CN117524775A

CN117524775A - Electric switch and intelligent closestool

Info

Publication number: CN117524775A
Application number: CN202410010549.2A
Authority: CN
Inventors: 赖在斌
Original assignee: Foshan Hip Technology Co ltd
Current assignee: Foshan Hip Technology Co ltd
Priority date: 2024-01-04
Filing date: 2024-01-04
Publication date: 2024-02-06
Anticipated expiration: 2044-01-04
Also published as: CN117524775B

Abstract

The invention relates to the field of electric switches, in particular to an electric switch and an intelligent closestool, which comprises a shell; the carrier plate elastically rotates in the shell, and the rotating part of the carrier plate is coaxially connected with a damping rotating part; the electrode blocks are arranged at the free ends of the carrier plate in a separated mode; the inner wall of the shell is provided with a first electrode plate and a second electrode plate which are respectively aligned with the two electrode blocks, and the first electrode plate and the second electrode plate vertically extend; the invention adopts two electrode blocks to align the first electrode plate and the second electrode plate for connecting two electric heating wires, controls the connection of two circuits, the connection of one circuit or the disconnection of the two circuits by controlling the upper swing amplitude of the carrier plate, and controls the opening and closing of the circuits of the two electric heating wires in a mechanical mode so as to achieve convenient switching control on strong heat and low heat, and has stable switch control function and long service life.

Description

Electric switch and intelligent closestool

Technical Field

The invention relates to the field of electric switches, in particular to an electric switch and an intelligent closestool.

Background

The electric switch is controlled by the application circuit, the switch is connected or disconnected through the closing or opening action, the electric switch is various, the electric switch is controlled by the circuit of different logics, for example, the electric heating function of the intelligent closestool is completed by matching the electric switch, the intelligent closestool is controlled by the heating function of the closestool through the control circuit board, the heating timeliness is ensured, high-power conduction heating is needed in the early stage, the heating intensity is reduced after the temperature of the seat ring rises, the following whole toilet process is kept at a more comfortable temperature, the intelligent closestool is controlled by the programming circuit in a working mode of strong heating in the early stage and low heating in the following process, the control mode is sensitive, but under the conditions of long-time and frequent use, the mode is poorer in durability compared with the mechanical switch, and the long-time use failure rate is high.

Disclosure of Invention

The invention aims to solve the following problems in the prior art: the intelligent closestool is controlled by a programming circuit in a working mode of early strong heat and low heat in a subsequent process, and the control mode is sensitive, but is poorer in durability and high in fault rate in long-time use compared with a mechanical switch under the conditions of long-time and frequent use.

In order to solve the problems existing in the prior art, the present invention provides an electrical switch, comprising: a housing;

the carrier plate elastically rotates in the shell, and the rotating part of the carrier plate is coaxially connected with a damping rotating part;

the electrode blocks are arranged at the free ends of the carrier plate in a separated mode;

the inner wall of the shell is provided with a first electrode plate and a second electrode plate which are respectively aligned with the two electrode blocks, and the first electrode plate and the second electrode plate vertically extend;

the electromagnet is arranged on the surface of the carrier plate, a permanent magnet is arranged above the electromagnet, and the electromagnet is electrified to adsorb the permanent magnet and is used for driving the free end of the carrier plate to swing upwards so that the two electrode blocks are respectively contacted with the first electrode plate and the second electrode plate.

Preferably, the damping rotating member comprises a containing shell, the containing shell is provided with a cylindrical inner cavity, the inner cavity of the containing shell is filled with damping liquid, the containing shell is internally rotated and provided with a shaft column, the carrier plate and the shaft column are coaxially fixed, a plurality of grid plates are fixed around the shaft column, the grid plates are in sliding contact with the inner wall of the containing shell, the surface of each grid plate is provided with a through hole, the rotating plate is rotationally arranged in the through hole, the edge of the through hole of each rotating plate is blocked to be capable of being opened and closed on one side of the through hole, and a plurality of through holes are formed in the surface of each rotating plate.

Preferably, the surface of the carrier plate is provided with an upward protruding elastic piece, the upper part of the elastic piece is blocked by the stop lever, the lower part of the inner wall of the shell, which is positioned on the second electrode plate, is provided with a step, the step blocks the free end of the carrier plate to descend, and when the carrier plate contacts the step, the electrode block is not contacted with the first electrode plate and the second electrode plate.

