CN211233415U - Special water collecting and distributing device for seasonal underground energy storage system - Google Patents

Abstract

The utility model discloses a special water collecting and distributing device for seasonal underground energy storage system, which relates to the technical field of underground energy storage equipment, a self-cleaning mechanism comprises a three-phase asynchronous alternating current motor fixedly arranged on the end surface of the other side of a water distributing device tank body, a section fixing component and a section fixing component, a wall scraping structure is arranged between the section fixing component and the section fixing component, a lead screw is fixedly connected in series with the driving end of the three-phase asynchronous alternating current motor through a coupler, the end of the lead screw, which is opposite to the three-phase asynchronous alternating current motor, is sequentially connected in series with the section fixing component, the wall scraping structure and the section fixing component, when the inner wall of the water collecting and distributing device needs to be cleaned, the three-phase asynchronous alternating current motor is started, the lead screw can be driven to rotate, the lead screw is connected with the wall scraping structure through screw threads, in addition, the self-cleaning treatment of the inner wall of the water collecting and distributing device is realized, and the practicability is improved.

Description

Special water collecting and distributing device for seasonal underground energy storage system

Technical Field

The utility model relates to an underground energy storage equipment technical field specifically is a stride special water collecting and distributing device of season underground energy storage system.

Background

Underground energy storage is one of the purposes of pumping underground water in industrial cities, and underground water is used as a cold source or a heat source. The water is used for cooling products in summer and adjusting the temperature and humidity of a workshop, and is used for heating the workshop and supplying water for a boiler in winter. In order to increase the cold source or the heat source of the underground water, many factories change the temperature of the underground water by a recharge method by utilizing the characteristics of slow flow rate and slow change of the water temperature of the underground water in an aquifer, and the storage efficiency of the cold source and the heat source of the underground water is improved. The concrete method is that cold water with very low temperature is poured into the ground in winter, and the cold water is mined in summer for cooling (so-called 'winter-filling summer-using'). In summer, water with higher temperature is filled into the ground, and in winter, the water is exploited for heating (so-called 'filling in summer and using in winter').

In underground energy storage operation, a water collecting and distributing device, also known as a water collecting and distributing device, is an essential device, and is a water flow distribution and gathering device formed by combining a water collector and a water distributor. The water separator is a device which disperses a path of inlet water into a plurality of paths of inlet water for output, and the water collector is a device which collects a plurality of paths of inlet water for output.

However, in the existing underground energy storage operation, the adopted water collecting and distributing device is complex in structure generally and single in function, the underground energy storage is mainly kept at the temperature of industrial water by means of geothermal energy, the industrial water is hard water generally, namely, the internal components of a water body contain a large amount of calcium ions and magnesium ions, and when the water temperature rises, the inner wall of the water collecting and distributing device is scaled, so that maintenance personnel are required to clean the inner wall of the water collecting and distributing device regularly, time and labor are wasted, and the practicability is low.

SUMMERY OF THE UTILITY MODEL

The utility model provides a be not enough to prior art, the utility model provides a stride special water collection and distribution device of season underground energy storage system has solved the temperature that underground energy storage mainly keeps the industrial water with the help of geothermal energy, and the industrial water is hard water usually, and the inside composition of water contains a large amount of calcium ion and magnesium ion promptly, when the temperature risees, can appear the phenomenon of scale deposit at the inner wall of water collection and distribution device, consequently, need maintainer regularly to clear up the inner wall of water collection and distribution device, take time hard, the lower problem of practicality.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: the utility model provides a stride special water collection and distribution device of season underground energy storage system, includes that the equipment that two symmetries set up bears the support, the water knockout drum body is installed jointly to the top terminal surface that two equipment bore the support, a side end face of the water knockout drum body has the blowdown window through ring flange and bolt fixed mounting, the inside fixed mounting of the water knockout drum body has automatically cleaning mechanism, and the outside parcel of the water knockout drum body is provided with one deck chemical conversion coating.

