JP2021028537A - Water leakage preventive device of indoor pipe - Google Patents

Abstract

To disclose a water leakage preventive device of an indoor pipe.SOLUTION: A water leakage preventive device of an indoor pipe includes a valve. A rotatable swiveling handle is installed in the valve. A screw is fixedly installed on a bottom end of the swiveling handle. The screw is coupled with the valve by a thread. A water-containing pipe opening to a left side is installed in the valve, and a water-feeding pipe opening to a right side is installed in the valve. The present invention has a simple structure, and is convenient in maintenance and use. The water leakage preventive device automatically blocks a valve and a pipe from which water leaks, and the pipe prevents water from continuously leaking. Further, it has people pay attention and carry out a timely repair inspection, and prevents the consumption of water resources, thereby suppressing economical losses caused by the water leakage of the pipe.SELECTED DRAWING: Figure 1

Description

The present invention relates to the field of indoor pipes, and specifically is a water leakage prevention device for indoor pipes.

Indoor pipes are commonly used to feed water resources, and after a long period of use, water can easily leak from the pipe's bubbles or outflow pipes, wasting water resources and at the same time standard pipes. Since there is no alarm device installed in the pipe, when the pipe leaks, people are less likely to notice the leak, and a large amount of water leaks into the room causing serious property loss, so the pipe continues to leak. With a leaking valve that can prevent water leaks, have people pay attention to timely repair inspections, avoid wasting water resources, and reduce the cost of water leaks in pipes. It is necessary to develop a device that automatically closes the pipe.

Publication of Chinese Patent Application No. 107514545

Technical problem: Since there is no alarm device installed on the standard pipe, when the pipe leaks, people are less likely to notice the leak, and a large amount of water leaks into the room, causing serious property loss.

In order to solve the above problems, the present invention has designed a water leakage prevention device for indoor pipes. The water leakage prevention device for an indoor pipe of the present invention includes a valve, a rotating turning handle is installed in the valve, a screw is fixedly installed at the bottom end of the rotating handle, and the screw is a screw. It is connected to the valve by a mountain, a water-filling pipe that opens to the left is installed in the valve, a water-out pipe that opens to the right is installed in the valve, and when the turning handle is turned. , The screw can be driven and slid so as to face the valve, and by communicating the water outlet pipe and the water inlet pipe, the water in the water inlet pipe is caused by the valve. It can flow into the water outlet pipe and further flow out from the valve, and a gasket is installed symmetrically and fixedly at the lower end of the screw, and the gasket is the water inlet pipe and the water outlet pipe. A motor space is installed at the right end of the screw, an alarm mechanism is installed in the motor space, the alarm mechanism is fixedly installed in the valve, and the water discharge pipe is water. In the event of a leak, the alarm mechanism is activated, and attention is paid to a person to inspect the tightness of the pipe and bubble, a power space is fixedly installed at the bottom end of the valve, and of the power space. A power mechanism is installed inside, a stop plate space is fixedly installed in the left and right side walls of the power space, a stop plate mechanism is installed in the stop plate space, and the power mechanism and the said It is rotatably connected to the stop plate mechanism, and when the water discharge pipe leaks, the power mechanism can be activated to drive the stop plate mechanism, and the stop plate mechanism closes the valve, said. To prevent the water discharge pipe from continuing to leak, a sealing space is installed in the left wall of the stop plate space on the right side, and a sealing mechanism is installed in the sealing space. It is connected to a power mechanism, and when the water discharge pipe leaks, the power mechanism can be activated to drive the sealing mechanism, and the sealing mechanism pinches the screw tightly and the water discharge pipe leaks. To prevent this from continuing, a monitoring mechanism is installed symmetrically in the upper wall of the power space, the monitoring mechanism and the power mechanism are connected by an electric wire, and the monitoring mechanism monitors the pressure in the pipe. Yes, when the drain pipe leaks, the monitoring mechanism can monitor changes in pressure in the pipe and start the power mechanism.

The monitoring mechanism includes a pressure monitor fixedly installed in the lower wall of the valve, an electric wire is connected to the lower end of the pressure monitor, and the electric wire and the power mechanism are connected to each other.

