CN219608267U - Floating ball device for water temperature monitoring - Google Patents

Abstract

The utility model discloses a floating ball device for water temperature monitoring, which comprises a funnel-shaped floating ball body and an elbow integrally formed on the outer surface of the floating ball body, wherein an instrument box and a lithium battery pack which are connected with each other are arranged above the inside of the floating ball body, a plastic plate is transversely arranged below the inside of the floating ball body, and a filler is filled between the lower part of the plastic plate and the lower end part of the floating ball body; the inside of floater body is provided with first communicating pipe along vertically, and the outside of floater body is provided with the second communicating pipe, and first communicating pipe runs through in the plastic slab and is connected with the second communicating pipe through interior silk pipe, is provided with temperature sensor on the second communicating pipe, and temperature sensor passes through the circuit and is connected with the instrument box. The utility model has simple structure, the lead is arranged in the floating ball through the arranged communicating pipe, and the potential safety hazard that the lead contacts water is eliminated; meanwhile, the floating ball body, the lithium battery pack, the solar panel and the temperature sensor are combined, so that the water temperature can be rapidly monitored, and the device has popularization prospect.

Description

Floating ball device for water temperature monitoring

Technical Field

The utility model relates to the technical field of water temperature monitoring devices, in particular to a floating ball device for water temperature monitoring.

Background

In the water temperature monitoring process, a floating ball device is generally adopted as a water temperature monitoring carrier to assist in monitoring the water temperature. The existing water temperature monitoring process is to install a temperature sensor on a floating ball with a simple structure, and connect the data of the temperature sensor with an onshore receiving terminal through a wire arranged outside the floating ball, so as to realize water temperature monitoring. The wire is difficult to lay in the process, and meanwhile, the potential safety hazard that the wire contacts water exists outside the floating ball; in addition, when the water level fluctuates, the wire is easily damaged due to the manual mode of winding and unwinding, so that the service life of the wire is greatly reduced, and the cost is increased.

Disclosure of Invention

In order to solve the technical problems, the utility model provides a floating ball device for water temperature monitoring, which has a simple structure, is provided with a lead inside a floating ball through an arranged communicating pipe, and eliminates the potential safety hazard that the lead contacts water; meanwhile, the floating ball body, the lithium battery pack, the solar panel and the temperature sensor are combined, so that the water temperature can be rapidly monitored, and the device has popularization prospect.

The technical scheme provided by the utility model is as follows:

the floating ball device for water temperature monitoring comprises a funnel-shaped floating ball body and an elbow integrally formed on the outer surface of the floating ball body, wherein an instrument box and a lithium battery pack which are connected with each other are arranged above the inside of the floating ball body, a plastic plate is transversely arranged below the inside of the floating ball body, and a filler is filled between the lower part of the plastic plate and the lower end part of the floating ball body; the inside of the floating ball body is longitudinally provided with a first communicating pipe, the outside of the floating ball body is provided with a second communicating pipe, the first communicating pipe penetrates through the plastic plate and is connected with the second communicating pipe through an internal thread pipe, the internal thread pipe is fixedly arranged at the lower end part of the floating ball body, the second communicating pipe is provided with a temperature sensor, and the temperature sensor is connected with the instrument box through a circuit; an opening is formed in the upper end part of the floating ball body, and a sealing cover is connected with the opening in a threaded manner; the floating ball device is characterized in that a supporting frame is arranged above the floating ball body and connected with the floating ball body through a first connecting piece.

Preferably, a power interface, a temperature sensor interface and a communication interface are arranged on the instrument box, a solar panel is placed on the support frame, and the solar panel penetrates through the bent pipe through a circuit and is connected with the power interface; the temperature sensor is connected with the temperature sensor interface through a circuit; the communication interface is inserted with a communication antenna, and the other end of the communication antenna penetrates through the bent pipe to be in communication connection with external equipment.

Preferably, the end part of the bent pipe is detachably connected with a silica gel plug, and the bent pipe is waterproof and used for threading.

Preferably, a contact type protection switch connected with the lithium battery pack is installed in the filler.

Preferably, the filler adopts lead particles, so that the weight of the bottom of the floating ball is increased, the balance effect is achieved, and the floating ball is prevented from standing upside down in water.

Preferably, the outer surface integrated into one piece of floater body is provided with plastic circle or cover and is equipped with plastic circle, and the plastic circle of setting is used as the surface of water sign line, marks the degree of depth of floater body water intaking.

Preferably, the inner wire tube is internally filled with sealant for further waterproof sealing; the second communicating pipe is connected with a U-shaped connecting piece for fixing the floating ball device.

Preferably, the floating ball body and the first communication pipe are made of PPR material, so that the floating ball is convenient to carry and move; the second communicating pipe is made of stainless steel, strength is increased, and fixing of the floating ball body is facilitated.