The self-cleaning mechanism comprises a three-phase asynchronous alternating current motor fixedly mounted on the end face of the other side of the water separator tank body, a first section fixing assembly and a second section fixing assembly which are fixedly mounted at two ends of the interior of the water separator tank body respectively, a wall scraping structure is arranged between the first section fixing assembly and the second section fixing assembly, a driving end of the three-phase asynchronous alternating current motor extends into the interior of the water separator tank body and is fixedly connected with a lead screw in series through a coupler, one end, deviating from the three-phase asynchronous alternating current motor, of the lead screw is sequentially connected with the first section fixing assembly in series, the wall scraping structure and the second section fixing assembly in series, and two limiting slide bars symmetrically penetrate through the first section fixing assembly, the second section fixing assembly and the wall scraping structure.

Preferably, the bottom end face of the water separator tank body is symmetrically connected with two liquid inlet pipes, the top end face of the water separator tank body is connected with a plurality of liquid outlet pipes with different inner diameter sizes, and the outer end parts of the two liquid inlet pipes and the liquid outlet pipes are connected in series and provided with control valves used in a matched mode.

Preferably, the rear side of the water knockout drum jar body is provided with the overhaul of the equipments platform through the stand is set up, the rear side edge of the overhaul of the equipments platform is provided with the guardrail, and one side welding of the overhaul of the equipments platform is provided with the foot ladder.

Preferably, the first section fixing component and the second section fixing component are two components with the same structure, shape and size.

Preferably, the fixed subassembly of a district section includes that first supporting ring and fixed the cup jointing that are connected with the shell body of the water knockout drum jar body through the bolt fastening install at the outside bearing frame of lead screw, respectively two sets of first reinforcing plates and second reinforcing plate of fixedly connected with between first supporting ring and the bearing frame, it is two sets of first reinforcing plate and second reinforcing plate form the additional strengthening of "X" font jointly.

Preferably, slide bar fixing through holes are formed in the first reinforcing plate and the inner part of the adjacent end of the first supporting ring, and the two ends of the limiting slide bar are fixedly connected to the inner part of the slide bar fixing through holes.

Preferably, scrape the wall structure and establish the silk section of thick bamboo of connecting in the lead screw outside including the cover, the lateral wall of section of thick bamboo middle part is fixed welding respectively and is provided with two sets of third reinforcing plates and fourth reinforcing plate, and is two sets of the one end that third reinforcing plate and fourth reinforcing plate outwards extended is connected with the second support ring jointly, the outside terminal surface fixed mounting of second support ring has the scraper blade.

Preferably, the sliding sleeves are installed in a penetrating mode in the third reinforcing plate and the adjacent end of the inner side wall of the second support ring, and the limiting sliding rods correspondingly penetrate through the two sliding sleeves respectively to form a slidable connecting structure.

Advantageous effects

The utility model provides a stride special water collection and distribution ware of season underground energy storage system. Compared with the prior art, the method has the following beneficial effects:

1. the special water collecting and distributing device for the seasonal underground energy storage system is characterized in that a self-cleaning mechanism is additionally arranged in the existing water collecting and distributing device, the self-cleaning mechanism comprises a three-phase asynchronous alternating current motor fixedly arranged on the end surface of the other side of a water distributing device tank body, a first section fixing component and a second section fixing component which are respectively fixedly arranged at two ends of the interior of the water distributing device tank body, a wall scraping structure is arranged at a position between the first section fixing component and the second section fixing component, the driving end of the three-phase asynchronous alternating current motor extends into the interior of the water distributing device tank body, a lead screw is fixedly connected in series through a coupler, one end, which is far away from the three-phase asynchronous alternating current motor, of the lead screw is sequentially connected in series with the first section fixing component, the wall scraping structure and the second section fixing component, and two limiting slide rods, when the inner wall of water collection and distribution device needs to be cleared up, start the asynchronous AC motor of three-phase, can drive the lead screw and rotate, the lead screw with scrape the wall structure and pass through threaded connection, under the limiting displacement of two spacing slide bars in addition for scrape the direction removal of wall structure along the lead screw, realize handling the self-cleaning of water collection and distribution device inner wall, improved the practicality.

