TW201437611A - Element detector structure - Google Patents

Abstract

The invention relates to an element detector structure, which comprises: a main body including a first chamber and a second chamber which are not communicated with each other, and a first receiving part defined in the second chamber; a rotation set comprising a main axis; a fan coupled with the main axis; a magnet frame provided with at least one second receiving part, wherein the magnet frame is coupled to the main axis; a magnetic body disposed in the second receiving part; a plurality of fixation frames pivotally coupled with the main axis; and a generator set disposed in the second chamber, wherein the generator set includes a circuit board connected to a conventional element meter. The circuit board is configured to read data of the element meter. The circuit board includes a unique code corresponding to a home user. The generator set includes a coil connected to the circuit board. The element flows to the first chamber to push the fan to rotate. The coil induces a current and provides power to the circuit board. The circuit board then transmits the code and data of the element meter.

Description

Element detector structure

The invention relates to an element detector structure, in particular to an element detector having a rotating group and a power generation group, wherein the magnetic body of the rotating group generates an induced current of the coil, thereby providing a circuit board power supply to The information is transmitted.

As we have previously known, elements such as water or gas, which are located at the home, are provided with elements that have been provided with elements flowing through the pipe, which is provided with a body, such as water or oil. The watch body is a water meter, or is a gas such as gas. The watch system is a gas meter, and the watch body is generally disposed at a home, and the watch body displays flow data according to the amount of element flow, and the possession element The company has staff members, and the staff members are arbitrarily copying the traffic data on the watch, so that the element company collects the use of the element by the flow data, which is the operation mode of the custom element company.

However, this method of operation is characterized by the following:

1. The usage table shows the flow data according to the amount of element flow, but many staff members need to copy the flow data on the watch body, which wastes a lot of manpower and working hours, especially a considerable number of staff. There are labor costs.

2. The function of the flow data is only displayed on the surface of the watch, and the expandability is insufficient.

In view of the lack of the above-described conventional element detector structure, the inventors have gained experience in related industries for many years and finally have a product for improving the missing element detector structure.

The use of the manual operation method has a considerable cost, and the present invention relates to the structure of the element detector, in particular, an element detector is provided with a rotating group and a power generation group, and the magnetic body of the rotating group acts as a coil. An induced current is generated to provide board power to transmit information.

An element detector structure includes: a system having a first chamber and a second chamber and not in communication with each other; the second chamber is provided with at least one first receiving portion; The magnetic system is disposed on the main shaft; The plurality of fixed frame systems are pivoted with the main shaft; a power generation group is disposed in the second chamber, and the power generation group is provided with a circuit board for connecting with the conventional element body, wherein the circuit board is for reading the element body Data, the circuit board is provided with a unique code, the code corresponds to a home, the power generation set is provided with a coil, the coil is connected to the circuit board, the element flows to the first chamber, the element is a push fan When the body rotates, the coil induces a current to supply power to the circuit board, and the circuit board transmits the data of the code and the element body.

The circuit board reads various data of the conventional watch body, and the circuit board is provided with a code, and the code system is unique. The code system corresponds to a home, and the circuit board transmits the data of the coded and the use form body. The supplier of the provided element charges the corresponding households the cost of using the elements according to the data transmitted back, and the element supplier does not need to waste labor costs to go through house-to-house meter reading. The first chamber and the second chamber are not in communication with each other, and the first chamber is connected to the conventional element pipeline, so that the first chamber is for the element to pass, and the second chamber is for generating electricity. Groups are not affected by the elements. The power source of the board is passed by the element, the line The coil system induces a current due to the action of the magnetic body, so the fluid detector is environmentally friendly by converting the kinetic energy of the liquid and the gas into electric energy to provide the power of the circuit board.

The structure and composition of the present invention are described in conjunction with the drawings and the drawings, and the following description is only for explaining the implementation of the present invention. For example, it is not intended to limit the invention in any way, and any modifications made by the present invention are still within the scope of the invention.

