CN117928681A

CN117928681A - Basin full intelligent sensor

Info

Publication number: CN117928681A
Application number: CN202410114461.5A
Authority: CN
Inventors: 彭康; 朱小林; 童蕾; 苏彬; 徐韩
Original assignee: Zhonglu Automation Technology Wuxi Co ltd
Current assignee: Zhonglu Automation Technology Wuxi Co ltd
Priority date: 2024-01-29
Filing date: 2024-01-29
Publication date: 2024-04-26
Anticipated expiration: 2044-01-29
Also published as: CN117928681B

Abstract

The invention discloses a basin full intelligent sensor, which belongs to the technical field of intelligent sensors and comprises the following components: the sensor comprises a sensor body, wherein one end of the sensor body is fixedly connected with a mounting disc, one side of the mounting disc is fixedly connected with two transverse plates, one sides of the two transverse plates, which are close to each other, are fixedly connected with connecting springs, one ends of the two connecting springs, which are close to each other, are fixedly connected with reset plates, and one sides of the two reset plates, which are close to each other, are fixedly connected with plugboards; the installation shell, the mounting disc sets up in the inside of installation shell, and fixed mounting has the ladder to keep off the ring on the lateral wall of installation shell, and picture peg activity butt is in one side of ladder keeps off the ring, and slidable mounting has the sliding seat in the installation shell. The invention facilitates the disassembly and the installation of the basin full intelligent sensor through the cooperation of the clamping plate, the mounting plate, the plugboard and the diagonal rod, thereby facilitating the overhaul and the maintenance.

Description

Basin full intelligent sensor

Technical Field

The invention relates to the technical field of intelligent sensors, in particular to a basin full intelligent sensor.

Background

The level sensor (static pressure level gauge/level transmitter/level sensor) is a pressure sensor that measures the liquid level. Fall into two categories: one type is a contact type, comprising a single-flange static pressure/double-flange differential pressure liquid level transmitter, a floating ball type liquid level transmitter, a magnetic liquid level transmitter, a throw-in type liquid level transmitter, an electric floating ball type liquid level transmitter, a capacitive type liquid level transmitter, a magnetostrictive liquid level transmitter, a wet clothes liquid level transmitter and the like. The second type is a non-contact type, which is divided into an ultrasonic liquid level transmitter and a radar liquid level transmitter.

The patent document with the publication number CN217930427 discloses a full liquid level sensor of a toilet bowl of a high-speed railway toilet, which comprises a bowl body, the bottom of the bowl body is provided with a downpipe, a monitoring device is further arranged on the downpipe, the monitoring device comprises a through hole arranged on the bowl body, a liquid level sensor arranged in the through hole and an electromagnetic valve arranged on the downpipe, and the liquid level sensor is electrically connected with the electromagnetic valve.

The basin full sensor in the technical scheme is not provided with a temperature compensation algorithm, so that deviation is easy to occur when the basin full sensor is used in environments with different temperatures, and the basin full sensor is troublesome to detach when the basin full sensor is required to be detached, so that the basin full sensor is inconvenient for a user to overhaul; we therefore propose a full-basin smart sensor to address this problem.

Disclosure of Invention

The invention aims to provide a basin full intelligent sensor to solve the problems in the background technology.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

A full basin intelligent sensor, comprising:

a sensor body, the sensor body comprising: the MEMS pressure sensing element is used for accurately measuring static pressure generated by liquid and converting the static pressure into an electric signal, the data processing unit is used for receiving the signal of the MEMS sensing element and carrying out linearization and temperature compensation processing on data through a built-in algorithm, the wireless communication module is used for transmitting the processed data to an external monitoring system or a mobile terminal, one end of the sensor body is fixedly connected with a mounting disc, one side of the mounting disc is fixedly connected with two transverse plates, one sides of the two transverse plates, which are close to each other, are fixedly connected with connecting springs, one ends of the two connecting springs, which are close to each other, are fixedly connected with reset plates, and one sides of the two reset plates, which are close to each other, are fixedly connected with plugboards;

