CN112964080B

CN112964080B - Steam condensing equipment

Info

Publication number: CN112964080B
Application number: CN202110312848.8A
Authority: CN
Inventors: 程勇
Original assignee: Linyi Runjie Environmental Protection Technology Co ltd
Current assignee: Linyi Runjie Environmental Protection Technology Co ltd
Priority date: 2021-03-24
Filing date: 2021-03-24
Publication date: 2022-07-05
Anticipated expiration: 2041-03-24
Also published as: CN112964080A

Abstract

The invention discloses steam condensing equipment which comprises a condensing box and a water storage tank, wherein a first condensing plate and a second condensing plate are arranged in the condensing box at equal intervals, the first condensing plate and the second condensing plate are arranged in a staggered mode, the first condensing plate and the second condensing plate are arranged in the condensing box in an inclined mode, condensing grooves are connected below the first condensing plate and the second condensing plate through buffer springs, inner cavities are formed among the first condensing plate, the second condensing plate and the condensing grooves, and the inner cavities are communicated with the water storage tank. According to the steam condensing device, steam is separated through the U-shaped condensing groove, meanwhile, the contact area between the U-shaped condensing groove and the steam is increased, so that the steam condensation is accelerated, and the steam passes through the condensing plates one by one in the process of moving from bottom to top through the first condensing plate and the second condensing plate which are in the shape of a Chinese character 'ji', so that the condensation effect is improved.

Description

Steam condensing equipment

Technical Field

The present invention relates to a steam condensing apparatus.

Background

Condensation is the condensation of a gas or liquid when it is cold, for example, water vapor turns into water when it is cold and water turns into ice when it is cold. The lower the temperature, the faster the condensation rate and the better the effect. In chemical production, water or air which is easy to obtain and low in cost is generally used as a condensing medium, and after the condensation operation, the temperature of the water or the air is increased, and if the water or the air is directly discharged, thermal pollution is caused.

Among the current steam condensation mechanism, steam piles up together after its is inside in the input, can not carry out good contact between the condensation equipment to reach the condensation effect that anticipates, and steam often attaches to on the condensation equipment after the condensation, if not in time discharge from the condensation equipment can cause the effect of condensation relatively poor.

Disclosure of Invention

The invention aims to provide steam condensing equipment, which solves the problem that the existing condensing equipment is poor in condensing effect.

In order to achieve the purpose, the invention adopts the following technical scheme:

a steam condensing device comprises a condensing box, a water storage tank is arranged below the condensing box, a first condensing plate and a second condensing plate are arranged in the condensing box at equal intervals, the first condensing plate and the second condensing plate are arranged in a staggered manner, the first condensing plate and the second condensing plate are arranged in the condensing box in a downward inclining manner, the lower parts of the first condensing plate and the second condensing plate are connected with condensing tanks through buffer springs, the peripheral side walls of the first condensing plate and the second condensing plate are connected in sliding grooves around the condensing tanks in a sliding and sealing manner, inner cavities are formed between the first condensing plate and the second condensing plate and the condensing tanks, the lower surfaces of the first condensing plate and the second condensing plate are provided with a plurality of groups of flexible baffle plates, the flexible baffle plates extend into the cavities, the lower ends of the flexible baffle plates are contacted with the inner surfaces of the corresponding condensing tanks, and a plurality of groups of flexible buffer rods are arranged on the lower surfaces of the condensing tanks, the lower end part of the flexible buffer rod is provided with a flexible hammer; the inner chamber and the water storage tank are communicated, the water pump is fixedly connected to the outer wall of the water storage tank, the output ends of the water pump are communicated with the shunt tubes, the two output ends of the shunt tubes are communicated with liquid inlet tubes, the two liquid inlet tubes are communicated with a main connecting tube, and the main connecting tube penetrates through the first condensation plate and the second condensation plate respectively through the plurality of water feeding tubes and is communicated with the inner chamber.

Preferably, a plurality of internal connecting grooves are fixedly connected to the inside of the condensation tank, and the internal connecting grooves are respectively located below the first condensation plate and the second condensation plate.

