CN114562893B

CN114562893B - High-temperature vapor condensation recovery device

Info

Publication number: CN114562893B
Application number: CN202210192527.3A
Authority: CN
Inventors: 曾念
Original assignee: Henan Jindadi Chemical Industry Co Ltd
Current assignee: Henan Jindadi Chemical Industry Co Ltd
Priority date: 2022-03-01
Filing date: 2022-03-01
Publication date: 2024-01-16
Anticipated expiration: 2042-03-01
Also published as: CN114562893A

Abstract

The invention belongs to the field of condensate water recovery, and discloses a high-temperature vapor condensation recovery device, wherein a collecting cavity is arranged in a shell, a through pipe is fixedly arranged at the lower side of the collecting cavity, the inner side of the through pipe is in conical concave shape, a sealing ball is arranged on an inner through hole of the through pipe, the surface of the sealing ball is smooth, four fixing pieces are fixedly arranged on the sealing ball, connecting rods are fixedly arranged at the lower sides of the fixing pieces, the connecting rods are in sliding connection with the through pipe, sealing gaskets are arranged at the connection parts of the fixing pieces and the through pipe, sliding blocks are fixedly arranged at the lower sides of the fixing pieces, a fixing ring is arranged at the lower side of the through pipe, a connecting spring is connected with the sliding blocks, floating balls are arranged on the condensate water in a floating mode, and connecting wires are arranged between the floating balls and the sealing balls. The invention can seal the cavity of the device when the condensed water flows out of the device, so that the water vapor can not run off, and the tightness of the device is improved.

Description

High-temperature vapor condensation recovery device

Technical Field

The invention belongs to the field of condensate water recovery, and particularly relates to a high-temperature vapor condensation recovery device.

Background

As is well known, condensed water is liquid water formed by condensing steam, and because the condensed water is derived from the surface of an evaporator, the temperature is low, the condensed water is considerable for environments with large wet load, energy waste is caused by direct drainage, and meanwhile, the environment is polluted by direct drainage of the condensed water, particularly when a multi-storey residence is provided with no condensed water pipeline, the condensed water drained by each household not only affects the vertical face of a building, but also is easy to cause adjacent contradiction, so that the condensed water is very necessary to be utilized and treated.

The existing vapor condensation recovery device is low in tightness and large in vapor loss.

Disclosure of Invention

The invention aims at solving the problems in the prior art and provides a high-temperature vapor condensation recovery device which can seal the cavity of the device when condensed water flows out of the device, so that vapor cannot flow out, and the tightness of the device is improved.

The aim of the invention can be achieved by the following technical scheme: the utility model provides a high temperature vapor condensation recovery unit, includes the casing, the inside of casing is equipped with the collection chamber, the downside of collection chamber is fixed to be equipped with the siphunculus, the siphunculus inboard is conical sunken, be equipped with the seal ball on the siphunculus inner through-hole, the seal ball, seal ball surface is comparatively smooth, the fixed four stationary blades that are equipped with on the seal ball, every the stationary blade downside is fixed and is equipped with the connecting rod, every the connecting rod with siphunculus sliding connection, every the stationary blade with siphunculus junction is equipped with sealed the pad, the stationary blade downside is fixed and is equipped with the sliding block, the siphunculus downside is equipped with the retainer plate, the retainer plate with the sliding block is connected and is equipped with connecting spring, the comdenstion water floats and is equipped with the floater, the floater with seal ball is connected and is equipped with the connecting wire.

After the comdenstion water gathers at the collection chamber, can lift the floater for the floater pulling seals the ball, makes the comdenstion water outflow, and vapor storage is in comdenstion water upside, makes vapor unable follow comdenstion water export outflow, when making the comdenstion water outflow device, airtight to the device intracavity, makes vapor unable run off, improves the seal of device.

Further the fixed condensing box that is equipped with in casing right side, the condensing box right side is equipped with the condensing plate, the condensing plate with the condensing box junction is equipped with sealed pad, the condensing plate can dismantle, be equipped with the condensation chamber in the condensing box, be equipped with the drainage board in the condensation chamber, the drainage board is the slant fixed, and the drainage board will the condensation chamber divide into two confined chambeies.

