CN215894585U - Pier water area water quality detection device based on bridge design - Google Patents

Abstract

The utility model relates to the technical field of water quality detection equipment, in particular to pier water area water quality detection equipment based on bridge design, which comprises a base, wherein a box body is fixedly arranged on the upper surface of the base, an installation opening is formed in the box body, a connecting disc is fixedly arranged on the surface of the bottom of the installation opening, fixing components are arranged on the upper surface of the connecting disc in a sliding fit mode, the two fixing components are symmetrical about the center of the connecting disc, the connecting disc is positioned under a detection head, a micro cylinder is fixedly arranged on the upper surface of the detection head, the upper end of the micro cylinder is fixedly connected with the top of the installation opening, a display screen is arranged on the surface of the front end of the box body, a PLC control panel is further arranged on the surface of the front end of the box body close to the display screen, and the micro cylinder, the detection head and the display screen are electrically connected. The two abutting blocks move towards the center of the connecting disc, so that the effect of abutting and fixing the detection cups is realized, and the detection cups with most specifications can be fixed.

Description

Pier water area water quality detection device based on bridge design

Technical Field

The utility model relates to the technical field of water quality detection equipment, in particular to pier water area water quality detection equipment based on bridge design.

Background

Bridge construction is a great project, and is also a project for serving people, in the bridge design process, links such as site terrain data acquisition and analysis are included, detection on site water areas is needed before the construction position of a bridge pier is determined, adverse natural phenomena such as swampiness, salinization, landslide and ground settlement can be caused by water quality change, water detection becomes particularly important, the decision of subsequent bridge design is influenced, water quality in the bridge pier area is usually extracted in the bridge design detection link, the bridge pier area is placed into a detection cup to be matched with detection equipment for use, the detection head is controlled by operating a PLC control panel to detect the water quality in the detection cup, and finally data can be displayed and read on a display screen.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide pier water area water quality detection equipment based on bridge design, which can effectively solve the problems in the background technology.

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

the utility model provides a pier waters water quality testing equipment based on bridge design, includes the base, fixed surface installs the box on the base, the installing port has been seted up to box inside, installing port bottom fixed surface installs the connection pad, fixed subassembly, two are installed to connection pad upper surface sliding fit fixed subassembly is with connection pad central symmetry, the connection pad is located under the detection head, fixed surface installs miniature cylinder on the detection head, miniature cylinder upper end and installing port top fixed connection, box front end surface mounting has the display screen, the front end surface that the box is close to the display screen still installs the PLC control panel, PLC control panel miniature cylinder, detection head, display screen electric connection.

Preferably, the fixing assembly comprises a bolt and a spring, and one end of the bolt is installed in the connecting block.

Preferably, the lower surface of the connecting block is fixedly connected with the connecting disc, and one end of the connecting block is fixedly connected with the spring.

Preferably, one end of the bolt close to the center of the connecting disc is tightly abutted to the rubber block, and one end of the spring close to the rubber block is fixedly connected with the abutting block.

Preferably, one end of the rubber block is fixedly connected with the abutting block, and the lower surface of the abutting block is fixedly connected with the sliding block.

Preferably, the bottom of the sliding block is slidably mounted in a sliding groove, and the sliding groove is formed in the connecting disc.

Preferably, an arc opening is formed in one end of each of the abutting blocks, and the two abutting blocks are symmetrical with the center of the connecting disc.

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

the detection cup filled with water is placed on the connecting disc, the two bolts are screwed, the detection cup can move towards the central position of the connecting disc in the connecting block after the bolts are screwed, after the bolts move to be in contact with the rubber block, the rubber block can be pushed to enable the abutting block to move towards the central position of the connecting disc, meanwhile, the spring can be pulled to generate a reaction when the abutting block moves, the sliding block can be driven to slide in the sliding groove, the resistance of the abutting block is reduced when the abutting block moves, the movement is smoother, after the abutting block moves to enable the arc-shaped opening to be in contact with the detection cup, the arc-shaped opening is designed in an arc shape, the outer side of the detection cup is better surrounded, the two abutting blocks continue to move towards the central position of the connecting disc, the detection cup is abutted and fixed, similarly, the bolts are controlled to rotate reversely, the spring reaction pulls the abutting block to return, and the arc-shaped opening is separated from the detection cup to take down the detection cup; the effect of supporting and fixing the detection cups is achieved, the detection cups with multiple specifications can be fixed simultaneously, and the detection cup is more convenient to use.

