CN220084525U

CN220084525U - Building brick strength detection device

Info

Publication number: CN220084525U
Application number: CN202321133274.9U
Authority: CN
Inventors: 张涛
Original assignee: Linyi Aozheng Langyuan Real Estate Co ltd
Current assignee: Linyi Aozheng Langyuan Real Estate Co ltd
Priority date: 2023-05-09
Filing date: 2023-05-09
Publication date: 2023-11-24
Anticipated expiration: 2033-05-09

Abstract

The utility model provides a building brick strength detection device, which relates to the technical field of brick strength detection and comprises a base speed reduction fitting and a test mechanism, wherein a clamping assembly for bolt assembly is arranged above the inner side of the base speed reduction fitting, the top ends of two sides of the base speed reduction fitting are provided with the test mechanism for bolt assembly, and the test mechanism comprises a top frame, a cross beam, a control panel, a cylinder, a notch push rod, a lifting block, a pressing plate and a limiting rod; the utility model mainly utilizes the upper inserting connection rod arranged at the inner side of the slotting position of the slotting plate, so that the inner end of the inserting connection rod is connected with the arc clamping strip through the two groups of telescopic strips, the arc-shaped bulge of the arc clamping strip is stuck and clamped with the arc-shaped notch structure of the notch push rod connected with the output end of the air cylinder, the telescopic speed can be limited at a uniform speed under the telescopic adjustment of the notch push rod, the condition that the test data is inaccurate due to the rebound of the elastic piece is avoided, and the effect of testing bricks can be accurately achieved.

Description

Building brick strength detection device

Technical Field

The utility model relates to the technical field of brick strength detection, in particular to a building brick strength detection device.

Background

The quality detection of construction engineering refers to the activity of testing and determining the quality characteristics of materials, construction parts and equipment, the quality of engineering entities, using functions and the like of construction engineering according to mandatory engineering construction standards and design files, and is an important work for testing foundations, building materials, construction processes and building structures related to buildings in the whole construction process in order to ensure the safety of the established, constructed and to-be-constructed construction engineering.

When the existing strength detection device is used, strength detection is generally carried out on materials by using powerful hydraulic equipment, as disclosed in application number CN202222328338.2, the device belongs to the technical field of building detection and comprises a detection box, wherein a supporting mechanism for adjusting the inclination angle of the brick is arranged in the detection box, and one end of the detection box is provided with a detection mechanism for detecting the strength of the brick by matching with the supporting mechanism; however, in the above-mentioned technology, the elastic driving member is connected to the telescopic rod, and although the elastic driving member has a deceleration effect, the deceleration is too obvious, and it is difficult to accurately test the actual strength data of the brick, so the utility model provides a building brick strength detection device to solve the problems in the prior art.

Disclosure of Invention

According to the building brick strength detection device, the upper inserting connection rod is arranged on the inner side of the grooved position of the grooved plate, so that the inner end of the inserting connection rod is connected with the arc-shaped clamping strips through the two groups of telescopic strips, the arc-shaped protrusions of the arc-shaped clamping strips are clamped with the arc-shaped notch structures of the notch push rods connected with the output ends of the cylinders in an adhering mode, the telescopic speed can be limited to be in a uniform speed state under telescopic adjustment of the notch push rods, the condition that test data are inaccurate due to rebound of the elastic pieces is avoided, and therefore the effect of testing the bricks can be achieved accurately.

In order to achieve the purpose of the utility model, the utility model is realized by the following technical scheme: the building brick strength detection device comprises a base speed reduction fitting and a test mechanism, wherein a clamping assembly assembled by bolts is arranged above the inner side of the base speed reduction fitting, and the test mechanism assembled by bolts is arranged at the top ends of two sides of the base speed reduction fitting;

the testing mechanism comprises a top frame, a cross beam, a control panel, an air cylinder, a notch push rod, lifting blocks, a pressing plate and a limiting rod, wherein the top frame is arranged at the top ends of two sides of a base speed reduction accessory, the cross beam is arranged above the top frame, one end of the cross beam is provided with the control panel, the notch push rod connected with an air cylinder output end is arranged below the cross beam, the lifting blocks are arranged below the notch push rod, the pressing plate is arranged below the lifting blocks, and the limiting rods are arranged at two sides of the pressing plate.