Further, the left side wall of the condensation cavity is fixedly provided with a condensation pipe, the through pipe opening at the upper side of the condensation pipe penetrates through the drainage plate, the through pipe opening at the upper side of the condensation pipe is fixedly provided with a sliding sleeve, the sliding sleeve is in sliding connection with the drainage plate, the sliding sleeve is sealed with a sealing gasket of a through pipe connected with the drainage plate, the through pipe opening at the upper side of the condensation pipe is fixed with the left side wall of the condensation box, the through pipe opening at the upper side of the condensation pipe stretches into the channel cavity, the through pipe opening at the lower side of the condensation pipe penetrates through the drainage plate, the through pipe opening at the lower side of the condensation pipe is fixedly connected with the left side wall of the condensation box, and the through pipe opening at the lower side of the condensation pipe stretches into the collecting cavity.

Further, the back side wall of the condensing chamber is slidably provided with a supporting plate, the upper side of the supporting plate is slidably connected with the upper side wall of the condensing chamber, the supporting plate is used for clamping the outer side of the condenser tube, and the upper side wall of the supporting plate is connected with the upper side wall and is provided with a supporting spring.

Further, the right side of condensate plate is fixed and is equipped with the fixed plate, the fixed accommodate motor that is equipped with of fixed plate upside, accommodate motor output highly is equipped with the regulating spindle, the regulating spindle stretches into in the condensation chamber, the fixed regulating plate that is equipped with in regulating spindle left side, it is equipped with two fixation clamps to fix on the regulating plate, every the fixation clamp is oblique diagonal angle fixed, the fixation clamp can fix the condenser pipe.

Furthermore, the upper side through pipe orifice of the condensing pipe is fixed with the lower side through pipe orifice of the condensing pipe in a vertical and horizontal mode, so that water vapor can flow downwards under the action of gravity after condensation, and the water vapor can not flow into the channel cavity but flow into the collecting cavity for collection and storage.

Further, the shell is internally and fixedly provided with a channel cavity, the left side of the channel cavity is provided with an air inlet, and the air inlet is internally and fixedly provided with a one-way valve.

Firstly, the high-temperature vapor is introduced into the device from the vent hole on the left side of the channel cavity, the vapor is output unidirectionally through the one-way valve, so that the vapor can only flow into the device and cannot flow out of the device, the tightness of the device is improved, the recovery rate of condensed water of the device is improved, the vapor enters the channel cavity because the channel cavity pipeline is longer, the upper side wall of the channel cavity is thinner, the high-temperature vapor can be primarily cooled in the channel cavity, the tightness of the device is higher, the loss of the vapor can be reduced, the recovery rate of condensed water of the device is improved, the vapor can be primarily cooled, and the temperature of the vapor is reduced.

Vapor enters into the condensation chamber through the condenser pipe, and simultaneously, the condensate fills the condensation chamber through the feed inlet of condensation chamber upside, make the condensate contact condenser pipe surface, make the condensate condense the vapor, make vapor liquefaction form the comdenstion water, the condensate temperature after the condensation risees, simultaneously the condensate passes through the drainage board drainage, make the condensate flow from the condenser chamber downside discharge gate, make the refrigerant cool down in the device outside, and let into the device again, form a cooling ring, thereby improve the condensation effect of device, the water after the condensation slides the condenser pipe downside because of gravity, and flow into the collection intracavity from condenser pipe downside export, make the comdenstion water store in the collection chamber, when vapor temperature is too high, or when vapor density is higher, the condensation effect can be reduced, can start the accommodate motor, make accommodate motor drive the adjustment axial right slip, make the adjustment shaft drive the adjustment plate slide rightwards, make the condenser pipe of adjustment plate pulling upside let go into the refrigerant, make the condenser pipe and the refrigerant, consequently, the condenser pipe and the condenser pipe change the contact length, and the compression spring, the time can change the compression spring, and the compression spring, the contact time can change the compression spring, the contact time, and the compression spring, can change the contact time, and the compression spring, the contact time can change, the compression time, and the initial contact time.