A deformable metal thin plate is installed in the pressure monitor, a monitor spring that can be compressed is fixedly installed at the lower end of the metal thin plate, and electric resistance blocks are installed at both left and right ends of the metal thin plate. Installed symmetrically, the lower end of the electrical resistance block and the electric wire are fixedly connected, and when the pipe leaks, the thin metal plate changes its shape as the pressure in the pipe changes, and further, the electrical resistance block When the resistance value of is changed and the alarm value is reached, the electric resistance block operates the power mechanism by the electric wire.

The power mechanism includes a first motor fixedly installed in the power space, is connected to the lower end of the first motor so that the first power shaft can be transmitted, and is connected to the first power shaft. (1) A belt pulley is fixedly installed, a belt pulley space is installed in the right wall of the power space, and a rotatable first transmission shaft is installed between the upper and lower walls of the belt pulley space. The upper end of one transmission shaft and the sealing mechanism are connected, a second belt pulley is fixedly installed on the first transmission shaft, and the second belt pulley and the first belt pulley are connected by the first belt. Then, the first motor is operated, the first motor drives and rotates the first power shaft, and the first power shaft is driven by the first belt pulley, the first belt, and the second belt pulley. The first transmission shaft can be driven and rotated, and the first transmission shaft can further drive the sealing mechanism.

A third belt pulley is fixedly installed at the lower end of the first power shaft, a second transmission shaft is symmetrically installed at both left and right ends of the third belt pulley, and the second transmission shaft is the power space. The fourth belt pulley is fixedly installed on the second transmission shaft so as to be rotatable in the upper and lower walls of the above, and the fourth belt pulley is connected to the third belt pulley by the second belt. The upper end of the second transmission shaft and the stop plate mechanism are connected to operate the first motor, the first motor drives and rotates the first power shaft, and the first power shaft is the first power shaft. The third belt pulley is driven and rotated, the third belt pulley is further driven and rotated by the second belt and the fourth belt pulley, and the second transmission shaft is further stopped by the second transmission shaft. The plate mechanism can be driven.

The stop plate mechanism includes a third transmission shaft that is installed so as to be rotatable in the stop plate space, and a first bevel gear is fixedly installed at one end of the third transmission shaft that is close to the power space. The lower end of the first cap gear is connected to the lower end of the first cap gear so that the second cap gear meshes with the lower end of the first cap gear, and the lower end of the second cap gear is fixedly installed on the second transmission shaft. A third bevel gear is fixedly installed at one end away from the space, a fourth bevel gear is fixedly installed at the rear end of the third bevel gear, and a first is at the axis of the fourth bevel gear. The four transmission shafts are fixedly installed, the fourth transmission shaft is installed so as to be rotatable in the front and rear walls of the stop plate space, and control gears are fixedly installed on the fourth transmission shaft. The control gear is located at the rear end of the fourth bevel gear, and the stop plate gear is connected to the upper end of the control gear so as to mesh with the stop plate gear, and the stop plate shaft is fixedly installed at the axis of the stop plate gear. The stop plate shaft is installed so as to be rotatable in the front and rear walls of the stop plate space, a stop plate is fixedly installed on the stop plate shaft, and the second transmission shaft is the second bevel gear and The first bevel gear drives and rotates the third transmission shaft, and the third transmission shaft drives and rotates the fourth transmission shaft by the third bead gear and the fourth bead gear, and the third transmission shaft is rotated. (Iv) When the transmission shaft is driven and rotated by the control gear and the stop plate gear, the stop plate shaft is further driven and rotated by the stop plate, and the stop plate is rotated upward. The valve and the water-filled pipe are separated from the water-filled pipe, and when the stop plate rotates downward, the valve and the water-filled pipe can be communicated with the water-draining pipe.

