CN213392133U - Geothermal well wall of a well temperature monitoring device - Google Patents

Abstract

The utility model discloses a geothermal well wall temperature monitoring device, which comprises a bracket, the bottom of the bracket is the ground, the middle part of the bracket is provided with a connecting block, the bottom of the ground at the bottom of the connecting block is the geothermal well, the inside of the connecting block is provided with a lifting groove, the inside of the lifting groove is provided with a first thread A, the inside of the lifting groove is provided with a first lifting rod, the periphery of the side surface of the first lifting rod is provided with a first thread B, the top end of the first lifting rod is provided with a second lifting rod, the bottom of the first lifting rod is provided with a lifting block, the left end and the right end of the lifting block are provided with an electric telescopic rod A and an electric telescopic rod B, the left end of the telescopic rod of the electric telescopic rod A is provided with a monitoring block A, the right end of the telescopic rod of the electric telescopic rod B is provided with a monitoring block B, the left end of the inside of the monitoring block A and the right end of the monitoring, the geothermal well wall temperature monitoring device can be moved to a proper position according to the requirement.

Description

Geothermal well wall of a well temperature monitoring device

Technical Field

The utility model relates to a geothermal well temperature monitoring technology field specifically is a geothermal well wall of a well temperature monitoring device.

Background

As is known, the monitoring of the borehole wall temperature of the geothermal well is a basic work for developing and utilizing geothermal resources, and has important significance for mastering the heat storage of the geothermal well and the dynamic change of the surrounding geological environment and ensuring the long-term sustainable development and utilization of the resources.

But the installation of the earth heating well wall of a well temperature monitoring device of present day is mostly comparatively complicated, and need go deep into the well and install during the installation, and the installation is wasted time and energy, and can only measure the place of installing temperature monitoring device after the installation and monitor, can not adjust the position of monitoring as required, uses the limitation height.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Not enough to prior art, the utility model provides a geothermal well wall of a well temperature monitoring device.

(II) technical scheme

In order to achieve the above object, the utility model provides a following technical scheme: a geothermal well wall temperature monitoring device comprises four supports, the bottoms of the supports are on the ground, connecting blocks are arranged in the middle of the four supports, the bottom ends of the supports are mounted at the top ends of the ground, the top ends of the four supports are respectively connected to the front end, the rear end, the left end and the right end of the connecting blocks, a geothermal well is arranged at the bottom of the ground at the bottom of the connecting blocks, lifting grooves are formed in the connecting blocks and penetrate through the top ends of the connecting blocks to the bottom ends of the connecting blocks, first threads A are arranged in the lifting grooves, first lifting rods are mounted in the lifting grooves, first threads B are arranged around the side faces of the first lifting rods and are matched with each other, second lifting rods are mounted at the top ends of the first lifting rods, lifting blocks are arranged at the bottoms of the first lifting rods, electric telescopic rods A are arranged at the left ends of the lifting blocks, electric telescopic rods B are arranged at the right ends of the lifting blocks, the left end of electric telescopic handle A's telescopic link is equipped with monitoring block A, electric telescopic handle B's telescopic link's right-hand member is equipped with monitoring block B, monitoring block A's inside left end and monitoring block B's right-hand member all are equipped with temperature monitor, temperature monitor's power signal line stretches out to monitoring block A and monitoring block B's outside and upwards extends to the ground top on temperature monitoring device's top, electric telescopic handle A and electric telescopic handle B's top all is equipped with the telescopic link power cord, the telescopic link power cord upwards extends to the ground top.

Further, electric telescopic handle A and electric telescopic handle B are respectively including telescopic link motor, telescopic tube and telescopic link, and the telescopic link motor sets up in telescopic tube's top left part, and the telescopic link sets up in telescopic tube's inside, and the telescopic link can control about the telescopic tube is internal, and the removal of telescopic link is controlled by the telescopic link motor.

