CN215253264U - Universal inductive drainage driving device - Google Patents

Abstract

The utility model relates to a controlling means of drain valve in the closestool especially relates to a can contactless control and installation strong adaptability's wildcard formula response drainage drive arrangement. The universal inductive drainage driving device comprises a control body driven by an inductive switch body; the control body is arranged on a drain valve overflow pipe through a locking component and adjusted according to the adaptability of the installation environment, and the control body can move up and down around the drain valve overflow pipe and adjust the adaptability of circumferential rotation; the control body comprises a driving mechanism and a control rod, and the control rod is arranged on the driving mechanism to drive the drainage to form a switch control mechanism for controlling the drainage; the control body is provided with a pressing installation position and a lifting installation position, and the control rod is detachably arranged at the pressing installation position or the lifting installation position to form an adaptive replacement structure of the control rod.

Description

Universal inductive drainage driving device

Technical Field

The utility model relates to a controlling means of drain valve in the closestool especially relates to a can contactless control and installation strong adaptability's wildcard formula response drainage drive arrangement.

Background

Most of the water discharge valves in the toilet adopt a contact type control mode to control the switch, and most of the toilets are public products, and the contact type control mode is adopted every time the toilet is used, so that the spread of bacteria and viruses obviously affects the health of people.

In addition, the existing drain valve control body has a single structure and cannot be effectively and quickly replaced according to the type of the drain valve; meanwhile, the installation position of the drain valve control body is fixed, and effective adjustment cannot be performed according to the actual installation environment and the position of a component.

Therefore, how to design and manufacture a drainage control structure capable of solving the technical problems in the prior art is one of the technical problems to be solved by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problem, the utility model discloses a general formula response drainage drive arrangement, it includes by the control body of inductive switch body driven, wherein:

the control body is arranged on the drain valve overflow pipe through a locking component according to the adjustment of the adaptability of the installation environment, and the control body can move up and down around the drain valve overflow pipe and adjust the adaptability of circumferential rotation; the control body comprises a driving mechanism and a control rod, and the control rod is arranged on the driving mechanism to drive the drainage to form a switch control mechanism for controlling the drainage;

the control body is provided with a pressing installation position and a lifting installation position, and the control rod is detachably arranged at the pressing installation position or the lifting installation position to form an adaptive replacement structure of the control rod.

Further preferred is: the control rod is a pressing rod or a lifting rod.

Further preferred is: locking Assembly is including the opening pipe and the main part pipe that link to each other, wherein:

the control body is arranged in the main body pipe; the opening pipe is a pipe body with a C-shaped radial section, and is sleeved on the drain valve overflow pipe to form a first mounting structure with an adjustable inner diameter.

Further preferred is: the opening end of the opening pipe is provided with two locking lugs which are matched, locked and connected through a bolt to form a second mounting structure with the mounting position and the angle adjustable respectively.

Further preferred is: the two locking lugs are sheet-shaped parts obtained by respectively extending two edges of the opening end towards the radial direction of the opening pipe.

Further preferred is: the outer side wall of the main body pipe is provided with an adjusting tooth section, the control body is provided with an occlusion piece, the occlusion piece can be meshed with the adjusting tooth section, and a third installation structure with an adjustable installation angle is formed between the control body and the main body pipe.

Further preferred is: the tooth section of the adjusting teeth is an annular convex strip.

Further preferred is: the occluding sheet is driven by an adjusting rod;

the adjusting rod is arranged on the control body, and an ejector rod on one side of the adjusting rod is abutted against the occlusion sheet.

Further preferred is: the control end of the drain valve is arranged corresponding to the control rod.

Further preferred is: the drain valve is a top-pressing type drain valve or a lifting type drain valve;

the control rod is a pressing rod or a lifting rod, and the top-pressing type drain valve or the lifting type drain valve is driven to drain water in an adaptive mode.