The sealing mechanism includes a push plate shaft installed so as to be rotatable in the front and rear walls of the sealed space, and a first push plate bevel gear is fixedly installed on the push plate shaft, and the first push plate is installed. A second push plate bevel gear is fixedly installed at the lower end of the bevel gear, the lower end of the second push plate bevel gear is fixedly installed on the first transmission shaft, and the push plate gear is fixedly installed on the push plate shaft. Is fixedly installed, the push plate gear is located at the rear end of the first push plate bevel gear, and the push plate is connected to the upper end of the push plate gear so as to mesh with the push plate, and is connected to the left end of the push plate. A sealing block is installed, a sealing pad is installed at the left end of the sealing block, and the first transmission shaft is rotated by driving the push plate shaft by the second push plate bevel gear and the first push plate bevel gear. The push plate shaft drives and rotates the push plate gear, and the push plate gear pushes the sealing block to the left, and the sealing block further tightly clamps the sealing pad and the gasket. It enhances the sealing performance of the valve and prevents the water discharge pipe from continuing to leak.

The alarm mechanism includes a second motor installed so as to be rotatable in the motor space, and is connected to the lower end of the second motor so that a second power shaft can be transmitted to the lower wall of the motor space. A first transmission space is installed inside, a first transmission bevel gear is fixedly installed at the lower end of the second power shaft, and the first transmission bead gear is located in the first transmission space. The second transmission bevel gear is connected to the right end of the first transmission bevel gear so as to mesh with each other, and the fifth transmission shaft is fixedly installed at the axis of the second transmission bead gear, and the fifth transmission shaft is It is installed so that it can rotate in the right wall of the first transmission space, the second transmission space is installed in the right wall of the first transmission space, and the third transmission is installed at the right end of the fifth transmission axis. The bead gear is fixedly installed, the third transmission bead gear is installed in the second transmission space, and the fourth transmission bead gear is connected to the upper end of the third transmission bead gear so as to mesh with the third transmission bead gear. A sixth transmission shaft is fixedly installed at the axis of the fourth transmission bevel gear, the sixth transmission shaft is installed so as to be rotatable in the upper wall of the second transmission space, and the sixth transmission shaft is installed. A caution light is fixedly installed at the upper end of the gear, and when the pipe leaks, the second motor starts immediately, and the second motor drives and rotates the second power shaft to rotate the second motor. The power shaft is driven and rotated by the first transmission gear and the second transmission gear, and the fifth transmission shaft is driven by the third transmission gear and the fourth transmission gear. The sixth transmission shaft is driven and rotated, and the sixth transmission shaft can further drive the caution light, and the caution light illuminates to warn a person to inspect the sealability of pipes, valves, and the like.

The beneficial effects of the present invention are: The present invention is simple to configure, convenient to maintain and use, the water leakage prevention device for indoor pipes of the present invention automatically closes leaking valves and pipes, and the pipes are water. It can prevent continuous leaks, have people pay attention to timely repair inspections, prevent waste of water resources, and reduce the economic loss caused by water leaks in pipes.

In order to explain in more detail the examples of the present invention or the technical ideas in the existing technology, the following is a brief introduction to the drawings necessary to explain the examples or the existing technology, and as is clear. , The following drawings are merely examples of a part of the present invention, and those skilled in the art can obtain other drawings based on these drawings without paying creative labor. The invention of the present application will be described in detail with reference to FIGS. 1 to 5 below, and in order to provide convenience in the explanation, the directions appearing in the following sentence are defined as follows: FIG. 1 is a front view of the invention of the present application, and later The directions of up, down, left, right, front and back described in the sentence coincide with the directions of up, down, left, right, front and back of the self-projection relationship in FIG.

FIG. 1 is a schematic diagram of the overall configuration of the water leakage prevention device for an indoor pipe of the present invention. FIG. 2 is an enlarged schematic view of the “A” configuration in FIG. FIG. 3 is an enlarged schematic view of the “B” configuration in FIG. FIG. 4 is an enlarged schematic view of the “C” configuration in FIG. FIG. 5 is an enlarged schematic view of the “D” configuration in FIG.

The present invention relates to a water leakage prevention device for indoor pipes, and is mainly applied to the field of water leakage prevention for pipes. The present invention will be described in detail with reference to the drawings of the present invention below.