After the condensate water is collected to a certain extent in the collecting cavity, the condensate water can drive the floating ball to float upwards, the floating ball pulls the sealing ball to slide upwards through the connecting wire, the through hole at the lower side of the through pipe is opened by the sealing ball, the condensate water flows out and is recovered, the upper side of the collecting cavity is close to the channel cavity, the water temperature at the upper side of the collecting cavity is higher than the water temperature at the lower side of the collecting cavity, after the condensate water with lower temperature flows out, the condensate water with higher temperature at the upper side of the collecting cavity flows to the lower side for storage, when the sealing ball slides upwards, the fixing piece can be driven to slide upwards, the sliding block can drive the sliding block to slide upwards, the connecting spring is used for pulling the connecting spring, the elastic potential energy of the connecting spring is increased, meanwhile, the sealing ball can only move in the vertical direction, after the condensate water flows out, the connecting spring drives the sealing ball to squeeze the through pipe, the condensate water can be stored in the collecting cavity for a certain degree, the condensate water is not flowing out, the condensate water is sealed in the collecting cavity, the residual steam in the collecting cavity cannot flow out of the through hole, the condensate water is recovered from the through hole, the sealing device, the rising efficiency of the rising of the lower temperature is reduced, the rising rate of the rising of the condensate water is improved, and the rising rate of the efficiency of the rising, and the rising rate of the water in the water.

Drawings

Fig. 1 is a schematic structural view of a high-temperature vapor condensation recovery device.

Fig. 2 is a sectional view taken along the direction A-A in fig. 1.

Fig. 3 is a sectional view in the direction B-B of fig. 1.

Fig. 4 is a sectional view in the direction C-C of fig. 3.

Fig. 5 is a sectional view in the direction D-D of fig. 4.

Fig. 6 is an enlarged view of the structure at E in fig. 3.

In the figure, 10, a housing; 11. a one-way valve; 12. a channel cavity; 13. a condensing box; 14. a condensing tube; 15. a support spring; 16. a support plate; 17. a drainage plate; 18. a condensing chamber; 19. an adjusting plate; 21. a collection chamber; 22. a floating ball; 23. a through pipe; 24. a condensing plate; 25. a fixing clamp; 26. an adjusting shaft; 27. an adjusting tube; 28. a fixing plate; 29. adjusting a motor; 30. a connecting wire; 31. a sealing ball; 33. a fixing piece; 34. a connecting rod; 35. a sliding block; 36. a connecting spring; 37. a fixing ring; 38. a sliding sleeve.

Detailed Description

The following are specific embodiments of the present invention and the technical solutions of the present invention will be further described with reference to the accompanying drawings, but the present invention is not limited to these embodiments.

As shown in FIG. 2 and FIG. 6, a high-temperature vapor condensation recycling device comprises a shell 10, a collecting cavity 21 is arranged in the shell 10, a through pipe 23 is fixedly arranged at the lower side of the collecting cavity 21, the inner side of the through pipe 23 is in conical concave shape, a sealing ball 31 is arranged on a through hole in the through pipe 23, the surface of the sealing ball 31 is smooth, four fixing sheets 33 are fixedly arranged on the sealing ball 31, a connecting rod 34 is fixedly arranged at the lower side of each fixing sheet 33, each connecting rod 34 is in sliding connection with the through pipe 23, a sealing gasket is arranged at the joint of each fixing sheet 33 and the through pipe 23, a sliding block 35 is fixedly arranged at the lower side of each fixing sheet 33, a fixing ring 37 is arranged at the lower side of the through pipe 23, a connecting spring 36 is connected with the fixing ring 37, a floating ball 22 is arranged on the floating of the condensed water, and the floating ball 22 is connected with the sealing ball 31, and a connecting wire 30 is arranged.