Preferably, the width of the interconnecting groove is larger than the width of the first condensation plate, the width of the second condensation plate and the width of the condensation groove 13.

Preferably, the outer wall of the condensation box is provided with a plurality of water leakage holes, and the height of the water leakage holes is the same as that of the internally-connected groove; the side wall of the condensing box is provided with fixing grooves corresponding to the first condensing plate, the second condensing plate and the condensing groove.

Preferably, the fixing grooves are made of flexible materials, and the fixing grooves are hermetically connected with the upper surfaces of the end parts of the corresponding first condensation plates and the lower surfaces of the corresponding condensation grooves; the fixed grooves are hermetically connected with the upper surfaces of the end parts of the corresponding second condensation plates and the lower surfaces of the corresponding condensation grooves.

Preferably, the outer wall of the condensing box is fixedly connected with an external connecting groove communicated with the internal connecting groove, the external connecting groove is located under the water leakage hole, the external connecting groove is communicated with the external connecting pipe through a connecting pipe, and the external connecting groove located at the lowest position is communicated with an external connecting pipe.

Preferably, the flexible baffle is made of flexible stainless steel, pulsating water flows from the cavity and drives the flexible baffle to vibrate, and the flexible baffle drives the condensation tank which is in contact with the flexible baffle to vibrate.

Preferably, the both sides of storage water tank are all fixedly connected with upper end open-ended and accept the groove, the both sides of condenser box all are provided with the fixed plate, and the rectangle array has a plurality of mounting grooves on the fixed plate to the inside of mounting groove is provided with the fan, the fixed plate passes through fixed connection between connecting plate and the condenser box.

Preferably, the water pump is a booster type water pump and periodically supplies a high-pressure pulsating water flow.

The invention has at least the following beneficial effects:

1. according to the steam condensing device, steam is separated through the U-shaped condensing groove, meanwhile, the contact area between the U-shaped condensing groove and the steam is increased, so that the steam condensation is accelerated, the steam passes through the condensing plates one by one in the process of moving from bottom to top through the first condensing plate and the second condensing plate which are in the shape of a Chinese character 'ji', the completeness of condensation is guaranteed, and the effect of condensation is improved.

2. By arranging the first condensation plate, the second condensation plate, the condensation tank, the flexible baffle and the like, when the water pump periodically supplies high-pressure pulsating water flow, on one hand, the high-pressure pulsating water flow can effectively wash scales on the inner walls of the first condensation plate, the second condensation plate and the condensation tank and the flexible baffle, so that scales on the inner walls of the first condensation plate, the second condensation plate and the condensation tank can be washed away, the efficiency of cold and heat exchange is improved, and the condensation effect is further improved; meanwhile, the high-pressure pulsating water flow drives the flexible baffle to vibrate, the flexible baffle drives the condensation tank contacted with the flexible baffle to vibrate, and liquid condensed on the lower surface of the condensation tank can be rapidly discharged from the upper surface of the condensation tank, so that condensation of subsequent steam is prevented from being influenced, and the condensation efficiency is improved.

3. The pressure of pulsating cooling water is increased through the water pump by arranging the first condensation plate, the second condensation plate, the condensation tank, the flexible buffer rod, the flexible hammer head and the like, the buffer spring can be stretched by the pulsating high-pressure cooling water through the impact pressure on the condensation tank, and the condensation tank can be close to the first condensation plate or the second condensation plate corresponding to the lower part of the condensation tank, so that on one hand, the inclination angle of the condensation tank is changed, and the discharge of condensate above the condensation tank is promoted; on the other hand, when the buffer spring is stretched to a certain degree by controlling the pressure of the cooling water, the flexible hammer head at the lower end part of the flexible buffer rod is knocked to the upper surface of the first condensation plate or the second condensation plate below the buffer spring, so that the first condensation plate or the second condensation plate is vibrated, and the condensed cooling liquid with certain viscosity on the upper surface of the first condensation plate or the second condensation plate is promoted to be discharged; the cooling liquid discharging effect of certain viscidity of having of the condensation of first condensing plate or second condensing plate upper surface has been improved, and then the condensation efficiency of promotion high temperature steam.

