CN115013634A

CN115013634A - Pipeline pressure detection system

Info

Publication number: CN115013634A
Application number: CN202210468007.0A
Authority: CN
Inventors: 袁潇; 屈智明; 闫立雅; 姜长波; 李卫平; 张博
Original assignee: Beijing Taihejia Technology Co ltd
Current assignee: Beijing Taihejia Technology Co ltd
Priority date: 2022-04-29
Filing date: 2022-04-29
Publication date: 2022-09-06
Anticipated expiration: 2042-04-29
Also published as: CN115013634B

Abstract

The invention relates to a pipeline pressure detection system, which relates to the technical field of pressure detection and comprises a pipeline and a pressure sensor positioned in the pipeline, wherein a slide rail is arranged in the pipeline, a slide block is arranged on the slide rail in a sliding manner, the pressure sensor is arranged on the slide block, a group of mounting blocks are symmetrically arranged on the slide rail, a screw rod is rotatably arranged between the mounting blocks, the slide block is in threaded connection with the screw rod, a rotating assembly is arranged on the pipeline, and the rotating assembly is used for driving the screw rod to rotate. The pressure detection device has the effects of improving the detection range and enhancing the pressure detection accuracy.

Description

Pipeline pressure detection system

Technical Field

The invention relates to the technical field of pressure detection, in particular to a pipeline pressure detection system.

Background

At present, a fire fighting pipeline refers to a pipeline material used for fire fighting, connecting fire fighting equipment and equipment, and conveying water, gas or other media for fire fighting.

When using the fire control pipeline among the correlation technique, need detect the water pressure in the fire control pipeline, whether inspection water pressure satisfies the service condition under the critical condition, but under the longer condition of fire control pipeline, the water pressure of different positions can receive influence such as temperature, density and degree of depth, cause the water pressure of different positions and inconsistent phenomenon, adopt the water pressure that can only detect one department in the pipeline of the mode of installing pressure sensor in the pipeline among the correlation technique, detection range is limited, be unfavorable for improving and detect the accuracy, consequently, remain to improve.

Disclosure of Invention

In order to improve the detection range and enhance the accuracy of pressure detection, the application provides a pipeline pressure detection system.

The application provides a pipeline pressure detection system adopts following technical scheme:

the utility model provides a pipeline pressure detection system, includes the pipeline and is located the pressure sensor of pipeline, be provided with the slide rail in the pipeline, it is provided with the slider to slide on the slide rail, pressure sensor installs on the slider, the symmetry is provided with a set of installation piece on the slide rail, it is provided with the lead screw to rotate between the installation piece, slider and lead screw threaded connection, be provided with rotating assembly on the pipeline, rotating assembly is used for driving the lead screw to rotate.

Through adopting above-mentioned technical scheme, detecting system is when using, through the water pressure in the pressure sensor detection pipeline, and the pipeline is longer, the water pressure of different positions also can not be different in the pipeline, in order to improve the scope that detects, it rotates to drive the lead screw through using rotating assembly, the slider receives the direction of slide rail this moment, the slider slides on the lead screw, the lead screw drives the slider and slides along the length direction of slide rail when rotating, and then drive pressure sensor and slide in the pipeline, change the position of pressure sensor in the pipeline, utilize a pressure sensor can detect the water pressure of different positions in the pipeline, the detection range has been improved, and then be favorable to reinforcing under the different environment to water pressure's detection accuracy.

Preferably, the rotating assembly comprises a rotating gear, a rack and a driving rod, the rotating gear is fixedly arranged on the screw rod, a rotating groove is formed in the outer wall of the pipeline in a penetrating mode, the rack is rotatably arranged in the rotating groove, the rack is meshed with the rotating gear, and the driving rod is fixedly arranged on one side, away from the direction of the pipeline, of the rack.

Through adopting above-mentioned technical scheme, when needing to drive the lead screw and rotate in order to drive the slider and slide in the pipeline, through gripping the actuating lever, to the actuating lever application of force, drive the rack at the swivelling chute internal rotation, the rack can seal the swivelling chute, offsets with rotatory gear when the rack rotates, and then drives rotatory gear revolve, and rotatory gear revolve and then drive the lead screw and rotate control convenient and fast.

Preferably, the rotating assembly further comprises sealing ring blocks, the sealing ring blocks are fixedly arranged at two ends of the rack, and the sealing ring blocks are attached to the inner wall of the pipeline.

