasticity;

the secondary elastic pressurizing device also comprises a guide rod 8 connected with one side of the sound transmission device connecting plate 7 close to the pressurizing elastic piece 9 and a slide rod radial bearing 10 arranged on one side of the pressurizing connecting plate 6 far away from the pressurizing elastic piece 9;

the pressurizing elastic piece 9 is sleeved on the outer side of the guide rod 8; the guide rod 8 penetrates through the pressurizing connecting plate 6 and is sleeved in the sliding rod radial bearing 10.

The pressurizing elastic piece 9 is arranged between the pressurizing connecting plate 6 and the sound transmission device and is sleeved outside the guide rod 8, so that the elastic acting force applied to the sound transmission device by the pressurizing elastic piece 9 can only drive the sound transmission device to move along the long direction of the guide rod 8;

One end of the guide rod 8, which is far away from the sound transmission device, is sleeved in the slide rod radial bearing 10, when the pressurizing elastic piece 9 is in a compressed state, the guide rod 8 penetrates through the slide rod radial bearing 10, and the slide rod radial bearing 10 effectively limits the movement direction of the guide rod 8;

preferably, the pressurizing elastic member 9 may be a spring, a disc spring, a leaf spring, an elastic air bag, or the like.

In some possible embodiments, in order to make the acoustic cavity structure 11 more stable in recovery driven by the secondary elastic stressing means;

the two groups of secondary elastic pressurizing devices are symmetrically arranged along the sliding direction.

In some possible embodiments, the device main bracket 1 is provided with a sliding rail 4, and the bottom of the pressure connecting plate 6) is provided with a sliding block 5 which is in sliding fit with the sliding rail 4.

In some possible embodiments, in order to avoid the sliding track 4 from disengaging from the slider 5; be forked tail slide rail 4 on the slide rail 4, be provided with the dovetail that slides with forked tail slide rail 4 cooperation on the slider 5.

The utility model is not limited to the foregoing embodiments. The utility model extends to any novel feature or any novel combination of features disclosed in this specification and any novel method or process steps or any novel combination of features disclosed.

Claims (10)

1. The utility model provides an assembled wall inspection device for $ monitoring closely knit degree of grout which characterized in that, includes assembly bracket component, the transaudient device of slidable mounting on assembly bracket component, be connected with the transaudient device and be used for driving the transaudient device and be close to or keep away from the drive arrangement of assembled wall body that detachable installed on the assembled wall body.

2. An assembled wall testing device for monitoring grouting compactness according to claim 1, characterized in that the sound transmission device comprises a sound transmission cavity structure (11) provided with a cavity near one side of the assembled wall, a sound transmission conduit (12), a sound guide shell (13), and a sound guide shell mounting plate (14);

the sound conduction tube (12) is arranged on the outer side of the sound conduction shell mounting plate (14) and is communicated with the cavity, and the sound conduction shell mounting plate (14) is detachably connected with one side, close to the assembled wall, of the sound conduction cavity structure (11);

lead sound shell mounting panel (14) and be provided with the through-hole with the cavity intercommunication, lead sound shell (13) and be located the through-hole and keep away from one side of transaudient cavity structures (11) and lead sound shell mounting panel (14), transaudient cavity structures (11) are kept away from one side of leading sound shell (13) and are connected with drive arrangement.

3. An assembled wall inspection device for monitoring grouting compactness according to claim 2, characterized in that the sound guide shell (13) is a hemispherical shell structure, the opening of which is arranged at one side close to the sound guide shell mounting plate (14), and the center of the sound guide shell (13) is in the same line with the axis of the through hole.

4. An assembled wall inspection device for monitoring grouting compactness according to claim 3, wherein the assembly bracket assembly comprises a main device bracket (1), a bracket mounting plate (2) connected to one end of the main device bracket (1), and a plurality of wall-attachment expansion bolts (3) provided on the bracket mounting plate (2);

the other end of the device main bracket (1) is connected with the driving device.

5. The assembled wall inspection device for monitoring grouting compactness according to claim 4, wherein the driving device comprises a pressurizing telescopic cylinder (15), a cylinder mounting bracket (16), a cylinder connecting air pipe (17) and a cylinder telescopic rod (18);

the pressurizing telescopic cylinder (15) is fixedly connected with the end part of the device main bracket (1) through the cylinder mounting bracket (16);

the cylinder connecting air pipe (17) is connected with the air inlet end of the pressurizing telescopic cylinder (15), the cylinder telescopic rod (18) is connected with the pressurizing telescopic cylinder (15), and the end part of the cylinder telescopic rod (18) is connected with the sound transmission device.

6. An assembled wall testing device for monitoring grouting compactness according to claim 5, characterized in that the sound transmission cavity structure and driving device are provided with a secondary elastic pressurizing device;

The two-stage elastic pressurizing device comprises a pressurizing connecting plate (6) which is connected with the assembling support assembly in a sliding manner and is connected with an air cylinder telescopic rod (18), a sound transmission device connecting plate (7) of which one end is connected with a sound transmission cavity structure, and pressurizing elastic pieces (9) which are respectively connected with the sound transmission device connecting plate (7) and the pressurizing connecting plate (6).

7. An assembled wall inspection device for monitoring grouting compactness according to claim 6, characterized in that the secondary elastic pressurizing device further comprises a guide rod (8) connected with one side of the sound transmission device connecting plate (7) close to the pressurizing elastic piece (9), and a slide rod radial bearing (10) installed on one side of the pressurizing connecting plate (6) far away from the pressurizing elastic piece (9);

the pressurizing elastic piece (9) is sleeved on the outer side of the guide rod (8); the guide rod (8) penetrates through the pressurizing connecting plate (6) and is sleeved in the sliding rod radial bearing (10).

8. An assembled wall testing device for monitoring grouting compactness according to claim 6 or 7, wherein the secondary elastic pressing devices are two groups and are symmetrically arranged along the sliding direction.

9. An assembled wall testing device for monitoring grouting compactness according to any one of claims 6-7, characterized in that a sliding rail is arranged on the main bracket (1) of the device, and a sliding block (5) which is in sliding fit with the sliding rail is arranged at the bottom of the pressurizing connecting plate (6).

10. The assembled wall inspection device for monitoring grouting compactness according to claim 9, wherein the slide rail is a dovetail slide rail, and the slide block is provided with a dovetail groove matched with the dovetail slide rail for sliding.

Images