4. In the invention, condensed water flows out of the inner cavity and does free-falling body movement at the port, water flow is divided into trickle flowing downwards under the action of the condensation tank, the trickle flowing downwards contacts with air in the flowing process to dissipate heat, meanwhile, the fan positioned on the fixed plate acts to accelerate the flowing of ambient air so as to accelerate the self cooling, and the water flow after the cooling operation is received by the receiving tank flows into the water storage tank to perform the next condensation cycle under the action of the water pump.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is an isometric view provided by the present invention;

FIG. 2 is a structural view of a condensing mechanism provided in the present invention;

FIG. 3 is a cross-sectional view of a condenser case according to the present invention;

FIG. 4 is a structural view of a cold plate according to the present invention;

FIG. 5 is a diagram of a fan according to the present invention;

fig. 6 is a schematic structural view of a condensation tank, a buffer spring and a flexible baffle according to the present invention.

In the figure: 1. a condenser tank; 2. a connecting plate; 3. mounting grooves; 4. an external connection groove; 5. a water leakage hole; 6. a connecting pipe; 7. an external connection pipe; 8. a water storage tank; 9. a receiving groove; 10. a water pump; 11. a shunt tube; 12. a first cold plate; 13. a condensation tank; 1301. a flexible bumper beam; 1302. a flexible hammer head; 14. an inner cavity; 15. a water feeding pipe; 16. a main connection pipe; 17. a second cold plate; 18. a fixing plate; 19. fixing grooves; 20. an interconnecting slot; 21. a liquid inlet pipe; 22. a fan; 23. a buffer spring; 24. a flexible baffle.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example 1

Referring to fig. 1 to 5, a steam condensing apparatus includes a condensing box 1, a water storage tank 8 is disposed below the condensing box 1, a first condensing plate 12 and a second condensing plate 17 are disposed in the condensing box 1 at equal intervals, and the first condensing plate 12 and the second condensing plate 17 are disposed in a staggered manner, so that a condensing area of the first condensing plate 12 and the second condensing plate 17 on steam can be increased, on the one hand, after steam is condensed into liquid by a condensing tank 13 below the first condensing plate 12 or the second condensing plate 17, the condensed liquid falls onto the second condensing plate 17 or the first condensing plate 12 below, the dropped condensed liquid combines with droplets condensed on the second condensing plate 17 or the first condensing plate 12 below, and gradually gathers into larger droplets, so as to increase a speed of discharging the condensed droplets from the second condensing plate 17 or the first condensing plate 12 and prevent the condensed droplets from gathering above, affecting the subsequent condensation effect. And first condensing panel 12 and second condensing panel 17 all slope downward setting in condensing box 1, first condensing panel 12 and second condensing panel 17 are located the inside one end of condensing box 1 and are not connected between the vertical end wall that corresponds, certain gap has, first condensing panel 12 and second condensing panel 17's below all is connected with condensate sump 13 through buffer spring 23, condensate sump 13 cross-section all is the U-shaped structure, and the opening of condensate sump 13 sets up down, and all form inner chamber 14 between first condensing panel 12 and second condensing panel 17 and the condensate sump 13, communicate between inner chamber 14 and the storage water tank 8. Through letting in flowing water in the inner chamber 14, can cool down second condensing plate 17, first condensing plate 12, condensate tank 13, make the temperature of second condensing plate 17, first condensing plate 12, condensate tank 13 be less than the temperature of steam, and then make steam condense above the three.

The lower surfaces of the first condensation plate 12 and the second condensation plate 17 are provided with a plurality of groups of flexible blocking sheets 24, the flexible blocking sheets 24 extend into the cavity 14, the lower end parts of the flexible blocking sheets contact with the inner surface of the corresponding condensation groove 13, the flexible blocking sheets 24 can block and buffer cooling water flow in the cavity 14, the path of the cooling water flow is prolonged, and then the cooling and heat exchange time of the cooling water flow and external high-temperature steam is prolonged.

