CN219104127U - Water meter flow detection device - Google Patents

Abstract

The utility model discloses a water meter flow detection device which comprises a water tank, wherein two workbenches are fixedly connected to two sides of the water tank respectively, a water tank is arranged below the workbenches, a hydraulic cylinder is connected to the workbenches through a fixing frame, a sliding rail is arranged on the workbenches, a sliding mounting frame is arranged on the outer sides of the sliding rail in a sliding mode, the cross section of the sliding mounting frame is U-shaped, one side wall of the sliding mounting frame is connected with the output end of the hydraulic cylinder through a nut, a compression pipe is connected to the side wall of the other side of the sliding mounting frame through the nut, a telescopic pipe is connected to the tail of the compression pipe in a communicating mode, and a water tank joint is connected to the telescopic pipe through a flowmeter.

Description

Water meter flow detection device

Technical Field

The utility model relates to the technical field of water meter detection devices, in particular to a water meter flow detection device.

Background

After the water meter is processed and assembled, the water meter can be delivered for sale after various aspects of inspection before being delivered out of the field, especially the most main flow detection and calibration are carried out, after the flow detection is carried out on the water meter to be delivered, the water meter without problems can be delivered, the meter with inaccurate reading needs to be regulated and calibrated for re-detection, and the water meter can be delivered for sale after meeting the requirement.

At present, the measuring method in the prior art is various, according to different production, detection environments and conditions, a plurality of detection modes and devices are derived, wherein the measuring method comprises a working device for detecting flow of a single water meter, and has the advantages of one-to-one detection of water meter flow data, higher detection result precision, lower efficiency due to time consumption and labor consumption, and also comprises a device for detecting the water meters in parallel connection and series connection, and has the advantages of being capable of detecting flow data of a plurality of water meters at one time, and having the advantages that due to structural reasons, most of operation processes of the device are that the water meters are installed, detected and detached one by one station, in the process, the detection function of the whole device is stopped, the whole device is in an inactive state, the device is installed to detect, and then detached and cleaned, the consumed time is not short, the device cannot execute detection tasks in the time, resource waste is caused, and the working efficiency is affected.

Therefore, the detection device which can continuously detect in the running process of the equipment and reduce the detection interval time so as to greatly improve the detection efficiency is the problem to be solved by the inventor.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model aims to provide a water meter flow detection device which can realize the function of continuously detecting in the running process of equipment and reducing the detection interval time so as to greatly improve the detection efficiency.

The technical scheme adopted by the device is as follows: the utility model provides a water gauge flow detection device, it includes the basin, two fixedly connected with two workstations respectively in the both sides of basin, two the below of workstation is provided with the water tank, be connected with the pneumatic cylinder through the mount on the workstation, be provided with the slide rail on the workstation, the outside slip of slide rail is provided with the slide mounting bracket, the cross section of slide mounting bracket is the U-shaped, the one end lateral wall of slide mounting bracket is connected with the output of pneumatic cylinder through the nut and the opposite side lateral wall is connected with the clamp pipe through the nut, the afterbody of clamp pipe is connected with the flexible pipe, the flexible pipe is connected with the water tank joint through the flowmeter, the water tank joint passes the terminal surface of workstation and is connected with the water tank through the water pump, be provided with the connecting pipe on the lateral wall of water tank and be linked together through the connecting pipe with the basin inboard, the edge of workstation is provided with the sliding sleeve, be provided with the supporting seat on the terminal surface that the workstation is close to edge, the supporting seat includes the bottom plate and the bottom plate is connected with the workstation through the bolt, be connected with the stand on the bottom plate, be connected with between two supporting seats through the high frame relatively, two water gauge wire guide, be provided with the tip wire guide groove, be connected with the tip through the high side groove, be connected with the end of a plurality of screw thread groove, be connected with the top groove, be provided with the tip end groove, the end of a thread groove is connected with the high side groove, the end of a side groove is connected with the end of a flexible wire guide sleeve, the inner side of the probe mounting frame is provided with a camera probe;

the water meter installing frame comprises four parallel sliding beams, the two ends of each sliding beam are respectively connected with a front end plate and a rear end plate, the edges of the front end plate and the rear end plates are respectively connected with a sliding strip, a water meter locating frame is slidably arranged between the sliding beams, the water meter locating frame comprises a base plate, the two ends of the base plate are respectively connected with a sliding block, the middle part of the base plate is provided with a through hole, the inner side of the through hole is provided with an installation clamping groove, the sliding blocks are in sliding fit with the sliding beams, and the inner side of each sliding strip is provided with a limiting pin through a spring pin in a rotating mode.

