CN105019707A - Special device for lined container of underground cooling warehouse - Google Patents

Special device for lined container of underground cooling warehouse Download PDF

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Publication number
CN105019707A
CN105019707A CN201410331803.5A CN201410331803A CN105019707A CN 105019707 A CN105019707 A CN 105019707A CN 201410331803 A CN201410331803 A CN 201410331803A CN 105019707 A CN105019707 A CN 105019707A
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China
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tubular
warehouse
digital control
lining container
hoist engine
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CN201410331803.5A
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Chinese (zh)
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施中天
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Individual
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Individual
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Priority to CN201410331803.5A priority Critical patent/CN105019707A/en
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Abstract

The invention provides a special device for a lined container of an underground cooling warehouse. The special device comprises a work fixture for a thin-wall steel plate lined container component, an undercut device, a welding facility and a control system; the special device is characterized by comprising an overhead connecting rigid body which is connected to a tower crane framework; a plurality of digital control winches connected with lined container parts and a plurality of winches connected with the undercut of the lined container or the welding facility are uniformly distributed on the lower side of the connecting rigid body; the digital control winches are respectively provided with a load sensor, and the load sensor comprises more than one strain gauge attached to the stress sensitive part of the digital control winch; the load sensor and a motor of each digital control winch are in signal connection with a main control computer of the control system through an interface circuit, and the motor is used as an execution component of the main control computer. The special device is capable of manufacturing a high-quality thin-wall stainless steel plate lined container.

Description

Borehole cooling warehouse, ground lining container special equipment
Technical field
The present invention relates to borehole cooling warehouse, ground lining container special equipment.
Background technology
Existing grain depot, for damp proof object, is built on the ground more.In Yangtze River Delta Area, in summer, due to the far infrared radiation of solar irradiation and ground object, cereal temperature in storehouse is made to be increased to 30 DEG C even higher gradually.The cooling although cost mint of money installs an air-conditioner, the heat conductivility difference oddment due to grain is difficult to overall balanced cooling and causes dropping into huge and have little effect.And the phenomenon generation also having formation condensation when lowering the temperature suddenly because of the grain that temperature is higher and cause grain hydrolysis to be gone rotten.
Summary of the invention
The object of the invention is to provide borehole cooling warehouse, ground lining container special equipment.
The present invention realizes the technical scheme of its object: manufacture borehole cooling warehouse, a tableland lining container special equipment, comprise the frock clamp of thin-walled steel plate lining container parts, undercut device, installation for welding and control system.Adopt a height be connected with tower crane framework to put to refute and connect rigid body, refute the hoist engine connecing and to be evenly equipped with several digital control hoist engines connecting lining container component on the downside of rigid body and to be connected lining container undercut or installation for welding with several; Digital control hoist engine is separately containing load sensor, and load sensor comprises more than one foil gauge adhering on digital control hoist engine force sensitive position; The load sensor of each digital control hoist engine and motor to be connected with the main control computer signal of control system by interface circuit and described motor as the execution unit of main control computer.
Welder can also be made to comprise be positioned at the circular orbit above tubular warehouse wall and be connected the resistance welder of annularly orbital motion with circular orbit.
Beneficial effect: the tubular warehouse that the present invention adopts underground semi-underground can the pressure of the soil of resistance to outside, thus the cold-storage ability of soil can be utilized safely to suppress the rising of oddment temperature.Employing heat pipe conducts heat to be connected with warehouse wall and the unidirectional heat transfer property of heat pipe can be utilized constantly to be dispersed in air the heat energy of oddment without the need to consuming energy lower than during oddment temperature at temperature.Roughly estimate: in the grain depot of 1,000,000 jin configure 40 heat pipes to dispel the heat a winter 4 megawatt time (40 heat pipe * 10 hours/day * 100 watts/* 100 days), radiating efficiency 80%, grain specific heat capacity be the half of water, 1,000,000 jin of grains can be lowered the temperature 11 DEG C.If be 19 DEG C in the temperature of warehouse entry oddment like this, can make first summer oddment maximum temperature be no more than 8 DEG C.At night in the fall, temperature is lower than again can radiating and cooling when 8 DEG C.Usually, occur meaning that temperature drops to less than zero DEG C the Frost's Descent.And for inland sex climate, the temperature in many nights on date all can drop to very low in 1 year, at this time will export heat energy by heat pipe to environment and make tubular store interior temperature less than reduction.In the soil of periphery, warehouse, arrange the cooling that heat pipe can promote surrounding soil, cold-storage suppresses the slightly high part of other temperature of underground to be contributed the heat energy of oddment more.