As shown in fig. 1, a water pump 10 is fixedly connected to an outer wall of the water tank 8, an output end of the water pump 10 is communicated with a dividing pipe 11, two output ends of the dividing pipe 11 are both communicated with a liquid inlet pipe 21, two liquid inlet pipes 21 are both communicated with a main connecting pipe 16, and the main connecting pipe 16 passes through the first condensation plate 12 and the second condensation plate 17 respectively through a plurality of water supply pipes 15 and is communicated with the inner cavity 14. Carry out the water delivery in to the condensing panel through water pump 10, a plurality of water pipes 15 guarantee all have rivers to get into in each cold trap 13 to cool down second condensing panel 17, first condensing panel 12, cold trap 13, and then guarantee the condensation work of continuation.

Specifically, as shown in fig. 1 and 2, a plurality of internal connection grooves 20 are fixedly connected to the inside of the condensation box 1, and the plurality of internal connection grooves 20 are respectively located below the condensation grooves 13 corresponding to the first condensation plate 12 and the second condensation plate 17, so that the internal connection grooves 20 can effectively receive the condensate above the corresponding first condensation plate 12, above the corresponding second condensation plate 17 and below the condensation grooves 13.

Specifically, the width of the inscribed slot 20 is larger than the width of the first condensation plate 12, the width of the second condensation plate 17, and the width of the condensation slot 13. This ensures that the internal grooves 20 can receive and discharge all the condensate on the first condensation plate 12, the second condensation plate 17 and the condensation groove 13.

A plurality of water leakage holes 5 are formed in the outer wall of the condensation box 1, the height of each water leakage hole 5 is the same as that of the inner connecting groove 20, condensate water dropping to the upper portion of the inner connecting groove 20 can flow out through the water leakage holes 5, and fixing grooves 19 corresponding to the first condensation plate 12, the second condensation plate 17 and the condensation groove 14 are formed in the side wall of the condensation box 1. Fixedly connected with and inscribe the external groove 4 that the intercommunication set up between the groove 20 on the outer wall of condensing box 1, and external groove 4 is located under the hole 5 that leaks, sets up through connecting pipe 6 intercommunication between the external groove 4, and is located the intercommunication and has external pipe 7 on the external groove 4 of below, and the effect that water vapor liquefaction's rivers were through connecting pipe 6 and external pipe 7 is exported to the outside.

Specifically, the fixing grooves 19 are made of flexible materials, and the fixing grooves 19 are hermetically connected with the upper surfaces of the end portions of the corresponding first condensation plates 12 and the lower surfaces of the corresponding condensation grooves 13; the fixing grooves 19 are hermetically connected with the upper surface of the end portion of the corresponding second condensation plate 17 and the lower surface of the corresponding condensation groove 13. So, fixed slot 19 can cooperate first condensing plate 12, second condensing plate 17 and condensate tank 13 to accomplish outside and inside sealed to condensate tank 1, prevents on the one hand that the inside steam of condensate tank 1 from leaking outward, and on the other hand guarantees that the liquid of condensation can all be collected smoothly on first condensing plate 12, second condensing plate 17 and the condensate tank 13, can not leak outward to condensate tank 1 outside and cause the waste.

Specifically, as shown in fig. 1 and 5, the two sides of the water storage tank 8 are fixedly connected with the receiving grooves 9 with the upper ends opened, the two sides of the condenser tank 1 are respectively provided with a fixing plate 18, the fixing plate 18 is provided with a plurality of mounting grooves 3 in a rectangular array, the inside of each mounting groove 3 is provided with a fan 22, and the fixing plate 18 is fixedly connected with the condenser tank 1 through a connecting plate 2.