The water leakage prevention device for an indoor pipe according to the present invention includes a valve 12, in which a rotatable turning handle 11 is installed, and a screw 13 is fixedly attached to the bottom end of the turning handle 11. The screw 13 is installed, the screw 13 is connected to the valve 12 by a screw thread, a water-filled pipe 15 opened to the left is installed in the valve 12, and water opened to the right is installed in the valve 12. When the outlet pipe 14 is installed and the turning handle 11 is turned, the screw 13 can be driven and slid so as to face the valve 12, and the water outlet pipe 14 and the water inlet pipe 15 By communicating with each other, the water in the water-filled pipe 15 can flow into the water discharge pipe 14 by the valve 12 and further flow out from the valve 12, and a gasket 16 is provided at the lower end of the screw 13. The valve 16 is installed symmetrically and fixedly, the water inlet pipe 15 and the water discharge pipe 14 are separated, and a motor space 300 is installed at the right end of the screw 13, and the motor space 300 is installed. An alarm mechanism 301 is installed inside, the alarm mechanism 301 is fixedly installed in the valve 12, and when the water discharge pipe 14 leaks, the alarm mechanism 301 operates and pipes to a person. A power space 100 is fixedly installed at the bottom end of the valve 12, and a power mechanism 101 is installed in the power space 100, so that the power is inspected. A stop plate space 200 is fixedly installed in the left and right side walls of the space 100, a stop plate mechanism 201 is installed in the stop plate space 200, and the power mechanism 101 and the stop plate mechanism 201 are Connected so that they can rotate, when the water outlet pipe 14 leaks, the power mechanism 101 can operate to drive the stop plate mechanism 201, and the stop plate mechanism 201 closes the valve 12, said. To prevent the water discharge pipe 14 from continuing to leak, a sealing space 600 is installed in the left wall of the stop plate space 200 on the right side, and a sealing mechanism 601 is installed in the sealing space 600. The sealing mechanism 601 and the power mechanism 101 are connected, and when the water discharge pipe 14 leaks, the power mechanism 101 can be activated to drive the sealing mechanism 601 and the sealing mechanism 601 can drive the sealing mechanism 601. To prevent the water discharge pipe 14 from continuing to leak. The monitoring mechanism 401 is installed symmetrically in the upper wall of the power space 100, the monitoring mechanism 401 and the power mechanism 101 are connected by an electric wire 44, and the monitoring mechanism 401 is in a pipe. The pressure can be monitored, and when the water discharge pipe 14 leaks, the monitoring mechanism 401 can monitor the change in pressure in the pipe, and starts the power mechanism 101.

The monitoring mechanism 401 will be described in detail below according to an embodiment, the monitoring mechanism 401 includes a pressure monitor 57 fixedly installed in the lower wall of the valve 12, and an electric wire is provided at the lower end of the pressure monitor 57. 44 is connected, and the electric wire 44 and the power mechanism 101 are connected.

To be beneficial, a deformable metal thin plate 58 is installed in the pressure monitor 57, and a compressible monitor spring 59 is fixedly installed at the lower end of the metal thin plate 58. Electric resistance blocks 61 are symmetrically installed at both left and right ends of 58, and the lower end of the electric resistance block 61 and the electric wire 44 are fixedly connected to each other, and when the pipe leaks, the metal thin plate 58 is inside the pipe. The shape is changed as the pressure of the electric resistance block 61 is changed, and the resistance value of the electric resistance block 61 is further changed. When the alarm value is reached, the electric resistance block 61 operates the power mechanism 101 by the electric wire 44.

The power mechanism 101 will be described in detail below according to an embodiment. The power mechanism 101 includes a first motor 28 fixedly installed in the power space 100, and a second motor 28 is located at the lower end of the first motor 28. One power shaft 25 is connected so as to be able to transmit, a first belt pulley 27 is fixedly installed on the first power shaft 25, and a belt pulley space 700 is installed in the right wall of the power space 100. A rotatable first power transmission shaft 32 is installed between the upper and lower walls of the belt pulley space 700, and the upper end of the first power transmission shaft 32 and the sealing mechanism 601 are connected to the first power transmission shaft 32. The second belt pulley 31 is fixedly installed, and the second belt pulley 31 and the first belt pulley 27 are connected by the first belt 29 to operate the first motor 28, and the first motor 28 The first power shaft 25 is driven and rotated, and the first power shaft 25 drives the first transmission shaft 32 by the first belt pulley 27, the first belt 29, and the second belt pulley 31. Rotated, the first transmission shaft 32 can further drive the sealing mechanism 601.