10‧‧‧ Ontology

11‧‧‧First room

111‧‧‧First Carding Department

12‧‧‧Second room

121‧‧‧First Housing Department

20‧‧‧Rotating group

21‧‧‧ Spindle

211‧‧‧Drainage Department

212‧‧‧Fixed Department

213‧‧‧Second Carding Department

22‧‧‧ sector

221‧‧‧ first perforation

222‧‧‧ Third Carding Department

23‧‧‧ magnet holder

231‧‧‧ bracket

232‧‧‧Second accommodating department

233‧‧‧Second perforation

234‧‧The Fourth Carding Department

24‧‧‧Magnetic body

25‧‧‧ Fixing frame

251‧‧‧ third perforation

252‧‧‧ Fifth Carding Department

26‧‧‧Fixed parts

27‧‧‧ collar

28‧‧‧Fittings

30‧‧‧Power Generation Group

31‧‧‧ boards

32‧‧‧ coil

40‧‧‧ cover

50‧‧‧Connecting parts

60‧‧‧ Shell

The first figure is an exploded perspective view of the element detector structure of the present invention.

The second figure is a front view of the body of the element detector structure of the present invention.

The third figure is an exploded perspective view of the rotating group of the element detector structure of the present invention.

The fourth figure is a stereoscopic combination diagram of the rotating group of the element detector structure of the present invention.

Figure 5 is a side view of a rotating set of the element detector structure of the present invention.

The sixth figure is a three-dimensional combination diagram of the element detector structure of the present invention.

Figure 7 is a front view of the element detector structure of the present invention.

Figure 8 is a cross-sectional view showing the structure of the element detector of the present invention.

The ninth figure is a flow chart of the structural principle of the element detector of the present invention.

Figure 10 is a perspective exploded view of a second embodiment of the present invention.

Figure 11 is a front view of a second embodiment of the present invention.

Figure 12 is a cross-sectional view showing a second embodiment of the present invention.

Figure 13 is a perspective exploded view of a third embodiment of the present invention.

Figure 14 is a perspective assembled view of a third embodiment of the present invention.

Figure 15 is a cross-sectional view showing a third embodiment of the present invention.

Figure 16 is a perspective exploded view of a fourth embodiment of the present invention.

Figure 17 is a perspective assembled view of a rotating set of a fourth embodiment of the present invention.

Figure 18 is a side view of a rotating set of a fourth embodiment of the present invention.