Furthermore, the blind holes are formed in the top ends of the first lifting rod and the second lifting rod, second threads A are arranged inside the blind holes, the bottom ends of the first lifting rod and the second lifting rod are provided with protruding columns, second threads B are arranged on the side faces of the protruding columns, and the second threads A are matched with the second threads B.

Furthermore, the convex column that the bottom of second lifter was equipped with is installed in the blind hole that the top of first lifter was equipped with inside.

Furthermore, the side surfaces of the first lifting rod and the second lifting rod are provided with grooves, and the grooves penetrate through the top ends of the first lifting rod and the second lifting rod to the bottom ends of the first lifting rod and the second lifting rod.

Furthermore, the inside of recess is equipped with the solid fixed ring of several, and power signal line and telescopic link power cord are installed in solid fixed ring's inside, and power signal line and telescopic link power cord upwards extend to the top on ground in recess and solid fixed ring's inside.

(III) advantageous effects

Compared with the prior art, the utility model provides a geothermal well wall of a well temperature monitoring devices possesses following beneficial effect:

the geothermal well wall temperature monitoring device can move to a proper position as required by rotating the first lifting rod and the second lifting rod in the connecting block, the telescopic rod is driven by the telescopic rod motor to move left and right in the telescopic sleeve, the telescopic rod can move right or right as required and can support against the wall of the geothermal well, the lifting rod can adjust proper length as required by matching the first lifting rod and the second lifting rod, the convex column of the first lifting rod is arranged in the blind hole of the second lifting rod, so that the connection between the first lifting rod and the second lifting rod is more stable and firm, the power signal line and the power line can be arranged in the groove by the groove arranged on the side surface of the first lifting rod and the second lifting rod, and the power signal line and the telescopic rod can be effectively protected, the power signal wire and the telescopic rod power line are arranged in the groove and the fixing ring, so that the power signal wire and the telescopic rod power line can be stably arranged in the groove and the fixing ring and cannot be separated from the groove and the fixing ring, and the groove further improves the protection effect on the power signal wire and the telescopic rod power line.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a partially enlarged schematic view of a portion A shown in FIG. 1 according to the present invention;

fig. 3 is a partially enlarged structural diagram of the point B shown in fig. 1 according to the present invention.

In the figure: 1. a support; 2. connecting blocks; 3. a geothermal well; 4. a first lifting rod; 5. a lifting block; 6. An electric telescopic rod A; 7. an electric telescopic rod B; 8. monitoring block A; 9. monitoring block B; 10. a temperature monitor; 11. a power supply signal line; 12. a telescopic rod power line; 13. a telescopic rod motor; 14. a telescopic sleeve; 15. a telescopic rod; 16. a groove; 17. a fixing ring; 18. a second lifting rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the geothermal well wall temperature monitoring device of the present invention comprises four supports 1, four supports 1 are provided, the bottom of each support 1 is the ground, a connecting block 2 is provided in the middle of each support 1, the bottom of each support 1 is installed at the top of the ground, the top of each support 1 is connected to the front end, the rear end, the left end and the right end of each connecting block 2, the bottom of the ground at the bottom of each connecting block 2 is the geothermal well 3, a lifting groove is provided in each connecting block 2, the lifting groove penetrates from the top of each connecting block 2 to the bottom of each connecting block 2, a first thread a is provided in each lifting groove, a first lifting rod 4 is provided in each lifting groove, a first thread B is provided around the side of each first lifting rod 4, the first thread a is matched with the first thread B, a second lifting rod 18 is provided at the top of each first lifting rod 4, the bottom of the first lifting rod 4 is provided with a lifting block 5, the left end of the lifting block 5 is provided with an electric telescopic rod A6, the right end of the lifting block 5 is provided with an electric telescopic rod B7, the left end of a telescopic rod 15 of the electric telescopic rod A6 is provided with a monitoring block A8, the right end of the telescopic rod 15 of the electric telescopic rod B7 is provided with a monitoring block B9, the left end inside the monitoring block A8 and the right end of the monitoring block B9 are both provided with a temperature monitor 10, the power signal line 11 of the temperature monitor 10 extends out of the monitoring blocks A8 and B9 at the top of the temperature monitoring device and extends upward to the top of the ground, the top ends of the electric telescopic rods A6 and B7 are both provided with telescopic rod power cords 12, the telescopic rod power cords 12 extend upwards to the top of the ground, the first lifting rod 4 and the second lifting rod 18 can rotate and move in the connecting block 2, so that the geothermal well wall temperature monitoring device can be moved to a proper position as required.