Preferably, the bottom end of the second electrode plate is lower than the bottom end of the first electrode plate, and the length difference between the bottom of the second electrode plate and the bottom of the first electrode plate is greater than the height of the electrode block.

Preferably, the bottom of the carrier plate is provided with a touch handle, the touch handle penetrates out of the bottom of the shell, and when the bottom of the touch handle is flush with the bottom of the shell, one electrode block contacts with the second electrode plate, and the other electrode block does not contact with the first electrode plate.

Preferably, two sliding grooves are formed in the free end of the carrier plate, sliding blocks are elastically slid in the sliding grooves through springs, and the two electrode blocks are fixedly connected with the sliding blocks respectively.

Preferably, the outer wall of the shell is provided with a plurality of electric connection ports, the top of each electric connection port is provided with a conductive contact piece, a screw penetrates into the electric connection port from bottom to top in a threaded manner, the end part of the screw is provided with an insulating piece for aligning the conductive contact pieces, and the electrode blocks, the first electrode pieces and the second electrode pieces are in one-to-one alignment connection with the conductive contact pieces in the electric connection ports.

The utility model provides an intelligent closestool, includes electric switch, closestool body upper portion have the ring, the bottom of ring sets up two electric wires, the external power source is connected at the both ends of two electric wires, the ring bottom is arranged in to the casing, two electric wires middle part all break off, one electric wire broken both ends connect one of them electrode piece and second electrode piece respectively, another electrode piece and first electrode piece are connected respectively at the both ends of another electric wire disconnection.

Preferably, an elastic block is arranged at the bottom of the seat ring, and the seat ring is supported by the elastic block in a non-pressing state, so that the touch handle is not contacted with the top surface of the toilet body.

Compared with the related art, the electric switch and the intelligent closestool provided by the invention have the following beneficial effects:

the invention adopts two electrode blocks to align the first electrode plate and the second electrode plate for connecting the two electric heating wires, controls the two circuits to be communicated, the one circuit to be communicated or the two circuits to be cut off by controlling the upper swing amplitude of the carrier plate, and controls the circuits of the two electric heating wires to be opened and closed in a mechanical mode so as to achieve convenient switching control on strong heat and low heat, and has stable switch control function and long service life.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an electrical switch according to the present invention;

FIG. 2 is a schematic diagram of an electrode block broken line structure according to the present invention;

FIG. 3 is a schematic diagram of a two-wire conductive structure of an electrode block according to the present invention;

FIG. 4 is a schematic view of a single-line conducting structure of an electrode block according to the present invention;

FIG. 5 is a schematic view of an electrode block mounting structure of the present invention;

FIG. 6 is a schematic view of a damping rotor of the present invention;

FIG. 7 is a schematic view of the distribution structure of the grid plate according to the present invention;

FIG. 8 is a schematic view of the swing plate opening structure of the present invention;

FIG. 9 is a schematic diagram of a conductive contact mounting structure according to the present invention;

fig. 10 is a schematic diagram of an electric switch connecting electrothermal wire structure of the present invention.

Reference numerals in the drawings: 1. a housing; 11. a stop lever; 12. a step; 2. a carrier plate; 21. a spring plate; 3. an electromagnet; 31. a permanent magnet; 4. an electrode block; 41. a slide block; 42. a chute; 5. a first electrode sheet; 51. a second electrode sheet; 6. damping the rotating member; 61. a housing case; 62. a shaft post; 63. a grid plate; 64. a through port; 65. a rotating plate; 66. a through hole; 7. a touch handle; 8. an electric connection port; 81. a conductive contact; 82. an insulating sheet; 83. a screw; 9. a seat ring; 91. an electric heating wire; 92. an elastic block.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Specific implementations of the invention are described in detail below in connection with specific embodiments.