Referring first to the first to fifth figures, the first drawing is an exploded perspective view of the element detector structure of the present invention, the second drawing is a front view of the body 10 of the present invention, and the third drawing is a rotating group of the present invention. 20 is an exploded view, the fourth is a perspective view of the rotating group 20 of the present invention, and the fifth is a side view of the rotating set 20 of the present invention. The present invention relates to an element detector structure, which includes: a body 10 The body 10 is in a cylindrical structure, and the body 10 is provided with a first chamber 11 and a second chamber 12, and the first chamber 11 is connected with a conventional element pipeline to make the first chamber 11 is for the passage of the element, and the first peripheral portion of the first chamber 11 is provided with a plurality of first engaging portions 111. According to the second figure, the first engaging portion 111 is grooved. The chamber 11 and the second chamber 12 are connected to each other. The second chamber 12 is provided with at least one first accommodating portion 121. In the embodiment, the first accommodating portion 121 is a plurality of rings. Arranging like a liquid; the element may be a liquid such as water or oil, or a gas such as gas; a rotating group 20, the rotating group 20 is pivotally disposed on the body 10 In the first chamber 11, as shown in the third figure, the rotating group 20 includes: a main shaft 21, a fan body 22, a magnet holder 23, a magnetic body 24, a fixing frame 25, a fixing member 26, and a collar 27; The main shaft 21 is in the shape of a rod having a certain length, and the main shaft 21 is provided with a flow guiding portion 211 at one end thereof. The guide portion 211 has a conical shape, and the other end of the main shaft 21 is provided with a fixing portion 212. The fixing portion 212 is in the shape of a ring groove. The main shaft 21 is provided with a plurality of second clamping portions 213. The locking portion 213 has a straight groove shape; the fan body 22 is provided with a plurality of blades, and the fan body 22 is provided with a first through hole 221 which is coupled to the main shaft 21, and the inner wall of the first through hole 221 The third clamping portion 222 is coupled to the second locking portion 213; the magnet frame 23 is radially, and the magnet frame 23 is provided with at least one bracket 231. At least one second receiving portion 232 is formed at the end of the bracket 231. The second receiving portion 232 is formed in a circular groove shape. The second through hole 233 is disposed at the center of the bracket 231. The second peripheral portion 234 is coupled to the second peripheral portion 234, and the fourth locking portion 234 is coupled to the second locking portion 213; at least one magnetic body 24, the magnetic body The number of 24 is the same as the second accommodating portion 232 of the magnet holder 23, and the magnetic body 24 is received at the second accommodating portion 232; a plurality of fixing frames 25, each fixed The 25 series are in the shape of a circular wheel. Each of the fixing frames 25 is provided with a third through hole 251. The third through hole 251 is pivotally disposed with the main shaft 21, and each of the fixing frames 25 is provided with a plurality of fifth clamping portions 252. The fifth clamping portion 252 is coupled to the first locking portion 111 of the body 10, so that the main shaft 21, the fan body 22, the magnet frame 23 and the magnetic body 24 are pivoted by the plurality of fixing frames 25 at the first The fixing member 26 is fixed in a buckle shape, and the fixing member 26 is fixed to the fixing portion 212 of the main shaft 21; the collar 27 is in the shape of a ring body, and the sleeve 27 is sleeved. On the main shaft 21, the collar 27 is spaced apart from the holder 25 and the magnet holder 23; when the at least one magnetic body 24 is received in the second receiving portion 232 of the magnet holder 23, the spindle 21 penetrates a first through hole 221 of the fan body 22, a second through hole 233 of the magnet frame 23, a third through hole 251 of the plurality of fixing frames 25, and a collar 27, the second locking portion 213, the third locking portion 222 and the fourth card The frame portion 234 is phase-locked so that the fan body 22 drives the magnet frame 23 and the magnetic body 24 to rotate. The collar 27 is abutted against the fixing frame 25 to space the fan body 22 from the magnet frame 23. The 26 series is fixed to the fixing portion 212 of the main shaft 21, and the fan body 22, the magnet frame 23, the magnetic body 24, the plurality of fixing frames 25, and the collar 27 are assembled on the main shaft 21. When the rotating group 20 is combined, please refer to As shown in the fourth figure, a side view is shown in FIG. 5; a power generation group 30 is disposed in the second chamber 12 of the body 10, and the power generation group 30 is provided with a circuit board 31. The circuit board 31 is connected to a conventional element body. The circuit board 31 is for reading data of the element body, such as flow data. The circuit board 31 is provided with a code, and the code system is unique. In a home, the power generation group 30 is provided with a coil 32, which is connected to the circuit board 31, and the element flows to the first chamber 11 of the body 10, the element The fan body 22 is driven to rotate, and the fan body 22 drives the magnet frame 23 and the magnetic body 24 to rotate. When the coil 32 is actuated by the magnetic body 24, the coil 32 induces a current to supply the power of the circuit board 31, that is, the circuit. The power supply of the board 31 is supplied by the coil 32. The circuit board 31 transmits the data of the code, the element body or other data for the element company to receive the information; the plurality of covers 40, each of the covers 40 is a closed body 10. The second chamber 12 is a plurality of connecting members 50. The connecting member 50 is hollow. The connecting member 50 is connected to the first chamber 11 at one end and connected to the conventional element pipeline at the other end.