Wherein, electric telescopic handle A6 and electric telescopic handle B7 are including telescopic link motor 13, telescopic tube 14 and telescopic link 15 respectively, telescopic link motor 13 sets up in telescopic tube 14's top left part, telescopic link 15 sets up in telescopic tube 14's inside, telescopic link 15 can control about telescopic tube 14 is internal, control by telescopic link motor 13 about telescopic link 15, control about driving telescopic link 15 in telescopic tube 14 through telescopic link motor 13, make telescopic link 15 can control right or right when needing to can support the wall of a well of geothermal well 3.

Wherein, the blind hole that first lifter 4 and second lifter 18's top all was equipped with, the inside of blind hole is equipped with second screw thread A, the bottom of first lifter 4 and second lifter 18 all is equipped with the projection, the side of projection is equipped with second screw thread B, second screw thread A and second screw thread B mutually support, through first lifter 4 and with second lifter 18's cooperation, make the lifter adjust suitable length as required.

Wherein, the convex column that the bottom of first lifter 4 was equipped with is installed inside the blind hole that the top of second lifter 18 was equipped with, installs in the blind hole of second lifter 18 through the convex column of first lifter 4, makes first lifter 4 more stable firm with being connected of second lifter 18.

The side surfaces of the first lifting rod 4 and the second lifting rod 18 mounted at the top ends of the first lifting rod 4 are provided with grooves 16, the grooves 16 penetrate from the top ends of the first lifting rod 4 and the second lifting rod 18 to the bottom ends of the first lifting rod 4 and the second lifting rod 18, and the power signal line 11 and the telescopic rod power line 12 can be mounted in the grooves 16 through the grooves 16 arranged at the side surfaces of the first lifting rod 4 and the second lifting rod 18, so that the power signal line 11 and the telescopic rod power line 12 can be effectively protected.

The power signal wire 11 and the telescopic rod power line 12 extend upwards to the top of the ground in the groove 16 and the fixing ring 17, and the power signal wire 11 and the telescopic rod power line 12 are mounted in the groove 16 and the fixing ring 17, so that the power signal wire 11 and the telescopic rod power line 12 can be stably mounted in the groove 16 and the fixing ring 17 and cannot be separated from the groove 16 and the fixing ring 17, and the groove 16 further improves the protection effect on the power signal wire 11 and the telescopic rod power line 12.

