CN215337814U - Steam residual heat recycling device - Google Patents

Abstract

The utility model discloses a steam residual temperature recycling device, wherein the right side of a main reaction kettle is connected with a first steam through pipe through an elbow a, the right side of the first steam through pipe is connected with a second steam through pipe through an elbow b and a guide pipe a, the right side of the second steam through pipe is connected with a third steam through pipe through an elbow c and a guide pipe b, the right side of the third steam through pipe is connected with a water storage barrel through an elbow d and a guide pipe c, water inlets are arranged above the front side of the water storage barrel, above the front side of a first jacket, above the front side of a second jacket and above the front side of a third jacket, the front side of each water inlet is connected with a cold water pipe through a sleeve, the left end of the cold water pipe is a connector, and a water outlet a is arranged below the rear side of the first jacket. The split steam through pipe is divided into three sections of vertical steam pipelines, so that the occupied area is reduced, the later maintenance is facilitated, and the waste heat of the water storage barrel can be utilized to dry other objects needing drying through the arrangement of the heat conducting rod, the fan and the drying seat.

Description

Steam residual heat recycling device

Technical Field

The utility model relates to the field of recycling devices, in particular to a steam waste heat recycling device.

Background

During the use of reaction kettle, the steam of high temperature can be produced in the jacket, if these steam excess temperatures are not recycled, a large amount of heat energy can be wasted, as patent application No.: 201820122947.3, discloses a steam residual temperature recycling device, which comprises a steam source, wherein the steam source is residual steam in a main reaction kettle jacket, the lower end of the main reaction kettle is communicated with a steam through pipe, the steam through pipe is provided with a steam valve, the outer side wall of the steam through pipe is respectively connected with a first jacket, a second jacket and a third jacket in a sealing way, the first jacket, the second jacket and the third jacket are respectively communicated with a water inlet through pipe and a water outlet through pipe, the water inlet through pipe is communicated with a transverse pipe, the transverse pipe is communicated with an external water pipe, the pipe orifice at the right end of the transverse pipe is communicated with a water storage barrel, the lower end of the water storage barrel is communicated with a water discharge pipe, and the water discharge pipe is provided with a valve; the water outlet through pipe is respectively communicated with a first attached reaction kettle, a second attached reaction kettle and a third attached reaction kettle which correspond to the first jacket, the second jacket and the third jacket, a pipe body of the steam through pipe is communicated with a plurality of glass balls, the glass balls are hollow, the right end of the steam through pipe penetrates through the first jacket, the second jacket and the third jacket and is positioned in the water storage barrel, the steam through pipe is communicated with two heat dissipation balls, and the heat dissipation balls are hollow. Has the following advantages: through setting up the steam siphunculus, first cover, the second presss from both sides the cover, the third presss from both sides the cover, violently the pipe, external water pipe, first attach reation kettle, the second attaches reation kettle and the third attaches reation kettle, realize the multi-level utilization of the energy, at first cover, the second presss from both sides the cover, layer upon layer of condensate water in the third presss from both sides the cover, under the condensation, get into first attach reation kettle, the temperature in the second attaches reation kettle and the third attaches the jacket in reation kettle reduces in proper order, then can be according to the reaction temperature difference, utilize steam to carry out the chemical reaction of different temperature requirements simultaneously, avoid the storage that steam should the overlength time and the temperature drop, realize increasing the area of contact of steam and water through setting up glass ball and heat dissipation ball device, reduce heat energy loss, and has novel structure, the operation is simple, it is convenient high-efficient, and do not need any power device, the advantage of saving energy consumption.

However, the following drawbacks still exist in this application: because the length of a whole steam siphunculus is longer, not only area is big, still is unfavorable for the later maintenance to the waste heat of water storage bucket also does not obtain effectual utilization.

SUMMERY OF THE UTILITY MODEL

In view of the above-mentioned defect or not enough among the prior art, it is expected to provide a steam waste heat recycle device, has not only reduced area, has made things convenient for later maintenance, can also utilize the waste heat of water storage bucket, dries other dry objects of needs.

According to the technical scheme provided by the embodiment of the utility model, the steam waste heat recycling device comprises a main reaction kettle, a first jacket, a second jacket, a third jacket, a first attached reaction kettle, a second attached reaction kettle, a third attached reaction kettle, a water storage barrel, a water discharge pipe and a vacuum pump, wherein the right side of the main reaction kettle is connected with a first steam through pipe through an elbow a, the right side of the first steam through pipe is connected with a second steam through pipe through an elbow b and a conduit a, the right side of the second steam through pipe is connected with a third steam through pipe through an elbow c and a conduit b, the right side of the third steam through pipe is connected with the water storage barrel through an elbow d and a conduit c, water inlets are arranged above the front side of the water storage barrel, above the front side of the first jacket, above the front side of the second jacket and above the front side of the third jacket, and the front side of the water inlets are connected with a cold water pipe through a sleeve, the left end of the cold water pipe is a connector, a water outlet a is arranged below the rear side of the first jacket, a water outlet b is arranged below the rear side of the second jacket, a water outlet c is arranged below the rear side of the third jacket, the water outlet c is connected with the third attached reaction kettle, the water outlet b is connected with the second attached reaction kettle, the water outlet a is connected with the first attached reaction kettle through an elbow e and a conduit d, a heat conduction fixing ring is fixed on the outer side of the water storage barrel through a screw rod and a nut, a plurality of heat conduction rods are welded on the right side of the heat conduction fixing ring at intervals, a fixing block is welded on the right side of the water storage barrel, a drying seat is installed on the side of the fixing block through a screw a, a fan is installed on the top of the drying seat through a screw b, the fan comprises a shell and fan blades, and heat insulation cotton is bonded on the lower surface of the fan through a double-sided adhesive layer, the surface of the heat insulation cotton and the top surface of the drying seat are both provided with ventilation openings corresponding to the fans, and the heat conduction rod is located below the ventilation openings.