Please refer to the sixth to eighth figures. The sixth figure is a three-dimensional combination diagram of the element detector structure of the present invention, the seventh figure is a front view of the element detector structure of the present invention, and the eighth figure is an element of the present invention. A cross-sectional view of the structure of the detector. After the combination of the rotating groups 20, the rotating group 20 is pivotally disposed in the first chamber 11 of the body 10. The first chamber 11 is connected to a conventional element tube. The power generation group 30 is disposed in the second chamber 12, and the first chamber 11 and the second chamber 12 are not in communication, so that the circuit board 31 and the coil 32 are not short-circuited by the element flowing. Phenomenon, the circuit board 31 is connected to a body on a conventional element pipeline. The circuit board 31 reads data of the body such as flow data, and the circuit board 31 is provided with a code, and the code is unique. The coding system corresponding to a certain home, that is, the circuit board 31 of each home is different, and the coil 32 is connected to the circuit board 31. When the coil 32 is activated by the magnetic body 24, the coil 32 is induced by current. The power supply of the circuit board 31, that is, the power supply of the circuit board 31 is supplied by the coil 32. The circuit board 31 transmits the data on the coded and conventional body for the element company to receive the information, and the cover 40 closes the body 10. The second chamber 12 is connected to the first chamber 11, and the connecting member 50 is connected to the element tube.

Please refer to the ninth figure. The ninth figure is a flow chart of the structure of the element detector of the present invention. After the element passes through the first chamber 11 of the body 10, the magnetic body 24 rotates, and the coil 32 is induced. Current and current are supplied to the power supply of the circuit board 31. Each circuit board 31 is connected to a conventional body. Each circuit board 31 has a predetermined single code, and the circuit board 31 transmits the code and the body data to provide a supplier of elements. Any device is provided to receive the data of the circuit board 31 and the data of the custom body. The element supplier can learn from the code that it is a certain home, and then charge the corresponding home to the corresponding element according to the data transmitted back. The element supplier saves the data on the body by manpower.

Continuing to refer to the tenth to twelfth drawings, the tenth embodiment is a perspective exploded view of the second embodiment of the present invention, and the eleventh embodiment is a front view and a twelfth embodiment of the second embodiment of the present invention. In the embodiment, the second chamber 12 of the body 10 is open, and is provided with a casing 60. The casing 60 is assembled on the body 10, and the casing 60 is closed to the second capacity. room 12, the flow guiding portion 211 of the rotating group 20 is fixed on the fixing frame 25, the rotating group 20 is pivotally disposed in the first chamber 11, and as shown in the twelfth figure, a fixing frame 25 is The body 10 is integrally formed, and one end of the connecting member 50 is connected with a conventional element pipe, and the other end of the connecting member 50 closes the larger end of the body 10.

Please refer to the thirteenth to fifteenth drawings. The thirteenth embodiment is a perspective exploded view of the third embodiment of the present invention, and the fourteenth embodiment is a front view and a fifteenth embodiment of the third embodiment of the present invention. A cross-sectional view of a third embodiment of the present invention. In this embodiment, the second chamber 12 of the body 10 is open, and is provided with a casing 60. The casing 60 is assembled on the body 10, and the casing 60 is closed. The second chamber 12, the flow guiding portion 211 of the rotating group 20 is disposed on the fixing frame 25, and the rotating group 20 is pivotally disposed in the first chamber 11, and as shown in the fifteenth figure, a fixing frame is provided. The rotation unit 20 is provided with a device 28, and the rotation member 20 is provided with a device 28, which is connected to the main body 10 at one end, and the other end of the connector 50 is connected to the larger end of the body 10. The sealing member 28 is coupled to the magnet holder 23, and the sealing member 28 is closed to the plurality of magnetic bodies 24, and the connecting member 50 is screwed to the body 10, and the outer casing 60 is screwed to the connecting member 50.

Please refer to the sixteenth to eighteenth drawings. The sixteenth embodiment is a perspective exploded view of the fourth embodiment of the present invention, and the seventeenth embodiment is a three-dimensional combination diagram of the fourth embodiment of the present invention. The figure is a side view of a fourth embodiment of the present invention. In this embodiment, the rotating group 20 is not provided with a magnet holder 23, and the magnetic body 24 is in a circular shape, and the magnetic body 24 is provided at the middle. The main shaft 21 is pierced by a perforation. When the magnetic body 24 is actuated by the passage of an element, the coil 32 induces a current to supply power to the circuit board 31, thereby providing each data to the element supplier.