To be beneficial, a third belt pulley 26 is fixedly installed at the lower end of the first power shaft 25, and a second transmission shaft 22 is symmetrically installed at both left and right ends of the third belt pulley 26. The second transmission shaft 22 is installed so as to be rotatable in the upper and lower walls of the power space 100, and a fourth belt pulley 23 is fixedly installed on the second transmission shaft 22, and the fourth belt pulley 23 is fixedly installed. Is connected to the third belt pulley 26 by the second belt 24, the upper end of the second transmission shaft 22 and the stop plate mechanism 201 are connected to operate the first motor 28, and the first motor 28 operates. The first power shaft 25 is driven to rotate, the first power shaft 25 drives and rotates the third belt pulley 26, and the third belt pulley 26 further drives the second belt 24 and the first. The second transmission shaft 22 is driven and rotated by the four-belt pulley 23, and the second transmission shaft 22 can further drive the stop plate mechanism 201.

The stop plate mechanism 201 will be described in detail below according to an embodiment, and the stop plate mechanism 201 includes a third transmission shaft 54 installed so as to be rotatable in the stop plate space 200, and the third transmission shaft In 54, the first umbrella gear 55 is fixedly installed at one end close to the power space 100, and the second umbrella gear 56 is connected to the lower end of the first umbrella gear 55 so as to mesh with the second umbrella. The lower end of the gear 56 is fixedly installed on the second transmission shaft 22, and the third umbrella gear 53 is fixedly installed on one end of the third transmission shaft 54 away from the power space 100. A fourth bevel gear 51 is fixedly installed at the rear end of the bevel gear 53, a fourth transmission shaft 52 is fixedly installed at the axial center of the fourth bevel gear 51, and the fourth transmission shaft 52 is fixedly installed. It is installed so as to be rotatable in the front and rear walls of the stop plate space 200, a control gear 49 is fixedly installed on the fourth transmission shaft 52, and the control gear 49 is the rear end of the fourth umbrella gear 51. The stop plate gear 19 is connected to the upper end of the control gear 49 so as to mesh with the stop plate gear 19, and the stop plate shaft 21 is fixedly installed at the axis of the stop plate gear 19, and the stop plate shaft 21 is The stop plate 18 is fixedly installed on the stop plate shaft 21 so as to be rotatable in the front and rear walls of the stop plate space 200, and the second transmission shaft 22 is the second cap gear 56 and the stop plate shaft 22. The third transmission shaft 54 is driven and rotated by the first umbrella gear 55, and the third transmission shaft 54 drives the fourth transmission shaft 52 by the third umbrella gear 53 and the fourth umbrella gear 51. The fourth transmission shaft 52 is rotated by driving the stop plate shaft 21 by the control gear 49 and the stop plate gear 19, and the stop plate shaft 21 further drives and rotates the stop plate 18. When the stop plate 18 rotates upward, the valve 12 and the water-filled pipe 15 and the water discharge pipe 14 are separated, and when the stop plate 18 rotates downward, the valve 12 and the water-filled pipe 15 can be communicated with the water discharge pipe 14.

