CN218239648U - Compressive strength detection tool for building thermal insulation mortar - Google Patents

Abstract

The utility model discloses a compressive strength of building heat preservation mortar detects frock aims at providing the compressive strength of the building heat preservation mortar that a convenient maintenance detects frock. It includes frame, controller, detects platform, pneumatic cylinder and clamp plate, the controller is installed in the frame, the controller is connected with the pneumatic cylinder electricity, the top in the frame is vertically installed to the pneumatic cylinder, the telescopic link of pneumatic cylinder is down, the clamp plate is connected for dismantling with the telescopic link of pneumatic cylinder, it installs in the frame and the clamp plate under to detect the platform. The utility model has the advantages that: the purpose of convenient maintenance is achieved; the use is safe; the detection efficiency is high; the detection is convenient.

Description

Compressive strength detection tool for building thermal insulation mortar

Technical Field

The utility model belongs to the technical field of the relevant technique of detection and specifically relates to a compressive strength of building heat preservation mortar detects frock.

Background

Whether the mortar for building is firm after being coagulated into the mortar blocks is used, and the compressive strength of the mortar blocks needs to be detected. Present compressive strength check out test set is to put the thick liquid piece on examining test table, then extrudees the thick liquid piece from the top down with movable rod control clamp plate, fixed weld between clamp plate and the movable rod, and the time has been of a specified duration the clamp plate warp the appearance and will pull down the change, because the clamp plate is the welding, causes the maintenance inconvenient.

Chinese patent grant publication no: CN214096964U, grant announcement day 20210831 discloses a steel intensity detection device for building detection, examine test table including intensity, one side that intensity examined test table is installed and is examined test table baffle, one side of side gusset plate is provided with intensity detection A district, one side of side gusset plate is provided with intensity detection B district, and intensity detection A district is used for carrying out intensity detection to the steel of rectangle or square shape structure. According to the technical scheme, the A-type detection steel is placed above the detection A-area bearing plate, the detection A-area bearing plate with a smooth surface structure can be tightly attached to the A-type detection steel, the strength detection B area is used for detecting the strength of the steel with a circular or annular structure, and the detection B-area bearing plate with an arc-shaped structure can be tightly attached to the B-type detection steel by placing the B-type detection steel above the detection B-area bearing plate, so that the detection accuracy of the steel strength detection device is improved; the technical scheme has the defects that the pressing plate cannot be detached, and the equipment is inconvenient to maintain.

In conclusion, the compressive strength detection device has the problem of inconvenient maintenance due to the fact that the pressing plate cannot be detached.

SUMMERY OF THE UTILITY MODEL

The utility model relates to an overcome the not enough of the inconvenient maintenance of resistance to compression intensity detection equipment in the prior art, provide a compressive strength of building heat preservation mortar of convenient maintenance detects frock.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a compressive strength of building heat preservation mortar detects frock, includes frame, controller, detects platform, pneumatic cylinder and clamp plate, the controller is installed in the frame, the controller is connected with the pneumatic cylinder electricity, the top in the frame is vertically installed to the pneumatic cylinder, the telescopic link of pneumatic cylinder is down, the clamp plate is connected for dismantling with the telescopic link of pneumatic cylinder, it installs in the frame and the clamp plate under to detect the platform.

The pulp blocks are placed on the top of the detection table, the pressure resistance detection is carried out on the pulp blocks by the hydraulic cylinder control pressure plate, the pressure plate can be detached to facilitate maintenance and replacement, and the purpose of facilitating maintenance is achieved.

Preferably, a side baffle is installed at the top of the detection table, the side baffle is annular, the bottom of the side baffle is detachably connected with the top surface of the detection table, and the pressing plate is arranged above the inner side of the side baffle. The side baffle prevents the damage that the extrusion process thick liquids splashes and cause everywhere, and is safe in utilization.

