CN214472397U - Pressure testing device for building detection - Google Patents

Abstract

The utility model relates to a building pressure test equipment technical field, and disclose a pressure test device for building detection, solved current material pressure test device for building not have safeguard measure and have the problem of certain potential safety hazard, it includes the base, the pressure test equipment body is installed to one side at base top, and hydraulic telescoping cylinder is installed to one side of pressure test equipment body, and the fixed column is installed to the low side of hydraulic telescoping cylinder, and the press block is installed to the bottom of fixed column, and the middle part of fixed column is installed and is cushioned the link, and the transmission end is installed to the lower part of cushioned the link, and the vertical slot has been seted up at the middle part at base top; this pressure test device for building detection has effectual safeguard measure, can carry out safety protection at the in-process of test to improve the security that test equipment used, this safeguard measure adjusts conveniently simultaneously, easy operation, and safety protection performance is good, can satisfy the user demand of pressure test for the building.

Description

Pressure testing device for building detection

Technical Field

The utility model belongs to the technical field of building pressure test equipment, specifically be a building detects uses pressure test device.

Background

With the economic progress, buildings are built in many cities to meet daily lives of people, and in order to attract people to buy residential houses, a plurality of building manufacturers strictly control building materials, so that a plurality of construction teams introduce a building material pressure testing device.

However, the existing building material pressure testing device has no protective measures in the using process, and because the pressure test can apply larger pressure to the material, the material is often crushed and splashed due to overlarge pressure, so that certain potential safety hazards exist; therefore, improvements are now needed in view of the current situation.

SUMMERY OF THE UTILITY MODEL

To the above situation, for overcoming prior art's defect, the utility model provides a building detects uses pressure test device, the effectual current building materials pressure test device who has solved among the above-mentioned background art does not have safeguard measure and has the problem of certain potential safety hazard.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a pressure test device for building detection, the on-line screen storage device comprises a base, the pressure test equipment body is installed to one side at base top, hydraulic telescoping cylinder is installed to one side of pressure test equipment body, the fixed column is installed to hydraulic telescoping cylinder's low side, the bottom of fixed column is installed and is pressed the briquetting, the mid-mounting of fixed column has the buffering link, the transmission end is installed to the lower part of buffering link, perpendicular groove has been seted up at the middle part at base top, the bottom of transmission end extends to the inside of erecting the groove, the standing groove has been seted up at the middle part of base top opposite side, the platform is installed to the bottom of standing groove, the both sides at standing groove top are all rotated and are installed the shielding plate, the one end of two shielding plates all extends to the inside of erecting the groove and is connected with the transmission end transmission.

Preferably, the buffer connection end comprises a fixed plate, a sleeve and a strong spring, the fixed plate is fixedly mounted on the upper portion of the fixed column, the sleeve and the strong spring are both sleeved on the surface of the fixed column, the strong spring is located between the fixed plate and the sleeve, and two ends of the strong spring are respectively connected with the fixed plate and the sleeve.

Preferably, the transmission end comprises a transverse plate, two racks and a connecting strip, the transverse plate is fixedly installed on the lower portion of the surface of the sleeve, the two racks are fixedly installed at two ends of one side of the bottom of the transverse plate, the bottoms of the two racks extend into the vertical groove, the connecting strip is fixedly installed between the bottoms of the two racks, and the connecting strip is clamped inside the vertical groove in a sliding mode.

Preferably, two one side of shielding plate all rotates through the axis of rotation and installs the both sides at the standing groove top, and the one end of two axes of rotation all extends to the inside of erecting the groove and fixed mounting has the gear, two gears mesh with two racks mutually respectively.

Preferably, the middle parts of the opposite ends of the two shielding plates are provided with semicircular grooves.

Preferably, tempered glass is mounted in the middle of each of the two shielding plates.

