CN209689789U - A kind of geothermal layer temperature-detecting device of mid-deep strata geothermal energy - Google Patents

Abstract

The utility model relates to deep geothermal resources technical fields, and disclose a kind of geothermal layer temperature-detecting device of mid-deep strata geothermal energy, including U-tube, and the inner roof wall of the U-tube pipeline opens up mounting groove.The geothermal layer temperature-detecting device of the mid-deep strata geothermal energy, when floating ball temperature detector ontology needs to detect water temperature, it is powered by control circuit by power supply and electromagnet by floating ball temperature detector ontology, electromagnet energizing magnetic, it is attracting with magnetic patch, under the magnetic force, it is bonded with magnetic patch, floating ball temperature detector ontology is fixed, under the action of clump weight, adjust the imbalance that electromagnet offset generates, when floating ball temperature detector ontology needs mobile, disconnect the access of electromagnet, electromagnet is under the impulse force and buoyancy of water, start to be moved to next place's detection, in this way, by magnet switching road, and under clump weight auxiliary, to control floating ball temperature detector ontology stably measured, to obtain accurately measurement data.

Description

A kind of geothermal layer temperature-detecting device of mid-deep strata geothermal energy

Technical field

The utility model relates to deep geothermal resources technical field, specially a kind of geothermal layer temperature of mid-deep strata geothermal energy Detection device.

Background technique

Deep geothermal resources is " heat, mine, water " Trinitarian resource, while being also the clean environment-friendly type energy, can be wide It is general to be applied to the fields such as power generation, heat supply heating, health care, hot spring bathing, plantation cultivation, tourism and development of real estate, underground heat Resource is renewable resource, at the same can also comprehensive cyclic utilization, have it is pollution-free, development and utilization convenient (directly utilizing), develop It is worth the features such as high, is had to improving city taste, improving urban environment and Energy restructuring and improving people's lives condition There is important meaning, while significant economic benefit, social benefit and environmental benefit can also be obtained.

A kind of existing geothermal layer temperature-detecting device of mid-deep strata geothermal energy of patent CN208537054U, the device pass through The mechanism of magnetic strip and magnetic force block, is fixed detection device, and detection device is avoided to float up and down, and influences to measure, but the dress As liquid in pipe flows together when the measuring device set, the problem of Lai Jilu working fluid, if passing through magnetic strip and magnetic force Block is fixed, it is easy to be caused measuring device to be in same position always, be caused prohibited data detection true, to solve the above-mentioned problems We have proposed a kind of geothermal layer temperature-detecting devices of mid-deep strata geothermal energy.

Utility model content

(1) the technical issues of solving

In view of the deficiencies of the prior art, the utility model provides a kind of geothermal layer temperature detection dress of mid-deep strata geothermal energy It sets, has the advantages that detection data is accurate, fixed if solved by magnetic strip and magnetic force block, it is easy to cause measuring device Always it is in same position, leads to the problem that prohibited data detection is true.

(2) technical solution

To realize the above-mentioned accurate purpose of detection data, the utility model is provided the following technical solutions: a kind of mid-deep strata underground heat The geothermal layer temperature-detecting device of energy, including U-tube, the inner roof wall of the U-tube pipeline open up mounting groove, the mounting groove Inside is fixedly installed with magnetic patch, and the inner bottom wall of the U-tube pipeline offers first sliding groove, and the U-tube is internally provided with Installation frame, the installation frame are internally provided with floating ball temperature detector ontology, and the inside of the installation frame is fixedly installed with Buffer stopper at left and right sides of floating ball temperature detector ontology, the inside of the installation frame is fixedly installed with to be bonded with buffer stopper Power supply, there are two the connecting rod being slidably connected with mounting groove, two connecting rods for the left side fixed installation of the installation frame Opposite side offers second sliding slot, and electromagnet, the installation frame are slidably connected between two second sliding slots Right side be fixedly installed with telescopic rod, the telescopic rod is fixedly installed with far from one end of installation frame and first sliding groove sliding connects The sliding block connect is provided with seal cover board at the top of the installation frame, is provided between the seal cover board and installation frame solid Determine bolt, the bottom of the seal cover board is fixedly installed with the clump weight on the right side of installation frame.

