CN220508678U - Intensity detector for detecting quality concrete of building engineering - Google Patents

Abstract

The utility model discloses an intensity detector for detecting concrete of construction engineering quality, and belongs to the technical field of concrete intensity detectors. The utility model provides a building engineering quality concrete detects with intensity detector, includes the bottom plate, and the outer wall of bottom plate is fixed with the support. According to the utility model, through the mutual installation and matching of the adhesive plate, the limiting plate, the sliding block and the spring, the device is used for stably placing the concrete sample at the top end of the bottom plate, the harm of the device to the body of a worker caused by the concrete sample processing is avoided, and through the mutual installation and matching of the fixing plate, the transverse plate, the concave plate and the adhesive block, the fastening connection between one side of the limiting plate and the concrete sample is realized, so that the worker can better control the hydraulic cylinder to drive the pressing plate to carry out strength detection on the concrete sample.

Description

Intensity detector for detecting quality concrete of building engineering

Technical Field

The utility model belongs to the technical field of concrete strength detectors, and particularly relates to a strength detector for detecting quality concrete in construction engineering.

Background

The strength detector for detecting the quality concrete of the building engineering is a device for detecting the strength of the concrete during the quality detection of the building engineering.

At present, a lot of intensity detectors for detecting the quality concrete of the building engineering exist on the market, but the intensity detectors for detecting the quality concrete of the general building engineering are usually used for directly placing a concrete sample on an instrument for intensity measurement by a worker, and the worker is required to manually limit the concrete sample for installation, so that the device is extremely easy to cause harm to the worker when carrying out intensity measurement on the concrete sample, thereby reducing normal intensity measurement of the device on the concrete and reducing the practicability of the device.

Therefore, an intensity detector for detecting the quality concrete of the building engineering is needed, and the problem that in the prior art, a common worker directly places a concrete sample on the intensity detector, and the worker is needed to manually limit the concrete sample for installation, so that the intensity detector is very easy to damage the worker when the intensity detector measures the concrete sample.

Disclosure of Invention

The utility model aims to provide an intensity detector for detecting construction engineering quality concrete, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a building engineering quality concrete detects and uses intensity detector, includes the bottom plate, the outer wall of bottom plate is fixed with the support, the one end of support is fixed with the pneumatic cylinder, the bottom mounting of pneumatic cylinder has the clamp plate, the top of bottom plate is equipped with stop gear, stop gear includes two bonding plates, two the bottom of bonding plate all with the top sliding connection of bottom plate, two spouts have all been seted up on the top of bonding plate, the top sliding connection of bottom plate has two limiting plates, two the spread groove has all been seted up to the both sides of limiting plate, four the inner wall of spread groove all with the outer wall sliding connection of bonding plate, four the equal sliding connection of inner wall of spout has the slider, four the top of slider all is fixed with the inner wall one end of spread groove, four one side of slider all is fixed with the spring, four the one end of spring all is fixed with the inner wall one side of spout.

In the scheme, the top of bottom plate is equipped with strengthening mechanism, strengthening mechanism includes two fixed plates, two the bottom of fixed plate is all fixed with the top of bottom plate, two the shrinkage pool has all been seted up to one side of fixed plate, two the equal sliding connection of inner wall of shrinkage pool has the diaphragm, two one side of diaphragm is all fixed with one side of bonding plate.

It is further worth to say that square groove has been seted up on the top of bottom plate, the inner wall bottom mounting of square groove has the backing plate, the top bonding of backing plate is connected with the backup pad, the outer wall of backup pad and the inner wall sliding connection of square groove.

It should be further noted that, four inner walls of the sliding grooves are all fixed with cross bars, four outer walls of the cross bars are all in sliding connection with inner walls of the sliding blocks, and four outer walls of the cross bars are all in sliding connection with inner walls of the springs.

Preferably, the connecting holes are formed in one side of each transverse plate, the connecting columns are sleeved on the inner walls of the connecting holes, and one side of each connecting column is in sliding bonding connection with one side of the fixing plate.

Preferably, the outer walls of the connecting columns are connected with two concave plates in a sliding clamping mode, one sides of the four concave plates are connected with one side of the connecting column in an adhesive mode, one sides of the inner walls of the four concave plates are provided with grooves, the inner walls of the four grooves are connected with adhesive blocks in a clamping mode, and one sides of the four adhesive blocks are connected with one side of the adhesive plate in an adhesive mode.

Compared with the prior art, the strength detector for detecting the quality concrete of the building engineering has the following beneficial effects:

(1) According to the utility model, through the mutual installation and matching of the adhesive plate, the limiting plate, the sliding block and the spring, the device can stably place the concrete sample at the top end of the bottom plate, and the harm of the device to the body of a worker caused by the processing of the concrete sample is avoided, so that the device can effectively improve the better limit installation of the concrete sample, and the practicability of the device is improved.