Drawings

FIG. 1 is a schematic view of the overall structure of a pier water area water quality detection device based on bridge design according to the present invention;

FIG. 2 is a schematic structural view of a fixing component of the pier water area water quality detection device based on bridge design;

FIG. 3 is a schematic diagram of an enlarged structure at the position A of the pier water area water quality detection device based on bridge design;

FIG. 4 is a schematic diagram of an enlarged structure at the position B of the pier water area water quality detection device based on bridge design.

In the figure: 1. a base; 2. a box body; 3. an installation port; 4. a micro cylinder; 5. a detection head; 6. a fixing assembly; 601. a bolt; 602. a spring; 603. a propping block; 604. an arc-shaped opening; 605. a slider; 606. A rubber block; 7. a display screen; 8. a PLC control panel; 9. a connecting disc; 10. a chute; 11. and (4) connecting the blocks.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Examples

As shown in fig. 1-4, a pier waters water quality testing equipment based on bridge design, including base 1, fixed surface installs box 2 on base 1, installing port 3 has been seted up to box 2 inside, fixed surface installs connection pad 9 bottom installing port 3, fixed subassembly 6 is installed to the sliding fit of surface on connection pad 9, two fixed subassemblies 6 are with connection pad 9 centrosymmetry, connection pad 9 is located under detection head 5, fixed surface installs miniature cylinder 4 on detection head 5, miniature cylinder 4 upper end and 3 top fixed connection of installing port, box 2 front end surface mounting has display screen 7, PLC control panel 8 is still installed to the front end surface that box 2 is close to display screen 7, 8 miniature cylinders 4 of PLC control panel, detection head 5, 7 electric connection of display screen.

In this embodiment, the test cup containing water is placed on the connecting plate 9, the two bolts 601 are screwed, after the bolt 601 is screwed, the bolt 601 moves to the central position of the connecting disc 9 in the connecting block 11, and after the bolt 601 moves to be contacted with the rubber block 606, the rubber block 606 is pushed to enable the abutting block 603 to move to the central position of the connecting disc 9, meanwhile, when the resisting block 603 moves, the spring 602 is pulled to generate a reaction, and the sliding block 605 is driven to slide in the sliding groove 10, so that the resistance of the resisting block 603 is reduced when the resisting block moves, the movement is smoother, when the abutting blocks 603 move to enable the arc-shaped opening 604 to be in contact with the detection cup, the arc-shaped opening 604 adopts an arc-shaped design to better surround the outer side of the detection cup, and as the two abutting blocks 603 continue to move to the central position of the connecting disc 9, the detection cup is tightly propped and fixed, similarly, the bolt 601 is controlled to rotate reversely, the propping block 603 is pulled to return by the reaction of the spring 602, and the arc-shaped opening 604 and the detection cup are separated and taken down; the effect of tightly supporting and fixing the detection cup is achieved, the detection cups of multiple specifications can be fixed, the PLC control board 8 can be operated at the moment, the micro cylinder 4 pushes the detection head 5 to move downwards into the detection cup to perform detection work, and finally detected data can be displayed on the display screen 7 to be read.

In the present application, the fixing assembly 6 includes a bolt 601 and a spring 602, one end of the bolt 601 is installed in the connecting block 11, and by screwing the two bolts 601, the bolt 601 will move to the center position of the connecting disc 9 in the connecting block 11 after being screwed.

In this application, connecting block 11 lower surface and connection pad 9 fixed connection, connecting block 11 one end fixed connection spring 602 is put into through the detection cup that is equipped with water and is fixed it on connection pad 9, waits for next detection.

In this application, the bolt 601 is close to the one end at connection pad 9 center and supports tightly with rubber piece 606, and the one end that spring 602 is close to rubber piece 606 with support tight piece 603 fixed connection, through remove to contact the back with rubber piece 606 at bolt 601, can promote rubber piece 606 and make and support tight piece 603 and move to connection pad 9 central point, can stimulate spring 602 to produce the reaction when supporting tight piece 603 and moving simultaneously.

In this application, rubber block 606 one end with support tight piece 603 fixed connection, support tight piece 603 lower surface fixedly connected with slider 605, through rubber block 606 and bolt 601 contact, because of the soft nature of rubber block 606, tight piece 603 is supported in better protection, can rotate on rubber block 606 when bolt 601 removes simultaneously, also can reduce frictional sound.

In this application, slider 605 bottom slidable mounting is in spout 10, and spout 10 sets up in connection pad 9, still can drive slider 605 to slide in spout 10 through supporting tight piece 603 removes, makes supporting tight piece 603 when removing the resistance diminish and remove more smoothly.