The structure of the electrical switch is as follows:

as shown in fig. 1-4, the carrier plate 2 is arranged in the shell 1, the left end of the carrier plate 2 is rotationally connected with the shell 1, the right end surface in the shell 1 is provided with a step 12, the free end at the right part of the carrier plate 2 is blocked and supported by the step 12, so that the free end of the carrier plate 2 can only rotate upwards, the spring plate 21 is fixed on the surface of the carrier plate 2, the spring plate 21 protrudes upwards, the stop lever 11 is arranged above the spring plate 21 and is kept fixed with the shell 1, and when the carrier plate 2 swings upwards, the spring plate 21 is blocked by the stop lever 11 to deform and store force;

the upper surface of the carrier plate 2 is provided with an electromagnet 3, a permanent magnet 31 is arranged above the electromagnet 3, the permanent magnet 31 is fixed with the shell 1, and the electromagnet 3 is electrified to adsorb the permanent magnet 31 and is used for driving the free end of the carrier plate 2 to swing upwards;

the right end of the carrier plate 2 is separately provided with two electrode blocks 4, the right end surface inside the shell 1 is positioned above the step 12, a first electrode plate 5 and a second electrode plate 51 are fixedly arranged, the first electrode plate 5 and the second electrode plate 51 vertically extend, the two electrode blocks 4 respectively align the first electrode plate 5 and the second electrode plate 51, the first electrode plate 5 and the second electrode plate 51 extend in an arc shape, and when the carrier plate 2 swings, the electrode blocks 4 can be in sliding contact with the first electrode plate 5 and the second electrode plate 51;

the bottom end of the second electrode plate 51 is lower than the bottom end of the first electrode plate 5, the length difference between the second electrode plate 51 and the bottom of the first electrode plate 5 is larger than the height of the electrode block 4, and when the carrier plate 2 contacts the step 12, the electrode block 4 does not contact the first electrode plate 5 and the second electrode plate 51;

the bottom of the carrier plate 2 is provided with a touch handle 7, and the touch handle 7 penetrates out of the bottom of the shell 1;

as shown in fig. 5-8, the damping rotating member 6 is disposed at the left end inside the housing 1, the damping rotating member 6 includes a housing shell 61, the housing shell 61 has a cylindrical inner cavity, the inner cavity of the housing shell 61 is filled with damping liquid, a shaft post 62 is rotatably mounted in the housing shell 61, one end of the shaft post 62 rotates to penetrate through the housing shell 61 and is coaxially fixed with the left end of the carrier plate 2, a plurality of grid plates 63 are fixed around the shaft post 62, the grid plates 63 are in sliding contact with the inner wall of the housing shell 61, the surface of each grid plate 63 is provided with a through hole 64, a rotating plate 65 is rotatably mounted in the through hole 64, the edge of the through hole 64 is provided with a stepped groove, the rotating plate 65 is blocked by the stepped groove at the edge of the through hole 64 and can only be opened and closed at one side of the through hole 64, and a plurality of through holes 66 are formed in the surface of the rotating plate 65;

as shown in fig. 9, a plurality of electric connection ports 8 are formed at two ends of the outer part of the shell 1, the top of each electric connection port 8 is provided with a conductive contact 81, a screw 83 is threaded into the electric connection port 8 from bottom to top, the end part of the screw 83 is provided with an insulating sheet 82 for aligning the conductive contact 81, two electrode blocks 4 are connected with wires, the wires penetrate through the carrier plate 2 leftwards and are connected with the conductive contact 81 in the left electric connection port 8 one by one, and the bottoms of the first electrode sheet 5 and the second electrode sheet 51 are respectively connected with the conductive contact 81 in the right electric connection port 8;

the circuit penetrates into the electric connection ports 8 on the left side and the right side respectively, the rotary screw 83 pushes the insulating sheet 82 to move upwards, the circuit is extruded to contact the conductive contact sheet 81 through the insulating sheet 82, and the two electrode blocks 4 are aligned with the first electrode sheet 5 and the second electrode sheet 51 respectively to form two openable circuits;

normally, under the elastic force of the elastic sheet 21, the right end of the carrier plate 2 is pressed on the surface of the step 12, the carrier plate 2 is kept in a horizontal state, at the moment, the electrode blocks 4 are not contacted with the first electrode plate 5 and the second electrode plate 51, and the two circuits are in an off state;

the electromagnet 3 is electrified for 1s, when the electromagnet 3 is electrified, magnetic force is generated by the electromagnet 3, the electromagnet 3 and the permanent magnet 31 are adsorbed, the carrier plate 2 is driven to overcome the elastic force of the elastic sheet 21 to swing upwards, when the carrier plate 2 swings upwards, the shaft posts 62 drive all grid plates 63 to rotate along with the rotation, the direction rotates, damping liquid can be enabled to wash out the rotating plate 65, the damping liquid is conducted through the through holes 64, the rotation resistance of the shaft posts 62 and the carrier plate 2 is small, the carrier plate 2 can swing to the highest speed, and the two electrode blocks 4 are enabled to be respectively contacted with the first electrode plate 5 and the second electrode plate 51, and at the moment, the two circuits are in a conducting state;