(2) According to the utility model, through the mutual installation and matching of the fixing plate, the transverse plate, the concave plate and the bonding block, the fastening connection between one side of the limiting plate and the concrete sample is realized, so that the hydraulic cylinder is better controlled by a worker to drive the pressing plate to carry out strength detection on the concrete sample, and the use effect of the device is improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic diagram of a limiting mechanism according to the present utility model;

FIG. 3 is a schematic view of a portion of the reinforcement mechanism according to the present utility model;

fig. 4 is a schematic diagram showing a separation structure of a support plate and a bottom plate according to the present utility model.

In the figure:

1. a bottom plate; 2. a bracket; 3. a hydraulic cylinder; 4. a pressing plate; 5. a limiting mechanism; 51. an adhesive plate; 52. a chute; 53. a limiting plate; 54. a connecting groove; 55. a slide block; 56. a spring; 57. a cross bar; 6. a reinforcement mechanism; 61. a fixing plate; 62. concave holes; 63. a cross plate; 64. a connection hole; 65. a connecting column; 66. a concave plate; 67. a groove; 68. an adhesive block; 7. a square groove; 8. a backing plate; 9. and a support plate.

Detailed Description

The utility model is further described below with reference to examples.

Referring to fig. 1-4, the utility model provides a strength detector for detecting quality concrete in construction engineering, which comprises a base plate 1, a bracket 2 is fixed on the outer wall of the base plate 1, a hydraulic cylinder 3 is fixed at one end of the bracket 2, a pressing plate 4 is fixed at the bottom end of the hydraulic cylinder 3, a limiting mechanism 5 is arranged at the top end of the base plate 1, the limiting mechanism 5 comprises two bonding plates 51, the bottom ends of the two bonding plates 51 are in sliding connection with the top end of the base plate 1, two sliding grooves 52 are formed in the top ends of the two bonding plates 51, two limiting plates 53 are in sliding connection with the top end of the base plate 1, connecting grooves 54 are formed in two sides of the two limiting plates 53, inner walls of the four connecting grooves 54 are in sliding connection with the outer wall of the bonding plates 51, sliding connection with sliding blocks 55 are respectively fixed at one ends of the four sliding grooves 55, one sides of the four sliding blocks 55 are respectively fixed with springs 56, one ends of the four springs 56 respectively are respectively fixed at one side of the inner walls of the sliding grooves 52, and the device is convenient for stably placing concrete samples at the top end of the base plate 1, and the device is prevented from damaging the body of workers.

Further as shown in fig. 2, it is worth specifically explaining that the top of the bottom plate 1 is provided with the reinforcing mechanism 6, the reinforcing mechanism 6 includes two fixing plates 61, the bottom ends of the two fixing plates 61 are all fixed with the top of the bottom plate 1, concave holes 62 are all provided on one sides of the two fixing plates 61, the inner walls of the two concave holes 62 are all slidably connected with transverse plates 63, one sides of the two transverse plates 63 are all fixed with one side of the bonding plate 51, and the tightness of connection between the reinforcing limiting plate 53 and the concrete sample is facilitated.

Further as shown in fig. 4, it is worth specifically explaining that the square groove 7 has been seted up on the top of bottom plate 1, and the inner wall bottom mounting of square groove 7 has backing plate 8, and the top bonding of backing plate 8 is connected with backup pad 9, and the outer wall of backup pad 9 and the inner wall sliding connection of square groove 7 are convenient for reduce the impact force that clamp plate 4 caused on bottom plate 1 top when pressing down the concrete sample, the normal use of device of being convenient for.

The scheme comprises the following working processes: in the process of detecting the strength of concrete, the bottom end of the supporting plate 9 is in adhesive connection with the top end of the backing plate 8, the bottom end of the backing plate 8 is fixed with the bottom end of the inner wall of the square groove 7, the outer wall of the supporting plate 9 is connected with the inner wall of the square groove 7 in a sliding clamping manner, the bottom ends of the two adhesive plates 51 are respectively in sliding connection with the top end of the bottom plate 1, the outer wall of the transverse plate 63 is enabled to be connected with the inner wall of the concave hole 62 in a sleeved manner, the bottom ends of the two limiting plates 53 are enabled to be in sliding connection with the outer wall of the bottom plate 1, the outer wall of the sliding block 55 fixed at one end of the inner wall of the connecting groove 54 is enabled to be in sliding connection with the inner wall of the sliding groove 52, the spring 56 fixed at one side of the sliding block 55 is enabled to stretch and retract, the limiting plates 53 are released, the spring 56 is enabled to be enabled to reset, the sliding block 55 is pulled to move until one sides of the two limiting plates 53 are tightly attached to the outer wall of the concrete sample, and the hydraulic cylinder 3 is controlled to drive the pressing plate 4 to move downwards until the bottom end of the pressing plate 4 is enabled to be in pressing connection with the top end of the concrete sample until the concrete sample is crushed.

The working process can be as follows: through the mutually installed cooperation of bonding plate 51, limiting plate 53, slider 55, spring 56, realize that the device is settled on the top of bottom plate 1 to the concrete sample is stable, avoid the device to the harm that the concrete sample processing caused the staff health to effectively improve the device better spacing installation to the concrete sample, improve the practicality of device.