In the utility model, the second steam through pipe is positioned between the first steam through pipe and the third steam through pipe, the second steam through pipe and the first steam through pipe are all vertical structures.

In the utility model, the first additional reaction kettle, the second additional reaction kettle and the third additional reaction kettle are all positioned at the rear side of the cold water pipe, and the rear side of the cold water pipe is provided with a water guide head.

In the utility model, the heat-conducting fixing ring is positioned below the cold water pipe, and the fixing blocks are respectively positioned above and below the heat-conducting rod.

In the utility model, the drying seat is positioned above the water drain pipe, and the heat conducting rod is positioned on the inner side of the drying seat.

In conclusion, the utility model has the beneficial effects that: the split steam through pipe is divided into three sections of vertical steam pipelines, so that the occupied area is reduced, the later maintenance is facilitated, and the waste heat of the water storage barrel can be utilized to dry other objects needing drying through the arrangement of the heat conducting rod, the fan and the drying seat.

Drawings

Other features, objects and advantages of the utility model will become more apparent upon reading of the detailed description of non-limiting embodiments made with reference to the following drawings:

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

FIG. 2 is a schematic top view of a cold water pipe according to the present invention;

FIG. 3 is a schematic diagram showing the side view structure of the joint of the first steam pipe, the first jacket, the left side conduit d and the first additional reaction vessel;

FIG. 4 is a schematic bottom view of the connection between the fan and the insulation wool of the present invention;

FIG. 5 is a schematic perspective view of the connection between the heat-conducting fixing ring and the heat-conducting rod according to the present invention.

Reference numbers in the figures: 1. a main reaction kettle; 100. a conduit a; 101. a conduit b; 102. a conduit c; 103. a conduit d; 200. a cold water pipe; 401. a first jacket; 402. a second jacket; 403. a third jacket; 4011. a first attached reaction kettle; 4022. a second additional reaction kettle; 4033. a third additional reaction kettle; 51. a first steam through pipe; 52. a second steam through pipe; 53. a third steam through pipe; 6. a water storage barrel; 8. a water discharge pipe; 9. a vacuum pump; 800. a heat-conducting fixing ring; 801. a heat conducting rod; 900. a fixed block; 901. a drying seat; 902. a fan; 903. and (4) heat insulation cotton.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the relevant invention and not restrictive of the utility model. It should be noted that, for convenience of description, only the portions related to the present invention are shown in the drawings.

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

Referring to fig. 1, 2, 3, 4 and 5, a steam waste heat recycling device includes a main reaction kettle 1, a first jacket 401, a second jacket 402, a third jacket 403, a first additional reaction kettle 4011, a second additional reaction kettle 4022, a third additional reaction kettle 4033, a water storage bucket 6, a water discharge pipe 8 and a vacuum pump 9, the right side of the main reaction kettle 1 is connected with a first steam through pipe 51 through an elbow a, the right side of the first steam through pipe 51 is connected with a second steam through pipe 52 through an elbow b and a pipe a100, the right side of the second steam through pipe 52 is connected with a third steam through pipe 53 through an elbow c and a pipe b101, the right side of the third steam through pipe 53 is connected with the water storage bucket 6 through an elbow d and a pipe c102, the upper part of the front side of the water storage bucket 6, the upper part of the front side of the first jacket 401, the upper part of the front side of the second jacket 402 and the upper part of the front side of the third jacket 403 are water inlet headers, the front side of the water inlet head is connected with a cold water pipe 200 through a sleeve, the left end of the cold water pipe 200 is a connector, the lower part of the rear side of the first jacket 401 is a water outlet head a, the lower part of the rear side of the second jacket 402 is a water outlet head b, the lower part of the rear side of the third jacket 403 is a water outlet head c, the water outlet head c is connected with the third auxiliary reaction kettle 4033, the water outlet head b is connected with the second auxiliary reaction kettle 4022, and the water outlet head a is connected with the first auxiliary reaction kettle 4011 through elbows e and a conduit d103, the outer side of the water storage barrel 6 is fixed with a heat-conducting fixing ring 800 through screws and nuts, the right side of the heat-conducting fixing ring 800 is welded with a plurality of heat-conducting rods 801 at intervals, the right side of the water storage barrel 6 is welded with a fixing block 900, the side of the fixing block 900 is provided with a drying seat 901 through a screw a fan 902 at the top of the drying seat 901, the fan 902 comprises a shell and fan blades, heat insulation cotton 903 is bonded on the lower surface of the fan 902 through a double-faced adhesive tape, ventilation openings corresponding to the fan 902 are formed in the surface of the heat insulation cotton 903 and the top surface of the drying seat 901, and the heat conduction rod 801 is located below the ventilation openings.