In a preferred embodiment of the present utility model, the notch push rod has an arc notch structure, and the notch push rod is in the same line with the central axis of the lifting block and the pressing plate.

As a preferred embodiment of the utility model, the base speed reduction accessory comprises a shock pad, a bottom plate, a bolt base plate, an extension frame, a slotted plate, a plug-in rod, a telescopic rod and an arc clamping strip, wherein the bottom plate is arranged above the shock pad, the extension frame is connected above two sides of the bottom plate through the bolt base plate and the slotted plate is arranged above the extension frame.

As a preferable implementation mode of the utility model, the inner side of the grooved plate is provided with a plugging rod, the inner end of the plugging rod is provided with a telescopic strip, and one end of the telescopic strip is provided with an arc clamping strip.

As a preferred embodiment of the utility model, the clamping assembly comprises an assembly substrate, an array rod, a bolt base, a negative film, a connecting frame, a limiting plunger, a fixing frame, a threaded sleeve and an arc-shaped protruding rod, wherein the array rod is connected to the top side of the bottom plate through the assembly substrate through a bolt, the array rod is arranged above the array rod, and the negative film is arranged on the top side of the bolt base.

As a preferable implementation mode of the utility model, the side of the bolt base is provided with a connecting plug frame, the upper inner side of the connecting plug frame is provided with a limiting plug rod, the inner side of the connecting plug frame is provided with a fixing frame, the lower part of the fixing frame is provided with a thread sleeve strip, and the lower part of the thread sleeve strip is provided with an arc-shaped protruding rod.

The beneficial effects of the utility model are as follows:

the utility model mainly utilizes the upper inserting connection rod arranged at the inner side of the slotting position of the slotting plate, so that the inner end of the inserting connection rod is connected with the arc clamping strip through the two groups of telescopic strips, the arc-shaped bulge of the arc clamping strip is stuck and clamped with the arc-shaped notch structure of the notch push rod connected with the output end of the air cylinder, the telescopic speed can be limited at a uniform speed under the telescopic adjustment of the notch push rod, the condition that the test data is inaccurate due to the rebound of the elastic piece is avoided, and the effect of testing bricks can be accurately achieved.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic perspective view of a clamping assembly according to the present utility model;

fig. 3 is a schematic perspective view of a testing mechanism according to the present utility model.

Wherein: 1. a base reduction fitting; 101. a shock pad; 102. a bottom plate; 103. a bolt base plate; 104. an extension rack; 105. a slotted plate; 106. inserting a connecting rod; 107. a telescoping strip; 108. arc-shaped clamping strips; 2. a clamping assembly; 201. assembling a substrate; 202. an array bar; 203. a bolt base; 204. attaching a negative film; 205. a connecting and inserting frame; 206. limiting the plunger; 207. a fixing frame; 208. a thread sleeve strip; 209. an arc-shaped convex rod; 3. a testing mechanism; 301. a top frame; 302. a cross beam; 303. a control panel; 304. a cylinder; 305. notch push rod; 306. a lifting block; 307. a pressing plate; 308. and a limit rod.

Detailed Description

The present utility model will be further described in detail with reference to the following examples, which are only for the purpose of illustrating the utility model and are not to be construed as limiting the scope of the utility model.

According to fig. 1-3, the embodiment provides a building brick strength detection device, which comprises a base speed reduction fitting 1 and a test mechanism 3, wherein a clamping component 2 assembled by bolts is arranged above the inner side of the base speed reduction fitting 1, and the top ends of two sides of the base speed reduction fitting 1 are provided with the test mechanism 3 assembled by bolts;

the testing mechanism 3 comprises a top frame 301, a cross beam 302, a control panel 303, an air cylinder 304, a notch push rod 305, a lifting block 306, a pressing plate 307 and a limiting rod 308, wherein the top frame 301 is arranged at the top ends of two sides of the base speed reduction accessory 1, the cross beam 302 is arranged above the top frame 301, the control panel 303 is arranged at one end of the cross beam 302, the notch push rod 305 connected with the output end of the air cylinder 304 is arranged below the cross beam 302, the lifting block 306 is arranged below the notch push rod 305, the pressing plate 307 is arranged below the lifting block 306, and the limiting rods 308 are arranged at two sides of the pressing plate 307.