Adopt lining container can realize moistureproof dual fail-safe, by vacuumizing mezzanine space, even if the moisture under huge groundwater pressure in the percolating water of minute quantity or air also can be removed.The conduit of lining container contributes to keeping gas channel.By vacuumizing liner internal tank, the breathing of oddment, oxidation and metabolism can be suppressed, the edible grain of non-seed purposes is gained everything and lose nothing.Employing connects lining container inside and the appendix of special gas tank, can be satisfied the demand by the concentration realizing looking after the Oxygen control of seed other gas in seed or maintenance warehouse.Liner internal tank is vacuumized, directly can also dewater in warehouse to the grain of high humility, avoid northern grain to freeze many mouse loss half a year outside and serious problem of going rotten winter.Vacuumize itself is also that one compares relatively mild temperature-fall period, as long as not too.Another benefit of employing lining container is: the vacuum of mezzanine space can be made a little more than the vacuum in lining container, even if it is full the pressure of 10 kilograms every square metre also can be provided to make it shape for the top corrosion resistant plate lifting holder lining container a little more than 0.001 atmospheric pressure.Even if comprise for lining container, top more than 95% area contacts with tubular warehouse, lining container inside is 0.8 to 0.9 atmospheric pressure, mezzanine space is evacuated to 0.5 atmospheric pressure, tubular warehouse wall also can be reduced to 1 to 2 ton every square metre from 5 tons every square metre because vacuumize the uniaxial pressure born, and the operating mode of tubular warehouse is optimized.
Adopt the pipeline heat-exchanger rig of forced circulation, the characteristics of distributed parameters that can adapt to oddment better carries out interchange of heat, and has the high-power advantage of heat exchange, but circulation pump needs to consume a small amount of energy.
Adopt source pump by heat or the heat exchange interface of pipeline heat-exchanger rig absorb heat from warehouse have power large, be applicable to high humility grain needs and dewater as early as possible and prevent the too high demand burning out grain of temperature, source pump just can not be relied on to lower the temperature after short time dehydration later; Certainly, negative pressure source also can be adopted in this case to comprise Roots blower and to realize dehydration cooling to provide low vacuum or negative pressure.
Adopt source pump or solar energy to heat store interior, the requirement that some fruit can not be too low to storage temperature can be realized.Source pump heating power is large and energy-conservation.Utilize solar energy heating then can not electricity consumption.
Temperature due to oddment remains very low, and the free fatty of rice can be gone through and still keep extremely low level for many years.Both can reduce paddy to have to, as the sight of feed process waste grain, customer can be made again to enjoy the cereal of better quality with regard to ageing one or two years.
Adopt digital control hoist engine can control the decline state of tubular warehouse and give steel core rack uniform pulling force, realize prestressing force effect.Adopt to refute and connect rigid body or ring-type and refute and connect the stressed safety that rigid body can guarantee tubular warehouse, by or the impact of few tower crane accident by occurring.Equally, the state in its manufacture process controls and good operating mode to adopt digital control hoist engine to guarantee to stainless steel thin-wall lining container.
Silo machine adopts digital control hoist engine can understand in real time in the stress of building tubular warehouse, and the load both can having taken measures to be included in all digital control hoist engines of very first time balance to possible situation early, characteristic individual digital being controlled to hoist engine carry out rectification building-out to guarantee to build high-quality warehouse; According to described hoist engine historical data and then underground hydrological attribute can also be extrapolated, for accumulate experience and the storehouse management in later stage provides the firsthand information.
For the steel concrete tubular warehouse of external diameter 10 meters, average internal height 9.5 meters, tubular warehouse wall thickness 0.14 meter, volume about 704.5 cubic metres, can store about 1,050,000 jin of grains.One group 5 ground borehole cooling silo costs comprise: concrete 300 cubic metre 10.5 ten thousand yuan, reinforcing bar 40 tons 250,000 yuan, lining container corrosion resistant plate 2355 ㎡ 14.5 ten thousand yuan, cooling installation and annex comprise lid and control system 400,000 yuan, exploration and design examination & approval and license fee 170,000 yuan, artificial 100,000 yuan, depreciation and invisible 100,000 yuan, profits tax 110,000 yuan, amount to 1,380,000 yuan, close 0.276 yuan/jin (not counting soil, water power, above ground structure and supporting).Cost before common large one-storey house silo more than ten years also wants 0.2 yuan.But steel concrete tubular silo reduces half, maintenance expense and loss then reduce by 80% than large one-storey house silo long service life at least one times, floor space; For the rice of Yangtze River Delta Area, the ageing time limit was expected to extend to more than 8 years from 2 years.The soil dug out when building ground borehole cooling silo can be baked bricks, and sells 50 yuan for every cube and can take in 17.5 ten thousand yuan.Adopt plastic sheeting lining container can also reduce nearly 200,000 yuan of investment than stainless steel inner lining container.When adopting plastic sheeting lining container, its barrel adheres on concrete tubular warehouse wall, and utilizes the magnet piece be connected with the soft iron plate magnetic on tubular warehouse to push down.Described soft iron plate is distributed on tubular warehouse.The top of plastic sheeting tubular warehouse is hung by the cable being arranged at tubular warehouse top and is connect in succession.