As shown in fig. 2 and 3, a condensing box 13 is fixed on the right side of the casing 10, a condensing plate 24 is arranged on the right side of the condensing box 13, a sealing gasket is arranged at the joint of the condensing plate 24 and the condensing box 13, the condensing plate 24 is detachable, a condensing cavity 18 is arranged in the condensing box 13, a drainage plate 17 is arranged in the condensing cavity 18, the drainage plate 17 is obliquely fixed, and the drainage plate 17 divides the condensing cavity 18 into two closed cavities.

As shown in fig. 2 and 3, a condensing tube 14 is fixedly arranged on the left side wall of the condensing cavity 18, a through tube opening at the upper side of the condensing tube 14 passes through the drainage plate 17, a sliding sleeve 38 is fixedly arranged at the through tube opening at the upper side of the condensing tube 14, the sliding sleeve 38 is in sliding connection with the drainage plate 17, the sliding sleeve 38 is in sealing connection with a through tube gasket of the drainage plate 17, the through tube opening at the upper side of the condensing tube 14 is fixedly arranged on the left side wall of the condensing box 13, the through tube opening at the upper side of the condensing tube 14 extends into the channel cavity 12, the through tube opening at the lower side of the condensing tube 14 passes through the drainage plate 17, the through tube opening at the lower side of the condensing tube 14 is fixedly connected with the drainage plate 17, the through tube opening at the lower side of the condensing tube 14 is fixedly arranged on the left side wall of the condensing box 13, and the through tube opening at the lower side of the condensing tube 14 extends into the collecting cavity 21.

As shown in fig. 2, a support plate 16 is slidably disposed on the rear side wall of the condensation chamber 18, the upper side of the support plate 16 is slidably connected with the upper side wall of the condensation chamber 18, the support plate 16 clamps the outside of the tube of the condensation tube 14, and a support spring 15 is disposed on the upper side wall of the support plate 16 and the upper side wall of the condensation chamber 18.

As shown in fig. 1 and 5, a fixing plate 28 is fixedly arranged on the right side of the condensing plate 24, an adjusting motor 29 is fixedly arranged on the upper side of the fixing plate 28, an adjusting shaft 26 is arranged at the output end of the adjusting motor 29, the adjusting shaft 26 stretches into the condensing cavity 18, an adjusting plate 19 is fixedly arranged on the left side of the adjusting shaft 26, two fixing clamps 25 are fixedly arranged on the adjusting plate 19, each fixing clamp 25 is diagonally fixed, and the fixing clamps 25 can fix the condensing tube 14.

As shown in fig. 4, the upper side pipe opening of the condensation pipe 14 and the lower side pipe opening of the condensation pipe 14 are fixed in a vertical direction, so that the water vapor can flow downwards under the action of gravity after condensation, and the water vapor can not flow into the channel cavity 12 but flow into the collecting cavity 21 for collection and storage.

As shown in fig. 1 and 2, a channel cavity 12 is fixedly arranged in the shell 10, an air inlet is arranged at the left side of the channel cavity 12, and a one-way valve 11 is fixedly arranged in the air inlet.

Firstly, the high-temperature vapor is introduced into the device from the vent hole on the left side of the channel cavity 12, the vapor is output unidirectionally through the one-way valve 11, so that the vapor can only flow into the device and cannot flow out of the device, the tightness of the device is improved, the recovery rate of condensed water of the device is improved, the vapor enters the channel cavity 12 because the channel cavity 12 is longer in pipeline, the upper side wall of the channel cavity 12 is thinner, the high-temperature vapor can be primarily cooled in the channel cavity 12, the leak tightness of the device is higher, the loss of the vapor can be reduced, the recovery rate of condensed water of the device is improved, the primary cooling of the vapor can be carried out, and the temperature of the vapor is reduced.