Preferably, there are four the buffer stoppers, and buffer stopper is evenly distributed on the inner roof wall and inner bottom wall of installation frame, and four A buffer stopper is bonded with floating ball temperature detector ontology.

Preferably, the power supply is located at the left side of left side buffer stopper, and power supply, buffer stopper and floating ball temperature detector ontology and peace The frame that frames up is adapted.

Preferably, the lateral wall of the electromagnet is socketed with protective jacket, and the protective jacket is slidably connected with second sliding slot.

Preferably, the length summation of the magnetic patch and electromagnet is greater than the groove depth of mounting groove, the magnetic patch and electromagnetism iron phase Adaptation.

Preferably, there are gap between the seal cover board and first sliding groove, the clump weight is located at installation frame and Between one sliding slot.

(3) beneficial effect

Compared with prior art, the utility model provides a kind of geothermal layer temperature-detecting device of mid-deep strata geothermal energy, Have it is following the utility model has the advantages that

1, the geothermal layer temperature-detecting device of the mid-deep strata geothermal energy, by the way that floating ball temperature detector ontology is arranged, when floating ball is surveyed When warm body ontology needs to detect water temperature, it is powered by control circuit by power supply and electromagnet by floating ball temperature detector ontology, electromagnet Energizing magnetic, attracting with magnetic patch, under the magnetic force, electromagnet is close to magnetic patch along second sliding slot, and finally with Magnetic patch fitting, under the action of electromagnet and magnetic patch, floating ball temperature detector ontology is fixed, under the action of clump weight, adjustment The imbalance that electromagnet offset generates disconnects the access of electromagnet, electromagnet is in water when floating ball temperature detector ontology needs mobile Impulse force and buoyancy under, start to be moved to next place's detection, in this way, by magnet switching road, and in clump weight Under auxiliary, to control floating ball temperature detector ontology stably measured, to obtain accurately measurement data.

2, the geothermal layer temperature-detecting device of the mid-deep strata geothermal energy, by the way that installation frame is arranged, when floating ball temperature detector sheet When body is mobile with the liquid in U-tube, in connecting rod along mounting groove, telescopic rod is as sliding block is along second sliding slot Under booster action, installation frame avoids floating in this way with floating ball temperature detector ontology smooth flow in U-tube Ball temperature detector ontology, which bumps to tube wall, influences device operating.

Detailed description of the invention

Fig. 1 is the utility model structure sectional view；

Fig. 2 is schematic enlarged-scale view at the utility model A；

Fig. 3 is schematic enlarged-scale view at the utility model B.