Through adopting above-mentioned technical scheme, the seal ring piece not only can seal the gap between rack and the rotating groove, improves the leakproofness of pipeline, and the seal ring piece sets up along the circumferencial direction of pipeline simultaneously, and the seal ring piece can support the pipeline spacing, improves the holistic intensity of pipeline.

Preferably, the pressure sensor is connected with a data line, a data hole for the data line to penetrate through is formed in the pipeline, a controller is arranged on the outside of the pipeline, one end, far away from the direction of the pressure sensor, of the data line is connected with the controller, a display screen is connected with a signal of the controller, and the controller is used for transmitting the received pressure signal of the pressure sensor to the display screen in a wireless mode.

Through adopting above-mentioned technical scheme, pressure sensor transmits the pressure signal who detects for the controller through the data line, and the controller transmits pressure signal for the display screen through the mode of bluetooth, and the display screen shows the pressure value that detects, carries out data transmission through wireless mode like this, is favorable to observing the data that detect at the position that does not use.

Preferably, a guide pipe is fixedly arranged in the pipeline, the data line penetrates through the guide pipe, a winding roller is rotatably arranged outside the pipeline, an installation cavity is arranged in the winding roller, the controller is installed in the installation cavity, a winding hole for the data line to penetrate through is formed in the winding roller, a winding assembly is arranged on the pipeline, and the winding assembly is used for driving the winding roller to rotate.

Through adopting above-mentioned technical scheme, when the slider slided in the pipeline, the data line that links to each other with pressure sensor can be broken up, rotate through rolling component drive wind-up roll this moment, the data line supports mutually with the rolling hole, simultaneously the data line slides in the stand pipe, the data line can twine on the wind-up roll or break away from each other with the wind-up roll, pressure sensor when sliding in the pipeline like this, the data line can be retrieved or release, the phenomenon of breaking up has been appeared in the pipeline because the change of pressure sensor position to have reduced the data line, further be favorable to prolonging detection system's life.

Preferably, the winding assembly comprises a driving gear and a driven gear, one end of the winding roller is connected with the driven gear, the driving gear and the end wall of the rack are fixed with each other, the driving gear is located outside the pipeline, and the driving gear and the driven gear are meshed with each other.

Through adopting above-mentioned technical scheme, when utilizing the actuating lever to drive the rack when rotatory in the swivelling chute, the rack offsets with the rotating gear, and the rack drives the driving gear simultaneously and offsets with driven gear, and the rack rotates, and driving gear and driven gear rotate, and then drive the wind-up roll and rotate to control the wind-up roll and rotate when rotating the lead screw, drive the slider fast and retrieve or release the data line when sliding on the slide rail, need not the independent drive wind-up roll and rotate, the convenience when having improved detection operation greatly.

Preferably, sealing sheets which are abutted against the data lines are arranged on the outer wall and the inner wall of the pipeline and are positioned at the data holes.

Through adopting above-mentioned technical scheme, when utilizing the wind-up roll to carry out the rolling and release to the data line, the data line can slide in the data hole, seals the data hole through the gasket, reduces the phenomenon that water resource spills through the data hole in the pipeline.

Preferably, a flow guide block is arranged at one end, away from the screw rod direction, of the mounting block.

Through adopting above-mentioned technical scheme, when the water resource flowed in the pipeline, the water conservancy diversion piece can play the guide effect, reduces the installation piece and flows the phenomenon that produces and block to water, when guaranteeing to use the water resource, the water resource in the pipeline can normally flow.

Preferably, an access hole for the pressure sensor to pass through is formed in the outer wall of the pipeline, an access plate for sealing the access hole is arranged on the outer wall of the pipeline, and a plurality of mounting bolts in threaded connection with the pipeline are arranged on the access plate.

Through adopting above-mentioned technical scheme, rotate the construction bolt, can realize the dismouting between access panel and the pipeline, dismantle access panel and pipeline, utilize the access hole can carry out the dismouting change to pressure sensor, install access panel and pipeline, the access panel can seal the access hole.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through the arrangement of the sliding rail, the sliding block, the mounting block, the screw rod, the rotating gear, the rack, the driving rod and the sealing ring block, the screw rod is driven to rotate by using the rotating assembly, the sliding block is guided by the sliding rail at the moment, the sliding block slides on the screw rod, the screw rod is driven to slide along the length direction of the sliding rail when rotating, the pressure sensor is further driven to slide in the pipeline, the position of the pressure sensor in the pipeline is changed, the water pressure at different positions in the pipeline can be detected by using one pressure sensor, the detection range is improved, and the detection accuracy of the water pressure under different environments is further enhanced;