Further, the upper end face of the overhead is provided with a concave groove which is concave inwards, and a through groove which is communicated with the groove is formed at the contact part of the overhead and the wire groove.

Further, the lens of the camera probe is aligned with the mounting position of the water meter on the water meter mounting frame.

Further, the bottom surface height of basin is higher than three quarters of water tank height, the mesh board is installed to the basin inboard, the height is 10cm between mesh board and the inboard bottom surface of basin.

Further, sliding sleeve and draw runner sliding fit, the both ends of draw runner all have spacing through bolted connection, the height of spacing is higher than the draw runner.

Further, the front end plate is arranged at one end far away from the oil station and the rear end plate is arranged at one end close to the oil station, the sliding block is limited by the side end face of the front end plate, the height of the rear end plate does not influence the sliding motion of the sliding block on the sliding beam, the sliding block can be separated from the sliding beam from the edge of the rear end plate, and the side wall of the sliding block, which is positioned at the lowest position, is in threaded connection with a fixing bolt.

Further, the central line of the limiting pin is opposite to the central line of the sliding beam, and the pressing pipe is coaxial with the mounting clamping groove when the limiting pin is in contact with the side wall of the sliding sleeve.

Further, the control box inboard is provided with the controller, the controller electricity is connected with the touch-sensitive screen, the controller is connected with two water pumps, two flowmeter, all camera probes electricity respectively.

Further, a stepped hole is formed in the inner side of the installation clamping groove, and a silica gel sealing gasket is arranged on the stepped end face of the stepped hole.

Further, the outside of the tail of the compacting tube is connected with a flange structure, the flange structure is fixedly connected with the sliding installation frame through bolts, and the tail of the compacting tube penetrates through the side plate of the sliding installation frame.

The device has the beneficial effects that:

1. the utility model adopts the water meter mounting frame which can slide on the equipment to bear the water meter to be detected, the mounting positions of the array are provided with a plurality of rows of water meters, each row is connected in series for detection when the detection is carried out, the other two rows can be the water meters which are detected to be disassembled and can not be detected for standby, the three rows of water meters alternately carry out detection operation, the water meters which are detected are disassembled from the side and the water meters to be detected are clamped again when the detection is carried out in one row, the station conversion is realized by pushing the water meter mounting frame, the water meter replacement is carried out by reasonably utilizing the detection time of the machine, the idle time of the equipment is greatly reduced, the continuous detection in the operation of the equipment is realized, and the detection interval time is reduced, thereby greatly improving the detection efficiency.

Drawings

Fig. 1 is a structural view of the present utility model.

Fig. 2 is a partially enlarged view at a in fig. 1.

Fig. 3 is a structural view of the water meter mounting bracket of the present utility model.

Fig. 4 is a view showing the structure of the water meter positioning frame of the utility model.

Fig. 5 is a structural view of the sliding beam of the present utility model.

Fig. 6 is a view showing the structure of the stopper pin according to the present utility model.

Reference numerals illustrate: 1-a water tank; 2-a workbench; 3-high pressure oil pipe; 4-fixing frames; 5-a hydraulic cylinder; 6-sliding rails; 7-a sliding mounting frame; 8-a flow meter; 9-a tank joint; 10-telescoping tube; 11-compacting the tube; 12-sliding sleeve; 13-a water meter mounting rack; 14-a slider; 15-overhead; 16-fixing sleeve; 17-jackscrews; 18-flexible connection; 19-a probe mounting rack; 20-a camera probe; 21-a fixing bolt; 22-oil station; 23-a supporting seat; 24-wire slots; 25-a control box; 26-slide bar; 27-a limiting pin; 28-mounting a clamping groove; 29-a sliding beam.

Detailed Description

The apparatus of the present utility model is further illustrated below in conjunction with specific examples, which are provided to illustrate the utility model and are not intended to limit the scope of the utility model. Further, it is understood that various changes and modifications may be made by those skilled in the art after reading the teachings of the apparatus of the present utility model, and such equivalents are intended to fall within the scope of the claims appended hereto.

Embodiment one:

referring to fig. 1 to 6, which are a structural view of the present utility model, a partial enlarged view at a position a in fig. 1, a structural view of a water meter mounting frame 13, a structural view of a water meter positioning frame, a structural view of a sliding beam 29, and a structural view of a limiting pin 27, a water meter flow rate detecting device includes a water tank 1 for receiving running water generated in a detection process and recovering circulating water when the water meter is detached, two work tables 2 are fixedly connected to both sides of the water tank 1, respectively, the work tables 2 are used as a table top for supporting a hydraulic cylinder 5 and the like, and are fixedly installed with the water tank 1 by adopting a frame structure to ensure strength and stability of the whole structure, water tanks are arranged below the two work tables 2, are arranged below the water tank 1 and are communicated at both ends, and are used for storing the circulating water for measuring the water meter flow rate.