Further, as shown in fig. 1, 2 and 4, it is worth specifically explaining that the inner walls of the four sliding grooves 52 are all fixed with the cross bars 57, the outer walls of the four cross bars 57 are all slidably connected with the inner walls of the sliding blocks 55, and the outer walls of the four cross bars 57 are slidably connected with the inner walls of the springs 56, so that the sliding blocks 55 can slide on the inner walls of the sliding grooves 52 better, and the using effect of the device is improved.

Further, as shown in fig. 3, it is worth specifically explaining that the connecting holes 64 are formed on one side of the two transverse plates 63, the connecting posts 65 are sleeved on one side of the two connecting holes 64, one side of the two connecting posts 65 is connected with one side of the fixing plate 61 in a sliding and bonding manner, the outer walls of the two connecting posts 65 are connected with the two concave plates 66 in a sliding and clamping manner, one side of the four concave plates 66 is connected with one side of the connecting posts 65 in a bonding manner, the inner walls of the four concave plates 66 are provided with grooves 67, the inner walls of the four grooves 67 are connected with bonding blocks 68 in a clamping manner, one side of the four bonding blocks 68 is connected with one side of the bonding plate 51 in a bonding manner, and the stability of the sliding and clamping connection between the outer walls of the two transverse plates 63 and the inner walls of the concave holes 62 is facilitated, so that the limiting effect of the limiting plate 53 and the concrete sample is improved.

To sum up: through the mutual installation and matching of the bonding plate 51, the limiting plate 53, the sliding block 55 and the spring 56, the device is used for stably placing the concrete sample at the top end of the bottom plate 1, and the harm of the device to the body of a worker caused by the processing of the concrete sample is avoided, so that the device is effectively improved to better limit the concrete sample, and the practicability of the device is improved;

through the mutually installed cooperation of fixed plate 61, diaphragm 63, concave plate 66 and bonding piece 68, realize fastening between one side of limiting plate 53 and the concrete sample and link up to do benefit to the better control pneumatic cylinder 3 of staff and drive clamp plate 4 and carry out intensity detection to the concrete sample, be convenient for improve the result of use of device.

The hydraulic cylinder 3 can be purchased in the market, and the hydraulic cylinder 3 is provided with a power supply, which belongs to the mature technology in the field and is fully disclosed, so that the description is not repeated.

Claims (6)

1. The utility model provides a building engineering quality concrete detects and uses intensity detector, includes bottom plate (1), its characterized in that, the outer wall of bottom plate (1) is fixed with support (2), the one end of support (2) is fixed with pneumatic cylinder (3), the bottom mounting of pneumatic cylinder (3) has clamp plate (4), the top of bottom plate (1) is equipped with stop gear (5), stop gear (5) include two bonding board (51), two the bottom of bonding board (51) all with the top sliding connection of bottom plate (1), two spout (52) have all been seted up on the top of bonding board (51), the top sliding connection of bottom plate (1) has two limiting plates (53), two spread groove (54) have all been seted up to the both sides of limiting plate (53), four the inner wall of spread groove (54) all with the outer wall sliding connection of bonding board (51), four the inner wall of spout (52) all sliding connection has slider (55), four the top of slider (55) all has the inner wall of spread groove (54) and the equal one side of four (56) and one side of spring (56), one side of four spring (56) all are fixed.

2. The strength detector for detecting quality concrete of construction engineering according to claim 1, wherein: the top of bottom plate (1) is equipped with strengthening mechanism (6), strengthening mechanism (6) are including two fixed plates (61), two the bottom of fixed plate (61) is all fixed with the top of bottom plate (1), two shrinkage pool (62) have all been seted up to one side of fixed plate (61), two the equal sliding connection of inner wall of shrinkage pool (62) has diaphragm (63), two one side of diaphragm (63) is all fixed with one side of adhesion plate (51).

3. The strength detector for detecting quality concrete of construction engineering according to claim 1, wherein: square groove (7) have been seted up on the top of bottom plate (1), the inner wall bottom mounting of square groove (7) has backing plate (8), the top bonding of backing plate (8) is connected with backup pad (9), the outer wall of backup pad (9) and the inner wall sliding connection of square groove (7).

4. The strength detector for detecting quality concrete of construction engineering according to claim 1, wherein: the inner walls of the four sliding grooves (52) are respectively fixed with a cross rod (57), the outer walls of the four cross rods (57) are respectively connected with the inner walls of the sliding blocks (55) in a sliding mode, and the outer walls of the four cross rods (57) are respectively connected with the inner walls of the springs (56) in a sliding mode.

5. The strength detector for detecting quality concrete of construction engineering according to claim 2, wherein: connecting holes (64) are formed in one side of each transverse plate (63), connecting columns (65) are sleeved on the inner walls of the connecting holes (64), and one side of each connecting column (65) is in sliding bonding connection with one side of each fixing plate (61).

6. The strength detector for detecting quality concrete of construction engineering according to claim 5, wherein: two the outer wall of spliced pole (65) all slides the card and is connected with two recess boards (66), four one side of recess board (66) all with one side bonding connection of spliced pole (65), four recess board (66) inner wall one side is all seted up flutedly (67), four the inner wall of recess (67) all the card is connected with bonding piece (68), four one side of bonding piece (68) all with one side bonding connection of bonding board (51).