CN114646397A

CN114646397A - Geothermal signal induction transmission device

Info

Publication number: CN114646397A
Application number: CN202210545970.4A
Authority: CN
Inventors: 刘咏明; 孟苗苗; 金兴
Original assignee: Shandong Geo Mineral Engineering Group Co ltd
Current assignee: Shandong Geo Mineral Engineering Group Co ltd
Priority date: 2022-05-20
Filing date: 2022-05-20
Publication date: 2022-06-21

Abstract

The invention belongs to the technical field of geothermal exploration devices, in particular to a geothermal signal induction transmission device, wherein a top connecting port is integrally formed at the top of a shell, a bottom connecting port is integrally formed at the bottom of the shell, a first combination board is fixedly connected with the bottom connecting port through a screw, a photovoltaic assembly board is arranged on the side wall of the shell, an inner pipe is embedded in one side wall of the photovoltaic assembly board, the geothermal signal induction transmission device has the advantages that a driver carrying a PLC is arranged at the top of the shell, the extension frame at the bottom of the shell is used for extension, a telescopic frame and a threaded pipe which can be combined in a lifting way are arranged at the bottom of the extension frame, so that a signal transmitter can be adjusted in length according to requirements, an induction frame carrying a sensor is combined at the tail end of the signal transmitter, geothermal signal induction is effectively carried out, and induced signals can be transmitted to a transmission box at the top of the shell, so as to improve the effectiveness of the data transmission process.

Description

Geothermal signal induction transmission device

Technical Field

The invention relates to the technical field of geothermal exploration devices, in particular to a geothermal signal induction transmission device.

Background

Geothermal resource exploration is a geological, geophysical and geochemical comprehensive investigation performed to find out geothermal resources in a certain area, and geological works such as drilling and testing, sampling and testing, dynamic monitoring and the like. According to the investigation working degree, the method can be divided into stages of investigation, pre-feasibility investigation, exploitation and the like, and provides resources/reserves and necessary geological data for developing and protecting geothermal resources so as to reduce the development risk, obtain the maximum social and economic benefits and environmental benefits of developing and utilizing the geothermal resources and keep the sustainable utilization of the resources to the maximum extent.

Geology is a subject of studying the composition of the earth crust, its structure and various geological actions to investigate the formation and development of the earth. Geology also researches the application of the material in national economic construction and the like. The main contents of the study are: the crust composition, various geological functions, crust changes, the morphology, classification and evolution of organisms in the geological period, the history of earth formation and development, marine geological phenomena and various principles of applied geology solve the actual problems of mineral deposit exploration, petroleum exploitation and the like. Geology generally refers to properties and features in the earth or some portion of the earth. Including the material components of the composition. Such as the nature of the strata and rock mass, the mineralogical characteristics, the physical and chemical properties, the age of formation of the rock and strata, the effects of various formations and metamorphism and their phenomena, the life evolution in the earth history recorded in the strata, and the occurrence of available deposits.

Geological exploration is needed in geological research, sampling is needed in geological exploration, later-stage research is facilitated, and a sampling device is needed in the geological exploration process.

Current sampling device is carrying out geological exploration's in-process, and the signal line can't carry out length adjustment as required to at the terminal effective complex induction system of signal transmitter really, be difficult to carry out the geothermal signal response, simultaneously after the signal of acquireing the response, be not convenient for transmit away, be difficult to promote the validity of data transmission process.

Disclosure of Invention

The invention aims to provide a geothermal signal induction transmission device, which solves the problems that in the process of geological exploration, a signal wire cannot be adjusted in length according to requirements, the induction device which is really and effectively matched with the tail end of a signal transmitter is difficult to induce geothermal signals, and meanwhile, after the induced signals are obtained, the induced signals are inconvenient to transmit, and the effectiveness of a data transmission process is difficult to improve in the conventional sampling device in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: a geothermal signal induction transmission device is characterized in that: the photovoltaic module panel transmission device comprises a shell, a photovoltaic module panel, a driver, an extension frame, an induction frame and a transmission frame;

a top connecting port is integrally formed at the top of the shell, a bottom connecting port is integrally formed at the bottom of the shell, and the bottom connecting port is fixedly connected with a first combined plate through a screw;

the photovoltaic module plate is arranged on the side wall of the shell, an inner pipe is embedded in one side wall of the photovoltaic module plate, a solar panel is embedded in the other side wall of the photovoltaic module plate, and the inner pipe penetrates through the shell;