When external steam needs to be condensed, the external steam enters the interior of the condensation tank 1 through the pipeline and the bottom of the condensation tank 1, the external water pump 10 is started, water in the water storage tank 8 is respectively conveyed to the first condensation plate 12 and the second condensation plate 17 through the action of the shunt pipe 11, the liquid inlet pipe 21, the main connecting pipe 16 and the water feeding pipe 15, as the water feeding pipe 15 is provided with a plurality of water feeding pipes, the water feeding pipe 15 fills the inner cavity 14 with water flow and flows downwards along the inclined direction of the condensation tank 13, a zigzag structure is formed between the first condensation plate 12 and the second condensation plate 17, on one hand, the steam can reach the upper parts of the first condensation plate 12 and the second condensation plate 17, on the other hand, the steam flows along the direction in the channel formed by the condensation tank 13,

when the steam contacts the first condensation plate 12, the second condensation plate 17 and the condensation tank 13 which are lower in temperature than the steam, the high-temperature steam is condensed and liquefied into water, the water is attached to the upper surfaces of the first condensation plate 12 and the second condensation plate 17 and the lower surface of the condensation tank 13, and when a certain amount of the water reaches, the condensed water on the first condensation plate 12 and the second condensation plate 17 slides down and falls into the internal connecting tank 20; and a part of condensate on the lower surface of the condensation groove 13 slides downwards along the condensation groove 13 to the internal connection groove 20, the other part of condensate directly drops on the first condensation plate 12 or the second condensation plate 17 below, the dropped condensate liquid is combined with the condensed liquid drops on the second condensation plate 17 or the first condensation plate 12 below, and gradually gathers into larger liquid drops, so that the speed of discharging the condensed liquid drops from the second condensation plate 17 or the first condensation plate 12 is improved, the condensation is prevented from gathering above the liquid drops, and the subsequent condensation effect is influenced. The condensate collected by the internal connecting groove 20 flows into the external connecting groove 4 through the water leakage hole 5 on one side, passes through the connecting pipe 6 communicated between the external connecting grooves 4, and is finally discharged into other mechanisms through the external connecting pipe 7, so that the condensation operation of the steam is completed; the comdenstion water is after accomplishing the condensation operation, the cooling water flows out from inner chamber 14, do the free fall motion in port department, rivers pass through the effect of cold trap 13, divide into the trickle downward flow, in flow in-process and air contact, dispel the heat, be located the fan 22 effect on fixed plate 18 simultaneously, accelerate the flow of surrounding air, thereby accelerate the going on of its self cooling, the rivers of accomplishing the cooling operation are accepted the back through accepting groove 9, flow to in the storage water tank 8, carry out the condensation circulation of next round through the effect of water pump 10.

Example 2

When the condensate condensed by the high-temperature steam has certain viscosity, the condensate condensed on the first condensing plate 12, the second condensing plate 17 or the condensing tank 13 cannot be discharged from the upper part of the condensing tank in time, and the accumulated viscous condensate can influence the subsequent condensation of the high-temperature steam, so that the condensation efficiency is reduced; meanwhile, after the cooling liquid circularly flows in the cavity 14 for a long time, scales are easily formed on the first condensation plate 12, the second condensation plate 17, the inner wall of the condensation tank 13 and the flexible baffle 24, and the cold-heat exchange efficiency is affected, so that the device is further improved.