The hydraulic cylinder 5 is connected to the workbench 2 through the fixing frame 4, the sliding rail 6 is arranged on the workbench 2, the sliding mounting frame 7 is arranged on the outer side of the sliding rail 6 in a sliding mode, the cross section of the sliding mounting frame 7 is U-shaped, one end side wall of the sliding mounting frame 7 is connected with the output end of the hydraulic cylinder 5 through a nut, the other side wall of the sliding mounting frame is connected with the compression pipe 11 through the nut, and the sliding mounting frame 7 and the compression pipe 11 connected with the sliding mounting frame 7 are driven to move together through the action of the hydraulic cylinder 5.

The tail of the compacting tube 11 is connected with a telescopic tube 10 through the tail of the compacting tube 11, the telescopic tube 10 is connected with a water tank joint 9 through a flowmeter 8, the water tank joint 9 penetrates through the end face of the workbench 2 and is connected with the water tank through a water pump, the water pump supplies high pressure to the water flow, a connecting pipe is arranged on the side wall of the water tank and is communicated with the inner side of the water tank 1 through the connecting pipe, a sliding sleeve 12 is arranged at the edge of the workbench 2, a supporting seat 23 is arranged on the end face, close to the edge, of the workbench 2, the supporting seat 23 comprises a bottom plate and is connected with the workbench 2 through bolts, an upright post is connected to the bottom plate, the two supporting seats 23 are connected through an overhead 15, a water meter mounting frame 13 is arranged between the two sliding sleeves 12 in a sliding manner, a control box 25 and a wire groove 24 are arranged on the workbench 2 below, the front end of the wire groove 24 is in butt joint with the overhead 15, the tail end of the control box 25 is in butt joint with the control box 25, an oil station 22 is arranged below the control box, the oil station 22 is connected with the hydraulic cylinder 5 through the high-pressure oil pipe 3, a plurality of fixed sleeves 16 are arranged on the side wall of the overhead wire 17 in a sliding manner, a plurality of the fixed wire 17 is connected with the overhead wire 19 through the overhead wire 17, a fixed wire 18 is connected with the overhead wire 18, a probe 19 is connected with the inner side of the probe 18 through a wire, and a flexible wire 18 is connected with a flexible wire 18, and a flexible pick-up device is connected with a probe 18.

The water meter mounting bracket 13 includes four slide beams 29 that parallel arrangement, the both ends of slide beam 29 are connected with front end plate, the back end plate respectively, the edge of front end plate, the back end plate all is connected with draw runner 26, slide between the slide beam 29 is provided with the water meter locating rack, the water meter locating rack includes the base plate, the both ends of base plate all are connected with slider 14, the through-hole has been seted up at the middle part of base plate and the through-hole inboard is provided with installation draw-in groove 28, slider 14 and slide beam 29 sliding fit, the inboard of draw runner 26 is provided with spacer pin 27 through the spring pin rotation, spacer pin 27 can overturn, can regard as the location to use when spacer pin 27 turns over, spacer pin 27 is put flat when not using, the altitude of its up end and the altitude difference that has 1mm of draw runner 26 up end.

The upper end face of the overhead 15 is provided with an inwards concave groove, a contact part of the overhead 15 and the wire groove 24 is provided with a through groove communicated with the groove, a lens of the camera probe 20 is aligned with the mounting position of the water meter on the water meter mounting frame 13, the camera probe 20 is used for intercepting the indication number of the dial of the water meter in detection, and the indication number is compared with a standard value, so that whether a detection result meets the standard is obtained.

The bottom surface height of basin 1 is higher than three quarters of water tank height, and the mesh board is installed to basin 1 inboard, and the height is 10cm between mesh board and the inboard bottom surface of basin 1, when dismantling the water gauge of measuring.

Sliding sleeve 12 and draw runner 26 sliding fit, the both ends of draw runner 26 all have spacing through bolted connection, and the height of spacing is higher than draw runner 26, and sliding sleeve 12 smooth slip realizes the horizontal displacement of water gauge mounting bracket 13 in the spout, and the spacing that is located both sides is used for placing water gauge mounting bracket 13 and breaks away from the scope of sliding sleeve 12 and falls.