2. by arranging the data line, the data hole, the controller and the display screen, the pressure sensor transmits a detected pressure signal to the controller through the data line, the controller transmits the pressure signal to the display screen in a Bluetooth mode, and the display screen displays the detected pressure value, so that data transmission is performed in a wireless mode, and the data can be favorably observed at different positions;

3. through setting up the stand pipe, the wind-up roll, the installation cavity, the hole of rolling up, driving gear and driven gear, during rack rotation, drive driving gear and driven gear rotate, the drive wind-up roll rotates, the data line supports with the rolling hole, the data line slides in the stand pipe simultaneously, the data line can twine on the wind-up roll or break away from each other with the wind-up roll, pressure sensor when sliding in the pipeline like this, the data line can be retrieved or release, the phenomenon that the data line breaks up appears in the pipeline because the change of pressure sensor position has been reduced, further be favorable to extension detecting system's life.

Drawings

Fig. 1 is a schematic structural diagram of a pipeline pressure detection system according to an embodiment of the present application.

Fig. 2 is a schematic cross-sectional view of a pipeline pressure detection system according to an embodiment of the present application.

Fig. 3 is an enlarged view of a portion a in fig. 2.

FIG. 4 is a cross-sectional view of a wind-up roll embodying embodiments of the present application.

Description of reference numerals: 1. a pipeline; 11. a pressure sensor; 12. a controller; 2. a slide rail; 21. a slider; 22. mounting blocks; 221. a flow guide block; 23. a screw rod; 3. a rotating assembly; 31. a rotating gear; 32. a rack; 321. a rotating tank; 33. a drive rod; 34. a sealing ring block; 4. a data line; 41. a data hole; 42. a guide tube; 5. a wind-up roll; 51. a mounting cavity; 52. a coiling hole; 6. a winding component; 61. a driving gear; 62. a driven gear; 7. sealing the sheet; 8. an access hole; 81. an access panel; 82. and (6) installing a bolt.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses a pipeline pressure detection system. Referring to fig. 1 and 2, a pipe 1 and a pressure sensor 11 located in the pipe 1 detect water pressure in the pipe 1 through the pressure sensor 11, and the length of the pipe 1 is set according to an actual use environment, and the water pressure at different positions in the pipe 1 is affected differently by the environment. The fixed slide rail 2 that is provided with on 1 inner wall of pipeline, slide rail 2 set up along the length direction of pipeline 1, and slide rail 2 slides and is provided with slider 21, and slider 21 can slide along the length direction of slide rail 2, and pressure sensor 11 passes through the bolt and installs on slider 21. A group of mounting blocks 22 are symmetrically and fixedly arranged at two ends of the sliding rail 2, a screw rod 23 is rotatably arranged between the two mounting blocks 22, and the length direction of the screw rod 23 is arranged along the length direction of the sliding rail 2. Threaded connection between slider 21 and the lead screw 23, be provided with rotating assembly 3 on the pipeline 1, utilize rotating assembly 3 to drive lead screw 23 and rotate, slide rail 2 leads slider 21, and slider 21 can slide along the length direction of slide rail 2 on lead screw 23, changes the position of pressure sensor 11 in pipeline 1, utilizes a pressure sensor 11 can detect the water pressure of different positions in pipeline 1, reaches the effect that improves measuring range.

Referring to fig. 1 and 2, the rotating assembly 3 includes a rotating gear 31, a rack 32, a driving rod 33 and a sealing ring block 34, the rotating gear 31 is fixedly welded to one end of the screw rod 23, and the rotating gear 31 and the screw rod 23 are coaxially arranged. Run through on the pipeline 1 outer wall and be provided with the swivelling chute 321, the circumferencial direction setting of pipeline 1 is followed to the swivelling chute 321, and rack 32 rotates and sets up in the swivelling chute 321, and rack 32 sets up along the circumferencial direction of pipeline 1, and rack 32 can be in the circumferencial direction rotation of pipeline 1 in the swivelling chute 321 promptly, and rack 32 can seal up the swivelling chute 321 simultaneously. The rack 32 is meshed with the rotating gear 31, and the driving rod 33 is welded and fixed on one side of the rack 32 far away from the pipeline 1. The seal ring blocks 34 are integrally arranged at two ends of the rack 32, the seal ring blocks 34 are attached to the inner wall of the pipeline 1, and the seal ring blocks 34 can seal the gap between the rack 32 and the rotating groove 321 and support the pipeline 1. When the position of the pressure sensor 11 in the pipeline 1 needs to be changed, the rack 32 is driven to rotate in the rotating groove 321 by holding the driving rod 33, and the rack 32 abuts against the rotating gear 31, so as to drive the screw rod 23 to rotate.