In figure: 1 U-tube, 2 mounting grooves, 3 magnetic patch, 4 first sliding grooves, 5 installation frames, 6 floating ball temperature detector ontologies, 7 bufferings Block, 8 power supplys, 9 connecting rods, 10 second sliding slots, 11 electromagnet, 12 telescopic rods, 13 sliding blocks, 14 seal cover boards, 15 fixing bolts, 16 Clump weight.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Fig. 1-3, a kind of geothermal layer temperature-detecting device of mid-deep strata geothermal energy, including U-tube 1 are please referred to, U-tube 1 is managed The inner roof wall in road opens up mounting groove 2, and the inside of mounting groove 2 is fixedly installed with magnetic patch 3, and the inner bottom wall of 1 pipeline of U-tube offers One sliding slot 4, U-tube 1 are internally provided with installation frame 5, and installation frame 5 is internally provided with floating ball temperature detector ontology 6, installation The inside of frame 5 is fixedly installed with the buffer stopper 7 positioned at 6 left and right sides of floating ball temperature detector ontology, and there are four buffer stoppers 7, and slow Inner roof wall and inner bottom wall that block 7 is evenly distributed on installation frame 5 are rushed, four buffer stoppers 7 are bonded with floating ball temperature detector ontology 6, peace The frame up inside of frame 5 is fixedly installed with the power supply 8 being bonded with buffer stopper 7, and power supply 8 is located at the left side of left side buffer stopper 7, and power supply 8, buffer stopper 7 and floating ball temperature detector ontology 6 are adapted with installation frame 5, and there are two the left side fixed installations of installation frame 5 and peace The connecting rod 9 that tankage 2 is slidably connected, the opposite side of two connecting rods 9 offer second sliding slot 10, two second sliding slots 10 Between slidably connect electromagnet 11, the lateral wall of electromagnet 11 is socketed with protective jacket, and protective jacket and the sliding of second sliding slot 10 connect It connects, the length summation of magnetic patch 3 and electromagnet 11 is greater than the groove depth of mounting groove 2, and magnetic patch 3 is adapted with electromagnet 11, installation frame 5 Right side be fixedly installed with telescopic rod 12, telescopic rod 12 is fixedly installed with far from one end of installation frame 5 and first sliding groove 4 is slided The sliding block 13 of connection, the top of installation frame 5 are provided with seal cover board 14, between seal cover board 14 and first sliding groove 4 there are Gap, clump weight 16 are provided with fixed spiral shell between installation frame 5 and first sliding groove 4 between seal cover board 14 and installation frame 5 Bolt 15, the bottom of seal cover board 14 is fixedly installed with the clump weight 16 positioned at 5 right side of installation frame, by the way that floating ball temperature detector is arranged Ontology 6, when floating ball temperature detector ontology 6 needs to detect water temperature, by floating ball temperature detector ontology 6 by control circuit by power supply 8 with Electromagnet 11 is powered, and 11 energizing magnetic of electromagnet is attracting with magnetic patch 3, and under the magnetic force, electromagnet 11 is along second Sliding slot 10 is close to magnetic patch 3, and is finally bonded with magnetic patch 3, under the action of electromagnet 11 and magnetic patch 3, floating ball temperature detector ontology 6 It is fixed, under the action of clump weight 16, the imbalance that the adjustment offset of electromagnet 11 generates, when floating ball temperature detector ontology 6 needs When moving, the access of electromagnet 11 is disconnected, electromagnet 11 starts to be moved to next place, pass through under the impulse force and buoyancy of water Such mode, by 11 on-off road of electromagnet, and under the auxiliary of clump weight 16, to control 6 stably measured of floating ball temperature detector ontology, To obtain accurately measurement data.

In conclusion the geothermal layer temperature-detecting device of the mid-deep strata geothermal energy, by the way that floating ball temperature detector ontology 6 is arranged, When floating ball temperature detector ontology 6 needs to detect water temperature, by floating ball temperature detector ontology 6 by control circuit by power supply 8 and electromagnet 11 are powered, and 11 energizing magnetic of electromagnet is attracting with magnetic patch 3, and under the magnetic force, electromagnet 11 is along second sliding slot 10 It is close to magnetic patch 3, and be finally bonded with magnetic patch 3, under the action of electromagnet 11 and magnetic patch 3, floating ball temperature detector ontology 6 is fixed Firmly, under the action of clump weight 16, the imbalance that the adjustment offset of electromagnet 11 generates, when floating ball temperature detector ontology 6 needs to move When, the access of electromagnet 11 is disconnected, electromagnet 11 starts to be moved to next place, in this way under the impulse force and buoyancy of water Mode, by 11 on-off road of electromagnet, and under the auxiliary of clump weight 16, to control 6 stably measured of floating ball temperature detector ontology, to obtain Accurately measurement data, by the way that installation frame 5 is arranged, when floating ball temperature detector ontology 6 with the liquid in U-tube 1 it is mobile when It waits, in connecting rod 9 along mounting groove 2, telescopic rod 12 is under booster action of the sliding block 13 along second sliding slot 10, installation frame 5 with floating ball temperature detector ontology 6, smooth flow avoids floating ball temperature detector ontology 6 from colliding in this way in U-tube 1 Device operating is influenced to tube wall, is fixed if solved by magnetic strip and magnetic force block, it is easy to measuring device be caused to locate always In same position, lead to the problem that prohibited data detection is true.