The water vapor enters the condensation cavity 18 through the condensation pipe 14, meanwhile, the condensation agent fills the condensation cavity 18 through the feeding hole at the upper side of the condensation cavity 18, so that the condensation agent contacts the outer surface of the condensation pipe 14, the condensation agent condenses the water vapor, the water vapor is liquefied to form condensed water, the temperature of the condensed condensation agent is increased, meanwhile, the condensation agent is guided by the guide plate 17, the condensation agent flows out of the discharging hole at the lower side of the condensation cavity 18, the condensation agent is cooled at the outer side of the device and is led into the device again to form a cooling ring, thereby improving the condensation effect of the device, the condensed water slides to the lower side of the condensation pipe due to gravity and flows into the collecting cavity 21 from the outlet at the lower side of the condensation pipe, so that the condensed water is stored in the collecting cavity 21, when the temperature of the water vapor is too high, or the condensation effect is reduced when the density of the water vapor is higher, the adjusting motor 29 can be started, the adjusting motor 29 drives the adjusting shaft 26 to slide rightwards, the adjusting shaft 26 drives the adjusting plate 19 to slide rightwards, the condensing tube 14 on the upper side of the adjusting plate 19 is pulled to be led into condensing agent, the contact length of the condensing tube 14 and condensing agent is prolonged, the contact area of condensing agent and the surface of the condensing tube 14 is increased, the contact time is prolonged, the condensing effect of the device is improved, after the condensing tube 14 is pulled, the condensing tube 14 can press the supporting spring 15 through the supporting plate 16, the elastic potential energy of the supporting spring 15 is increased, after the adjusting motor 29 returns to the original position, the supporting spring 15 drives the condensing tube 14 to return to the original position, the device can change the contact length of the condensing tube and condensing agent, therefore, the contact area of the condensing agent and the surface of the condensing tube can be changed, and the contact time is changed, the condensing effect of the device is improved.

After the condensate water is collected to a certain extent in the collecting cavity 21, the condensate water can drive the floating ball 22 to float upwards, the floating ball 22 pulls the sealing ball 31 to slide upwards through the connecting wire 30, the sealing ball 31 is opened through holes at the lower side of the through pipe 23, water on the lower side of the condensate water flows out and is recovered, as the upper side of the collecting cavity 21 is close to the channel cavity 12, the water temperature on the upper side of the collecting cavity 21 is higher than the water temperature on the lower side of the collecting cavity 21, after the condensate water with lower temperature flows out, the condensate water with higher temperature on the upper side of the collecting cavity 21 flows to the lower side for storage, when the sealing ball 31 slides upwards, the fixing piece 33 can be driven to slide upwards, the sliding block 35 is driven to pull the connecting spring 36, the elastic potential energy of the connecting spring 36 is increased, meanwhile, the sealing ball 31 can only move in the vertical direction, after the condensate water flows out, the connecting spring 36 drives the sealing ball 31 to squeeze the through pipe 23, the condensate water is stored to have a certain non-outflow, the condensate water in the collecting cavity 21 is sealed in the process, the condensate water flows out of the collecting cavity 21, the condensate water is stored in the lower temperature, the condensate water flows out of the collecting cavity 21, the residual water in the collecting cavity 21 cannot flow out from the through holes 23, the condensate water can not flow out of the device, and the device steam can be recovered, and the device at the steam can be recovered, and the device.

Compared with the prior art, the condensing and recycling device for the high-temperature steam has the following advantages:

1. the device has higher tightness, can reduce the loss of water vapor, improve the recovery rate of condensed water of the device, and can primarily cool the water vapor to reduce the temperature of the water vapor.

2. The contact length between the condensing pipe and the condensing agent can be changed, so that the contact area between the condensing agent and the surface of the condensing pipe can be changed, the contact time can be changed, and the condensing effect of the device can be improved.

3. The condensed water with lower temperature can flow out, the increasing rate of condensed water recovery is reduced, the recovery efficiency of the condensed water is improved, and meanwhile, when the condensed water flows out of the device, the device cavity can be sealed, so that residual water vapor cannot flow out of the device.

The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes using the descriptions and the drawings of the present invention or directly or indirectly applied to other related technical fields are included in the scope of the invention.