The installation shell, the installation dish set up in the inside of installation shell, and fixed mounting has the ladder baffle ring on the lateral wall of installation shell, picture peg activity butt in one side of ladder baffle ring, sliding mounting has the sliding seat in the installation shell, the sliding seat rotates to be connected with the opposite side of installation dish, just the top and the bottom of installation shell are all sliding connection has the cardboard, one side fixedly connected with inclined rod of cardboard, two inclined holes have been seted up to sliding seat one side, and two inclined rods sliding connection respectively in corresponding inclined holes, just the inside slidable mounting of installation shell has the annular baffle that is used for restricting reset plate removal and a plurality of pin that are used for restricting the translation of installation dish, one side fixedly connected with a plurality of connecting rods of annular baffle, the one end fixedly connected with first floating plate of connecting rod, the one end fixedly connected with second floating plate of pin keeping away from the installation dish.

The installation wall is embedded in the bedpan, one side of the installation wall is provided with an installation groove matched with the installation shell, clamping grooves are formed in the inner wall of the top and the inner wall of the bottom of the installation groove, the installation shell is movably inserted in the installation groove, and the two clamping plates are movably clamped in the corresponding clamping grooves respectively.

Preferably, the sensor body further comprises a temperature sensor, the temperature sensor is used for sensing ambient temperature and transmitting the ambient temperature to the data processing unit to realize temperature compensation correction, two transverse plates are fixedly connected with vertical rods on one sides close to each other, two reset plates are respectively and slidably sleeved on the outer sides of the corresponding vertical rods, limiting plates are fixedly arranged on the outer sides of the vertical rods, and the limiting plates are in movable butt joint with the corresponding reset plates.

Preferably, the right side of the installation shell is provided with a through hole and a plurality of circular grooves, the sensor body is movably inserted into the through hole, a plurality of first floating plates are respectively and slidably connected into the corresponding circular grooves, one side of each first floating plate is fixedly connected with a first reset spring, and one end of each first reset spring, which is close to the installation disc, is fixedly connected onto the corresponding side wall of the circular groove.

Preferably, a plurality of square grooves are formed in the outer side of the installation shell, the second floating plates are connected in the corresponding square grooves in a sliding mode, a plurality of second reset springs are fixedly connected to one sides, close to each other, of the second floating plates, and one ends, close to each other, of the second reset springs are respectively and fixedly connected to the inner walls of the corresponding square grooves;

And a side plate is fixedly arranged on the side wall of the square groove and movably abutted to the outer side of the corresponding second floating plate.

Preferably, a step column is fixedly connected to one side of the mounting plate, a step groove is formed in one side of the sliding seat, and the step column is rotationally connected in the step groove.

Preferably, the top and the bottom of the sliding seat are fixedly connected with guide plates, guide grooves are formed in the inner wall of the top and the inner wall of the bottom of the installation shell, and the two guide plates are respectively and slidably connected in the corresponding guide grooves.

Preferably, two sliding grooves are formed in the inner wall of the other side of the installation shell, the two clamping plates are respectively and slidably connected in the corresponding sliding grooves, positioning springs are fixedly connected to one sides, close to each other, of the two clamping plates, and one ends, close to each other, of the two positioning springs are respectively and fixedly connected to the inner wall of the corresponding sliding groove;

And the top and the bottom of the mounting shell are provided with sliding holes, and the two clamping plates are respectively and slidably connected in the corresponding sliding holes.

Preferably, the left side of sliding seat fixedly connected with a plurality of pressure springs, a plurality of the left ends of pressure springs are all fixed connection on the lateral wall of installation shell.

Preferably, the step baffle ring comprises a small baffle ring and a large baffle ring which are integrally formed, the small baffle ring is fixedly connected to the side wall of the shell, and the large baffle ring is movably abutted to one side of the plugboard.