It should be noted that, in this document, relational terms such as first and second and the like are used merely to a reality Body or operation are distinguished with another entity or operation, are deposited without necessarily requiring or implying between these entities or operation In any actual relationship or order or sequence.Moreover, the terms "include", "comprise" or its any other variant are intended to Non-exclusive inclusion, so that the process, method, article or equipment including a series of elements is not only wanted including those Element, but also including other elements that are not explicitly listed, or further include for this process, method, article or equipment Intrinsic element.In the absence of more restrictions, the element limited by sentence "including a ...", it is not excluded that There is also other identical elements in process, method, article or equipment including the element.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (6)

1. a kind of geothermal layer temperature-detecting device of mid-deep strata geothermal energy, including U-tube (1), it is characterised in that: the U-tube (1) inner roof wall of pipeline opens up mounting groove (2), and the inside of the mounting groove (2) is fixedly installed with magnetic patch (3), the U-tube (1) inner bottom wall of pipeline offers first sliding groove (4), and the U-tube (1) is internally provided with installation frame (5), the installation Frame (5) is internally provided with floating ball temperature detector ontology (6), and the inside of the installation frame (5) is fixedly installed with positioned at floating ball Buffer stopper (7) at left and right sides of temperature detector ontology (6), the inside of the installation frame (5) is fixedly installed with pastes with buffer stopper (7) The power supply (8) of conjunction, there are two the connecting rods being slidably connected with mounting groove (2) for the left side fixed installation of the installation frame (5) (9), two opposite sides of the connecting rod (9) offer second sliding slot (10), between two second sliding slots (10) It slidably connects electromagnet (11), is fixedly installed with telescopic rod (12) on the right side of the installation frame (5), the telescopic rod (12) One end far from installation frame (5) is fixedly installed with the sliding block (13) being slidably connected with first sliding groove (4), the installation frame (5) it is provided at the top of seal cover board (14), is provided with fixing bolt between the seal cover board (14) and installation frame (5) (15), the bottom of the seal cover board (14) is fixedly installed with the clump weight (16) on the right side of installation frame (5).

2. a kind of geothermal layer temperature-detecting device of mid-deep strata geothermal energy according to claim 1, it is characterised in that: described There are four buffer stoppers (7), and buffer stopper (7) is evenly distributed on the inner roof wall and inner bottom wall of installation frame (5), four bufferings Block (7) is bonded with floating ball temperature detector ontology (6).

3. a kind of geothermal layer temperature-detecting device of mid-deep strata geothermal energy according to claim 2, it is characterised in that: described Power supply (8) is located at the left side of left side buffer stopper (7), and power supply (8), buffer stopper (7) and floating ball temperature detector ontology (6) and installing frame Frame (5) is adapted.

4. a kind of geothermal layer temperature-detecting device of mid-deep strata geothermal energy according to claim 1, it is characterised in that: described The lateral wall of electromagnet (11) is socketed with protective jacket, and the protective jacket is slidably connected with second sliding slot (10).

5. a kind of geothermal layer temperature-detecting device of mid-deep strata geothermal energy according to claim 1, it is characterised in that: described The length summation of magnetic patch (3) and electromagnet (11) is greater than the groove depth of mounting groove (2), the magnetic patch (3) and electromagnet (11) Xiang Shi Match.

6. a kind of geothermal layer temperature-detecting device of mid-deep strata geothermal energy according to claim 1, it is characterised in that: described There are gap between seal cover board (14) and first sliding groove (4), the clump weight (16) is located at installation frame (5) and first sliding groove (4) between.