For inland sex climate, can by arranging a small amount of photovoltaic battery panel to build the borehole cooling fruit warehouse, fruit ground not relying on electrical network on borehole cooling warehouse, ground, only with electrical network expense of increasing capacity with and the budget investment photovoltaic cell of freezer equipment just every year during 25 years afterwards except the personal electric energy saving tens thousand of unit of the electricity charge, also can increase power selling income some ten thousand yuan every year.
Build the semi-underground freezer in underground or the warehouse that use source pump to adopt heat pipe and the cooling of pipeline heat-exchanger rig simultaneously, contribute to using electricity wisely.Borehole cooling warehouse can using electricity wisely or do not rely on electrical network with building the photovoltaic that utilizes photovoltaic battery panel to power to adopt photovoltaic battery panel.
Further illustrate below in conjunction with accompanying drawing.
Fig. 1 is the device layout figure of borehole cooling silo job site, a ground.
Fig. 2 is that structural representation faced by the ground borehole cooling silo of a hot work in progress.
Fig. 3 and Fig. 4 be respectively a rotation cutlery excavator be combined with tubular warehouse on depending on and face structural representation.
Fig. 5 and Fig. 6 is facing and upper TV structure schematic diagram of the ground borehole cooling silo of a band heat-pipe radiating apparatus respectively.
Fig. 7 be Fig. 6 warehouse wall on the amplification feature of heat pipe duct and heat pipe section.
Fig. 8 is the composite construction schematic diagram of an air flow passage.
Fig. 9 be a tubular sheet heat exchanger by face structural representation.
Figure 10 be a tubular sheet heat exchanger by cross-sectional structure schematic diagram.
Figure 11 is the structural representation of a hydraulic pressure vertical bar erecting mechanism.
Figure 12 is the state that the upper following linkage interface of the horizontal circle of two corrosion resistant plate manufactures starts when being engaged.
Figure 13 is that the upper following linkage interface of two horizontal circles is engaged state that is complete and that be engaged when side plate becomes at a right angle with horizontal circle main body.
Figure 14 is a site work schematic diagram at the horizontal ring type lining container of tubular warehouse internal production.
Figure 15 and Figure 16 is the ground borehole cooling silo daytime of a generating integrated heat dissipation device and the status architecture schematic diagram at night respectively.
1. rail in figure; 2. tower crane; 3. truss; 4. rigidity refutes junctor; 5. digital control hoist engine; 6. tubular warehouse; 7. steel core rack; 8. reinforcing bar; 9. at the bottom of tubular storehouse; 10. formwork for placing; 11. ground borehole cooling silos; 12. cut the earth rotates cutlery assembly; 13. the concrete pump sets; 14. spoir lifting appliances; 15. spoir conveyer belts; 16. removable rooms; 17. photovoltaic battery panels;
20. outer rings rotate cutlery; 21. struts; 22. ring-shaped guide rails; 23. fixed heads; 24. portable plates; 25. screw mandrels; 26. upper end frames; 27. centre circles rotate cutlery; 28. central rotation cutleries; 29. flange; 30. soil; 31. heat pipes; 32. hot junctions; 33. tubulose ducts; 34. involute shape wing plates; 35. peripheral heat-pipe radiating apparatus; 36. inner heat-pipe radiating apparatus; 37. blind pipes; 38. lining containers; 39. mezzanine spaces; 40. negative-pressure pipelines; 41. mezzanine space negative pressure sources; 42. tubular warehouse negative pressure sources; 43. vacuum pipes; 44. oddments; 45. air flow tube channel; 46. cold junctions; 47. storehouse shoulders; 48. heat insulation and water resistance layers;
50. vertical bars; 51. wing plates; 52.U type pipe; 53. fuselages; 54. hydraulic pushing devices; 55. turning brackets;
60. horizontal circles; 61. bending caulking grooves; 62. bending short slabs; 63. rollers; 64. soft iron plates; 65. magnet pieces; 66. built-in screw linkage interfaces; 67. disposal ditcheses; 68. longitudinal channels;
71. photovoltaic battery panels; 72. flat radiators; 73. generating integrated heat dissipation devices; 74. tubular sheet heat exchangers; 75. oddment conveying devices.
Detailed description of the invention
Fig. 1 and 2 provides first embodiment of the invention jointly.