In summary, when the geothermal well wall temperature monitoring device is used, the four supports 1 are erected on the top of a geothermal well 3 to be monitored, the tops of the four supports 1 are connected through the connecting block 2, the first lifting rod 4 provided with the electric telescopic rod A6, the electric telescopic rod B7 and the temperature monitor 10 is screwed into the connecting block 2, the first lifting rod 4 is rotated, the first lifting rod 4 is matched with the first thread A of the first lifting rod 4 to enable the first lifting rod 4 to move upwards or downwards, when the length of the first lifting rod 4 is insufficient, the convex column at the bottom of the second lifting rod 18 is screwed into the blind hole at the top end of the first lifting rod 4 to be connected so as to increase the length, when the first lifting rod moves downwards to a proper position, the electric telescopic rod 15 is powered, the telescopic rods 15 of the electric telescopic rods A6 and the electric telescopic rod B7 move leftwards and rightwards to abut against the wall of the geothermal well 3, after the telescopic links 15 of the electric telescopic links A6 and the electric telescopic links B7 prop against the wall of the geothermal well 3, the temperature monitoring devices in the detection blocks A and B can monitor the temperature of the wall of the geothermal well 3.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The geothermal well wall temperature monitoring device comprises supports (1) and is characterized in that the number of the supports (1) is four, the bottom of each support (1) is the ground, connecting blocks (2) are arranged in the middle of the four supports (1), the bottom end of each support (1) is installed at the top end of the ground, the top ends of the four supports (1) are respectively connected to the front end, the rear end, the left end and the right end of each connecting block (2), the bottom of the ground at the bottom of each connecting block (2) is a geothermal well (3), a lifting groove is formed in each connecting block (2) and penetrates through the top end of each connecting block (2) to the bottom end of each connecting block (2), first threads A are formed in each lifting groove, a first lifting rod (4) is installed in each lifting groove, first threads B are arranged around the side face of each first lifting rod (4), the first thread A and the first thread B are matched with each other, a second lifting rod (18) is installed at the top end of the first lifting rod (4), a lifting block (5) is arranged at the bottom of the first lifting rod (4), an electric telescopic rod A (6) is arranged at the left end of the lifting block (5), an electric telescopic rod B (7) is arranged at the right end of the lifting block (5), a monitoring block A (8) is arranged at the left end of a telescopic rod (15) of the electric telescopic rod A (6), a monitoring block B (9) is arranged at the right end of the telescopic rod (15) of the electric telescopic rod B (7), temperature monitors (10) are arranged at the left end of the inner part of the monitoring block A (8) and the right end of the monitoring block B (9), a power supply signal wire (11) of each temperature monitor (10) extends out of the monitoring block A (8) and the monitoring block B (9) from the top end of the temperature monitoring device and upwards extends to the top of the ground, the top of electric telescopic handle A (6) and electric telescopic handle B (7) all is equipped with telescopic link power cord (12), telescopic link power cord (12) upwards extend to ground top.

2. The geothermal well wall temperature monitoring device according to claim 1, wherein the electric telescopic rod A (6) and the electric telescopic rod B (7) respectively comprise a telescopic rod motor (13), a telescopic tube (14) and a telescopic rod (15), the telescopic rod motor (13) is arranged at the left part of the top end of the telescopic tube (14), the telescopic rod (15) is arranged inside the telescopic tube (14), the telescopic rod (15) can move left and right in the telescopic tube (14), and the left and right movement of the telescopic rod (15) is controlled by the telescopic rod motor (13).

3. The geothermal well wall temperature monitoring device according to claim 1, wherein the first lifting rod (4) and the second lifting rod (18) are provided with blind holes at top ends thereof, second threads A are arranged inside the blind holes, the first lifting rod (4) and the second lifting rod (18) are provided with convex columns at bottom ends thereof, the side surfaces of the convex columns are provided with second threads B, and the second threads A are matched with the second threads B.

4. A geothermal well wall temperature monitoring device according to claim 3, characterized in that the protruding columns provided at the bottom ends of the second lifting rods (18) are installed inside the blind holes provided at the top ends of the first lifting rods (4).

5. A geothermal well wall temperature monitoring device according to claim 1, wherein the first lifting rod (4) and the second lifting rod (18) are provided with grooves (16) on the side surfaces thereof, and the grooves (16) penetrate from the top ends of the first lifting rod (4) and the second lifting rod (18) to the bottom ends of the first lifting rod (4) and the second lifting rod (18).

6. The geothermal well wall temperature monitoring device according to claim 5, wherein a plurality of fixing rings (17) are arranged inside the groove (16), the power signal line (11) and the telescopic rod power line (12) are arranged inside the fixing rings (17), and the power signal line (11) and the telescopic rod power line (12) extend upwards inside the groove (16) and the fixing rings (17) to the top of the ground.

Images