The sealing mechanism 601 will be described in detail below according to an embodiment, and the sealing mechanism 601 includes a push plate shaft 46 installed so as to be rotatable in the front and rear walls of the sealing space 600, and the push plate shaft 46 includes a push plate shaft 46. The first push plate bevel gear 47 is fixedly installed, and the second push plate bevel gear 45 is fixedly installed at the lower end of the first push plate bead gear 47, and the second push plate bead gear 45 is fixedly installed. The lower end is fixedly installed on the first transmission shaft 32, the push plate gear 62 is fixedly installed on the push plate shaft 46, and the push plate gear 62 is the rear end of the first push plate bevel gear 47. A push plate 48 is engaged with the upper end of the push plate gear 62, a sealing block 17 is installed at the left end of the push plate 48, and a sealing pad 43 is provided at the left end of the sealing block 17. The first transmission shaft 32 is installed, and the push plate shaft 46 is driven and rotated by the second push plate bevel gear 45 and the first push plate bevel gear 47, and the push plate shaft 46 is the push plate gear. The push plate gear 62 drives and rotates the 62, and the push plate gear 62 pushes the sealing block 17 to the left, and the sealing block 17 further tightly sandwiches the sealing pad 43 and the gasket 16, so that the valve 12 can be sealed. To prevent the water discharge pipe 14 from continuing to leak.

According to an embodiment, the alarm mechanism 301 will be described in detail below, and the alarm mechanism 301 includes a second motor 33 installed so as to be rotatable in the motor space 300, and the lower end of the second motor 33 includes a second motor 33. The second power shaft 34 is connected so as to be able to transmit, the first transmission space 400 is installed in the lower wall of the motor space 300, and the first transmission cap gear 35 is located at the lower end of the second power shaft 34. It is fixedly installed, the first transmission cap gear 35 is located in the first transmission space 400, and the second transmission cap gear 36 is connected to the right end of the first transmission cap gear 35 so as to mesh with each other. A fifth transmission shaft 37 is fixedly installed at the axis of the second transmission cap gear 36, and the fifth transmission shaft 37 is installed so as to be rotatable in the right wall of the first transmission space 400. A second transmission space 500 is installed in the right wall of the first transmission space 400, a third transmission umbrella gear 38 is fixedly installed at the right end of the fifth transmission shaft 37, and the third transmission umbrella is fixedly installed. The gear 38 is installed in the second transmission space 500, and is connected to the upper end of the third transmission umbrella gear 38 so as to mesh with the fourth transmission umbrella gear 39, and is connected to the axial center of the fourth transmission umbrella gear 39. The sixth transmission shaft 41 is fixedly installed, the sixth transmission shaft 41 is installed so as to be rotatable in the upper wall of the second transmission space 500, and attention should be paid to the upper end of the sixth transmission shaft 41. When the light 42 is fixedly installed and the pipe leaks, the second motor 33 starts immediately, and the second motor 33 drives and rotates the second power shaft 34 to cause the second power. The shaft 34 drives and rotates the fifth transmission shaft 37 by the first transmission gear 35 and the second transmission gear 36, and the fifth transmission shaft 37 is the third transmission gear 38 and the fourth transmission. The sixth transmission shaft 41 is driven and rotated by the transmission bevel gear 39, the sixth transmission shaft 41 can further drive the caution light 42, and the caution light illuminates to seal a person such as a pipe or a valve. Be careful to test sex.

The procedure for using the water leakage prevention device for the indoor pipe of the present invention will be described in detail with reference to FIGS. 1 to 5 below. When the pipe leaks, the thin metal plate 58 changes its shape as the pressure in the pipe changes, further changes the resistance value of the electric resistance block 61, and when the alarm value is reached, the electric resistance block 61 changes the shape of the electric resistance block 61. At the same time, the second motor 33 is immediately energized and operated, the second motor 33 drives and rotates the second power shaft 34, and the second power shaft 34 operates. The fifth transmission shaft 37 is driven and rotated by the first transmission cap gear 35 and the second transmission cap gear 36, and the fifth transmission shaft 37 is the third transmission cap gear 38 and the fourth transmission cap gear. The sixth transmission shaft 41 is driven and rotated by 39, the sixth transmission shaft 41 can further drive the caution light 42, and the caution light illuminates to inspect a person for sealing of pipes, valves, and the like. The first motor 28 drives and rotates the first power shaft 25, and the first power shaft 25 is the first belt pulley 27, the first belt 29, and the second belt pulley. 31 drives and rotates the first transmission shaft 32, and the first transmission shaft 32 drives and rotates the push plate shaft 46 by the second push plate bevel gear 45 and the first push plate bevel gear 47. The push plate shaft 46 drives and rotates the push plate gear 62, the push plate gear 62 drives the push plate 48 and slides to the left, and the push plate 48 moves to the left. The sealing block 17 is pushed and moved, and the sealing block 17 further tightly sandwiches the sealing pad 43 and the gasket 16 to improve the sealing property of the valve 12 and prevent the water discharge pipe 14 from continuing to leak. At the same time, the first power shaft 25 drives and rotates the third belt pulley 26, and the third belt pulley 26 drives the second transmission shaft 22 by the second belt 24 and the fourth belt pulley 23. The second transmission shaft 22 is driven by the second bevel gear 56 and the first bevel gear 55 to rotate the third transmission shaft 54, and the third transmission shaft 54 is the third bead gear. The fourth transmission shaft 52 is driven and rotated by the 53 and the fourth bevel gear 51, and the fourth transmission shaft 52 is driven and rotated by the control gear 49 and the stop plate gear 19. The stop plate shaft 21 further drives the stop plate 18 to rotate upward, and the stop plate 18 rotates upward to cause the valve 12 and the water-filled gear. The ip 15 and the water discharge pipe 14 are separated by the stop plate 18 to prevent the water discharge pipe 14 from continuing to leak.