The invention has the beneficial effects that:

1. According to the intelligent basin full sensor, the sensor body is rotated, the transverse plate and the reset plate are driven to perform circumferential operation, so that the reset plate obtains centrifugal force and moves to one side far away from the sensor body, the connecting springs are compressed, the plugboards are separated from the contact with the stepped baffle ring, the connecting springs are required to adopt springs with smaller elastic coefficients, the two plugboards are separated from a rotating speed shell with a small elastic coefficient without the sensor, the sensor body is pressed to extend into the installation shell, the sliding seat is driven to move leftwards through the stepped column, the sliding seat drives the two clamping plates to mutually approach through the sliding fit of the two inclined holes and the corresponding inclined rods, the two clamping plates shrink and separate from the clamping grooves, the fixing of the corresponding installation shell is released, and then the installation shell can be taken down rightwards to be detached, so that overhaul and maintenance are convenient;

2. According to the basin full intelligent sensor, when the sensor body is submerged in water, the first floating plate and the second floating plate are influenced by buoyancy, so that the first floating plate drives the annular baffle plate to move leftwards to limit the movement of the two reset plates, and the second floating plate moves to one side close to the ladder column through the stop lever to limit the movement of the mounting plate, so that the sensor body is prevented from being disassembled through the movement limitation of the mounting plate and the reset plate, the mounting stability is ensured, and the loss caused by falling in the soaking process is avoided;

3. according to the intelligent sensor for the full basin, the disassembly and the assembly of the intelligent sensor for the full basin are conveniently realized through the cooperation of the clamping plate, the mounting plate, the plugboard and the diagonal rod, so that the intelligent sensor for the full basin is convenient to overhaul and maintain, and the disassembly of the sensor can be limited during the immersion of the intelligent sensor through the floating plate, the annular baffle and the stop lever, so that the use safety is ensured;

4. According to the intelligent sensor for detecting the basin fullness, the intelligent sensor detects the use scene temperature fault of the intelligent sensor through the set temperature sensor and is matched with the temperature compensation algorithm in the data processing unit to correct, so that the induction error is reduced.

Drawings

FIG. 1 is a schematic perspective view of a full basin intelligent sensor according to the present invention;

FIG. 2 is a schematic cross-sectional view of a full basin intelligent sensor according to the present invention;

FIG. 3 is a schematic view of a partial perspective view of a full basin intelligent sensor according to the present invention;

FIG. 4 is a schematic view of a perspective view of a basin full intelligent sensor according to the present invention;

FIG. 5 is an enlarged view of a portion A of FIG. 2;

FIG. 6 is an enlarged view of a portion B of FIG. 5;

FIG. 7 is a schematic cross-sectional view of a mounting shell according to the present invention;

FIG. 8 is a schematic cross-sectional view of a sliding seat according to the present invention;

FIG. 9 is a schematic cross-sectional view of a mounting wall according to the present invention;

Fig. 10 is a schematic perspective view of a stepped retainer ring and a plugboard according to the present invention.

In the figure: 1. a sensor body; 2. a mounting shell; 201. a through hole; 202. a chute; 203. a slide hole; 204. a square groove; 205. a circular groove; 206. a guide groove; 3. a mounting wall; 301. a mounting groove; 302. a clamping groove; 4. a mounting plate; 5. a clamping plate; 6. a sliding seat; 7. a diagonal rod; 8. a step column; 9. a step baffle ring; 901. a small baffle ring; 902. a large baffle ring; 10. inserting plate; 11. a reset plate; 12. a vertical rod; 13. a cross plate; 14. a connecting spring; 15. a limiting plate; 16. an annular baffle; 17. a first floating plate; 18. a first return spring; 19. a stop lever; 20. a second floating plate; 21. a second return spring; 22. a side plate; 23. a guide plate; 24. a positioning spring; 25. a compression spring.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Referring to fig. 1-10, a full basin smart sensor, comprising:

Sensor body 1, sensor body 1 includes: the MEMS pressure sensing element is used for accurately measuring static pressure generated by liquid and converting the static pressure into an electric signal, the data processing unit is used for receiving the signal of the MEMS sensing element and carrying out linearization and temperature compensation processing on the data through a built-in algorithm, the wireless communication module is used for transmitting the processed data to an external monitoring system or a mobile terminal, one end of the sensor body 1 is fixedly connected with a mounting disc 4, one side of the mounting disc 4 is fixedly connected with two transverse plates 13, one sides of the two transverse plates 13, which are close to each other, are fixedly connected with connecting springs 14, one ends of the two connecting springs 14, which are close to each other, are fixedly connected with reset plates 11, and one sides of the two reset plates 11, which are close to each other, are fixedly connected with plugboards 10;