For the convenience of detection, referring to fig. 2 and 3, the data line 4 for transmitting data is connected to the pressure sensor 11, the data line 4 penetrates through the slider 21, and the slider 21 can play a certain sealing role in the connection between the data line 4 and the pressure sensor 11. Offer the data hole 41 that supplies data line 4 to run through on the pipeline 1, on 1 outer wall of pipeline and the 1 inner wall of pipeline and be located data hole 41 department and all bond fixedly and be provided with gasket 7, gasket 7 offsets with data line 4, and gasket 7 can seal the clearance between data line 4 and the data hole 41.

Referring to fig. 2 and 4, a controller 12 is arranged outside the pipeline 1, one end of the data line 4, which is far away from the direction of the pressure sensor 11, is connected with the controller 12, the controller 12 is connected with a display screen in a bluetooth mode, and the display screen is installed around the control room or the pipeline 1. When pressure sensor 11 detects in pipeline 1, utilize data line 4 to transmit pressure signal for controller 12, controller 12 transmits pressure signal for the display screen through the mode of bluetooth, and the display screen shows the pressure value that detects.

In order to prolong the service life of the detection system, referring to fig. 2, 3 and 4, a guide tube 42 is fixedly arranged in the pipeline 1, the data wire 4 penetrates through the guide tube 42, and the data wire 4 can slide in the guide tube 42. The outer rotation of pipeline 1 is provided with wind-up roll 5, is provided with installation cavity 51 in the wind-up roll 5, and controller 12 is fixed to be set up in installation cavity 51, runs through on the installation cavity 51 inner wall to be provided with receipts roll up hole 52, and data line 4 runs through receipts roll up hole 52 and links to each other with controller 12. Be provided with rolling component 6 on pipeline 1, when slider 21 slided on slide rail 2, rolling component 6 drives wind-up roll 5 simultaneously and rotates, and data line 4 can be twined on wind-up roll 5 or break away from each other with wind-up roll 5, retrieves or releases data line 4, reduces the condition that data line 4 appears breaing up in pipeline 1.

Referring to fig. 1 and 2, the winding assembly 6 includes a driving gear 61 and a driven gear 62, one end of the winding roller 5 is connected to the driven gear 62, and the driven gear 62 is coaxially disposed with the winding roller 5. The driving gear 61 and the end wall of the rack 32 are fixed with each other, the driving gear 61 and the rack 32 are coaxially arranged, the driving gear 61 is positioned outside the pipeline 1, and the driving gear 61 and the driven gear 62 are meshed with each other. When the screw rod 23 is arranged on the rack 32 through rotation so that the sliding block 21 slides on the sliding rail 2, the driving gear 61 on the rack 32 rotates along with the rack 32, the driving gear 61 abuts against the driven gear 62, and then the winding roller 5 is driven to rotate, so that the winding roller 5 is controlled to rotate while the screw rod 23 is rotated, the sliding of the sliding block 21 and the recovery and release of the data wire 4 are realized, and the convenience of operation is greatly improved.

In order to make the water resource in the pipeline 1 can normally flow when using, refer to fig. 2, one of 23 directions of lead screw one of keeping away from of installation piece 22 serves the fixed water conservancy diversion piece 221 that is provided with, water conservancy diversion piece 221 is conical, when fire pipeline 1 is using, the water resource flows in pipeline 1, water conservancy diversion piece 221 can play the guide effect, reduce the block effect of installation piece 22 to the water resource, when guaranteeing to need the water resource, water resource in the pipeline 1 can normally flow.

In order to conveniently overhaul the system, referring to fig. 2, an overhaul port 8 through which the pressure sensor 11 passes is formed in the outer wall of the pipeline 1, an overhaul panel 81 is arranged on the outer wall of the pipeline 1, the overhaul panel 81 can seal the overhaul port 8, and a plurality of mounting bolts 82 in threaded connection with the pipeline 1 penetrate through the overhaul panel 81. The maintenance plate 81 and the pipeline 1 are disassembled and assembled through the mounting bolts 82, and the pressure sensor 11 is conveniently maintained through the maintenance opening 8.