the photovoltaic module board is electrically connected with the meter counter, and the free end of the tape measure penetrates through a meter sensing area of the meter counter;

the bottom of the first combined plate is connected with a second combined plate in a buckling mode, the second combined plate is in threaded connection with an extension frame, the bottom of the extension frame is sleeved with an expansion frame, the bottom of the expansion frame is in threaded connection with a threaded pipe, a signal transmitter is arranged in the threaded pipe, and the signal transmitter is connected with the free end of the tape measure;

the top of the induction frame is connected with the signal emitter, the bottom of the induction frame is provided with a sensor, and the sensor is electrically connected with the signal emitter;

the top of shell passes through screw fixed connection transmission frame, the lateral wall of transmission frame is inlayed and is had the cross axle, the cross axle has cup jointed the transmission case, transmission case and PLC and signal transmitter electric connection.

As a preferred embodiment: the shell is movably connected with a flip cover through a hinge, a combined board is embedded on the shell, and the combined board is fixedly connected with an equipment board through screws.

As a preferred embodiment: the shell is embedded with an alarm, and the alarm is electrically connected with the PLC.

As a preferred embodiment: the signal transmitter is connected with a combined plate through a buckle, the combined plate is connected with two combined bolts, and the number of the combined bolts is two.

As a preferred embodiment: the induction frame is provided with an induction hole and a pin shaft hole, the induction hole is communicated with the sensor, the sensor is inserted with a pin shaft, and the pin shaft penetrates through the pin shaft hole.

As a preferred scheme: the sensor is an infrared thermal imaging sensor, and a protective sleeve is sleeved on the outer wall of the sensor.

As a preferred scheme: and the side wall of the transmission frame is fixedly connected with a second standby battery through a screw.

As a preferred embodiment: the inside electric connection of transmission case has wireless transmitter, wireless transmitter includes WIFI, bluetooth, thing networking and local area network.

As a preferred embodiment: and an anti-corrosion rubber leather sheath is sleeved outside the signal transmitter.

Compared with the prior art, the invention has the beneficial effects that: this geothermal signal responds to transmission device, set up the driver that carries PLC through the top at the shell, and utilize the extension frame of shell bottom to prolong, the bottom that extends the frame sets up the expansion bracket and the screwed pipe of liftable combination, make signal transmitter can carry out length adjustment as required, and the response frame that carries the sensor in signal transmitter's end combination, the effectual geothermal signal response that carries on, can transmit the signal of response for the transmission case at shell top simultaneously, in order to promote data transmission process's validity.

Drawings

FIG. 1 is a schematic view of the geothermal signal induction transmission apparatus according to the present invention;

FIG. 2 is a schematic view of the interior of the geothermal signal induction transmission device according to the present invention;

FIG. 3 is a schematic view of an extension frame of the geothermal signal induction transmission device according to the present invention;

FIG. 4 is a schematic view of an induction frame of the geothermal signal induction transmission device according to the present invention;

FIG. 5 is a schematic diagram of a transmission rack of the geothermal signal induction transmission device according to the present invention;

fig. 6 is a schematic side view of a transmission rack of the geothermal signal induction transmission device according to the present invention.

In the figure: 100 outer shell, 110 flip cover, 120 composite board, 130 equipment board, 140 composite board I, 200 photovoltaic module board, 210 inner pipe, 220 solar panel, 230 alarm, 300 driver, 310PLC, 330 meter counter, 400 extending frame, 410 composite board II, 420 expansion frame, 430 threaded pipe, 440 signal transmitter, 441 composite board, 442 composite bolt, 500 induction frame, 510 induction hole, 520 pin shaft, 530 sensor, 600 transmission frame, 610 horizontal shaft, 620 transmission box, 630 backup battery II, 700 tape measure.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example (b): as shown in fig. 1 to 6, a geothermal signal induction transmission device is characterized in that: comprises a shell 100, a photovoltaic module panel 200, a driver 300, an extension frame 400, an induction frame 500 and a transmission frame 600;

a top connection port is integrally formed at the top of the shell 100, a bottom connection port is integrally formed at the bottom of the shell 100, and the bottom connection port is fixedly connected with a first combination board 140 through a screw;

the photovoltaic module panel 200 is arranged on the side wall of the outer shell 100, an inner tube 210 is embedded in one side wall of the photovoltaic module panel 200, a solar panel 220 is embedded in the other side wall of the photovoltaic module panel 200, and the inner tube 210 penetrates through the outer shell 100;