after 1s, the electromagnet 3 is powered off, the elastic force of the elastic sheet 21 drives the carrier plate 2 to move downwards, the carrier plate 2 drives the shaft post 62 to rotate, the direction rotating plate 65 is blocked by the edge of the through hole 64 and can not be flushed by damping liquid, the damping liquid can only be conducted to two sides of the grid plate 63 through the through hole 66, so that the rotation of the grid plate 63 and the shaft post 62 is blocked, the rotation speed of the carrier plate 2 is slower, the contact time of the two groups of electrode blocks 4 and the first electrode plate 5 and the second electrode plate 51 is fixed, two circuits can only be conducted for a fixed period of time, and when the carrier plate 2 rotates to the step 12, the two circuits are disconnected;

pressing the contact handle 7 upwards causes the contact handle 7 to push the carrier plate 2 to overcome the elasticity and swing upwards, when the bottom end of the contact handle 7 is level with the bottom of the shell 1, one electrode block 4 is contacted with the second electrode plate 51, the other electrode block 4 is not contacted with the first electrode plate 5, and only one circuit is conducted.

As shown in fig. 5, two sliding grooves 42 are formed in the free end of the carrier plate 2, sliding blocks 41 are elastically slid in the sliding grooves 42 through springs, the two electrode blocks 4 are fixedly connected with the sliding blocks 41 respectively, and the sliding blocks 41 push the electrode blocks 4 to stably contact the first electrode plate 5 and the second electrode plate 51 through the elasticity of the springs, so that poor contact is avoided.

The intelligent closestool has the following structure:

as shown in fig. 10, a seat 9 is installed at the upper part of a toilet bowl body, two electric heating wires 91 are installed at the bottom of the seat 9, two ends of the two electric heating wires 91 are connected with a power supply of the intelligent toilet bowl, a switch is embedded and installed at the bottom of the seat 9, the two electric heating wires 91 are disconnected from the middle part, two disconnected ends of one electric heating wire 91 are respectively connected with one electrode block 4 and a second electrode plate 51, two disconnected ends of the other electric heating wire 91 are respectively connected with the other electrode block 4 and a first electrode plate 5, an elastic block 92 is arranged at the bottom of the seat 9, the elastic block 92 is in contact with the toilet bowl body to support the seat 9, a circuit of an electromagnet 3 is connected with a control panel of the intelligent toilet bowl, and the single touch power supply time of the electromagnet 3 is programmed to be 1s;

before the toilet, the electromagnet 3 is controlled to supply power, the carrier plate 2 swings upwards through the adsorption of the electromagnet 3 and the permanent magnet 31, the two electrode blocks 4 are respectively contacted with the first electrode plate 5 and the second electrode plate 51, the circuits of the two electric heating wires 91 are quickly connected, at the moment, the two electric heating wires 91 perform heating work simultaneously, and the seat ring 9 is quickly heated;

the electromagnet 3 is powered off after 1s, the carrier plate 2 slowly rotates under the damping action, the process before the electrode block 4 is separated from contact with the first electrode plate 5 and the second electrode plate 51 is a process of simultaneously heating the two electric heating wires 91, the time of the forced heating process is constant, if the toilet cannot be performed in time after the seat ring 9 is heated, the circuit of the two electric heating wires 91 is automatically cut off under the rotation of the carrier plate 2, so that excessive energy waste is avoided, and the safety is improved;

after the seat 9 is strongly heated, a user can use the toilet in time, the pressure of the user on the seat 9 acts on the elastic block 92, the elastic block 92 deforms to enable the seat 9 to move downwards further, the bottom of the touch handle 7 is extruded by the toilet body to move upwards in the process, the carrier plate 2 swings upwards to a constant amplitude, only one electrode block 4 contacts with the second electrode plate 51 in the amplitude, one electric heating wire 91 is electrified to generate heat, the other electric heating wire 91 is powered off, the proper low heat of the seat 9 in the subsequent toilet process is ensured, and discomfort to the user due to high temperature is avoided.