The implementation principle of the pipeline pressure detection system in the embodiment of the application is as follows: when using pressure sensor 11 to detect the water pressure in the pipeline 1, through holding actuating lever 33, drive rack 32 is at the internal rotation of swivelling chute 321, rack 32 offsets with rotating gear 31, and then drive rotating gear 31 and rotate, and then drive lead screw 23 and rotate, when lead screw 23 rotates, slider 21 slides along the length direction of pipeline 1 on slide rail 2, change the position of pressure sensor 11 in pipeline 1, utilize a pressure sensor 11 can detect the water pressure of different positions in pipeline 1, the detection range is improved, and then be favorable to reinforcing under the different environment to the detection accuracy of water pressure.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. A pipeline pressure detection system comprising a pipeline (1) and a pressure sensor (11) located within the pipeline (1), characterized in that: be provided with slide rail (2) in pipeline (1), it is provided with slider (21) to slide on slide rail (2), pressure sensor (11) are installed on slider (21), the symmetry is provided with a set of installation piece (22) on slide rail (2), it is provided with lead screw (23) to rotate between installation piece (22), slider (21) and lead screw (23) threaded connection, be provided with rotating assembly (3) on pipeline (1), rotating assembly (3) are used for driving lead screw (23) and rotate.

2. The pipeline pressure detection system of claim 1, wherein: rotating assembly (3) include rotating gear (31), rack (32) and actuating lever (33), rotating gear (31) is fixed to be set up on lead screw (23), it is provided with swivelling chute (321) to run through on pipeline (1) outer wall, rack (32) rotate and set up in swivelling chute (321), rack (32) and rotating gear (31) intermeshing, one side of pipeline (1) direction is kept away from in rack (32) to fixed the setting in actuating lever (33).

3. The pipeline pressure detection system of claim 2, wherein: the rotating assembly (3) further comprises a sealing ring block (34), the sealing ring block (34) is fixedly arranged at two ends of the rack (32), and the sealing ring block (34) is attached to the inner wall of the pipeline (1).

4. The pipeline pressure detection system of claim 2, wherein: pressure sensor (11) are connected with data line (4), offer on pipeline (1) and supply data hole (41) that data line (4) run through, pipeline (1) is provided with controller (12) on the outer, the one end and controller (12) interconnect of pressure sensor (11) direction are kept away from in data line (4), controller (12) signal connection has the display screen, controller (12) are used for transmitting the pressure signal of received pressure sensor (11) for the display screen through wireless mode.

5. The pipeline pressure detection system of claim 4, wherein: the winding device is characterized in that a guide pipe (42) is fixedly arranged in the pipeline (1), the data line (4) penetrates through the guide pipe (42), a winding roller (5) is arranged outside the pipeline (1) in a rotating mode, an installation cavity (51) is formed in the winding roller (5), the controller (12) is installed in the installation cavity (51), a winding hole (52) for the data line (4) to penetrate through is formed in the winding roller (5), a winding assembly (6) is arranged on the pipeline (1), and the winding assembly (6) is used for driving the winding roller (5) to rotate.

6. The pipeline pressure detection system of claim 5, wherein: winding subassembly (6) include driving gear (61) and driven gear (62), the one end and the driven gear (62) of wind-up roll (5) link to each other, end wall reciprocal anchorage of driving gear (61) and rack (32), driving gear (61) are located outside pipeline (1), driving gear (61) and driven gear (62) intermeshing.

7. The pipeline pressure detection system of claim 5, wherein: sealing sheets (7) which are abutted against the data lines (4) are arranged on the outer wall of the pipeline (1) and the inner wall of the pipeline (1) and are positioned at the data holes (41).

8. The pipeline pressure detection system of claim 1, wherein: and a flow guide block (221) is arranged at one end of the mounting block (22) far away from the screw rod (23).

9. The pipeline pressure detection system of claim 1, wherein: the pipeline pressure sensor is characterized in that an access hole (8) through which the pressure sensor (11) penetrates is formed in the outer wall of the pipeline (1), an access plate (81) used for sealing the access hole (8) is arranged on the outer wall of the pipeline (1), and a plurality of mounting bolts (82) in threaded connection with the pipeline (1) are arranged on the access plate (81).