As shown in fig. 6, the lower portions of the first condensation plate 12 and the second condensation plate 17 are connected with the condensation groove 13 through the buffer spring 23, and the peripheral side walls of the first condensation plate 12 and the second condensation plate 17 are slidably and hermetically sealed in the peripheral sliding grooves of the condensation groove 13, so that the normal condensation function of the device can be ensured, the buffer spring 23 is stretched and elastically deformed by external force, and the condensation groove 13 can be close to or far away from the first condensation plate 12 or the second condensation plate 17 corresponding to the lower portion of the condensation groove 13. The fixing groove 19 is made of a flexible material, so that the condensation groove 13 can be close to or far away from the corresponding first condensation plate 12 or second condensation plate 17 below the condensation groove. The lower surface of the condensation tank 13 is provided with a plurality of groups of flexible buffer rods 1301, the lower end parts of the flexible buffer rods 1301 are provided with flexible hammers 1302, and the flexible buffer rods 1301 are matched with the flexible hammers 1302 to guide condensate on the lower surface of the condensation tank 13, so that condensate above the flexible buffer rods can drop on the first condensation plate 12 or the second condensation plate 17 below the flexible buffer rods. The lower surfaces of the first condensation plate 12 and the second condensation plate 17 are provided with a plurality of groups of flexible baffle sheets 24, the flexible baffle sheets 24 extend into the cavity 14, the lower end parts of the flexible baffle sheets contact with the inner surface of the corresponding condensation tank 13, the flexible baffle sheets 24 are made of flexible stainless steel, pulsating water flows from the cavity 14 and drives the flexible baffle sheets 24 to vibrate, and the flexible baffle sheets 24 drive the condensation tank 13 which is in contact with the flexible baffle sheets 24 to vibrate.

The water pump 10 is a booster-type water pump and periodically supplies high-pressure pulsating water flow, and when the water pump 10 periodically supplies the high-pressure pulsating water flow, on one hand, the high-pressure pulsating water flow can effectively flush scales on the inner walls of the first condensation plate 12, the second condensation plate 17 and the condensation tank 13 and the flexible baffle 24, flush scales on the inner walls, improve the cold-heat exchange efficiency and further improve the condensation effect; meanwhile, the high-pressure pulsating water flow drives the flexible baffle piece 24 to vibrate, the flexible baffle piece 24 drives the condensation tank 13 which is in contact with the flexible baffle piece 24 to vibrate, and liquid condensed on the lower surface of the condensation tank 13 can be rapidly discharged from the upper surface of the condensation tank, so that condensation of subsequent steam is prevented from being influenced, and the condensation efficiency is improved; furthermore, the pressure of the pulsating cooling water is increased by the water pump 10, the buffer spring 23 can be stretched by the pulsating high-pressure cooling water through the impact pressure on the condensation tank 13, the condensation tank 13 can be close to the first condensation plate 12 or the second condensation plate 17 corresponding to the lower part of the condensation tank, on one hand, the inclination angle of the condensation tank 13 is changed, and the discharge of the condensate above the condensation tank is promoted; on the other hand, when the buffer spring 23 is stretched to a certain extent by controlling the pressure of the cooling water, the flexible hammer 1302 at the lower end of the flexible buffer rod 1301 strikes the upper surface of the first condensation plate 12 or the second condensation plate 17 below, so that the first condensation plate 12 or the second condensation plate 17 vibrates, and the condensed cooling liquid with certain viscosity on the upper surface of the first condensation plate 12 or the second condensation plate 17 is promoted to be discharged; when the water pump 10 periodically supplies pulsating high-pressure water flow, the condensation tank 13 can be periodically close to or far away from the corresponding first condensation plate 12 or second condensation plate 17 below the condensation tank, on one hand, the inclination angle of the condensation tank 13 is periodically changed, and condensate above the condensation tank is promoted to be discharged as soon as possible; on the other hand, the buffer spring 23 is periodically stretched and elastically deformed, so that the flexible hammer 1302 at the lower end of the flexible buffer rod 1301 periodically strikes the upper surface of the first condensation plate 12 or the second condensation plate 17 below, the first condensation plate 12 or the second condensation plate 17 vibrates, the condensed cooling liquid discharge effect with certain viscosity on the upper surface of the first condensation plate 12 or the second condensation plate 17 is improved, and the condensation efficiency of high-temperature steam is further improved.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A steam condensing device comprises a condensing box (1), wherein a water storage tank (8) is arranged below the condensing box (1), and the steam condensing device is characterized in that a first condensing plate (12) and a second condensing plate (17) are arranged in the condensing box (1) at equal intervals, the first condensing plate (12) and the second condensing plate (17) are arranged in a staggered manner, the first condensing plate (12) and the second condensing plate (17) are arranged in the condensing box (1) in an inclined and downward manner, a condensing tank (13) is connected below the first condensing plate (12) and the second condensing plate (17) through a buffer spring (23), the peripheral side walls of the first condensing plate (12) and the second condensing plate (17) are hermetically sealed in peripheral sliding grooves of the condensing tank (13) in a sliding manner, and an inner cavity (14) is formed between the first condensing plate (12), the second condensing plate (17) and the condensing tank (13), the lower surfaces of the first condensation plate (12) and the second condensation plate (17) are respectively provided with a plurality of groups of flexible blocking sheets (24), the flexible blocking sheets (24) extend into the inner cavity (14), the lower end parts of the flexible blocking sheets are in contact with the inner surfaces of the corresponding condensation tanks (13), a plurality of groups of flexible buffer rods (1301) are arranged on the lower surface of the condensation tank (13), and flexible hammers (1302) are arranged on the lower end parts of the flexible buffer rods (1301); communicate between inner chamber (14) and storage water tank (8), fixedly connected with water pump (10) on the outer wall of storage water tank (8), and the output intercommunication of water pump (10) has shunt tubes (11), two outputs of shunt tubes (11) all communicate and have inlet tube (21), and all communicate on two inlet tube (21) and have total takeover (16) to total takeover (16) run through respectively through a plurality of upper hose (15) first condensing plate (12) and second condensing plate (17) and with inner chamber (14) intercommunication.