The beneficial effects of the present invention are: The present invention is simple to configure, convenient to maintain and use, the water leakage prevention device for indoor pipes of the present invention automatically closes leaking valves and pipes, and the pipes are water. It can prevent continuous leaks, have people pay attention to timely repair inspections, prevent waste of water resources, and reduce the economic loss caused by water leaks in pipes.

The above is merely a specific embodiment of the invention, and the scope of protection of the invention is not limited to this, and all changes or replacements that can be conceived without the passage of creative labor are within the scope of protection of the invention of the present application. Including inside. Therefore, the scope of protection of the invention should be based on the scope of protection limited to the claims of the patent.

Claims (9)

A rotating rotating handle including a valve is installed in the valve, a screw is fixedly installed at the bottom end of the rotating handle, and the screw is connected to the valve by a screw thread to be inside the valve. A water pipe that opens to the left is installed in the valve, and a water pipe that opens to the right is installed in the valve.
A gasket is symmetrically and fixedly installed at the lower end of the screw, the gasket separates the water inlet pipe and the water discharge pipe, and a motor space is installed at the right end of the screw. An alarm mechanism is installed in the space, and the alarm mechanism is fixedly installed in the valve.
A power space is fixedly installed at the bottom end of the valve, a power mechanism is installed in the power space, and a stop plate space is fixedly installed in the left and right side walls of the power space. A stop plate mechanism is installed in the stop plate space, and the power mechanism and the stop plate mechanism are connected so as to be rotatable.
A sealing space is installed in the left wall of the stop plate space on the right side, a sealing mechanism is installed in the sealing space, and the sealing mechanism and the power mechanism are connected to each other.
A monitoring mechanism is installed symmetrically in the upper wall of the power space, the monitoring mechanism and the power mechanism are connected by electric wires, and the monitoring mechanism can monitor the pressure in the pipe. Water leakage prevention device for pipes. The monitoring mechanism includes a pressure monitor fixedly installed in the lower wall of the valve, and an electric wire is connected to the lower end of the pressure monitor, and the electric wire and the power mechanism are connected to each other. The water leakage prevention device for an indoor pipe according to claim 1. A deformable metal thin plate is installed in the pressure monitor, a monitor spring that can be compressed is fixedly installed at the lower end of the metal thin plate, and electric resistance blocks are installed at both left and right ends of the metal thin plate. The water leakage prevention device for an indoor pipe according to claim 2, wherein the lower end of the electric resistance block and the electric wire are fixedly connected to each other. The power mechanism includes a first motor fixedly installed in the power space, is connected to the lower end of the first motor so that the first power shaft can be transmitted, and is connected to the first power shaft. (1) A belt pulley is fixedly installed, a belt pulley space is installed in the right wall of the power space, and a rotatable first transmission shaft is installed between the upper and lower walls of the belt pulley space. The upper end of one transmission shaft and the sealing mechanism are connected, a second belt pulley is fixedly installed on the first transmission shaft, and the second belt pulley and the first belt pulley are connected by the first belt. The water leakage prevention device for an indoor pipe according to claim 1, wherein the device is provided. A third belt pulley is fixedly installed at the lower end of the first power shaft, a second transmission shaft is symmetrically installed at both left and right ends of the third belt pulley, and the second transmission shaft is the power space. The fourth belt pulley is fixedly installed on the second transmission shaft so as to be rotatable in the upper and lower walls of the above, and the fourth belt pulley is connected to the third belt pulley by the