The installation shell 2, the installation disc 4 is arranged in the installation shell 2, the step baffle ring 9 is fixedly arranged on the side wall of the installation shell 2, the plugboard 10 is movably abutted to one side of the step baffle ring 9, the sliding seat 6 is slidably arranged in the installation shell 2, the sliding seat 6 is rotatably connected to the other side of the installation disc 4, the top and the bottom of the installation shell 2 are both slidably connected with the clamping plate 5, one side of the clamping plate 5 is fixedly connected with the inclined rod 7, two inclined holes are formed in one side of the sliding seat 6, the two inclined rods 7 are respectively slidably connected in the corresponding inclined holes, an annular baffle 16 for limiting the movement of the reset plate 11 and a plurality of stop rods 19 for limiting the translation of the installation disc 4 are slidably arranged in the installation shell 2, one side of the annular baffle 16 is fixedly connected with a plurality of connecting rods, one end of each connecting rod is fixedly connected with the first floating plate 17, and one end of each stop rod 19, which is far away from the installation disc 4, is fixedly connected with the second floating plate 20;

The installation wall 3 is embedded in the bedpan, one side of the installation wall 3 is provided with an installation groove 301 matched with the installation shell 2, the top inner wall and the bottom inner wall of the installation groove 301 are provided with clamping grooves 302, the installation shell 2 is movably inserted in the installation groove 301, and the two clamping plates 5 are respectively movably clamped in the corresponding clamping grooves 302.

In this embodiment, the sensor body further includes a temperature sensor, the temperature sensor is used for sensing an ambient temperature and transmitting the ambient temperature to the data processing unit to realize temperature compensation correction, one sides of the two transverse plates 13, which are close to each other, are fixedly connected with vertical rods 12, the two reset plates 11 are respectively and slidably sleeved on the outer sides of the corresponding vertical rods 12, a limiting plate 15 is fixedly installed on the outer sides of the vertical rods 12, and the limiting plate 15 is movably abutted to the corresponding reset plates 11.

In this embodiment, the right side of the installation shell 2 is provided with a through hole 201 and a plurality of circular grooves 205, the sensor body 1 is movably inserted into the through hole 201, a plurality of first floating plates 17 are respectively slidably connected into the corresponding circular grooves 205, one sides of the first floating plates 17 are fixedly connected with first reset springs 18, and one ends of the first reset springs 18, which are close to the installation disc 4, are fixedly connected to the side walls of the corresponding circular grooves 205.

In this embodiment, a plurality of square grooves 204 are formed on the outer side of the installation shell 2, the second floating plates 20 are slidably connected in the corresponding square grooves 204, and the second return springs 21 are fixedly connected to one sides of the second floating plates 20, which are close to each other, and one ends of the second return springs 21, which are close to each other, are respectively fixedly connected to the inner walls of the corresponding square grooves 204;

a side plate 22 is fixedly mounted on the side wall of the square groove 204, and the side plate 22 is movably abutted against the outer side of the corresponding second floating plate 20, so that the second floating plate 20 is limited to move outwards, and is prevented from being separated from the mounting shell 2.

In this embodiment, one side fixedly connected with ladder post 8 of mounting disc 4, the ladder groove has been seted up to one side of sliding seat 6, and ladder post 8 rotates to be connected in the ladder inslot to realized that mounting disc 4 is connected with sliding seat 6's rotation, and guaranteed mounting disc 4 and sliding seat 6 horizontal movement's unanimity.

In this embodiment, the top and bottom of the sliding seat 6 are fixedly connected with guide plates 23, and guide grooves 206 are formed in the top inner wall and the bottom inner wall of the installation shell 2, and the two guide plates 23 are respectively slidably connected in the corresponding guide grooves 206, so as to guide the horizontal movement of the sliding seat 6.

In this embodiment, two sliding grooves 202 are formed on the inner wall of the other side of the installation shell 2, two clamping plates 5 are respectively and slidably connected in the corresponding sliding grooves 202, so that the clamping plates 5 are guided, positioning springs 24 are fixedly connected to one sides of the two clamping plates 5, which are close to each other, and one ends of the two positioning springs 24, which are close to each other, are respectively and fixedly connected to the inner wall of the corresponding sliding groove 202, so that the clamping plates 5 are reset and positioned; the top and the bottom of the installation shell 2 are provided with slide holes 203, and the two clamping plates 5 are respectively and slidably connected in the corresponding slide holes 203, so that the clamping plates 5 are further guided.