The notch push rod 305 has an arc notch structure, and the notch push rod 305 is on the same line with the central axis of the lifting block 306 and the pressing plate 307.

In this embodiment, after the brick is clamped, the output power of the cylinder 304 is used to drive the output end of the cylinder 304 to operate, and the output end of the cylinder 304 drives the notch push rod 305 to perform telescopic operation through telescopic operation of the output end of the cylinder 304, after the telescopic operation of the notch push rod 305, the lifting block 306 is matched with the upper limit rod 308 to achieve the effect of applying pressure to the clamped brick after the speed of the pressing plate 307 below the lifting block 306 is regulated, so that related data of the brick is tested and displayed and analyzed through the control panel 303 at one end of the cross beam 302.

The base speed reduction accessory 1 comprises a shock pad 101, a bottom plate 102, a bolt base plate 103, an extension frame 104, a slotted plate 105, a plug rod 106, a telescopic strip 107 and an arc clamping strip 108, wherein the bottom plate 102 is arranged above the shock pad 101, the extension frame 104 is connected above two sides of the bottom plate 102 through bolts of the bolt base plate 103, and the slotted plate 105 is arranged above the extension frame 104.

In this embodiment, in use, the test mechanism 3 is supported by bolts through the slotted plates 105 after the extension frames 104 are fixed by being placed on a relatively flat ground through the shock absorbing pads 101 and connected by the bolt base plates 103 on the upper sides of the bottom plate 102.

The inner side of the slotted plate 105 is provided with a splicing rod 106, the inner end of the splicing rod 106 is provided with a telescopic strip 107, and one end of the telescopic strip 107 is provided with an arc clamping strip 108.

In this embodiment, after the inner side of the slotted plate 105 is fixed by the inserting rod 106, the arc clamping strips 108 at one end of the telescopic strips 107 are attached to the arc structure of the notch push rod 305 after the two groups of telescopic strips 107 are adjusted.

The clamping assembly 2 comprises an assembly substrate 201, an array rod 202, a bolt base 203, a film attaching base 204, a connecting plug frame 205, a limiting plug rod 206, a fixing frame 207, a threaded sleeve bar 208 and an arc-shaped protruding rod 209, wherein the array rod 202 is connected to the top side of the bottom plate 102 through the assembly substrate 201 through bolts, the array rod 202 is arranged above the array rod 202, and the film attaching base 204 is arranged on the top side of the bolt base 203.

In this embodiment, after the array bar 202 is connected to the top side of the base plate 102, the bolt base 203 is placed above the array bar 202, and the top side of the bolt base 203 passes through the attaching piece 204 to achieve the attaching effect, and after attaching, the brick to be tested is placed on the attaching piece 204.

The bolt base 203 is provided with even inserts the frame 205 in the avris, and even inserts the inboard upper side of frame 205 and be provided with spacing plunger 206, even inserts the inboard of frame 205 and be provided with mount 207, and the below of mount 207 is provided with screw thread cover strip 208, and the below of screw thread cover strip 208 is provided with arc protruding stick 209.

In this embodiment, after the placement of the brick is completed, the spacing insert 206 is removed from the continuous insertion frame 205, and the fixing frame 207 with two ends connected to the inner side of the continuous insertion frame 205 is used to manually adjust the threaded sleeve 208, so that the arc-shaped protruding rod 209 connected to the output end of the threaded sleeve 208 presses and clamps the brick placed on the negative plate 204.