In Fig. 1 and 2, through the scene of reconnoitring, lay two groups of parallel rail 1, rail 1 is installed tower crane group, tower crane group comprises between four tower cranes, 2, four tower cranes 2 and linking into an integrated entity with truss 3.Rigidity is refuted junctor 4 height put and be connected with tower crane 2, refute several digital control hoist engines 5 uniform on the downside of junctor 4 in rigidity, the lower end of digital control hoist engine 5 connects tubular warehouse 6 steel core rack 7 part reinforcing bar 8; Make the steel core rack 7 that steel core rack 7 comprises at the bottom of tubular storehouse 9.The formwork for placing 10 of tubular warehouse 6 also adopts the hoist engine traction of being affiliated to and refuting junctor 4 in rigidity.
Construction one is needed to arrange ground borehole cooling silo 11 along rail 1.Can take to build multiple ground borehole cooling silo 11 one by one by a tower crane group, also can build a ground borehole cooling silo 11 separately by multiple tower crane group simultaneously.Also can suitably merge between tower crane group.
Before building at the bottom of tubular storehouse 9, first excavate out the embedding space that rotates cutlery assembly 12 embedding shoveling rotates cutlery assembly 12 of cutting the earth, then to build at the bottom of tubular storehouse 9 and nethermost tubular warehouse 6 carry out maintenance with the concrete pump set 13 pumping of concrete.The Installation and Debugging of chain-bucket spoir lifting appliance 14 and spoir conveyer belt 15 are launched between curing time.Treat that at the bottom of tubular storehouse, 9 maintenances terminate, continue up with based on reinforcing bar 8 to make the steel core rack 7 of tubular warehouse 6, remove the formwork for placing of at the bottom of tubular storehouse 9.
When adopting whole piece reinforcing bar 8, the installation position that rigidity refutes junctor 4 at the beginning sets high, and the operation height of spoir lifting appliance 14 grade is also high.Later along with the sinking of tubular warehouse 6, rigidity of can also loweing refutes junctor 4, to reduce the operation height of spoir lifting appliance 14 grade.Therefore, rigidity is refuted junctor hoist engine structure also can be adopted to be connected with tower crane 2.
In order to guarantee the correct construction of tubular warehouse 6 under various complex random systems and underground hydrological condition, load sensor is arranged to each digital control hoist engine, and make load sensor be connected each via the main control computer signal of interface circuit with ground borehole cooling silo special equipment excavator control system with digital control hoist engine motor, the state of each digital control hoist engine is changed according to the state change of main control computer.And gather the analysis of related data for underground water level attribute.
After ground borehole cooling silo 11 builds up, rail 1 can not be torn open, for accessing the erection of equipment interface of grain later.Therefore, the running route of spoir lifting appliance 14 and spoir conveyer belt 15 can as the running route of grain access in the future, as long as will.Removable room 16 and photovoltaic battery panel 17 can also be run on rail 1.Photovoltaic battery panel 17 vertically should not block the heat radiation of earth's surface to sky in night.Enter and operation for convenience of scraper conveyor, the outlet of ground borehole cooling silo 11 can eccentric setting.
Rail and tower crane are through sufficient industry real example, and uniformity, reliability and technical data stabilize to designer and be familiar with trusting; The operation interface of rail and tower crane and job specfication are familiar with for Field Force; Adopt the good integrity of facility after truss, installation accuracy easily reach higher standard, little and controlled to the negative effect of the scope of operation; Rail and tower crane parts be supplied with guarantee.
Fig. 3 and 4 provides second embodiment of the invention jointly.
In Fig. 3 and 4, cut out some soil below 9 in advance at the bottom of tubular storehouse, outer ring rotates cutlery 20 and is entered installation site.Mounting stay 21 and ring-shaped guide rail 22 on 9 installation interfaces arranged in advance at the bottom of tubular storehouse are also installed outer ring and are rotated cutlery 20, comprise and rotate cutlery screw mandrel governor motion with an outer ring of fixed head 23, portable plate 24 and screw mandrel 25 composition, outer ring is rotated cutlery screw mandrel governor motion and is connected with ring-shaped guide rail 22 by a revolute pair mechanism.The outer ring be installed on portable plate 24 can be regulated to rotate the range of movement of cutlery 20 by the relative position of adjustment fixing plate 23 and portable plate 24.9 installation interfaces arranged in advance at the bottom of tubular storehouse install terminal frame 26 and centre circle is installed and rotate cutlery 27 and central rotation cutlery 28.