In this embodiment, the left side fixedly connected with a plurality of pressure springs 25 of sliding seat 6, the left end of a plurality of pressure springs 25 is all fixed connection on the lateral wall of installation shell 2 to reset and fix a position sliding seat 6, ladder keep off ring 9 includes integrated into one piece's little keep off ring 901 and big keep off ring 902, little keep off ring 901 fixed connection is on the lateral wall of casing, big keep off ring 902 activity butt is in one side of picture peg 10.

In this embodiment, when in use, the sensor body 1 is rotated, and the transverse plate 13 and the reset plate 11 are driven to perform circumferential operation, so that the reset plate 11 obtains centrifugal force and moves to a side far away from the sensor body 1 and compresses the connecting springs 14, so that the plugboard 10 is separated from the contact with the stepped baffle ring 9, and it is to be noted that the connecting springs 14 need to adopt springs with smaller elastic coefficients, so that the two plugboards 10 are separated from a rotating speed casing without too high sensor;

Then, the sensor body 1 is pressed to extend into the installation shell 2, the sliding seat 6 is driven to move leftwards through the stepped column 8, the sliding seat 6 drives the two clamping plates 5 to be close to each other through the sliding fit of the two inclined holes and the corresponding inclined rods 7, so that the two clamping plates 5 shrink and are separated from the clamping grooves 302, the fixation of the corresponding installation shell 2 is released, and then the installation shell 2 can be taken down rightwards to be detached, so that overhaul and maintenance are convenient;

And when the sensor body 1 is submerged in water, the first floating plate 17 and the second floating plate 20 are influenced by buoyancy, so that the first floating plate 17 drives the annular baffle 16 to move leftwards to limit the movement of the two reset plates 11, and the second floating plate 20 moves to one side close to the ladder post 8 through the stop lever 19 to limit the movement of the mounting disc 4, so that the sensor body 1 is prevented from being detached by limiting the movement of the mounting disc 4 and the reset plates 11, the mounting stability is ensured, and the loss caused by falling in the soaking process is avoided.

The intelligent sensor for basin fullness provided by the invention is described in detail above. The principles and embodiments of the present invention have been described herein with reference to specific examples, which are intended to be merely illustrative of the methods of the present invention and their core ideas. It should be noted that it will be apparent to those skilled in the art that various modifications and adaptations of the invention can be made without departing from the principles of the invention and these modifications and adaptations are intended to be within the scope of the invention as defined in the following claims.

Claims

1. A full basin intelligent sensor, characterized by comprising:

A sensor body (1), the sensor body (1) comprising: the MEMS pressure sensing device comprises an MEMS pressure sensing element, a data processing unit, a wireless communication module and a power management module, wherein the MEMS pressure sensing element is used for accurately measuring static pressure generated by liquid and converting the static pressure into an electric signal, the data processing unit is used for receiving the signal of the MEMS sensing element and carrying out linearization and temperature compensation processing on data through a built-in algorithm, the wireless communication module is used for transmitting the processed data to an external monitoring system or a mobile terminal, one end of a sensor body (1) is fixedly connected with a mounting disc (4), one side of the mounting disc (4) is fixedly connected with two transverse plates (13), one sides of the two transverse plates (13) close to each other are fixedly connected with connecting springs (14), one ends of the two connecting springs (14) close to each other are fixedly connected with reset plates (11), and one sides of the two reset plates (11) close to each other are fixedly connected with a plugboard (10);

the installation shell (2), install dish (4) set up in the inside of installation shell (2), and fixed mounting has ladder baffle ring (9) on the lateral wall of installation shell (2), picture peg (10) movable butt in one side of ladder baffle ring (9), install sliding seat (6) in sliding manner in installation shell (2), sliding seat (6) rotate and connect the opposite side of installation dish (4), just the top and the bottom of installation shell (2) are all sliding connection has cardboard (5), one side fixedly connected with down tube (7) of cardboard (5), two down tubes (7) are seted up to sliding seat (6) one side, and two down tube (7) sliding connection are in corresponding down tube respectively, just the inside sliding mounting of installation shell (2) have be used for restricting annular baffle (16) and a plurality of pin (19) that are used for restricting the translation of installation dish (4), one side fixedly connected with a plurality of connecting rods, one end fixedly connected with down tube (17) of connecting rod, the first pin (19) are kept away from to install floating plate (20);