Compared with the prior art, the utility model has the advantages of as follows:

the utility model utilizes the inductive switch body to drive the control body, the control body drives the drain valve to realize the switch control of the drain valve, and the inductive switch body is a non-contact switch control body, thereby effectively breaking the propagation chain of bacteria and virus;

the control body is arranged on the drain valve overflow pipe through the locking component, the opening pipe in the control body is a pipe body with a C-shaped radial section, the opening pipe is sleeved on the drain valve overflow pipe, and the control body can adapt to drain valve overflow pipes with different diameters so as to adapt to drain valve overflow pipes with different outer diameters; the open end of the open pipe is locked by matching bolts, so that a structure which is convenient to disassemble, assemble and adjust is realized, and the axial direction of the overflow pipe of the drain valve can be adjusted according to specific installation requirements; the control body is arranged in the main body pipe, and the angle between the control body and the main body pipe can be adjusted according to requirements; meanwhile, the locking assembly can adjust the angle by adjusting the angle between the opening pipe and the overflow pipe of the drain valve to meet the requirement, so that the adaptability of the device disclosed by the scheme is improved, and the requirement of being capable of adapting to installation at various positions and angles is met;

the utility model discloses a different mounted position of control lever and control body to the different kind drain valve of adaptation realizes changing the control lever that corresponds according to the kind or the type of drain valve promptly, when realizing contactless control's purpose, can also effectually change according to particular case, promotes the demand of adaptability, thereby promotes the practicality.

Drawings

Fig. 1 is a first schematic structural diagram of the universal inductive drainage driving device (the drainage valve is a top-press drainage valve) in the embodiment of the present invention;

fig. 2 is a schematic structural diagram ii of the universal inductive drainage driving device (the drainage valve is a top-pressing drainage valve) in the embodiment of the present invention;

FIG. 3 is a cross-sectional view of the control body of the structure shown in FIGS. 1 and 2;

fig. 4 is a first schematic structural diagram of the universal inductive drainage driving device (the drainage valve is a lift-type drainage valve) according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram ii of the universal inductive drainage driving device (the drainage valve is a lift-type drainage valve) in the embodiment of the present invention;

fig. 6 is a sectional view of the structure of the control body in the structures shown in fig. 4 and 5.

Detailed Description

Most of the water discharge valves in the toilet adopt a contact type control mode to control the switch, and most of the toilets are public products, and the contact type control mode is adopted every time the toilet is used, so that the spread of bacteria and viruses obviously affects the health of people.

The inventor has continuously researched and found a universal induction drainage driving device which comprises a control body driven by an induction switch body, aiming at the technical problems, through the analysis of reasons, wherein:

it includes by the control body of the drive of inductive switch body, wherein:

the control body is arranged on the drain valve overflow pipe through a locking component according to the adjustment of the adaptability of the installation environment, and the control body can move up and down around the drain valve overflow pipe and adjust the adaptability of circumferential rotation; the control body comprises a driving mechanism and a control rod, and the control rod is arranged on the driving mechanism to drive the drainage to form a switch control mechanism for controlling the drainage;

the control body is provided with a pressing installation position and a lifting installation position, and the control rod is detachably arranged at the pressing installation position or the lifting installation position to form an adaptive replacement structure of the control rod.

In the technical scheme, the control body is driven by the inductive switch body, the control body drives the drain valve to realize the on-off control of the drain valve, the inductive switch body is a non-contact switch control body, and the locking assembly is an adjustable assembly which can be adaptively installed according to the actual installation environment; meanwhile, the structure of the control body can be replaced according to the type or the variety of the drain valve, so that the technical problem in the prior art is effectively solved.

The following detailed description of the embodiments of the present invention will be made with reference to the accompanying drawings.

Example (b):

as shown in fig. 1, 2, 4 and 5, a universal induction drainage driving device is installed in a toilet tank and includes a control body 2 and a drainage valve which are sequentially driven by an induction switch body 1.

As shown in fig. 1, 2, 4 and 5, the inductive switch body 1 is a human body inductive switch, which may be a microwave inductive human body switch controller, and can effectively detect the change of a human body to realize the switch control thereof, or may be a structure such as infrared ray that can induce a human body and realize the switch control; in this embodiment: the induction switch body is a microwave induction human body switch control body, is in a box body shape and is arranged on the side surface of the control body 2.

As shown in fig. 1, 2, 4 and 5, the drain valve may be a top-pressing type drain valve 31 or a pull-up type drain valve 32, and the switch end of the top-pressing type drain valve 31 or the pull-up type drain valve 32 is the top end of the top-pressing type drain valve 31 or the pull-up type drain valve 32, i.e. the end provided with the control switch or the button; a drain valve overflow pipe 4 is arranged beside the drain valve, and the drain valve overflow pipe 4 is a pipe body standing in the water tank; the control body 2 is adaptively adjusted through a locking component 5 and is arranged on the drain valve overflow pipe 4.