Each circle rotates cutlery 20,27 and 28 and forms rotation cutlery assembly.Start each circle and rotate cutlery 20,27 and 28 shoveling.Outer ring rotates cutlery 20 edge ring-shaped guide rail 22 and rotates limit cutting soil, below tubular warehouse 6, retain some soil due to needs and support tubular warehouse 6 in order to avoid its decline is too fast out of control, remain with one section of soil 30 contacted with 9 flange 29 at the bottom of tubular storehouse in the below of tubular warehouse 6.Because be subject to the weight of tubular warehouse 6, the tubular soil 30 near flange 29 can crushedly turn over and be rotated the axial line place of cutlery 20,27 and 28 rotation direction tubular warehouse 6 by each circle.Because the attribute of soil is different, need to regulate the wall thickness of soil 30 to obtain the support force to 9 flange 29 at the bottom of tubular storehouse of needs.This task rotates cutlery screw mandrel governor motion by outer ring and realizes.
To cut the earth a segment distance, start each digital control hoist engine 5 and make the controlled decline set depth of tubular warehouse 6, then the formwork for placing 31 of tubular warehouse 6 is moved up and continues the height that concreting increases tubular warehouse 6.The concrete strength of by the time newly building is enough, just again starts each circle rotation cutlery 20,27 and 28 and cuts the earth and tubular warehouse 6 is moved down and put in place.The soil dug out is removed by spoir lifting appliance and spoir conveyer belt.
Tubular warehouse is built complete, removes ring-shaped guide rail 22, strut 21 and upper end frame 26, then adds the blank space inside 9 flange 29 at the bottom of tubular storehouse and put reinforcing bar and concrete and to form at the bottom of complete tubular storehouse 9.Again according to designing requirement, make inner steel lining container or build tubular storehouse shoulder.
Fig. 5 to 7 provides third embodiment of the invention jointly.
In Fig. 5 to 7, ground borehole cooling silo 11 to be embedded under earth's surface in soil 30.Conduct heat with the tubulose duct 33 on ground borehole cooling silo 11 wall and be connected in the hot junction 32 of heat pipe 31.Heat pipe 31 is a kind of aluminium extruded sections heat pipe, and working medium adopts refrigerator and air conditioner cold-producing medium.Heat pipe 31 tube wall is with involute shape wing plate 34.Involute shape wing plate 34 was both fully fitted with tubulose duct 33, facilitated again heat pipe 31 to install and took out.When installing and take out heat pipe 31, while be rotated counterclockwise heat pipe namely the axial line of edge heat pipe 31 easily can move heat pipe 31.In order to the heat transfer slowing down surrounding soil 30 increases the temperature of ground borehole cooling silo 11, there are also installed peripheral heat-pipe radiating apparatus 35 in the periphery of ground borehole cooling silo 11; And in ground borehole cooling silo 11, be also provided with inner heat-pipe radiating apparatus 36.Inner heat-pipe radiating apparatus 36 inserts in a blind pipe 37, and blind pipe 37 embeds tubular warehouse 6 from the top of tubular warehouse 6 and is tightly connected with tubular warehouse 6.Blind pipe 37 also embeds lining container 38 from the top of lining container 38 and is tightly connected with lining container 38.When needing, blind pipe 37 can be reinforced with support member.
Borehole cooling silo 11 inside, ground is provided with lining container 38, is provided with negative-pressure pipeline 40 at ground borehole cooling silo 11 with the mezzanine space 39 between lining container 38 and is communicated with mezzanine space negative pressure source 41.Vacuum pipe 43 is provided with for vacuumizing formation negative pressure between ground borehole cooling silo 11 and tubular warehouse negative pressure source 42.Some air flow tube channel 45 are inserted in the middle of oddment 44.Hollow steam flow tube channel 45 length range is 50% to 98% of ground borehole cooling silo 11 height; Roughly vertically settle; Top exceeds oddment 44 upper surface.By air flow tube channel 45, the moisture in oddment 43 is reached rapidly borehole cooling silo 11 top, ground and is absorbed by tubular warehouse negative pressure source 42.The cold junction 46 of heat pipe 31 elevates above the soil and fully to contact with air.
Conveniently heat pipe 31 keeps in repair, and makes tubular warehouse 6 extend upwardly to ground.Heat pipe 31 is so also protected not contact with soil.The storehouse of ground borehole cooling silo 11 shoulder 47 above and periphery heat insulation and water resistance layer 48 is set to stop that the heat energy on ground enters the temperature of ground borehole cooling silo 11 and rainwater with carrying heat energy increase borehole cooling silo 11 surrounding soil.Stop that the heat energy on ground can make the oddment temperature being positioned at surface reduce by 3 DEG C summer; Stopped that the heat energy that carries of rainwater enters the rainwater 400 cubic metres of underground every year in average temperature 19 DEG C, soil target temperature 3 DEG C and 300 square metres of scopes, the heat energy about stopped every year reaches 6,400,000 kilocalories.