Claims

1. An electrical switch, comprising:

a housing (1);

the support plate (2), the elastic rotation of the support plate (2) is in the body (1), the rotation position of the support plate (2) is connected with the damping rotating piece (6) coaxially;

the electrode blocks (4), two electrode blocks (4) are arranged at the free end of the carrier plate (2) in a separated mode;

the inner wall of the shell (1) is provided with a first electrode plate (5) and a second electrode plate (51) which are respectively aligned with the two electrode blocks (4), and the first electrode plate (5) and the second electrode plate (51) vertically extend;

the electromagnet (3), the electromagnet (3) sets up the surface at support plate (2), and the top of electromagnet (3) has permanent magnet (31), and the circular telegram of electromagnet (3) adsorbs permanent magnet (31) for drive support plate (2) free end upper hem makes two electrode pieces (4) contact first electrode piece (5), second electrode piece (51) respectively.

2. The electric switch according to claim 1, characterized in that the damping rotation member (6) comprises a housing shell (61), the housing shell (61) is provided with a cylindrical inner cavity, the inner cavity of the housing shell (61) is filled with damping liquid, the housing shell (61) is rotatably provided with a shaft post (62), the carrier plate (2) and the shaft post (62) are coaxially fixed, a plurality of grid plates (63) are fixed around the shaft post (62), the grid plates (63) are in sliding contact with the inner wall of the housing shell (61), the surface of the grid plates (63) is provided with a through hole (64), a rotation plate (65) is rotatably provided in the through hole (64), the edge of the rotation plate (65) blocked by the through hole (64) can only open and close to rotate on one side of the through hole (64), and a plurality of through holes (66) are formed in the surface of the rotation plate (65).

3. The electrode switch according to claim 1, wherein the surface of the carrier plate (2) is provided with an upward protruding spring plate (21), the upper part of the spring plate (21) is blocked by the stop lever (11), the lower part of the inner wall of the shell (1) positioned at the second electrode plate (51) is provided with a step (12), the step (12) blocks the free end of the carrier plate (2) from falling, and when the carrier plate (2) contacts the step (12), the electrode block (4) is not contacted with the first electrode plate (5) and the second electrode plate (51).

4. An electrical switch according to claim 3, characterized in that the bottom end of the second electrode sheet (51) is lower than the bottom end of the first electrode sheet (5), and that the difference in length between the bottom of the second electrode sheet (51) and the first electrode sheet (5) is greater than the height of the electrode block (4).

5. An electrical switch according to claim 4, characterized in that the bottom of the carrier plate (2) is provided with a contact handle (7), the contact handle (7) penetrating out of the bottom of the housing (1), one of the electrode blocks (4) contacting the second electrode plate (51) and the other electrode block (4) not contacting the first electrode plate (5) when the bottom of the contact handle (7) is flush with the bottom of the housing (1).

6. The electric switch according to claim 1, wherein the free end of the carrier plate (2) is provided with two sliding grooves (42), sliding blocks (41) are elastically slid in the sliding grooves (42) through springs, and the two electrode blocks (4) are respectively and fixedly connected with the sliding blocks (41).

7. The electric switch according to claim 1, characterized in that the outer wall of the housing (1) is provided with a plurality of electric connection ports (8), the top of each electric connection port (8) is provided with a conductive contact piece (81), a screw (83) is threaded into the electric connection port (8) from bottom to top, the end part of the screw (83) is provided with an insulating piece (82) for aligning the conductive contact pieces (81), and the electrode blocks (4), the first electrode pieces (5) and the second electrode pieces (51) are connected with the conductive contact pieces (81) in the electric connection port (8) in a one-to-one aligning mode.

8. An intelligent closestool, includes the electric switch of any one of claims 1-7, and closestool body upper portion has seat (9), and the bottom of seat (9) sets up two electric heat line (91), and external power source is connected at the both ends of two electric heat line (91), a serial communication port, seat (9) bottom is arranged in to casing (1), and two electric heat line (91) middle part all break off, and one electrode piece (4) and second electrode piece (51) are connected respectively at the both ends that one electric heat line (91) disconnected, and another electrode piece (4) and first electrode piece (5) are connected respectively at the both ends that another electric heat line (91) disconnected.

9. The intelligent toilet according to claim 8, wherein the bottom of the seat (9) is provided with an elastic block (92), and the elastic block (92) in a non-pressed state supports the seat (9) so that the touch handle (7) does not contact the top surface of the toilet body.