Preferably, the supporting frame is obliquely arranged, and the height difference of the two ends of the supporting frame is 15m, so that the solar panel can absorb energy conveniently.

Preferably, the first connecting piece includes a plurality of screw rods fixedly connected with the supporting frame and a plurality of nuts corresponding to the screw rods, each nut is integrally formed on the outer surface of the floating ball body, and the other end of each screw rod is in threaded connection with each nut.

The beneficial effects of the utility model are as follows:

1) The plastic plate is arranged to seal the filler and fix the installation equipment;

2) The sealing cover plays a sealing role, prevents water from entering the floating ball, and protects safety of equipment in the floating ball;

3) The supporting frame is arranged, and the nut and the screw rod are matched to fix the supporting frame above the floating ball body, so that the solar panel can be conveniently placed;

4) The bent pipe can be used as a communication antenna and a line passing channel of a solar panel, and a silica gel plug arranged on the bent pipe can further fix a line and place water entering the floating ball;

5) The first communicating pipe and the second communicating pipe are both used for a wire passing channel of the temperature sensor; the inner wire pipe is used for connecting the first communicating pipe and the second communicating pipe;

6) The protection switch is in a normally closed state when water does not enter the floating ball body, and is automatically disconnected when water enters the floating ball body, so that the protection device and equipment are realized;

7) The interior of the floating ball is provided with a space for placing an instrument box and a lithium battery pack, and is filled with a filler for balancing the floating ball body.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

In the figure: 1. a floating ball body; 2. bending the pipe; 201. a silica gel plug; 3. a nut; 4. sealing cover; 5. a plastic plate; 6. a filler; 7. a first communication pipe; 8. an inner wire tube; 9. a second communicating pipe; 10. a support frame; 11. a screw; 12. a protection switch; 13. u-shaped connecting piece.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

It should be noted that, in the description of the present utility model, it should be noted that, as the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are shown based on the orientation or the positional relationship shown in the drawings, only for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or elements to be referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Examples

As shown in fig. 1, the floating ball device for water temperature monitoring comprises a funnel-shaped floating ball body 1 and an elbow pipe 2 integrally formed on the outer surface of the floating ball body 1, wherein an instrument box and a lithium battery pack which are mutually connected are arranged above the inside of the floating ball body 1, a plastic plate 5 is transversely arranged below the inside of the floating ball body 1, and a filler 6 is filled between the lower part of the plastic plate 5 and the lower end part of the floating ball body 1; a first communicating pipe 7 is longitudinally arranged inside the floating ball body 1, a second communicating pipe 9 is arranged outside the floating ball body 1, the first communicating pipe 7 penetrates through the plastic plate 5 and is connected with the second communicating pipe 9 through an internal thread pipe 8, the internal thread pipe 8 is fixedly arranged at the lower end part of the floating ball body 1, a temperature sensor is arranged on the second communicating pipe 9, and the temperature sensor is connected with the instrument box through a circuit; an opening is formed in the upper end portion of the floating ball body 1, and a sealing cover 4 is connected with the opening in a threaded mode; a supporting frame 10 is arranged above the floating ball body 1, and the supporting frame 10 is connected with the floating ball body 1 through a first connecting piece.

As a further technical scheme of the embodiment, a power interface, a temperature sensor interface and a communication interface are formed on the instrument box, a solar panel is placed on the support frame 10, and the solar panel penetrates through the bent pipe 2 through a circuit and is connected with the power interface; the temperature sensor is connected with the temperature sensor interface through a circuit; the communication interface is inserted with a communication antenna, and the other end of the communication antenna penetrates through the bent pipe 2 to be in communication connection with external equipment.

As a further technical solution of this embodiment, the end portion of the bent tube 2 is detachably connected with a silica gel plug 201, which is waterproof and is used for threading.

As a further technical solution of this embodiment, a contact protection switch 12 connected with the lithium battery pack is installed in the filler 6.

As a further technical scheme of the embodiment, the filler 6 adopts lead particles, so that the weight of the bottom of the floating ball is increased, the balance effect is achieved, and the floating ball is prevented from standing upside down in water.

As a further technical scheme of this embodiment, the outer surface integrated into one piece of floater body 1 is provided with plastic circle or is overlapped and is equipped with plastic circle, and the plastic circle of setting is used as the surface of water sign line, marks the degree of depth of floater body 1 intaking.

Preferably, the inner wire tube 8 is filled with sealant for further waterproof sealing; the second communicating pipe 9 is connected with a U-shaped connecting piece 13 for fixing the floating ball device.

As a further technical scheme of the embodiment, the floating ball body 1 and the first communication pipe 7 are made of PPR material, so that the floating ball is convenient to carry and move; the second communicating pipe 9 is made of stainless steel, so that strength is enhanced, and the floating ball body 1 is convenient to fix.

As a further technical solution of this embodiment, the supporting frame 10 is obliquely disposed, and the height difference at two ends of the supporting frame is set to 15m, so that the solar panel can absorb energy conveniently.