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

(1) in the work, the pressure testing device for building detection is provided with effective protective measures through the base, the vertical groove, the fixing plate, the sleeve, the strong spring, the transverse plate, the rack, the connecting strip, the placing groove, the placing table, the baffle plate, the rotating shaft, the gear, the semicircular groove and the toughened glass, so that safety protection can be performed in the testing process, the use safety of testing equipment is improved, meanwhile, the protective measures are convenient to adjust, simple to operate and good in safety protection performance, and the use requirements of pressure testing for buildings can be met;

(2) when in use, the detection material is placed in the placing groove and positioned at the top of the placing table, then the hydraulic telescopic cylinder is opened through the pressure testing equipment body, the hydraulic telescopic cylinder drives the fixed column and the pressing block to move towards the inside of the placing groove, the fixed column can drive the transverse plate to move downwards through the fixed plate, the sleeve and the strong spring, the transverse plate can drive the two racks to move downwards, the two racks can be rotated by the movement of the two racks, thereby the rotating shaft drives the baffle plate to rotate, the baffle plate shields the placing groove, when the baffle plate is completely closed, the pressing block can move downwards continuously to extrude the material at the top of the placing table, simultaneously because the fixed plate can compress powerful spring by the fixed action of sheathed tube to make and press the material pressure detection test that the briquetting can be effectual to placing the bench portion according to the pressure.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

In the drawings:

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

FIG. 2 is a schematic view of the base of the present invention in a partial cross-sectional view;

FIG. 3 is a schematic cross-sectional view of FIG. 1 according to the present invention;

in the figure: 1. a base; 101. a vertical slot; 2. a pressure test apparatus body; 3. a hydraulic telescopic cylinder; 4. fixing a column; 5. a pressing block; 6. a buffer connection end; 601. a fixing plate; 602. a sleeve; 603. a strong spring; 7. a transmission end; 701. a transverse plate; 702. a rack; 703. a connecting strip; 8. a placement groove; 9. a placing table; 10. a shielding plate; 1001. a rotating shaft; 1002. a gear; 11. a semicircular groove; 12. and (4) tempering the glass.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments; based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the first embodiment, as shown in fig. 1 to 3, the present invention comprises a base 1, a pressure testing device body 2 is installed on one side of the top of the base 1, a hydraulic telescopic cylinder 3 is installed on one side of the pressure testing device body 2, a fixing column 4 is installed at the lower end of the hydraulic telescopic cylinder 3, a pressing block 5 is installed at the bottom of the fixing column 4, a buffer connecting end 6 is installed at the middle of the fixing column 4, a transmission end 7 is installed at the lower part of the buffer connecting end 6, a vertical slot 101 is formed at the middle of the top of the base 1, the bottom of the transmission end 7 extends into the vertical slot 101, a placing slot 8 is formed at the middle of the other side of the top of the base 1, a placing table 9 is installed at the bottom of the placing slot 8, through the arrangement of the placing slot 8 and the placing table 9, a detection material can be effectively placed, a shielding plate 10 is rotatably installed on both sides of the top of the placing slot 8, through the arrangement of the shielding plate 10, can effectually cover the protection to standing groove 8, the one end of two shielding plates 10 all extends to the inside of erecting groove 101 and is connected with the transmission of transmission end 7.

In the second embodiment, based on the first embodiment, as shown in fig. 3, the buffer connection end 6 includes a fixing plate 601, a sleeve 602, and a strong spring 603, the fixing plate 601 is fixedly installed on the upper portion of the fixing post 4, the sleeve 602 and the strong spring 603 are both sleeved on the surface of the fixing post 4, the strong spring 603 is located between the fixing plate 601 and the sleeve 602, and both ends of the strong spring 603 are respectively connected to the fixing plate 601 and the sleeve 602, so that the connection can be effectively performed and the buffer function is provided.

Third embodiment, on the basis of the first embodiment, as shown in fig. 2 and 3, the driving end 7 includes a horizontal plate 701, two racks 702 and a connecting bar 703, the horizontal plate 701 is fixedly installed at the lower portion of the surface of the sleeve 602, the two racks 702 are fixedly installed at two ends of one side of the bottom of the horizontal plate 701, bottoms of the two racks 702 extend into the vertical slot 101, the connecting bar 703 is fixedly installed between bottoms of the two racks 702, and the connecting bar 703 is slidably engaged with the inside of the vertical slot 101, so that the connection and the movement can be effectively performed.

Fourth embodiment, on the basis of the first embodiment, as shown in fig. 2, one side of each of the two shielding plates 10 is rotatably installed on both sides of the top of the placement groove 8 through a rotating shaft 1001, one end of each of the two rotating shafts 1001 extends into the vertical groove 101 and is fixedly installed with a gear 1002, and the two gears 1002 are respectively engaged with the two racks 702, so that the shielding plates 10 can be effectively adjusted in rotation.

