CN107689747A - A kind of temperature takes can machine - Google Patents

Abstract

The invention relates to a temperature energy harvesting machine. It includes: an electric energy input unit, including an input frame, an electric energy input coil and an electric energy change coil arranged on the input frame, and a vacuum pipeline and a vacuum liquid pipeline, the electric energy input coil and the electric energy change coil are parallel to each other, and the input The electric energy coil is a fixed coil, and the electric energy receiving temperature is a vacuum liquid pipeline, the iron core of the electric energy input coil and the iron core of the electric energy changing coil are permanent magnets, the vacuum pipeline and the liquid pipeline are permanent magnet iron body hollow pipelines, and the current passes through Flowing through the electric energy input coil to convert the electric energy to the electric energy changing coil; the electric energy input unit includes the electric energy input coil and the electric energy changing coil, and the electric energy of the electric energy changing coil is supplied to the changing coil by inductive electric energy to change The electric energy of the coil is supplied to the used vacuum pipeline and the liquid pipeline to reach the temperature current in the liquid. The beneficial effects of the present invention are: when the temperature energy harvester is in use, the input energy is used to sense the current in the temperature, and the current in the extraction temperature is used, so as to achieve the comprehensive work of solar energy, and achieve the simultaneous work of light and temperature , and increase the use of electrical energy.

Description

A temperature energy harvester

The invention belongs to the field of electronics, in particular to a temperature energy harvesting machine

Background technique

The use of solar energy in the prior art mostly adopts, and light energy is irradiated and used for power generation, but this method is only used in a single irradiation mode, and has not been realized, the full use of solar energy for power generation and the saving of electric energy. It can be seen that the current use of solar energy, in the process of application, only uses a single irradiation to generate power, and the electric energy of the temperature generated during the irradiation process cannot be fully used, so that the temperature and electric energy generated by the solar energy during the irradiation will be lost. Therefore, A temperature energy harvester is needed to solve the above-mentioned technical problems in the prior art.

Contents of the invention

In order to solve the above-mentioned problems in the prior art, the present invention provides a temperature energy harvesting machine. When using this kind of temperature energy harvesting machine, the input energy is used to sense the current in the temperature, and the current in the extraction temperature is used, so as to achieve the comprehensive work of solar energy, achieve the simultaneous work of light and temperature, and increase the electric energy. usage of.

The technical scheme adopted in the present invention is:

A temperature energy harvesting machine. It includes: an electric energy input unit, including an input frame, an electric energy input coil and an electric energy change coil arranged on the input frame, and a vacuum pipeline and a vacuum liquid pipeline, the electric energy input coil and the electric energy change coil are parallel to each other, and the input The electric energy coil is a fixed coil, and the electric energy receiving temperature is a vacuum liquid pipeline, the iron core of the electric energy input coil and the iron core of the electric energy changing coil are permanent magnets, the vacuum pipeline and the liquid pipeline are permanent magnet iron body hollow pipelines, and the current passes through Flowing through the electric energy input coil to convert the electric energy to the electric energy changing coil; the electric energy input unit includes the electric energy input coil and the electric energy changing coil, and the electric energy of the electric energy changing coil is supplied to the changing coil by inductive electric energy to change The electric energy of the coil is supplied to the used vacuum pipeline and liquid pipeline, and is used to reach the temperature current in the processing liquid.

Preferably, the input frame is provided with a first electric energy input coil, the input frame is configured as a square frame, and the number of the electric energy input coil is one, which is arranged inside the input frame to correspond to the The electric energy changing coil, the input electric energy changing coil is arranged in the input frame, and the input coil respectively changes and processes the electric energy of the first coil and the second coil.

Preferably, the second electric energy changing coil includes one parallel coil, and when an alternating current is input into the electric energy input coil, the induced magnetic field of the second electric energy changing coil is increased and the energy source of the second coil is changed, so as to induce The temperature energy of the vacuum liquid pipeline, and the temperature energy received by the process.

Preferably, the input frame is also provided with a second electric energy changing coil, the number of the second electric energy changing coil is one parallel coil, and the second electric energy changing coil is symmetrically arranged in parallel with respect to the electric energy input coil, and Arranged between the adjacent first power changing coils, the second power changing coil and the first power changing coil are parallel coils, and the parallel coil and the first power changing coil are parallel and symmetrical.