In another embodiment of the present invention, a valve body is disposed at the cover 40 of the first embodiment or the outer casing 60 of the second embodiment and the third embodiment. After the outer casing 60 is assembled, the nitrogen or inert The gas system can be accommodated in the second chamber 12 via the valve body at the cover 40 or at the outer casing 60, and the nitrogen system can protect the components of the power generation group 30.

The advantages of the element detector structure of the present invention are:

1. The circuit board 31 reads various data of a conventional watch body. The circuit board 31 is provided with a code, and the code system is unique. The code system corresponds to a home, and the circuit board 31 is a coded and customary body. Each of the data is transmitted, and the supplier of the providing element charges the corresponding households the cost of using the elements according to the data transmitted back, and the element supplier does not need to waste labor costs to go through house-to-house meter reading.

2. The first chamber 11 and the second chamber 12 are not in communication with each other, and the first chamber 11 is connected to a conventional element pipeline, so that the first chamber 11 is for the passage of elements and is accommodated. The power generation group 30 of the second chamber 12 is not affected by the elements.

3. The power source of the circuit board 31 of the power generation group 30 of the element detector structure is such that after the element passes, the coil 32 is induced to generate current due to the action of the magnetic body 24, so the fluid detector uses liquid and gas. The way in which kinetic energy is converted into electrical energy to provide power to the circuit board 31 is a renewable energy source and is environmentally friendly.

In summary, the element detector structure of the present invention has industrial utilization, novelty and advancement, and can meet the application requirements of the invention patent, and submit an application according to law.

10‧‧‧ Ontology

11‧‧‧First room

111‧‧‧First Carding Department

12‧‧‧Second room

20‧‧‧Rotating group

21‧‧‧ Spindle

22‧‧‧ sector

23‧‧‧ magnet holder

24‧‧‧Magnetic body

25‧‧‧ Fixing frame

26‧‧‧Fixed parts

27‧‧‧ collar

30‧‧‧Power Generation Group

31‧‧‧ boards

32‧‧‧ coil

40‧‧‧ cover

50‧‧‧Connecting parts

Claims (15)