Preferably, be equipped with the annular on examining the top surface of test table, the shape of annular is cyclic annular, the annular matches with the bottom of side shield, the bottom of side shield is passed through the annular and is examined test table and constitute plug-in detachable connection. The side shield is installed in the annular in the plug, and side shield easy dismounting can improve detection speed, and detection efficiency is high.

Preferably, a plug column is vertically arranged at the center of the top surface of the pressing plate, a plug hole is formed in the end surface of the telescopic rod of the hydraulic cylinder, the plug hole is matched with the plug column, and the pressing plate and the telescopic rod of the hydraulic cylinder form a plug-in detachable connection through the plug column and the plug hole. The cooperation of plug post and plug hole makes things convenient for the installation and the dismantlement of the telescopic link of clamp plate and pneumatic cylinder, easy maintenance.

Preferably, a bolt is arranged between the telescopic rod and the plugging column of the hydraulic cylinder, the bolt penetrates through the outer side face of the telescopic rod of the hydraulic cylinder and then is in threaded connection with the plugging column in the plugging hole, and the bolt is in threaded connection with the telescopic rod of the hydraulic cylinder. The convenient dismantlement of bolt guarantees simultaneously that the clamp plate is installed firmly on the telescopic link of pneumatic cylinder, convenient maintenance.

Preferably, an observation window is arranged on the side wall of the frame. The detection process can be checked through the observation window, and detection is convenient.

The beneficial effects of the utility model are that: the purpose of convenient maintenance is achieved; the use is safe; the detection efficiency is high; the detection is convenient.

Drawings

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

FIG. 2 isbase:Sub>A cross-sectional view of FIG. 1 at A-A;

fig. 3 is an enlarged view of fig. 2 at B.

In the figure: 1. the device comprises a rack, 2 parts of a controller, 3 parts of a detection table, 4 parts of a hydraulic cylinder, 5 parts of a pressure plate, 6 parts of a side baffle, 7 parts of a ring groove, 8 parts of a plugging column, 9 parts of a plugging hole, 10 parts of a bolt and 11 parts of an observation window.

Detailed Description

The invention is further described with reference to the accompanying drawings and the detailed description.

In the embodiment shown in fig. 1 and 2, the compressive strength detection tool for building thermal insulation mortar comprises a frame 1, a controller 2, a detection table 3, a hydraulic cylinder 4 and a pressing plate 5, wherein the controller 2 is installed on the frame 1, the controller 2 is electrically connected with the hydraulic cylinder 4, the hydraulic cylinder 4 is vertically installed at the top in the frame 1, a telescopic rod of the hydraulic cylinder 4 faces downwards, the pressing plate 5 is detachably connected with the telescopic rod of the hydraulic cylinder 4, and the detection table 3 is installed in the frame 1 and under the pressing plate 5.

The top of detecting platform 3 is installed side shield 6, and side shield 6 is cyclic annular in shape, and the bottom of side shield 6 is for dismantling the connection with the top surface of detecting platform 3, and clamp plate 5 is arranged in the inboard top of side shield 6.

Be equipped with annular 7 on detecting platform 3's the top surface, annular 7 is cyclic annular in shape, and annular 7 matches with side shield 6's bottom, and side shield 6's bottom is passed through annular 7 and is detected platform 3 and constitute plug-in detachable connection.

As shown in fig. 3, a plug column 8 is vertically arranged at the center of the top surface of the pressing plate 5, a plug hole 9 is formed in the end surface of the telescopic rod of the hydraulic cylinder 4, the plug hole 9 is matched with the plug column 8, and the pressing plate 5 and the telescopic rod of the hydraulic cylinder 4 are connected in a plug-in detachable manner through the plug column 8 and the plug hole 9.

A bolt 10 is arranged between the telescopic rod of the hydraulic cylinder 4 and the plug column 8, the bolt 10 penetrates through the outer side face of the telescopic rod of the hydraulic cylinder 4 and then is in threaded connection with the plug column 8 in the plug hole 9, and the bolt 10 is in threaded connection with the telescopic rod of the hydraulic cylinder 4.