As a further technical scheme of this embodiment, the first connecting piece includes a plurality of screws 11 fixedly connected with the supporting frame 10 and a plurality of nuts 3 corresponding to the screws 11, each nut 3 is integrally formed and disposed on the outer surface of the floating ball body 1, and the other end of each screw 11 is in threaded connection with each nut 3.

The working principle of the utility model is as follows:

1) The temperature sensor is powered by the lithium battery pack, and the temperature sensor arranged on the second communicating pipe 9 monitors the water temperature in real time;

2) When water enters the floating ball body 1, a protection switch 12 connected with the lithium battery pack is automatically disconnected to protect the instrument box and the lithium battery pack above;

3) The first communicating pipe 7 and the second communicating pipe 9 are both used for a wire passing channel of the temperature sensor, so that the water leakage of a circuit is prevented, and the safety protection is further enhanced;

4) When the environment is clear or the electric quantity of the lithium battery pack is insufficient, a solar panel can be introduced to serve as a power supply to supply power, so that the solar energy is fully utilized, and the cost is reduced.

The utility model integrates a temperature sensor, a power supply, communication equipment and the like into the floating ball device, and is connected with an onshore receiving terminal through a communication antenna to form a water temperature monitoring automatic platform so as to realize automatic monitoring of water temperature.

The above examples are provided for illustrating the preferred embodiments of the present utility model and are not intended to limit the scope of the present utility model, and various modifications and improvements made by those skilled in the art to the technical solution of the present utility model should fall within the scope of protection defined by the claims of the present utility model without departing from the principle and spirit of the present utility model.

Claims (10)

1. The floating ball device for water temperature monitoring is characterized by comprising a funnel-shaped floating ball body (1) and an elbow pipe (2) integrally formed on the outer surface of the floating ball body (1), wherein an instrument box and a lithium battery pack which are mutually connected are arranged above the inside of the floating ball body (1), a plastic plate (5) is transversely arranged below the inside of the floating ball body (1), and a filler (6) is filled between the lower part of the plastic plate (5) and the lower end part of the floating ball body (1);

the inside of the floating ball body (1) is longitudinally provided with a first communicating pipe (7), the outside of the floating ball body (1) is provided with a second communicating pipe (9), the first communicating pipe (7) penetrates through the plastic plate (5) and is connected with the second communicating pipe (9) through an internal thread pipe (8), the internal thread pipe (8) is fixedly arranged at the lower end part of the floating ball body (1), the second communicating pipe (9) is provided with a temperature sensor, and the temperature sensor is connected with the instrument box through a circuit;

an opening is formed in the upper end portion of the floating ball body (1), and a sealing cover (4) is connected with the opening in a threaded mode; the floating ball device is characterized in that a supporting frame (10) is arranged above the floating ball body (1), and the supporting frame (10) is connected with the floating ball body (1) through a first connecting piece.

2. The floating ball device for water temperature monitoring according to claim 1, wherein a power interface, a temperature sensor interface and a communication interface are arranged on the instrument box, a solar panel is arranged on the support frame (10), and the solar panel penetrates through the bent pipe (2) through a circuit and is connected with the power interface; the temperature sensor is connected with the temperature sensor interface through a circuit; the communication interface is inserted with a communication antenna, and the other end of the communication antenna penetrates through the bent pipe (2) to be in communication connection with external equipment.

3. The floating ball device for water temperature monitoring according to claim 1 or 2, wherein a silica gel plug (201) is detachably connected to the end of the elbow pipe (2).

4. The floating ball device for water temperature monitoring according to claim 1, wherein a contact type protection switch (12) connected with the lithium battery pack is installed in the filler (6).

5. A float device for monitoring water temperature according to claim 1 or 4, characterized in that the filler (6) is made of lead particles.

6. The floating ball device for water temperature monitoring according to claim 1, wherein the outer surface of the floating ball body (1) is integrally formed with or sleeved with a plastic ring.

7. The floating ball device for water temperature monitoring according to claim 1, wherein the inside of the inner wire tube (8) is filled with sealant, and the second communicating tube (9) is connected with a U-shaped connecting piece (13).

8. The floating ball device for water temperature monitoring according to claim 1, wherein the floating ball body (1) and the first communicating pipe (7) are made of PPR material, and the second communicating pipe (9) is made of stainless steel material.

9. A float device for water temperature monitoring according to claim 1, wherein the supporting frame (10) is provided obliquely, and the height difference between both ends thereof is set to 15m.

10. The floating ball device for water temperature monitoring according to claim 1, wherein the first connecting piece comprises a plurality of screw rods (11) fixedly connected with the supporting frame (10) and a plurality of nuts (3) arranged corresponding to the screw rods (11), each nut (3) is integrally formed on the outer surface of the floating ball body (1), and the other end of each screw rod (11) is in threaded connection with each nut (3).