2. This special water collection and distribution device of underground energy storage system strides season through the outside parcel one deck chemical conversion membrane at current water collection and distribution device, and it is that metal top layer atom and the anion in the medium interact, forms the isolation layer that adhesive force is good on the metal surface to form the protective layer to water collection and distribution device, improved water collection and distribution device's life, structure scientific and reasonable, convenience safe in utilization.

Drawings

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

FIG. 2 is a schematic view of the chemical conversion coating according to the present invention;

FIG. 3 is a schematic structural view of the self-cleaning mechanism of the present invention;

fig. 4 is a schematic structural view of the fixing assembly of the present invention;

FIG. 5 is a schematic structural view of the wall scraping structure of the present invention;

fig. 6 is a front view of the wall scraping structure of the present invention.

In the figure: 1. an equipment carrying bracket; 2. a water separator tank body; 3. a liquid inlet pipe; 4. a liquid outlet pipe; 5. an equipment overhaul platform; 6. a guardrail; 7. a foot ladder; 8. a blowdown window; 9. a self-cleaning mechanism; 91. a three-phase asynchronous ac motor; 92. a segment securing assembly; 921. a first support ring; 922. a bearing seat; 923. a first reinforcing plate; 924. a second reinforcing plate; 925. the slide bar is fixed with the through hole; 93. two section fixing components; 94. a wall scraping structure; 941. a second support ring; 942. a wire barrel; 943. a squeegee; 944. a third reinforcing plate; 945. a fourth reinforcing plate; 946. a sliding sleeve; 95. a limiting slide bar; 96. a screw rod; 10. and (3) a chemical conversion film.

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. 1-2, the present invention provides a technical solution: a special water collecting and distributing device for a cross-season underground energy storage system comprises two symmetrically arranged device bearing supports 1, a water distributing device tank body 2 is installed on the top end face of each device bearing support 1, two liquid inlet pipes 3 are symmetrically connected to the bottom end face of each water distributing device tank body 2, a plurality of liquid outlet pipes 4 with different inner diameter sizes are connected to the top end face of each water distributing device tank body 2, control valves used in a matched mode are installed at the outer end portions of the two liquid inlet pipes 3 and the outer end portions of the liquid outlet pipes 4 in a connected mode in series, a device overhauling platform 5 is arranged on the rear side of each water distributing device tank body 2 in an erected mode through stand columns, a guardrail 6 is arranged on the rear side edge of each device overhauling platform 5, a foot ladder 7 is welded on one side of each device overhauling platform 5, a drain window 8 is fixedly installed on one side end face of, and a layer of chemical conversion film 10 is wrapped outside the water separator tank body 2.

Referring to fig. 3, the self-cleaning mechanism 9 includes a three-phase asynchronous ac motor 91 fixedly installed on the other side end surface of the water separator tank 2, a first section fixing assembly 92 and a second section fixing assembly 93 fixedly installed at two ends of the inside of the water separator tank 2, a wall scraping structure 94 is installed between the first section fixing assembly 92 and the second section fixing assembly 93, the driving end of the three-phase asynchronous ac motor 91 extends into the inside of the water separator tank 2, and a lead screw 96 is fixedly connected in series through a coupler, the end of the lead screw 96 opposite to the three-phase asynchronous ac motor 91 is connected in series with the first section fixing assembly 92, the wall scraping structure 94 and the second section fixing assembly 93, two limiting slide bars 95 symmetrically penetrate through the first section fixing assembly 92, the second section fixing assembly 93 and the wall scraping structure 94, and the first section fixing assembly 92 and the second section fixing assembly 93 are two structures, The shape and size of the members are the same.