the driver 300 is connected with the top connection port, the top of the driver 300 is fixedly connected with a PLC310 electrically connected with the driver 300 through a screw, the driver 300 is connected with a tape measure 700 in a driving manner, the inner wall of the housing 100 is fixedly connected with a meter counter 330 through a screw, the photovoltaic module panel 200 is electrically connected with the meter counter 330, and the free end of the tape measure 700 penetrates through a meter sensing area of the meter counter 330;

the bottom of the first combination plate 140 is connected with a second combination plate 410 in a buckling mode, the second combination plate 410 is in threaded connection with an extension frame 400, an expansion frame 420 is sleeved at the bottom of the extension frame 400, a threaded pipe 430 is in threaded connection with the bottom of the expansion frame 420, a signal transmitter 440 is arranged in the threaded pipe 430, and the signal transmitter 440 is connected with the free end of the tape measure 700;

the top of the induction frame 500 is connected with a signal emitter 440, a sensor 530 is arranged at the bottom of the induction frame 500, and the sensor 530 is electrically connected with the signal emitter 440;

the top of shell 100 passes through screw fixed connection transmission frame 600, the lateral wall of transmission frame 600 is inlayed and is had cross axle 610, cross axle 610 has cup jointed transmission case 620, transmission case 620 and PLC310 and signal transmitter 440 electric connection.

The housing 100 is movably connected with a flip cover 110 through a hinge, a combination board 120 is embedded on the housing 100, and the combination board 120 is fixedly connected with an equipment board 130 through a screw.

An alarm 230 is embedded in the housing 100, and the alarm 230 is electrically connected with the PLC 310.

The signal emitter 440 is connected with a combination plate 441 in a snap-fit manner, the combination plate 441 is connected with two combination bolts 442, and the number of the combination bolts 442 is two.

The induction frame 500 is provided with an induction hole 510 and a pin shaft hole, the induction hole 510 is communicated with the sensor 530, the sensor 530 is inserted with a pin shaft 520, and the pin shaft 520 penetrates through the pin shaft hole.

The sensor 530 is an infrared thermal imaging sensor, and a protective sleeve is sleeved on the outer wall of the sensor 530.

The side wall of the transmission frame 600 is fixedly connected with a second backup battery 630 through screws.

The inside electric connection of transmission case 620 has wireless transmitter, wireless transmitter includes WIFI, bluetooth, thing networking and local area network.

An anti-corrosion rubber leather sheath is sleeved outside the signal emitter 440.

When the intelligent electric meter is used specifically, firstly, the flip cover 110 is arranged on the side face of the shell 100, the photovoltaic module board 200 is arranged on the side wall of the shell 100, the driver 300 carrying the PLC310 is connected to the top of the shell 100, the driver 300 drives the tape measure 700 to retract and release, the free end of the tape measure 700 is connected with the signal emitter 440, the bottom of the signal emitter 440 is connected with the induction frame 500, the bottom of the induction frame 500 is connected with the sensor 530 combined by the pin shaft 520, the sensor 530 can transmit signals to the signal emitter 440, the signal emitter 440 transmits temperature signals to the transmission box 620, and therefore, geothermal signal induction is effectively carried out, effectiveness of a data transmission process is improved, and the meter 330 can count retraction and release lengths of the tape measure 700.

In order to facilitate opening of the housing 100, a flip cover 110 is movably connected to a side wall of the housing 100 by a hinge, a combination board 120 is embedded in a front side wall of the housing 100, and an equipment board 130 is fixedly connected to the front side wall of the combination board 120 by a screw.

In order to increase the suggestive property, an alarm 230 is embedded in the side wall of the housing 100, and an electrical output end of the alarm 230 is electrically connected to the PLC 310.

In order to improve the combinability of the sensor 530, the front side wall of the sensing frame 500 is provided with a sensing hole 510 and a pin shaft hole, the tail end of the sensing hole 510 is communicated with the sensor 530, the side wall of the sensor 530 is inserted with a pin shaft 520, the pin shaft 520 penetrates through the pin shaft hole, the sensor 530 is a temperature sensor, and the circumferential outer wall of the sensor 530 is sleeved with a protective sleeve.

In order to increase the standby effect and improve the endurance of the transmission box 620, the sidewall of the transmission frame 600 is fixedly connected with a second backup battery 630 through a screw, and an electrical output end of the second backup battery 630 is electrically connected with the transmission box 620.