2. A steam condensation device according to claim 1, characterized in that a plurality of interconnecting channels (20) are fixedly connected to the inside of the condensation chamber (1), and that the interconnecting channels (20) are located below the first condensation plate (12) and the second condensation plate (17), respectively.

3. A vapour condensation device according to claim 2, characterized in that the width of the in-connection groove (20) is larger than the width of the first condensation plate (12), the width of the second condensation plate (17) and the width of the condensation groove (13).

4. The steam condensing equipment as claimed in claim 2, characterized in that the outer wall of the condensing box (1) is provided with a plurality of water leakage holes (5), and the height of the water leakage holes (5) is the same as the height of the internal groove (20); the side wall of the condensation box (1) is provided with a fixing groove (19) corresponding to the first condensation plate (12), the second condensation plate (17) and the condensation groove (13).

5. A steam condensation device according to claim 4, characterised in that the fixing grooves (19) are made of flexible material, and the fixing grooves (19) are hermetically connected with the upper surface of the end of the corresponding first condensation plate (12) and the lower surface of the corresponding condensation groove (13); the fixing grooves (19) are hermetically connected with the upper surfaces of the ends of the corresponding second condensation plates (17) and the lower surfaces of the corresponding condensation grooves (13).

6. The steam condensing equipment as claimed in claim 2, characterized in that the outer wall of the condensing box (1) is fixedly connected with an external connecting groove (4) communicated with the internal connecting groove (20), the external connecting groove (4) is positioned right below the water leakage hole (5), the external connecting grooves (4) are communicated with each other through a connecting pipe (6), and the external connecting groove (4) positioned at the lowest part is communicated with an external connecting pipe (7).

7. A steam condensing unit according to claim 1, characterized in that said flexible baffle (24) is made of flexible stainless steel, and the pulsating water flows from said inner chamber (14) and drives the flexible baffle (24) to vibrate, and the flexible baffle (24) drives the condensing tank (13) in contact with it to vibrate.

8. A steam condensation device according to claim 5, characterized in that the water storage tank (8) is fixedly connected with a receiving groove (9) with an open upper end at both sides, the condensation tank (1) is provided with a fixing plate (18) at both sides, a plurality of mounting grooves (3) are arranged on the fixing plate (18) in a rectangular array, a fan (22) is arranged in the mounting groove (3), and the fixing plate (18) is fixedly connected with the condensation tank (1) through a connecting plate (2).

9. A steam condensation plant according to claim 1, characterized in that the water pump (10) is of the booster type and is periodically fed with a high-pressure pulsating water flow.