The front end plate is arranged at one end far away from the oil station 22 and the rear end plate is arranged at one end close to the oil station 22, the sliding block 14 is limited by the side end face of the front end plate, the sliding movement of the sliding block 14 on the sliding beam 29 is not influenced by the height of the rear end plate, the sliding block 14 can be separated from the sliding beam 29 from the edge of the rear end plate, the side wall of the sliding block 14 positioned at the lowest part is in threaded connection with the fixing bolt 21, after the water meter is installed at all water meter installation positions in a row, in order to ensure that the water meter cannot fall off when the water meter installation frame 13 slides, the sliding block 14 positioned at the tail is fixed by using the fixing bolt 21, and the water meter in the whole row is locked.

The center line of the limiting pin 27 is opposite to the center line of the sliding beam 29, and the pressing pipe 11 is coaxial with the mounting clamping groove 28 when the limiting pin 27 is contacted with the side wall of the sliding sleeve 12.

The controller is arranged on the inner side of the control box 25, the controller is electrically connected with a touch screen, the controller is respectively electrically connected with two water pumps, two flow meters 8 and all the camera probes 20, the pictures intercepted by the camera probes 20 and the data measured by the flow meters 8 are displayed on the touch screen, the frequency converter is controlled by the controller, and the water pump is controlled by the frequency converter, so that the technology most used by the center of the prior art is realized.

The inside of the mounting clamping groove 28 is provided with a stepped hole, a silica gel sealing gasket is arranged on the stepped end face of the stepped hole, and when the end part of the water meter is mounted in the stepped hole, the end part is contacted with the silica gel sealing gasket and is pressed and sealed.

The outside of the tail part of the compacting tube 11 is connected with a flange structure, the flange structure is fixedly connected with the sliding installation frame 7 through bolts, and the tail part of the compacting tube 11 penetrates through the side plate of the sliding installation frame 7.

When the utility model works, the water meter is manually installed, after the three rows of water meters are installed, the three fixing bolts 21 are operated to lock the sliding blocks 14 at the tail end, the water meter installation frame 13 is pushed, the water meter at the most edge row is aligned with the compacting tube 11, the oil station 22 is operated to pressurize, the hydraulic cylinder 5 is driven to push the compacting tube 11, the water meter and the installation clamping groove 28 are compacted and fixed together, a serial passage is formed front and back, the inlet and the outlet of the water meter are sequentially butted, the measurement is convenient, after the water meter is compacted, the water pump is started to supply water to the inner side of the water meter at a set flow rate, the flowmeter 8 is a standard reference value which is taught in advance, whether the water meter is accurate or not is judged by comparing the readings on the flowmeter 8 and the water meter, the readings on the water meter are synchronously grabbed by the camera probe 20 arranged above the water meter, and are displayed for observation by the touch screen.

After the measurement of a row of water meters is finished, the oil station 22 is operated, the pressing pipe 11 is loosened to enable the water meter mounting frame 13 to horizontally move, one of limiting pins 27 arranged in the middle of the sliding strip 26 is turned up to serve as a limiting and positioning standard in the sliding process of the water meter mounting frame 13, the water meter mounting frame 13 is pushed to slide until the limiting pins 27 are in contact with the side wall of the sliding sleeve 12, at this time, the water meter inlet and outlet interfaces and the pressing pipe 11 are coaxial and align the water meter in the middle row, the oil station 22 is operated again to press the water meter to detect the next round, the previously detected water meter is detached and replaced and installed at the time interval, unqualified products are stored, water control and storage are carried out on the qualified products, and the repeated operation is carried out on the water meter detection in a large batch.

According to the utility model, the water meter to be detected is carried by adopting the water meter mounting frame 13 capable of sliding on the equipment, a plurality of rows of water meters are mounted on the mounting positions of the array, each row of water meters is serially connected for detection when the detection is carried out, the other two rows of water meters can be the water meters which are detected to be disassembled, or the water meters which are not detected to stand by, the three rows of water meters alternately carry out detection operation, the water meters which are detected are disassembled from the side and the water meters to be detected are clamped again when the detection is carried out in one row, the station conversion is realized by pushing the water meter mounting frame 13, the water meter replacement is carried out by reasonably utilizing the detection time of the machine, the idle time of the equipment is greatly reduced, the continuous detection in the operation of the equipment is realized, and the detection interval time is reduced, so that the detection efficiency is greatly improved.