As shown in fig. 1, 2, 4 and 5, the locking assembly 5 comprises an open pipe 5-1 and a main pipe 5-2 connected with each other; the control body 2 is arranged in the main body pipe 5-2; the opening pipe 5-1 is a pipe body with a C-shaped radial section, and is sleeved on the drain valve overflow pipe 4 to form a first installation structure with an adjustable inner diameter;

as shown in fig. 1, 2, 4 and 5, the open end of the open pipe 5-1 has two locking lugs 5-11, and the two locking lugs 5-11 are locked and connected by a bolt 6 to form a second mounting structure with adjustable mounting position and angle respectively; specifically, the method comprises the following steps: the two edges of the opening end of the two locking lugs 5-11 are respectively provided with a sheet part which is obtained by extending towards the radial direction of the opening pipe, through holes with adaptive inner diameters are arranged at the same positions on the two locking lugs 5-11, the bolt 6 sequentially passes through the two through holes and is locked by matching with a nut, and a second mounting structure which can carry out adaptive position and angle adjustment according to the actual mounting environment and component distribution is formed;

as shown in fig. 1, 2, 4 and 5, the main tube 5-2 is a tube body with a closed lower end, the control body 2 is installed in the main tube 5-2, an adjusting tooth section 5-21 is arranged on the outer side wall of the main tube 5-2, and the adjusting tooth section 5-21 is an annular convex strip; the control body 2 is also provided with an elastic sheet, one side surface of the elastic sheet is provided with a convex tooth which can be meshed with the adjusting tooth section to form an occluding sheet 7, and a third mounting structure with an adjustable mounting angle is formed between the control body 2 and the main body pipe 5-2;

as shown in fig. 1, 2, 4 and 5, the engaging piece 7 is driven by an adjusting rod 8, the adjusting rod 8 is mounted on the control body 2, and a top rod 8-1 at one side of the adjusting rod abuts against the back surface of the engaging piece 7.

As shown in fig. 1 to 6, the control body 2 is mounted on the drain valve overflow pipe 4 through the locking assembly 5 according to the adaptability of the installation environment, that is: the control body can move up and down around the drain valve overflow pipe 4 and adjust the adaptability of circumferential rotation; the control body comprises a driving mechanism 2-1 and a control rod 2-2, the driving mechanism 2-1 is cylindrical as a whole and is arranged in the main body pipe 5-2, and the control rod 2-2 is arranged at the upper end of the driving mechanism; the bite piece 7 and the adjusting rod 8 are both arranged on the driving mechanism 2-1; the control rod 2-2 is arranged on the driving mechanism 2-1 and is arranged corresponding to the switch end of the drain valve to form a control mechanism for controlling the switch of the drain valve; as shown in fig. 1 to 3, when the drain valve is a top-press type drain valve 31, the control rod 2-2 is a pressing rod, the pressing rod is an S-shaped rod body, a raised end of the pressing rod is mounted on the driving mechanism 2-1, and a low-pressure end of the pressing rod is a contact end for driving a switch of the drain valve; as shown in fig. 4 to 6, when the drain valve is a pull-up type drain valve 32, the control rod 2-2 is a lifting rod, the lifting rod is a linear rod body and is arranged obliquely, the high end of the lifting rod is installed on the driving mechanism 2-1, and the low end of the lifting rod is a contact end for driving the drain valve to open and close.

The driving mechanism 2-1 may be a driving structure that can drive the control rod 2-2 to perform work as disclosed in the prior art, and in the present embodiment, an air driving structure is taken as an example for description, but the invention is not limited thereto;

as shown in fig. 3 and 6, the driving mechanism 2-1 includes a housing and a pneumatic assembly installed in the housing, the pneumatic assembly includes an air pump 2-11 and a driving rod 2-12, an air outlet of the air pump 2-11 corresponds to the driving rod 2-12, and the control rod 2-2 is installed at an upper end of the driving rod 2-12; the driving rods 2 to 12 are rod bodies sleeved with return springs and can be reset through the restoring force of the return springs;

the driving rod 2-12 is a lifting rod driven by the air pump 2-11, and the top end of the driving rod is provided with a lifting installation position 0-2 and a pressing installation position 0-1;

as shown in fig. 1 to 3, when the drain valve is a top-pressing type drain valve, the control rod 2-2 is a pressing rod; the top end of the driving rod 2-12 is provided with a transverse handle, the transverse handle is provided with a strip-shaped hole, namely the pressing installation position is 0-1, the middle part of the pressing rod is also hinged at the corresponding position of the shell, one end of the pressing rod is provided with a guide rod, and the guide rod is arranged in the strip-shaped hole; when the driving rod is driven by an air pump to move up and down, the pressing rod can perform pressing operation so as to control the opening or closing of the top-pressing type drainage valve;