Preferably, the input frame is also provided with a vacuum pipeline and a liquid pipeline to receive a thermometer, and the change of the vacuum pipeline and the liquid pipeline to receive the temperature controller is changed by the first coil, and the vacuum pipeline and the liquid pipeline to receive the temperature gauge The electric energy input coil is symmetrically and independently arranged, and is arranged in the adjacent first electric energy change coil, the vacuum pipeline and the liquid pipeline receiving temperature device are symmetrically arranged in parallel with the first coil, and the adjacent parallel coils are close to Among the first electric energy changing coils.

The beneficial effects of the present invention are: when the temperature energy harvester is in use, the input energy is used to sense the current in the temperature, and the current in the extraction temperature is used, so as to achieve the comprehensive work of solar energy, and achieve the simultaneous work of light and temperature , and increase the use of electrical energy.

Description of drawings

Fig. 1 is a schematic diagram of a temperature energy harvesting machine in a preferred embodiment of the present invention.

In the figure: 1. bracket; 2. vacuum pipe; 3. vacuum liquid pipe; 4. temperature sensor coil; 5. input coil; 6. output coil;

detailed description

As shown in Fig. 1, the temperature energy harvesting machine provided by the present invention includes an electric energy input unit, a changing coil and an output unit. The temperature energy harvesting machine of the present invention and its various parts will be described in detail below.

As shown in Figure 1, the power input unit includes an input frame 1 and a power input coil 5 and a power change coil 2 arranged on the input frame 1, the power input coil 6 and the temperature sensor 4 are independent of each other, and the iron core of the power input coil 5 And the iron core of the electric energy output coil 6 is a permanent magnet, and the electric energy is converted into the liquid pipeline 2 or 3 by flowing through the electric energy changing coil 6, so as to receive the temperature sensor electric energy 4 and use it.

As the first preferred embodiment of the power input unit, as shown in Figure 1, the input frame 1 is also provided with a first power input coil 5, the receiving frame 1 is structured as a square frame, and the number of power input coils 5 is 1 parallel , arranged side by side inside the square of the receiving frame 1, as shown in FIG. 1 . The number of the first electric energy input coil 5 corresponds to one parallel optical energy reflux device 5, and is arranged inside the receiving frame 1, corresponding to the electric energy input coil 5, and the input electric energy output coil 6 is arranged inside the input frame 1 and The input coil and the output coil 6 are symmetrical. Further, the first electric energy input coil 5 includes one coil connected in parallel, when electric energy is input into the electric energy input coil 5, the magnetic field of the second electric energy changing coil 6 is increased, and the magnetic field is induced by the induction liquid vacuum pipeline 2 or 3.

The second preferred embodiment is based on the first preferred embodiment, as shown in Figure 1, the input frame 1 is also provided with a second electric energy changing coil 6, the number of the second electric energy changing coil 6 is 2 parallel, The second electric energy change coil 6 is arranged side by side with respect to the electric energy input coil 5, and is arranged on the edge of two adjacent input coils 5, and the second electric energy change coil 6 comprises two parallel coils, and the two parallel coils are respectively adjacent to two adjacent coils. The change coil 5.

The third preferred embodiment is based on the second preferred embodiment, as shown in Figure 1, the input frame 1 is also provided with a second power processing coil 6, the number of the second power processing coil 6 is 1, The second power processing coil 6 is arranged parallel to the power changing coil 5 , and is arranged between the power input coil 5 and the second power output coil 6 , and is located in the magnetic field of changing power.

1, the fourth preferred embodiment is based on the third preferred embodiment, as shown in Figure 1, the receiving frame 1 is also provided with a vacuum pipeline and a liquid pipeline receiving temperature device 2 or 3, the vacuum pipeline and The change of the liquid pipeline receiving thermostat 2 or 3 comes from the first coil 5, and the vacuum pipeline 2 and the liquid pipeline 3 receiving thermostat 5 are arranged symmetrically and independently with respect to the electric energy input coil 5, and are arranged in adjacent In the first electric energy changing coil 5, the vacuum pipe 2 and the liquid pipe receiving temperature device 3 are arranged symmetrically and parallel to the first coil 5 independently, and the adjacent parallel coils are close to the first electric energy changing coil.