Fig. 8 provides four embodiment of the invention.
In Fig. 8, one section of air flow tube channel 45, its surface is not with ventilation by the micropore of oddment, and micropore is as shown in oblique line array.Pore widths is 0.4 to 2 millimeter; Length 2 to 30 millimeters; Concrete size can be selected according to the granular size of oddment.The height dimension scope of air flow tube channel 45 is warehouse height 50% to 100%; Caliber gets 20 to 100 millimeters.Air flow tube channel 45 adopts during spring-like fashion and reinforcing rib can be adopted to gain in strength; Reinforcing rib can be positioned on the axial line of the surface of revolution that described bourdon tube envelope is formed.Air flow tube channel also can manufacture with the blind pipe Integral design going deep into lining container and using blind pipe as reinforcing rib.
After the completion of tubular warehouse part, first can manufacture at the bottom of tubular storehouse or first manufacture tubular storehouse shoulder; When storehouse substratum is enough stable and underground water converges slower, can directly once or gradation lay at the bottom of tubular storehouse; Formwork for placing can be adopted to be layed at the bottom of storehouse when storehouse substratum is unstable or underground water converges too fast; In order to reclaim formwork for placing, first time the aperture at the bottom of tubular storehouse can be decreased to original about 0.6 times; And then about reduced bore to 2 meter; When needing, some fabrication holes can be set at the bottom of tubular storehouse for drawing water or pouring water to keep ground pressure outside at the bottom of storehouse, finally block fabrication hole again; Also can make prefabricated component at the bottom of tubular storehouse then to hang and assemble down to field conduct.
Corrosion resistant plate lining container hanging device adopts vertical bar splicing or horizontal circle splicing to be divided into two kinds according to lining container; The vertical bar of vertical bar splicing comprises steel plate or the corrosion resistant plate of the U-shaped elastic pipeline of band and indent conduit; The horizontal circle of horizontal circle splicing comprises the steel plate or the corrosion resistant plate that connect lopping through automatic argon arc welder; Vertical bar splicing can adopt Handheld laser welder, and Handheld laser welder is light and handy, the good surperficial nondiscolouring of welding quality does not analyse chromium and weld size is unrestricted, but during stitch welding, the thickness of steel plate can not be too thin.For this reason, can also design two plate side by side end face melt soldered connecing.
Fig. 9 and 10 provides fifth embodiment of the invention.
In Fig. 9 and 10, the wing plate 51 that tubular sheet heat exchanger vertical bar 50 comprises band caulking groove and the U-tube 52 embedded in wing plate 51 caulking groove.The edge of adjacent two panels tubular sheet heat exchanger vertical bar 50 is stacked, and implements welding and makes it to be tightly connected, repeat that multiple vertical bar 50 is pasted tubular warehouse and be welded to connect with Handheld laser welder, until make the warehouse of a complete lining container.The tubular sheet heat exchanger vertical bar 50 of each band U-tube 52 can be an independently exchange piece.
The use of caulking groove or conduit comprises less diameter can be kept when mounted conveniently to enter tubular warehouse; When storing object, can utilize the gravity of oddment that the diameter of lining container is increased a little and fitting with tubular warehouse and realize low thermal resistance and be connected.Conduit also has the effect and the absorption lining container change in size problem brought different from tubular warehouse coefficient of thermal expansion that absorb diametrical dimension error.In addition, if need the scale error and the change that absorb vertical direction, can by making concentric corrugated surface to realize at the top of lining container.But also it doesn't matter in fact, not consider this part.
Lining container itself also can by the elastic u-shaped pipe heat exchange embedded.The gas channel of conduit also clip retention sheaf space, makes the effect of negative pressure source can be deep into each several part of mezzanine space.
Steel plate or corrosion resistant plate vertical bar 50 length of a U-shaped elastic pipeline of band and indent conduit can reach more than 10 meters, need to be held up to be connected with hoist engine and then to send in tubular warehouse with special facilities to put in place.
Figure 11 provides sixth embodiment of the invention.
In Figure 11, removable hydraulic pressure vertical bar erecting mechanism comprises several wheels, fuselage 53, hydraulic pushing device 54 and turning bracket 55.Its operating principle: vertical bar to be loaded and transported to be placed on fuselage 51 that hydraulic pressure vertical bar erecting mechanism is horizontal and fixing.After transporting scene to, with hydraulic pushing device 54, turning bracket 55 upset is in vertical state such as dotted line and shows; Then after caring for vertical bar with hoist engine, unclamp fastening, hydraulic pressure vertical bar erecting mechanism is withdrawn from.Complete the shipment of a vertical bar and hold up.
Figure 12 and 13 provides seventh embodiment of the invention jointly.