The working principle of the building brick strength detection device is as follows: in use, the test device is placed on a relatively flat ground through the shock pad 101, the extension frame 104 is connected and fixed through the bolt base plates 103 above two sides of the bottom plate 102, the test mechanism 3 is supported through the slotted plate 105 through the bolts, then the inner side of the slotted plate 105 is fixed through the inserting rods 106, the arc clamping strips 108 at one end of the telescopic strips 107 are attached to the arc structure of the notch push rod 305 through the two groups of telescopic strips 107 after being regulated, then the array rod 202 is connected at the top side of the bottom plate 102, the bolt base 203 is placed above the array rod 202, the attaching effect is achieved through the attaching plate 204 at the top side of the bolt base 203, the brick to be tested is placed on the attaching plate 204 after attaching, after the brick placement is completed, the limiting inserting rod 206 is taken down the connecting inserting frame 205, and use the both ends to link among the mount 207 of inserting the inboard side of frame 205, among the manual regulation screw thread cover strip 208, make the arc protruding stick 209 that screw thread cover strip 208 output end connects to the fragment of brick that places on pasting film 204 press the centre gripping, after the fragment of brick is held, use cylinder 304 output power to drive cylinder 304 output and operate, through the flexible operation of cylinder 304 output, make cylinder 304 output drive notch push rod 305 carry out flexible operation, after notch push rod 305 flexible operation, let lifter block 306 cooperate with the clamp plate 307 of lifter block 306 below after the speed governing will be held the fragment of brick reach the effect of exerting pressure, thereby test out the relevant data of fragment of brick and show the analysis through the control panel 303 of crossbeam 302 one end.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a building fragment of brick intensity detection device, includes base speed reduction accessory (1) and accredited testing organization (3), its characterized in that: a clamping assembly (2) assembled by bolts is arranged above the inner side of the base speed reduction fitting (1), and a testing mechanism (3) assembled by bolts is arranged at the top ends of two sides of the base speed reduction fitting (1);

the testing mechanism (3) comprises a top frame (301), a cross beam (302), a control panel (303), an air cylinder (304), a notch push rod (305), a lifting block (306), a pressing plate (307) and a limiting rod (308), wherein the top frame (301) is arranged at the top ends of two sides of the base speed reduction accessory (1), the cross beam (302) is arranged above the top frame (301), one end of the cross beam (302) is provided with the control panel (303), the notch push rod (305) connected with the output end of the air cylinder (304) is arranged below the cross beam (302), the lifting block (306) is arranged below the notch push rod (305), the pressing plate (307) is arranged below the lifting block (306), and the limiting rods (308) are arranged on two sides of the pressing plate (307).

2. The building block strength detection device according to claim 1, wherein: the notch push rod (305) is provided with an arc notch structure, and the notch push rod (305) is positioned on the same straight line with the central axes of the lifting block (306) and the pressing plate (307).

3. The building block strength detection device according to claim 1, wherein: the base speed reduction accessory (1) comprises a shock pad (101), a bottom plate (102), a bolt base plate (103), an extension frame (104), a slotted plate (105), a plug rod (106), a telescopic strip (107) and an arc clamping strip (108), wherein the bottom plate (102) is arranged above the shock pad (101), the extension frame (104) is connected above two sides of the bottom plate (102) through the bolt base plate (103) through bolts, and the slotted plate (105) is arranged above the extension frame (104).

4. A building brick strength detection apparatus according to claim 3 wherein: the inner side of the slotted plate (105) is provided with a plugging rod (106), the inner end of the plugging rod (106) is provided with a telescopic strip (107), and one end of the telescopic strip (107) is provided with an arc clamping strip (108).

5. A building brick strength detection apparatus according to claim 3 wherein: the clamping assembly (2) comprises an assembly substrate (201), an array rod (202), a bolt base (203), a negative film (204), a connecting inserting frame (205), a limiting inserting rod (206), a fixing frame (207), a threaded sleeve strip (208) and an arc-shaped protruding rod (209), wherein the array rod (202) is connected to the top side of the bottom plate (102) through the assembly substrate (201) through bolts, the array rod (202) is arranged above the array rod (202), and the negative film (204) attached to the top side of the bolt base (203) is arranged.

6. The building block strength testing apparatus according to claim 5, wherein: the bolt base is characterized in that a connecting plug frame (205) is arranged on the side of the bolt base (203), a limiting plug rod (206) is arranged on the inner side of the upper portion of the connecting plug frame (205), a fixing frame (207) is arranged on the inner side of the connecting plug frame (205), a thread sleeve strip (208) is arranged below the fixing frame (207), and an arc-shaped protruding rod (209) is arranged below the thread sleeve strip (208).