as shown in fig. 4 to 5, when the drain valve is a pull-up type drain valve, the control lever 2-2 is a lift lever; a connecting shaft, namely the lifting installation position 0-2, is arranged at the end of the driving rod 2-12 close to the transverse handle, and the lifting rod is arranged on the hinged shaft; when the driving rod is driven by the air pump to move up and down, the lifting rod can be lifted and pulled to control the lifting type drain valve to be opened or closed.

If in actual use, the control rod needs to be replaced adaptively according to the type or kind of the drain valve (the control rod installation and disassembly method can be operated according to the description in the previous paragraph), only the control rod which is not adapted originally needs to be disassembled from the pull-up installation position 0-2 or the push-down installation position 0-1, and the control rod which is adapted is installed at the corresponding push-down installation position 0-1 or the pull-up installation position 0-2.

The pressing installation positions 0-1 and the lifting installation positions 0-2 are installation structures which are matched with the installation and movement of the pressing rod and the lifting rod respectively, and the structural arrangement of the pressing installation positions 0-1 and the lifting installation positions 0-2 can be replaced by the conventional public or common knowledge in the field; the structure and connection method of the pressing lever, the lifting lever, and the driving lever are not limited to the structure and connection method for achieving the pressing operation of the pressing lever and the lifting operation of the lifting lever, and the structure can be effectively replaced according to the disclosed mechanism and structure.

Although the present invention has been described with reference to the preferred embodiments, it is not intended to limit the present invention, and those skilled in the art can make modifications and changes without departing from the spirit and scope of the present invention.

Claims (10)

1. General formula response drainage drive arrangement, its characterized in that: it includes by the control body of the drive of inductive switch body, wherein:

the control body is arranged on the drain valve overflow pipe through a locking component according to the adjustment of the adaptability of the installation environment, and the control body can move up and down around the drain valve overflow pipe and adjust the adaptability of circumferential rotation; the control body comprises a driving mechanism and a control rod, and the control rod is arranged on the driving mechanism to drive the drainage to form a switch control mechanism for controlling the drainage;

the control body is provided with a pressing installation position and a lifting installation position, and the control rod is detachably arranged at the pressing installation position or the lifting installation position to form an adaptive replacement structure of the control rod.

2. A generic induction drain drive as claimed in claim 1, wherein: the control rod is a pressing rod or a lifting rod.

3. A generic induction drain drive as claimed in claim 1, wherein: locking Assembly is including the opening pipe and the main part pipe that link to each other, wherein:

the control body is arranged in the main body pipe; the opening pipe is a pipe body with a C-shaped radial section, and is sleeved on the drain valve overflow pipe to form a first mounting structure with an adjustable inner diameter.

4. A generic induction drain drive as claimed in claim 3, wherein: the opening end of the opening pipe is provided with two locking lugs which are matched, locked and connected through a bolt to form a second mounting structure with the mounting position and the angle adjustable respectively.

5. A generic induction drain drive according to claim 4, characterized in that: the two locking lugs are sheet-shaped parts obtained by respectively extending two edges of the opening end towards the radial direction of the opening pipe.

6. A generic induction drain drive as claimed in claim 3, wherein: the outer side wall of the main body pipe is provided with an adjusting tooth section, the control body is provided with an occlusion piece, the occlusion piece can be meshed with the adjusting tooth section, and a third installation structure with an adjustable installation angle is formed between the control body and the main body pipe.

7. The drive of claim 6, wherein: the tooth section of the adjusting teeth is an annular convex strip.

8. The drive of claim 6, wherein: the occluding sheet is driven by an adjusting rod;

the adjusting rod is arranged on the control body, and an ejector rod on one side of the adjusting rod is abutted against the occlusion sheet.

9. A generic induction drain drive according to claim 1 or 2, characterized in that; the control end of the drain valve is arranged corresponding to the control rod.

10. A generic induction drain drive as claimed in claim 9, wherein: the drain valve is a top-pressing type drain valve or a lifting type drain valve;

the control rod is a pressing rod or a lifting rod, and the top-pressing type drain valve or the lifting type drain valve is driven to drain water in an adaptive mode.

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