In Figure 12 and 13, linkage interface bending caulking groove 61 and lower linkage interface bending short slab 62 docking enforcement occlusion mutually on the linkage interface of upper and lower two horizontal circles 60.By the digital control hoist engine that declines gradually, the upper linkage interface bending caulking groove 61 of horizontal circle 60 above moved down and lower linkage interface bending short slab 62 is stretched in upper linkage interface bending caulking groove 61 as shown in the dotted line of side, then relying on the rivet holder power of tubular warehouse 6 below to carry out compacting and up time needle plate goes to level to embedding the upper and lower linkage interface 61,62 that connects with undercut utensil.And then with the roller 63 of seam welder, resistance welding is implemented to described undercut.Employing undercut utensil squeeze board can also be turned and complete with resistance welder one step.Described welding also can change laser weld into.Relevant undercut utensil, resistance welder and laser welding apparatus can order acquisition.The bonding strength between each parts of tubular warehouse 6 is added by welding machine.
Magnetic interface soft iron plate 64 is provided with on the surface of tubular warehouse 6; Be connected with soft iron plate 64 magnetic at horizontal circle 60 inner surface magnet piece 65.The suction of each magnet piece 65 can reach 6 kilograms.With suitable density be evenly arranged magnet piece 65 can guarantee horizontal circle 60 in other words lining container be in ideal position.Employing the corrosion resistant plate of magnetic can manufacture horizontal circle 60 and can also avoid reducing the phenomenon that magnet piece 65 drops.
In Figure 12 and 13, be also provided with built-in screw linkage interface 66 on the surface of tubular warehouse 6.Built-in screw linkage interface 66 comprises the internal thread deep hole of a port band concave point.Assembly opaque lining container, use first magnet slide over roughly the area of the screw connection interface, leaned out after the screw connection interface would be formed in the lining surface of the container with a rubber hammer hammer concave point positioning, aimed at hammer pits diamond into the self-tapping screw lining container components including horizontal circle 60 can be realized with cylindrical capsule 6 screw connection.A large washer can also be set at tapping screw and lining container 60 contact site and be unlikely expansion to protect the boring of lining container 60, the material that is bonded and sealed can also be established to guarantee the closure of lining container at tapping screw and lining container 60 contact site Tu.
Undercut design between Figure 12 and the horizontal circle 60 of 13 embodiments can realize the largest diameter of lining container.
Figure 12 and 13 embodiments also can be used for the occlusion of two vertical bars.But for vertical bar, directly can also process two linkage interface undercut shapes as Figure 13, directly weld after assembling at the scene.
Figure 14 provides eighth embodiment of the invention.
In Figure 14, the tubular warehouse 6 of ground borehole cooling silo 11 has been built successfully.Utilize tower crane group tower crane 2 that rail 1 described in embodiment 1 is installed and refute with rigidity several uniform digital control hoist engines 5 that junctor 4 is connected and lift the parts transporting lining container 38 and comprise base plate, horizontal circle 60, top board and lid.
The corrosion resistant plate base plate of lining container 6, horizontal circle 60 and top board can be transported to scene after blanking is cut in workshop, at the scene with automatic argon arc welder joint forming and with folding brake fold base plate and top board be connected flange and the straight plate of flanging makes the undercut linkage interface with horizontal circle 60 again, horizontal circle 60 also will process undercut linkage interface.As long as the straight plate length of flanging 30 to 200 millimeters of scopes facilitate subsequent job.The content of undercut linkage interface is with reference to embodiment above.Horizontal circle 60 adopts the carrying magnetic stainless steel roll bending of width 1.5 meters, thickness 0.25 to make.
First be connected disposal ditches 67 bottom tubular warehouse 6 with water pump, for the draining that may need with water pipe.And the longitudinal channels 68 on tubular warehouse 6 wall is embedded in heat exchange pipeline.
Lift base plate with digital control hoist engine 5 to put in place, lift horizontal circle 60 and make it to dock with parts below; The rivet holder power of tubular warehouse 6 is below relied on to carry out compacting and up time needle plate goes to level to embedding two linkage interfaces that connect with undercut utensil again.And then with seam welder, resistance welding is implemented to described undercut.This part content reference embodiment above.Continue the horizontal circle of superposition successively until all horizontal lap weldings connect complete, then connect the top board of lining container until complete; And then build installation steel concrete tubular storehouse shoulder to completion.
Adopt horizontal circle connect manufacture lining container, same stainless-steel roll plate welding seams quantity only have vertical bar to connect 1/3rd; The consistency of thickness of horizontal circle 60 each several part.But the vertical channel connecting heat exchange pipeline not easily processed by horizontal circle 60, therefore makes longitudinal channels on concrete tubular warehouse 6 wall.