Therefore, the working principle of the temperature energy harvesting machine as the fourth preferred embodiment can be referred to as follows:

When inputting electric energy to the electric energy input coil 5, there is a magnetic field that changes around the electric energy input coil 5. Since the first electric energy input coil 5 is arranged around the electric energy input coil 5, the coil of the first electric energy input coil 5 A corresponding induced current is generated in the coil, and the magnitude and direction of the induced current change with the magnitude and direction of the alternating current input into the coil. Similarly, the electric current in the first electric energy changing coil 5 receives the temperature device 2 or 3 from the second electric energy changing coil 6 vacuum pipes and liquid pipes successively through the magnetic field, and the electric energy used by the processing coil 6 is the same, and the permanent magnet core in the coil The magnetic strength realizes the change of the receiving temperature of electric energy, and the output use, so as to realize the induction of the input energy, the current in the temperature, and the current use in the extraction temperature, so as to achieve the comprehensive work of solar energy and the simultaneous work of light and temperature , and increase the use of electrical energy.

The present invention is not limited to the above-mentioned best implementation mode, anyone can draw other various forms of products under the enlightenment of the present invention, but no matter make any changes in its shape or structure, all those with the same or similar features as the present application Approximate technical solutions all fall within the protection scope of the present invention.

Claims (4)

1. A temperature energy harvesting machine, characterized in that, comprising: The invention relates to a temperature energy harvesting machine. It includes: an electric energy input unit, including an input frame, an electric energy input coil and an electric energy change coil arranged on the input frame, and a vacuum pipeline and a vacuum liquid pipeline, the electric energy input coil and the electric energy change coil are parallel to each other, and the input The electric energy coil is a fixed coil, and the electric energy receiving temperature is a vacuum liquid pipeline, the iron core of the electric energy input coil and the iron core of the electric energy changing coil are permanent magnets, the vacuum pipeline and the liquid pipeline are permanent magnet iron body hollow pipelines, and the current passes through Flowing through the electric energy input coil to convert the electric energy to the electric energy changing coil; the electric energy input unit includes the electric energy input coil and the electric energy changing coil, and the electric energy of the electric energy changing coil is supplied to the changing coil by inductive electric energy to change The electric energy of the coil is supplied to the used vacuum pipeline and liquid pipeline, and is used to reach the temperature current in the processing liquid. 2. The temperature energy harvesting machine according to claim 1, characterized in that, the input frame is provided with an electric energy change coil, the input frame is configured as a square frame, and the energy of the electric energy input coil is input by inductive electric energy, It is arranged in the square internal magnetic field of the input frame, the arrangement of the electric energy change coil is on the inner coil of the input frame, so as to correspond to the electric energy change coil, and the input electric energy change coil is arranged on the output frame In the interior, the first coil is used to input electric energy, and the second coil is used to change the electric energy. The first coil is arranged in parallel, and the parallel coil is arranged, and the optical energy reflux device is arranged in the middle, and the second coil receives the second coil with a permanent magnet. The electric energy of a coil is arranged, and the interior uses a permanent magnet, and the interior uses a coil to change electric energy. 3. The temperature energy harvesting machine according to claim 1, characterized in that, the second electric energy changing coil and the first coil form an induced current application, and when electric energy is input into the electric energy input coil, the current is in the form of a magnetic field The induction form is changed into the vacuum pipeline and the liquid vacuum pipeline, and the second coil is used to change the processing to form the magnetic field of the first electric energy changing coil and the second electric energy changing magnetic field, and the electric energy is used inductively. 4. The temperature energy harvesting machine according to claim 2 or 3, characterized in that, the input frame is also provided with a vacuum pipeline and a liquid pipeline to receive a thermometer, and the change of the vacuum pipeline and the liquid pipeline to receive a thermometer is One coil changes, the vacuum pipeline and the liquid pipeline receive temperature devices that are symmetrically and independently arranged relative to the electric energy input coil, and are arranged in the adjacent first electric energy changing coil, the vacuum pipeline and the liquid pipeline receive temperature The devices are symmetrically arranged in parallel with the first coils, and the adjacent parallel coils are close to the first electric energy changing coils.