Claims

1. The utility model provides a high temperature vapor condensation recovery unit, includes casing (10), its characterized in that, the inside of casing (10) is equipped with collection chamber (21), collection chamber (21)'s downside is fixed to be equipped with siphunculus (23), siphunculus (23) inboard is conical sunken, be equipped with on siphunculus (23) interior through-hole and seal ball (31), seal ball (31) surface is smooth, seal ball (31) are last to be fixed to be equipped with four stationary blades (33), every stationary blade (33) downside is fixed and is equipped with connecting rod (34), every connecting rod (34) with siphunculus (23) sliding connection, every stationary blade (33) with siphunculus (23) junction is equipped with the sealing washer, stationary blade (33) downside is fixed and is equipped with slider (35), siphunculus (23) downside is equipped with retainer plate (37), retainer plate (37) are connected with slider (35) and are equipped with connecting spring (36), the comdenstion water floats and are equipped with floater (22) with sealing ball (31); the shell (10) is internally and fixedly provided with a channel cavity (12), the left side of the channel cavity (12) is provided with an air inlet, and the air inlet is internally and fixedly provided with a one-way valve (11).

2. The high temperature vapor condensation recovery apparatus according to claim 1, wherein: the utility model discloses a condensing box, including casing (10), condensing box (13) right side is fixed to be equipped with condensing plate (24), condensing plate (24) with condensing box (13) junction is equipped with sealed pad, condensing plate (24) can dismantle, be equipped with condensation chamber (18) in condensing box (13), be equipped with drainage board (17) in condensation chamber (18), drainage board (17) are the slant fixed, and drainage board (17) will condensation chamber (18) divide into two confined chambeies.

3. A high temperature vapor condensation recovery apparatus according to claim 2, wherein: the condenser is characterized in that a condenser pipe (14) is fixedly arranged on the left side wall of the condenser cavity (18), an upper side through pipe opening of the condenser pipe (14) penetrates through the drainage plate (17), a sliding sleeve (38) is fixedly arranged on the upper side through pipe opening of the condenser pipe (14), the sliding sleeve (38) is in sliding connection with the drainage plate (17), the sliding sleeve (38) is connected with the drainage plate (17) and is sealed through a sealing gasket, a pipe opening on the upper side of the condenser pipe (14) is fixed with the left side wall of the condenser box (13), a pipe opening on the upper side of the condenser pipe (14) stretches into the channel cavity (12), a pipe opening on the lower side of the condenser pipe (14) penetrates through the drainage plate (17), a pipe opening on the lower side of the condenser pipe (14) is fixedly connected with the left side wall of the condenser box (13), and a pipe opening on the lower side of the condenser pipe (14) stretches into the collecting cavity (21).

4. A high temperature vapor condensation recovery apparatus according to claim 3, wherein: the utility model discloses a condenser, including condensation chamber (18), condensation chamber (18) back lateral wall slip is equipped with backup pad (16), backup pad (16) upside with lateral wall sliding connection on condensation chamber (18), backup pad (16) will condenser pipe (14) siphunculus outside blocks, the last lateral wall of backup pad (16) with the last lateral wall connection of condensation chamber (18) is equipped with supporting spring (15).

5. A high temperature vapor condensation recovery apparatus according to claim 2, wherein: the right side of condensation plate (24) is fixed and is equipped with fixed plate (28), fixed regulating motor (29) that is equipped with in fixed plate (28) upside, regulating motor (29) output highly is equipped with regulating spindle (26), regulating spindle (26) stretch into in condensation chamber (18), regulating spindle (26) left side is fixed and is equipped with regulating plate (19), fixed on regulating plate (19) are equipped with two fixation clamps (25), every fixation clamp (25) are oblique diagonal angle fixed, fixation clamp (25) can fix condenser pipe (14).

6. A high temperature vapor condensation recovery apparatus according to claim 3, wherein: the upper side through pipe orifice of the condensing pipe (14) and the lower side through pipe orifice of the condensing pipe (14) are fixed in a vertical and horizontal mode, so that water vapor can flow downwards under the action of gravity after condensation, and the water vapor can not flow into the channel cavity (12) but flow into the collecting cavity (21) for collection and storage.