An element detector structure includes: a body, the system is provided with a first chamber and a second chamber, and the first chamber is connected with a conventional element pipeline to make the first chamber The first chamber and the second chamber are not connected to each other, and the second chamber is provided with at least one first receiving portion; and a rotating group is pivoted on the body In a room, the rotating group includes: a main shaft, a fan body, a magnet frame, a magnetic body and a fixing frame; the main shaft is of a certain length, and the main shaft is provided with a flow guiding portion at one end; the fan system has a plurality of blades, the fan The system is coupled to the main shaft; the magnet frame is provided with at least one second receiving portion, the magnet frame is coupled to the main shaft; at least one magnetic body, the number of the magnetic body is the same as the second receiving portion of the magnet holder The magnetic system is disposed at the second receiving portion; the plurality of fixing frames, each of the fixing frames is provided with a third perforation, and the third perforating system is pivoted with the main shaft to make the main shaft, the fan body, and the magnet frame And the magnetic system is pivoted in the first chamber by a plurality of fixing frames; when at least one magnetic After the body is placed in the second receiving portion of the magnet frame, the fan system drives the magnet frame and the magnetic body to rotate; and a power generating group is disposed in the second housing of the body, and the power generating group is provided with a circuit board The circuit board is connected to a conventional element body. The circuit board is for reading data of the element body, such as flow data, and the circuit board is provided with a code, and the code system is unique, and the code system corresponds to a certain one. In the home, the power generation group is provided with a coil, and the coil is connected to the circuit board, and the element flows to the first chamber of the body, and the element drives the rotation of the fan body, and the fan body drives the magnet frame and the magnet When the coil is driven by the magnetic body, the coil induces a current to supply the power of the circuit board, that is, the power supply of the circuit board is supplied by the coil, and the circuit board transmits the data of the code and the element body. The element detector structure of claim 1, wherein a plurality of first clamping portions are disposed on the peripheral wall of the first housing, and the first locking portion is in a groove shape, and each fixing frame is a plurality of fifth clamping portions are disposed, the fifth clamping portion is coupled to the first locking portion of the body, so that the main shaft, the fan body, the magnet frame and the magnetic system are pivoted to the first capacity by the plurality of fixing frames indoor. The element detector structure of claim 1, wherein the first accommodating portion is plural and arranged in a ring shape. The elemental detector structure of claim 1, wherein the element is a liquid or a gas. The elemental detector structure of claim 1, wherein the element is water, oil or gas. The element detector structure of claim 1, wherein the flow guiding portion has a conical shape, and the fan system is provided with a first perforation, the first perforation is coupled to a main shaft, and the magnet frame is provided A second perforation is coupled to the main shaft. The element detector structure of claim 6, wherein the other end of the main shaft is provided with a fixing portion, the fixing portion is in the shape of a ring groove, and the main shaft is provided with a plurality of second clamping portions, the plural The locking portion has a straight groove shape, and the first perforated inner peripheral wall is provided with a plurality of third clamping portions, and the third clamping portion is coupled to the second clamping portion, the magnet frame is radial, and the magnet frame is radially The magnet frame is provided with at least one bracket, and the end portion of the bracket is provided with at least one second receiving portion, the second receiving portion is in the shape of a circular groove, and the second perforated inner peripheral wall is provided with a plurality of fourth cards. The fourth clamping portion is coupled to the second clamping portion, each of the fixing frames is in the shape of a circular wheel, and each of the fixing frames is provided with a third perforation, the third portion The perforation is pivoted to the main shaft. The element detector structure of claim 7, wherein the rotating group is provided with a fixing member, the fixing member is in a buckle shape, and the fixing member is fixed to the fixing portion of the main shaft. The element detector structure of claim 8, wherein the rotating group is provided with a collar, the ring is in the shape of a ring, the ring is sleeved on the main shaft, and the ring is spaced Fixing frame and magnet holder. The element detector structure of claim 9, wherein, after the at least one magnetic body is received in the second receiving portion of the magnet frame, the main shaft penetrates into the first perforation of the fan body and the second perforation of the magnet frame And a third perforation and a collar of the plurality of fixing frames, wherein the second clamping portion, the third clamping portion and the fourth clamping portion are engaged, so that the fan system drives the magnet frame and the magnetic body to rotate, the ring system Abutting against the fixing frame, the fan body is spaced apart from the magnet frame, and the fixing member is fixed on the fixing portion of the main shaft, so that the fan body, the magnet frame, the magnetic body, the plurality of fixing frames and the collar system are assembled on the main shaft on. The element detector structure of claim 1, wherein a plurality of cover bodies are provided, each cover system enclosing the second chamber of the body. The element detector structure of claim 1, wherein a plurality of connecting members are provided, the connecting member is hollow, and the connecting member is connected to the first chamber at one end and connected to the conventional element pipeline at the other end. . The element detector structure of claim 1, wherein the second chamber of the body is open, and is provided with a casing, the casing is assembled on the body, and the casing encloses the second chamber. The rotating portion of the rotating group is disposed on the fixing frame, the rotating group is pivotally disposed in the first housing, and a fixing frame is integrally formed with the body, and one end of the connecting member is connected with a conventional element pipeline, and the connecting member is another The end of the closed body has a larger diameter end. The element detector structure of claim 1, wherein the second chamber of the body is open, and is provided with a casing, the casing is assembled on the body, and the casing encloses the second chamber. The rotating portion of the rotating group is disposed on the fixing frame, the rotating group is pivotally disposed in the first housing, and a fixing frame is integrally formed with the body, and one end of the connecting member is connected with a conventional element pipeline, and the connecting member is another The end of the closed body has a larger diameter end, and the rotating group is provided with a device, the enclosing member is coupled to the magnet frame, and the enclosing member encloses a plurality of magnetic bodies, and the connecting member is snailed with the body The housing is then screwed to the connector. The element detector structure of claim 13 or 14, wherein the outer casing is provided with a valve body, and after the outer casing is assembled, the nitrogen or inert gas system can be accommodated by the valve body at the outer casing. In the chamber, the nitrogen system protects the components of the power generation group.