In the application, an arc-shaped opening 604 is formed in one end of each of the abutting blocks 603, the two abutting blocks 603 are centrosymmetric with the connecting disc 9, after the abutting blocks 603 move to enable the arc-shaped openings 604 to be in contact with the detection cup, the arc-shaped openings 604 adopt an arc-shaped design to better surround the outer side of the detection cup, the two abutting blocks 603 continue to move towards the central position of the connecting disc 9 to abut and fix the detection cup, and similarly, the control bolt 601 reversely rotates, the spring 602 reversely pulls the abutting blocks 603 to return to the original position to enable the arc-shaped openings 604 to be separated from the detection cup to take the detection cup; the effect of tightly supporting and fixing the detection cup is realized, the detection cups with multiple specifications can be fixed, and the use is more convenient.

A pier waters water quality testing equipment's theory of operation based on bridge design:

when in use, the detection cup filled with water is firstly put on the connecting disc 9, the two bolts 601 are screwed, after the bolt 601 is screwed, the bolt 601 moves to the central position of the connecting disc 9 in the connecting block 11, and after the bolt 601 moves to be contacted with the rubber block 606, the rubber block 606 is pushed to enable the abutting block 603 to move to the central position of the connecting disc 9, meanwhile, when the resisting block 603 moves, the spring 602 is pulled to generate a reaction, and the sliding block 605 is driven to slide in the sliding groove 10, so that the resistance of the resisting block 603 is reduced when the resisting block moves, the movement is smoother, when the abutting blocks 603 move to enable the arc-shaped opening 604 to be in contact with the detection cup, the arc-shaped opening 604 adopts an arc-shaped design to better surround the outer side of the detection cup, and as the two abutting blocks 603 continue to move to the central position of the connecting disc 9, the detection cup is tightly propped and fixed, similarly, the bolt 601 is controlled to rotate reversely, the propping block 603 is pulled to return by the reaction of the spring 602, and the arc-shaped opening 604 and the detection cup are separated and taken down; the effect of tightly supporting and fixing the detection cup is achieved, the detection cups of multiple specifications can be fixed, the PLC control board 8 can be operated at the moment, the micro cylinder 4 pushes the detection head 5 to move downwards into the detection cup to perform detection work, and finally detected data can be displayed on the display screen 7 to be read.

It should be noted that:

the model of the miniature cylinder 4 is Puerjia SC;

the model of the detection head 5 is AZ 8601;

the model number of the display screen 7 is B701-CB.

The power supply of the PLC control board 8, the micro cylinder 4, the detection head 5, the display 7 and the principle thereof will be clear to those skilled in the art and will not be described in detail herein.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides a pier waters water quality testing equipment based on bridge design, includes base (1), its characterized in that: fixed surface installs box (2) on base (1), installing port (3) have been seted up to box (2) inside, installing port (3) bottom fixed surface installs connection pad (9), fixed subassembly (6), two are installed to connection pad (9) upper surface sliding fit fixed subassembly (6) with connection pad (9) central symmetry, connection pad (9) are located under detection head (5), detect first (5) upper surface fixed mounting and have miniature cylinder (4), miniature cylinder (4) upper end and installing port (3) top fixed connection, box (2) front end surface mounting has display screen (7), PLC control panel (8) are still installed to the front end surface that box (2) are close to display screen (7), PLC control panel (8) miniature cylinder (4), detection head (5), The display screen (7) is electrically connected.

2. The bridge design pier water area water quality detection device based on the claim 1 is characterized in that: the fixing assembly (6) comprises a bolt (601) and a spring (602), and one end of the bolt (601) is installed in the connecting block (11).

3. The bridge design pier water area water quality detection device based on the claim 2 is characterized in that: connecting block (11) lower surface and connection pad (9) fixed connection, connecting block (11) one end fixed connection spring (602).

4. The bridge design pier water area water quality detection device based on the claim 2 is characterized in that: one end of the bolt (601) close to the center of the connecting disc (9) is tightly abutted to the rubber block (606), and one end of the spring (602) close to the rubber block (606) is fixedly connected with the abutting block (603).

5. The bridge design pier water area water quality detection device based on claim 4, characterized in that: one end of the rubber block (606) is fixedly connected with the abutting block (603), and the lower surface of the abutting block (603) is fixedly connected with a sliding block (605).

6. The bridge design pier water area water quality detection device based on claim 5, characterized in that: the bottom of the sliding block (605) is slidably arranged in a sliding groove (10), and the sliding groove (10) is arranged in the connecting disc (9).

7. The bridge design pier water area water quality detection device based on claim 5, characterized in that: an arc opening (604) is formed in one end of each of the abutting blocks (603), and the two abutting blocks (603) are centrosymmetric through the connecting disc (9).

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