Referring to fig. 4, a section fixing assembly 92 includes a first supporting ring 921 connected to the outer shell of the water separator tank 2 by a bolt, and a bearing seat 922 fixedly sleeved on the outside of the screw 96, two groups of first reinforcing plates 923 and second reinforcing plates 924 are respectively and fixedly connected between the first supporting ring 921 and the bearing seat 922, the two groups of first reinforcing plates 923 and second reinforcing plates 924 form an X-shaped reinforcing structure together, slide rod fixing through holes 925 are fixedly formed in the adjacent ends of the two groups of first reinforcing plates 923 and the first supporting ring 921, and two ends of two limiting slide rods 95 are fixedly connected to the inside of the slide rod fixing through holes 925.

Referring to fig. 5-6, the wall scraping structure 94 includes a wire cylinder 942 sleeved on and connected to the outside of the screw 96, two sets of third reinforcing plates 944 and fourth reinforcing plates 945 are respectively fixedly welded to the side wall of the middle section of the wire cylinder 942, one end of each of the two sets of third reinforcing plates 944 and one end of each of the two sets of fourth reinforcing plates 945, which extend outward, are connected to a second support ring 941, a scraping plate 943 is fixedly installed on the outer end face of the second support ring 941, a sliding sleeve 946 is installed in each of the two sets of third reinforcing plates 944 and the inside of the adjacent end of the inner side wall of the second support ring 941 in a penetrating manner, and two limiting sliding rods 95 respectively penetrate through the inside of the two sliding sleeves 946.

When the water separator tank 2 is used, when scale is formed inside the water separator tank 2 and needs to be cleaned regularly, an operator can start the three-phase asynchronous alternating current motor 91, because the two ends inside the water separator tank 2 are respectively and correspondingly fixedly provided with the first section fixing component 92 and the second section fixing component 93, and the first section fixing component 92, the second section fixing component 93 and the wall scraping structure 94 are respectively connected in series through the lead screw 96 and the two limit slide bars 95, when the three-phase asynchronous alternating current motor 91 drives the lead screw 96 to rotate, the whole wall scraping structure 94 can only do linear motion along the direction of the lead screw 96, when the three-phase asynchronous alternating current motor 91 rotates in the positive direction, the corresponding wall scraping structure 94 moves in the positive direction, and similarly and reversely, and in the process of moving in the positive direction, the scraper 943 is in contact with the inner wall of the water separator tank 2, so that the scale attached to the inner wall surface of the water separator tank 2 can be removed, can discharge through feed liquor pipe 3, also can open blowdown window 8, the incrustation scale of scraping down is cleared up, labour saving and time saving, in addition, at water knockout drum jar body 2 outside parcel one deck chemical conversion membrane 10, it is the anion inter reaction in metal top layer atom and the medium, generates the isolation layer that adhesive force is good at the metal surface to formed the protective layer to water collection and knockout drum, improved water collection and knockout drum's life, structure scientific and reasonable, convenience safe in utilization.

In this embodiment, the three-phase asynchronous ac motor 91 is a motor capable of rotating forward and backward, the specific model is YS5614, and the structural features and the operating principle of the three-phase asynchronous ac motor and the specific circuit structure electrically connected to the outside are all the prior art, and will not be described in detail here.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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 (8)