In order to increase the remote transmission ability of transmission case 620, the inside electric connection of transmission case 620 has wireless transmitter, wireless transmitter includes WIFI, bluetooth, thing networking and local area network.

In order to increase the service life of the signal emitter 440, an anti-corrosion rubber leather sheath is sleeved outside the signal emitter 440.

While the invention has been described above with reference to an embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In particular, the various features of the embodiments disclosed herein may be used in any combination, provided that there is no structural conflict, and the combinations are not exhaustively described in this specification merely for the sake of brevity and conservation of resources. Therefore, it is intended that the invention not be limited to the particular embodiments disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims

1. A geothermal signal induction transmission device is characterized in that: the photovoltaic module panel transmission device comprises a shell (100), a photovoltaic module panel (200), a driver (300), an extension frame (400), an induction frame (500) and a transmission frame (600);

a top connecting port is integrally formed at the top of the shell (100), a bottom connecting port is integrally formed at the bottom of the shell (100), and the bottom connecting port is fixedly connected with a first combined plate (140) through a screw;

the photovoltaic module plate (200) is arranged on the side wall of the shell (100), an inner pipe (210) is embedded in one side wall of the photovoltaic module plate (200), a solar panel (220) is embedded in the other side wall of the photovoltaic module plate (200), and the inner pipe (210) penetrates through the shell (100);

the driver (300) is connected with the top connection port, the top of the driver (300) is fixedly connected with a PLC (310) which is electrically connected with the driver (300) through screws, the driver (300) is connected with a tape measure (700) in a driving mode, the inner wall of the shell (100) is fixedly connected with a meter counter (330) through screws, the photovoltaic module board (200) is electrically connected with the meter counter (330), and the free end of the tape measure (700) penetrates through a meter counter sensing area of the meter counter (330);

the bottom of the first combined plate (140) is connected with a second combined plate (410) in a buckling mode, the second combined plate (410) is in threaded connection with an extension frame (400), the bottom of the extension frame (400) is sleeved with an expansion frame (420), the bottom of the expansion frame (420) is in threaded connection with a threaded pipe (430), a signal transmitter (440) is arranged in the threaded pipe (430), and the signal transmitter (440) is connected with the free end of the tape measure (700);

the top of the induction frame (500) is connected with a signal emitter (440), a sensor (530) is arranged at the bottom of the induction frame (500), and the sensor (530) is electrically connected with the signal emitter (440);

screw fixed connection transmission frame (600) is passed through at the top of shell (100), the lateral wall of transmission frame (600) is inlayed and is had cross axle (610), transmission case (620) has been cup jointed in cross axle (610), transmission case (620) and PLC (310) and signal transmitter (440) electric connection.

2. A geothermal signal induction transmission unit according to claim 1, wherein: the shell (100) is movably connected with a flip cover (110) through a hinge, a combined plate (120) is inlaid on the shell (100), and the combined plate (120) is fixedly connected with an equipment plate (130) through a screw.

3. A geothermal signal induction transmission unit according to claim 2, wherein: inlay on shell (100) and have alarm (230), alarm (230) and PLC (310) electric connection.

4. A geothermal signal induction transmission device according to claim 3, wherein: the signal emitter (440) is connected with a combined plate (441) in a buckling mode, the combined plate (441) is connected with combined bolts (442), and the number of the combined bolts (442) is two.

5. A geothermal signal induction transmission device according to claim 4, wherein: the induction frame (500) is provided with an induction hole (510) and a pin shaft hole, the induction hole (510) is communicated with the sensor (530), the sensor (530) is inserted with the pin shaft (520), and the pin shaft (520) penetrates through the pin shaft hole.

6. A geothermal signal induction transmission unit according to claim 5, wherein: the sensor (530) is an infrared thermal imaging sensor, and a protective sleeve is sleeved on the outer wall of the sensor (530).

7. A geothermal signal induction transmission device according to claim 6, wherein: and the side wall of the transmission frame (600) is fixedly connected with a second standby battery (630) through a screw.

8. A geothermal signal induction transmission device according to claim 7, wherein: the inside electric connection of transmission case (620) has wireless transmitter, wireless transmitter includes WIFI, bluetooth, thing networking and LAN.

9. A geothermal signal induction transmission device according to claim 8, wherein: and an anti-corrosion rubber leather sheath is sleeved outside the signal emitter (440).