Adopt digital control hoist engine to lift horizontal circle etc., can go smoothly during assembling and answer pericardium to draw together the overshoot of stainless sheet steel lining container can be avoided to collide; Once can also transport and put in place.
In Figure 15 and 16, the generating integrated heat dissipation device 73 that several fronts are photovoltaic battery panel 71, backboard is flat radiator 72 is set, is connected with basis by a revolute pair; Photovoltaic battery panel 71 is connected with power transmission cable; Flat radiator 72 is connected with circulation pump and tubular sheet heat exchanger 74 water route be arranged at inside and outside borehole cooling warehouse, ground by pipeline.Containing freeze proof heating agent in described water route.Generating integrated heat dissipation device 73 has two states: photovoltaic battery panel 71 on daytime generating state upwards and flat radiator 72 at night radiating state upwards.Flat radiator can adopt existing tube plate structure to comprise elastic pipeline flat-plate solar collector fabrication techniques, requires that the emissivity of rete adopts blackboard paint to make rete high as far as possible comprising.
Figure 15 and 16 embodiments generate electricity and borehole cooling silo 11 shading over the ground daytime; Heat energy in borehole cooling warehouse, ground 11 is dispersed into environment by night.
Figure 15 and 16 embodiments are arranged at the linkage interface integrated design manufacture of the tubular sheet heat exchanger 74 in ground borehole cooling silo 11 and oddment conveying device 75, be included on tubular sheet heat exchanger 74 and two chutes are set, and respectively arrange two in the both sides, bottom of oddment conveying device 75 and coordinate with described chute the slide block be slidably connected.Like this, when oddment conveying device 75 enters ground borehole cooling silo 11, the slide block of its bottom coordinates with described chute, and chute just can be made to retrain the state of oddment conveying device 75 and bear its moiety by weight, makes its turnover ground borehole cooling silo 11 become very convenient.

Claims (1)

1. borehole cooling warehouse lining container special equipment, comprise the frock clamp of thin-walled steel plate lining container parts, undercut device, installation for welding and control system, it is characterized in that putting to refute connect rigid body containing a height be connected with tower crane framework, refuting digital control hoist engines of connecing and being evenly equipped with several connection lining container component on the downside of rigid body and to be connected with several hoist engine of lining container undercut or installation for welding; Digital control hoist engine is separately containing load sensor, and load sensor comprises more than one foil gauge adhering on digital control hoist engine force sensitive position; The load sensor of each digital control hoist engine and motor to be connected with the main control computer signal of control system by interface circuit and described motor as the execution unit of main control computer.
CN201410331803.5A 2014-07-12 2014-07-12 Special device for lined container of underground cooling warehouse Pending CN105019707A (en)

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CN105019707A true CN105019707A (en) 2015-11-04

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Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1390757A (en) * 2002-07-14 2003-01-15 延基权 Cold-storing grain depot
JP2004026170A (en) * 2002-06-21 2004-01-29 Ishikawajima Harima Heavy Ind Co Ltd Holding method and device for tank
CN101476410A (en) * 2009-01-13 2009-07-08 杭州萧宏建设集团有限公司 Mounting and demounting method roof plate formwork support platform of concrete silo
CN201679259U (en) * 2010-02-11 2010-12-22 刘廷瑜 Seamed double-wall heat insulation granary
CN201756826U (en) * 2009-10-29 2011-03-09 河南工业大学 Underground grain bin equipped with cavity bin wall
CN201953106U (en) * 2010-12-28 2011-08-31 王保亮 Vacuum cold storage
CN103573002A (en) * 2012-08-09 2014-02-12 朱耀平 Ultra-large dual-layer steel plate concrete silo prestressed technology and structure of ultra-large dual-layer steel plate concrete silo

Patent Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2004026170A (en) * 2002-06-21 2004-01-29 Ishikawajima Harima Heavy Ind Co Ltd Holding method and device for tank
CN1390757A (en) * 2002-07-14 2003-01-15 延基权 Cold-storing grain depot
CN101476410A (en) * 2009-01-13 2009-07-08 杭州萧宏建设集团有限公司 Mounting and demounting method roof plate formwork support platform of concrete silo
CN201756826U (en) * 2009-10-29 2011-03-09 河南工业大学 Underground grain bin equipped with cavity bin wall
CN201679259U (en) * 2010-02-11 2010-12-22 刘廷瑜 Seamed double-wall heat insulation granary
CN201953106U (en) * 2010-12-28 2011-08-31 王保亮 Vacuum cold storage
CN103573002A (en) * 2012-08-09 2014-02-12 朱耀平 Ultra-large dual-layer steel plate concrete silo prestressed technology and structure of ultra-large dual-layer steel plate concrete silo

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