1. The utility model provides a stride special water collection and distribution ware of season underground energy storage system, includes that the equipment that two symmetries set up bears support (1), its characterized in that: the top end surfaces of the two equipment bearing supports (1) are jointly provided with a water distributor tank body (2), one side end surface of the water distributor tank body (2) is fixedly provided with a sewage discharge window (8) through a flange plate and a bolt, the interior of the water distributor tank body (2) is fixedly provided with a self-cleaning mechanism (9), and the exterior of the water distributor tank body (2) is wrapped with a layer of chemical conversion film (10);

the self-cleaning mechanism (9) comprises a three-phase asynchronous alternating current motor (91) fixedly mounted on the end face of the other side of the water distributor tank body (2), and further comprises a first section fixing assembly (92) and a second section fixing assembly (93) which are fixedly mounted at two ends inside the water distributor tank body (2) respectively, a wall scraping structure (94) is arranged at a position between the first section fixing assembly (92) and the second section fixing assembly (93), a driving end of the three-phase asynchronous alternating current motor (91) extends into the water distributor tank body (2), a lead screw (96) is fixedly connected in series through a coupler, the lead screw (96) and one end of the three-phase asynchronous alternating current motor (91) which deviates from each other are sequentially connected in series with the first section fixing assembly (92), the wall scraping structure (94) and the second section fixing assembly (93), and two limit positions symmetrically penetrate through the first section fixing assembly (92), the second section fixing assembly (93) and the wall scraping structure (94) A slide bar (95).

2. The water collecting and distributing device special for the cross-season underground energy storage system as claimed in claim 1, wherein: the bottom end face of the water distributor tank body (2) is symmetrically connected with two liquid inlet pipes (3), the top end face of the water distributor tank body (2) is connected with a plurality of liquid outlet pipes (4) with different inner diameter sizes, and the outer end parts of the two liquid inlet pipes (3) and the liquid outlet pipes (4) are connected in series to install control valves used in a matched mode.

3. The water collecting and distributing device special for the cross-season underground energy storage system as claimed in claim 1, wherein: the rear side of the water distributor tank body (2) is provided with an equipment maintenance platform (5) through a stand column, the rear side edge of the equipment maintenance platform (5) is provided with a guardrail (6), and one side of the equipment maintenance platform (5) is welded with a foot ladder (7).

4. The water collecting and distributing device special for the cross-season underground energy storage system as claimed in claim 1, wherein: the first section fixing component (92) and the second section fixing component (93) are two components with the same structure, shape and size.

5. The water collecting and distributing device special for the cross-season underground energy storage system as claimed in claim 4, wherein: fixed subassembly (92) of a district section includes first support ring (921) and the fixed bearing frame (922) of installing at lead screw (96) outside that cup joints that are connected through the shell body of the bolt fastening and the water knockout drum jar body (2), between first support ring (921) and bearing frame (922) respectively fixedly connected with two sets of first reinforcing plates (923) and second reinforcing plate (924), it is two sets of first reinforcing plate (923) and second reinforcing plate (924) form the additional strengthening of "X" font jointly.

6. The water collecting and distributing device special for the cross-season underground energy storage system as claimed in claim 5, wherein: two sets of slide bar fixing hole (925), two have all been fixed to the inside of first reinforcing plate (923) and the adjacent one end of first support ring (921) inside at slide bar fixing hole (925) is fixed connection to the both ends of spacing slide bar (95).

7. The water collecting and distributing device special for the cross-season underground energy storage system as claimed in claim 1, wherein: scrape wall structure (94) and establish wire section of thick bamboo (942) of connecting in lead screw (96) outside including the cover, the lateral wall of wire section of thick bamboo (942) middle segment fixed welding respectively is provided with two sets of third reinforcing plate (944) and fourth reinforcing plate (945), and is two sets of third reinforcing plate (944) and fourth reinforcing plate (945) are connected with second support ring (941) jointly to the one end that extends outward, the outside terminal surface fixed mounting of second support ring (941) has scraper blade (943).

8. The water collecting and distributing device special for the cross-season underground energy storage system as claimed in claim 7, wherein: sliding sleeve (946) are all installed to two sets of third reinforcing plate (944) and the inside of the adjacent one end of second support ring (941) inside wall through the formula, two spacing slide bar (95) correspond the inside of running through two sliding sleeves (946) respectively, form slidable connection structure.

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