Claims (10)

1. A water meter flow detection device is characterized in that: comprises a water tank, two workbenches are respectively and fixedly connected to two sides of the water tank, a water tank is arranged below the two workbenches, a hydraulic cylinder is connected to the workbenches through a fixing frame, a sliding rail is arranged on the workbenches, a sliding mounting frame is arranged on the outer side of the sliding rail in a sliding mode, the cross section of the sliding mounting frame is U-shaped, one side wall of the sliding mounting frame is connected with the output end of the hydraulic cylinder through a nut, the other side wall of the sliding mounting frame is connected with a compression pipe through the nut, the tail of the compression pipe is connected with a telescopic pipe through a flowmeter, the telescopic pipe is connected with a water tank joint through a flowmeter, the water tank joint penetrates through the end face of the workbenches and is connected with the water tank through a water pump, a connecting pipe is arranged on the side wall of the water tank and is communicated with the inner side of the water tank through the connecting pipe, and a sliding sleeve is arranged at the edge of the workbenches, the end face of the workbench, which is close to the edge, is provided with a supporting seat, the supporting seat comprises a bottom plate, the bottom plate is connected with the workbench through bolts, the bottom plate is connected with an upright post, the two supporting seats are connected through an overhead, a water meter mounting frame is slidably arranged between the two sliding sleeves, a control box and a wire slot are arranged on the workbench, which is arranged below the supporting seat, the front end of the wire slot is in butt joint with the overhead and the tail end of the wire slot is in butt joint with the control box, an oil station is arranged below the control box, the oil station is connected with a hydraulic cylinder through a high-pressure oil pipe, a plurality of fixing sleeves are slidably arranged on the overhead, jackscrews are connected on the side walls of the fixing sleeves and are fixedly fastened with the overhead roof through jackscrews, flexible connecting pieces are connected on the side walls of the fixing frames, the tail ends of the flexible connecting pieces are connected with probe mounting frames, the inner side of the probe mounting frame is provided with a camera probe;

the water meter installing frame comprises four parallel sliding beams, the two ends of each sliding beam are respectively connected with a front end plate and a rear end plate, the edges of the front end plate and the rear end plates are respectively connected with a sliding strip, a water meter locating frame is slidably arranged between the sliding beams, the water meter locating frame comprises a base plate, the two ends of the base plate are respectively connected with a sliding block, the middle part of the base plate is provided with a through hole, the inner side of the through hole is provided with an installation clamping groove, the sliding blocks are in sliding fit with the sliding beams, and the inner side of each sliding strip is provided with a limiting pin through a spring pin in a rotating mode.

2. The water meter flow sensing device of claim 1, wherein: the upper end face of the overhead is provided with an inwards concave groove, and the contact part of the overhead and the wire groove is provided with a through groove communicated with the groove.

3. The water meter flow sensing device of claim 1, wherein: the lens of the camera probe is aligned with the mounting position of the water meter on the water meter mounting frame.

4. The water meter flow sensing device of claim 1, wherein: the bottom surface height of basin is higher than three quarters of water tank height, the mesh board is installed to the basin inboard, the height is 10cm between mesh board and the inboard bottom surface of basin.

5. The water meter flow sensing device of claim 1, wherein: the sliding sleeve is in sliding fit with the sliding strip, both ends of the sliding strip are connected with limiting strips through bolts, and the height of the limiting strips is higher than that of the sliding strip.

6. The water meter flow sensing device of claim 1, wherein: the front end plate is arranged at one end far away from the oil station, the rear end plate is arranged at one end close to the oil station, the sliding block is limited by the side end face of the front end plate, the height of the rear end plate does not influence the sliding motion of the sliding block on the sliding beam, the sliding block can be separated from the sliding beam from the edge of the rear end plate, and the side wall of the sliding block, which is positioned at the lowest position, is in threaded connection with a fixing bolt.

7. The water meter flow sensing device of claim 1, wherein: the central line of the limiting pin is opposite to the central line of the sliding beam, and the pressing pipe is coaxial with the mounting clamping groove when the limiting pin is contacted with the side wall of the sliding sleeve.

8. The water meter flow sensing device of claim 1, wherein: the inside controller that is provided with of control box, the controller electricity is connected with the touch-sensitive screen, the controller is connected with two water pumps, two flowmeter, all camera probes electricity respectively.

9. The water meter flow sensing device of claim 1, wherein: the inner side of the installation clamping groove is provided with a stepped hole, and a silica gel sealing gasket is arranged on the stepped end face of the stepped hole.

10. The water meter flow sensing device of claim 1, wherein: the tail outside of compress tightly the pipe is connected with flange structure, flange structure is connected fixedly with the sliding mounting bracket through the bolt, the afterbody of compress tightly the pipe passes the curb plate of sliding mounting bracket.

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