second belt. The water leakage prevention device for an indoor pipe according to claim 4, wherein the upper end of the second transmission shaft and the stop plate mechanism are connected to each other. The stop plate mechanism includes a third transmission shaft that is installed so as to be rotatable in the stop plate space, and a first bevel gear is fixedly installed at one end of the third transmission shaft that is close to the power space. The lower end of the first cap gear is connected to the lower end of the first cap gear so that the second cap gear meshes with the lower end of the first cap gear, and the lower end of the second cap gear is fixedly installed on the second transmission shaft and the power on the third transmission shaft. A third bevel gear is fixedly installed at one end away from the space, a fourth bevel gear is fixedly installed at the rear end of the third bevel gear, and a first is at the axis of the fourth bevel gear. The four transmission shafts are fixedly installed, the fourth transmission shaft is installed so as to be rotatable in the front and rear walls of the stop plate space, and control gears are fixedly installed on the fourth transmission shaft. The control gear is located at the rear end of the fourth bevel gear, and the stop plate gear is connected to the upper end of the control gear so as to mesh with the stop plate gear, and the stop plate shaft is fixedly installed at the axis of the stop plate gear. The first aspect of claim 1, wherein the stop plate shaft is installed so as to be rotatable in the front and rear walls of the stop plate space, and the stop plate is fixedly installed on the stop plate shaft. Water leakage prevention device for indoor pipes. The sealing mechanism includes a push plate shaft installed so as to be rotatable in the front and rear walls of the sealed space, and a first push plate bevel gear is fixedly installed on the push plate shaft, and the first push plate is installed. A second push plate bevel gear is fixedly installed at the lower end of the bevel gear, the lower end of the second push plate bevel gear is fixedly installed on the first transmission shaft, and the push plate gear is fixedly installed on the push plate shaft. Is fixedly installed, the push plate gear is located at the rear end of the first push plate bevel gear, and the push plate is connected to the upper end of the push plate gear so as to mesh with the push plate, and is connected to the left end of the push plate. The water leakage prevention device for an indoor pipe according to claim 1, wherein a sealing block is installed, and a sealing pad is installed at the left end of the sealing block. The alarm mechanism includes a second motor installed so as to be rotatable in the motor space, and is connected to the lower end of the second motor so that a second power shaft can be transmitted to the lower wall of the motor space. The prevention of water leakage from an indoor pipe according to claim 1, wherein a first transmission space is installed inside, and a first transmission bevel gear is fixedly installed at the lower end of the second power shaft. apparatus. The first transmission cap gear is located in the first transmission space, and is connected to the right end of the first transmission cap gear so that the second transmission cap gear meshes with the axis of the second transmission cap gear. The fifth transmission shaft is fixedly installed, the fifth transmission shaft is installed so as to be rotatable in the right wall of the first transmission space, and the second transmission shaft is installed in the right wall of the first transmission space. A transmission space is installed, a third transmission umbrella gear is fixedly installed at the right end of the fifth transmission shaft, the third transmission umbrella gear is installed in the second transmission space, and the third transmission umbrella is installed. The fourth transmission umbrella gear is connected to the upper end of the gear so as to mesh with each other, the sixth transmission shaft is fixedly installed at the axis of the fourth transmission umbrella gear, and the sixth transmission shaft is the second transmission space. The water leakage prevention device for an indoor pipe according to claim 8, wherein a caution light is fixedly installed at the upper end of the sixth transmission shaft, which is installed so as to be rotatable in an upper wall. ..

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