As shown in fig. 1, an observation window 11 is provided on the rear side of the upper end of the right side wall of the rack 1, and an observation window 11 is provided on the front side of the upper end of the right side wall of the rack 1.

As shown in fig. 2, the hydraulic cylinder 4 is installed on the top wall in the frame 1, the pressing plate 5 is installed on the telescopic rod of the hydraulic cylinder 4, the detection table 3 is installed below the pressing plate 5, the annular groove 7 is formed in the top surface of the detection table 3, and the lower end of the side baffle 6 is installed in the annular groove 7.

As shown in fig. 3, a plug column 8 is vertically installed on the top surface of the pressing plate 5, the plug column 8 is installed in a plug hole 9 of the telescopic rod of the hydraulic cylinder 4, and the plug column 8 and the telescopic rod of the hydraulic cylinder 4 are connected by a bolt 10.

The use principle is as follows: the side baffle 6 is pulled out from the annular groove 7, the side baffle 6 is taken off from the detection platform 3, the pulp block to be detected is placed on the detection platform 3, the side baffle 6 is installed back to the detection platform 3, the controller 2 is used for controlling the hydraulic cylinder 4 to drive the pressing plate 5 to move downwards and press the pulp block, the pressure of the pulp block is applied to the detection compressive strength, the detection process is observed through the observation window 11, after the detection is finished, the pressing plate 5 returns, if the pressing plate 5 is to be maintained and replaced, the bolt 10 is unscrewed, and the plugging column 8 is pulled out from the plugging hole 9 to be detached from the pressing plate 5.

Claims (6)

1. The utility model provides a compressive strength of building heat preservation mortar detects frock, characterized by includes frame (1), controller (2), detects platform (3), pneumatic cylinder (4) and clamp plate (5), install in frame (1) controller (2), controller (2) are connected with pneumatic cylinder (4) electricity, pneumatic cylinder (4) are vertical to be installed at frame (1) interior top, the telescopic link of pneumatic cylinder (4) is down, clamp plate (5) are connected for dismantling with the telescopic link of pneumatic cylinder (4), detect platform (3) and install in frame (1) and clamp plate (5) under.

2. The building thermal insulation mortar compressive strength detection tool according to claim 1, wherein a side baffle (6) is installed at the top of the detection table (3), the side baffle (6) is annular, the bottom of the side baffle (6) is detachably connected with the top surface of the detection table (3), and the pressing plate (5) is arranged above the inner side of the side baffle (6).

3. The building thermal insulation mortar compressive strength detection tool according to claim 2, wherein the top surface of the detection table (3) is provided with an annular groove (7), the annular groove (7) is annular, the annular groove (7) is matched with the bottom of the side baffle (6), and the bottom of the side baffle (6) is connected with the detection table (3) in a plug-in detachable manner through the annular groove (7).

4. The building thermal insulation mortar compressive strength detection tool according to claim 1, 2 or 3, wherein a plug column (8) is vertically arranged at the center of the top surface of the pressing plate (5), a plug hole (9) is formed in the end surface of the telescopic rod of the hydraulic cylinder (4), the plug hole (9) is matched with the plug column (8), and the pressing plate (5) and the telescopic rod of the hydraulic cylinder (4) form a plug-in detachable connection through the plug column (8) and the plug hole (9).

5. The building thermal insulation mortar compressive strength detection tool according to claim 4, wherein a bolt (10) is arranged between the telescopic rod of the hydraulic cylinder (4) and the plug column (8), the bolt (10) penetrates through the outer side surface of the telescopic rod of the hydraulic cylinder (4) and then is in threaded connection with the plug column (8) in the plug hole (9), and the bolt (10) is in threaded connection with the telescopic rod of the hydraulic cylinder (4).

6. The tool for detecting the compressive strength of the thermal insulation mortar for buildings according to claim 5, wherein an observation window (11) is arranged on the side wall of the frame (1).

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