Fifth, on the basis of the first embodiment, as shown in fig. 2, the middle parts of the opposite ends of the two shielding plates 10 are respectively provided with a semicircular groove 11, so that the fixing column 4 can be effectively sealed.

Sixth embodiment, on the basis of the first embodiment, as shown in the figure, the tempered glass 12 is mounted in the middle of each of the two shielding plates 10, so that the inside of the placing groove 8 can be effectively observed.

The working principle is as follows: when the device is used, a detection material is placed in the placing groove 8 and positioned at the top of the placing table 9, then the hydraulic telescopic cylinder 3 is opened through the pressure testing device body 2, the hydraulic telescopic cylinder 3 drives the fixed column 4 and the pressing block 5 to move towards the inside of the placing groove 8, the fixed column 4 drives the transverse plate 701 to move downwards through the fixed plate 601, the sleeve 602 and the strong spring 603, the transverse plate 701 moves downwards to drive the two racks 702 to move, the two racks 702 move to rotate the two gears 1002, so that the rotating shaft 1001 drives the shielding plate 10 to rotate, the shielding plate 10 shields the placing groove 8, after the shielding plate 10 is completely closed, the pressing block 5 continues to move downwards to extrude the material at the top of the placing table 9, and meanwhile, the fixed plate 601 compresses the strong spring 603 due to the immobility of the sleeve 602, thereby enabling the pressing block 5 to effectively detect and test the pressure of the material on the top of the placing table 9.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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 building detects uses pressure test device, includes base (1), its characterized in that: pressure test equipment body (2) are installed to one side at base (1) top, hydraulic telescoping cylinder (3) are installed to one side of pressure test equipment body (2), fixed column (4) are installed to the low side of hydraulic telescoping cylinder (3), press piece (5) are installed to the bottom of fixed column (4), the mid-mounting of fixed column (4) has buffering link (6), transmission end (7) are installed to the lower part of buffering link (6), erect groove (101) have been seted up at the middle part at base (1) top, the bottom of transmission end (7) extends to the inside of erecting groove (101), standing groove (8) have been seted up at the middle part of base (1) top opposite side, standing platform (9) are installed to the bottom of standing groove (8), the both sides at standing groove (8) top are all rotated and are installed shielding plate (10), the one end of two shielding plate (10) all extends to the inside of erecting groove (101) and is connected with transmission end (7) transmission.

2. The pressure test device for building detection according to claim 1, characterized in that: buffer connection end (6) are including fixed plate (601), sleeve pipe (602) and powerful spring (603), and fixed plate (601) fixed mounting is on the upper portion of fixed column (4), and sleeve pipe (602) and powerful spring (603) all cup joint on the surface of fixed column (4), and powerful spring (603) are located between fixed plate (601) and sleeve pipe (602), and the both ends of powerful spring (603) are connected with fixed plate (601) and sleeve pipe (602) respectively.

3. The pressure test device for building detection according to claim 1, characterized in that: the transmission end (7) comprises a transverse plate (701), two racks (702) and a connecting strip (703), the transverse plate (701) is fixedly installed on the lower portion of the surface of the sleeve (602), the two racks (702) are fixedly installed at two ends of one side of the bottom of the transverse plate (701), bottoms of the two racks (702) extend into the vertical groove (101), the connecting strip (703) is fixedly installed between the bottoms of the two racks (702), and the connecting strip (703) is in sliding clamping connection with the inside of the vertical groove (101).

4. The pressure test device for building detection according to claim 1, characterized in that: one side of each of the two shielding plates (10) is rotatably installed on two sides of the top of the placement groove (8) through a rotating shaft (1001), one end of each of the two rotating shafts (1001) extends to the inside of the vertical groove (101) and is fixedly provided with a gear (1002), and the two gears (1002) are respectively meshed with the two racks (702).

5. The pressure test device for building detection according to claim 1, characterized in that: the middle part of one end of each of the two shielding plates (10) opposite to each other is provided with a semicircular groove (11).

6. The pressure test device for building detection according to claim 1, characterized in that: tempered glass (12) is arranged in the middle of each of the two shielding plates (10).

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