The installation wall (3) is embedded in the bedpan, an installation groove (301) matched with the installation shell (2) is formed in one side of the installation wall (3), clamping grooves (302) are formed in the inner wall of the top and the inner wall of the bottom of the installation groove (301), the installation shell (2) is movably inserted in the installation groove (301), and the two clamping plates (5) are movably clamped in the corresponding clamping grooves (302) respectively.

2. The full intelligent sensor of basin according to claim 1, wherein the sensor body (1) further comprises a temperature sensor, the temperature sensor is used for sensing ambient temperature and transmitting to the data processing unit to realize temperature compensation correction, one sides of the two transverse plates (13) close to each other are fixedly connected with vertical rods (12), the two reset plates (11) are respectively and slidably sleeved on the outer sides of the corresponding vertical rods (12), limiting plates (15) are fixedly installed on the outer sides of the vertical rods (12), and the limiting plates (15) are movably abutted with the corresponding reset plates (11).

3. The full intelligent sensor of claim 1, wherein a through hole (201) and a plurality of circular grooves (205) are formed in the right side of the installation shell (2), the sensor body (1) is movably inserted into the through hole (201), a plurality of first floating plates (17) are respectively and slidably connected into the corresponding circular grooves (205), one side of each first floating plate (17) is fixedly connected with a first reset spring (18), and one end of each first reset spring (18) close to the installation disc (4) is fixedly connected onto the side wall of the corresponding circular groove (205).

4. The full basin intelligent sensor according to claim 1, wherein a plurality of square grooves (204) are formed in the outer side of the installation shell (2), the second floating plates (20) are slidably connected in the corresponding square grooves (204), one sides, close to each other, of the second floating plates (20) are fixedly connected with second reset springs (21), and one ends, close to each other, of the second reset springs (21) are fixedly connected to the inner walls of the corresponding square grooves (204) respectively;

A side plate (22) is fixedly arranged on the side wall of the square groove (204), and the side plate (22) is movably abutted to the outer side of the corresponding second floating plate (20).

5. The basin full intelligent sensor according to claim 1, wherein a step column (8) is fixedly connected to one side of the mounting plate (4), a step groove is formed in one side of the sliding seat (6), and the step column (8) is rotatably connected in the step groove.

6. The basin full intelligent sensor according to claim 1, wherein guide plates (23) are fixedly connected to the top and the bottom of the sliding seat (6), guide grooves (206) are formed in the inner wall of the top and the inner wall of the bottom of the installation shell (2), and the two guide plates (23) are respectively and slidably connected to the corresponding guide grooves (206).

7. The full basin intelligent sensor according to claim 1, characterized in that two sliding grooves (202) are formed in the inner wall of the other side of the installation shell (2), two clamping plates (5) are respectively and slidably connected in the corresponding sliding grooves (202), positioning springs (24) are fixedly connected to one sides, close to each other, of the two clamping plates (5), and one ends, close to each other, of the two positioning springs (24) are respectively and fixedly connected to the inner wall of the corresponding sliding groove (202);

slide holes (203) are formed in the top and the bottom of the mounting shell (2), and the two clamping plates (5) are respectively and slidably connected in the corresponding slide holes (203).

8. The basin full intelligent sensor according to claim 1, wherein a plurality of compression springs (25) are fixedly connected to the left side of the sliding seat (6), and the left ends of the compression springs (25) are fixedly connected to the side wall of the installation shell (2).

9. The full basin intelligent sensor according to claim 1, wherein the step baffle ring (9) comprises a small baffle ring (901) and a large baffle ring (902) which are integrally formed, the small baffle ring (901) is fixedly connected to the side wall of the machine shell, and the large baffle ring (902) is movably abutted to one side of the plugboard (10).