As shown in fig. 1, 2 and 3, the second steam through pipe 52 is located between the first steam through pipe 51 and the third steam through pipe 53, the second steam through pipe 52 and the first steam through pipe 51 are all vertical structures. The first additional reaction kettle 4011, the second additional reaction kettle 4022 and the third additional reaction kettle 4033 are all located on the rear side of the cold water pipe 200, and a water guide head is arranged on the rear side of the cold water pipe 200.

As shown in fig. 1, 2 and 5, the heat-conducting fixing ring 800 is located below the cold water pipe 200, and the fixing blocks 900 are respectively located above and below the heat-conducting rod 801. The drying seat 901 is positioned above the water drain pipe 8, and the heat conducting rod 801 is positioned inside the drying seat 901.

Example 1: with a whole steam siphunculus split into vertical first steam siphunculus 51, second steam siphunculus 52 and third steam siphunculus 53, not only reduced area, still made things convenient for later maintenance, and heat conduction stick 801 can derive the waste heat of water storage bucket 6, put the below of heat conduction stick 801 to the dry object of needs, start fan 902, the wind that fan 902 blew out can be heated by heat conduction stick 801, thereby can dry the object, waste heat recovery utilizes efficiency is higher.

The foregoing description is only exemplary of the preferred embodiments of the utility model and is illustrative of the principles and techniques that may be employed. Meanwhile, the scope of the present invention is not limited to the specific combinations of the above-described features, and other embodiments in which the above-described features or their equivalents are arbitrarily combined without departing from the spirit of the present invention are also encompassed. For example, the above features and (but not limited to) features having similar functions disclosed in the present invention are mutually replaced to form the technical solution.

Claims (5)

1. The utility model provides a steam waste heat recycle device, includes main reation kettle (1), first cover (401), second cover (402), third cover (403), first attach reation kettle (4011), second attach reation kettle (4022), third attach reation kettle (4033), water storage bucket (6), bleeder line (8) and vacuum pump (9), characterized by: the right side of the main reaction kettle (1) is connected with a first steam through pipe (51) through an elbow a, the right side of the first steam through pipe (51) is connected with a second steam through pipe (52) through an elbow b and a guide pipe a (100), the right side of the second steam through pipe (52) is connected with a third steam through pipe (53) through an elbow c and a guide pipe b (101), the right side of the third steam through pipe (53) is connected with the water storage barrel (6) through an elbow d and a guide pipe c (102), the upper part of the front side of the water storage barrel (6), the upper part of the front side of the first jacket (401), the upper part of the front side of the second jacket (402) and the upper part of the front side of the third jacket (403) are water inlets, the front side of the water inlets is connected with a cold water pipe (200) through a sleeve, the left end of the cold water pipe (200) is a connector, the lower part of the rear side of the first jacket (401) is a water outlet a, a water outlet head b is arranged below the rear side of the second jacket (402), a water outlet head c is arranged below the rear side of the third jacket (403), the water outlet head c is connected with the third attached reaction kettle (4033), the water outlet head b is connected with the second attached reaction kettle (4022), the water outlet head a is connected with the first attached reaction kettle (4011) through an elbow e and a conduit d (103), a heat-conducting fixing ring (800) is fixed on the outer side of the water storage barrel (6) through a screw and a nut, a plurality of heat-conducting rods (801) are welded on the right side of the heat-conducting fixing ring (800) at intervals, a fixing block (900) is welded on the right side of the water storage barrel (6), a drying seat (901) is installed on the side of the fixing block (900) through a screw a, a fan (902) is installed on the top of the drying seat (901) through a screw b, and the fan (902) comprises a shell and fan blades, the lower surface of the fan (902) is bonded with heat insulation cotton (903) through a double-faced adhesive tape, ventilation openings corresponding to the fan (902) are formed in the surface of the heat insulation cotton (903) and the top surface of the drying seat (901), and the heat conduction rod (801) is located below the ventilation openings.

2. The steam residual heat recycling device as claimed in claim 1, wherein: the second steam through pipe (52) is located between the first steam through pipe (51) and the third steam through pipe (53), the second steam through pipe (52) and the first steam through pipe (51) are all vertical structures.

3. The steam residual heat recycling device as claimed in claim 1, wherein: the first additional reaction kettle (4011), the second additional reaction kettle (4022) and the third additional reaction kettle (4033) are all located on the rear side of the cold water pipe (200), and a water guide head is arranged on the rear side of the cold water pipe (200).

4. The steam residual heat recycling device as claimed in claim 1, wherein: the heat-conducting fixing ring (800) is located below the cold water pipe (200), and the fixing blocks (900) are respectively located above and below the heat-conducting rod (801).

5. The steam residual heat recycling device as claimed in claim 1, wherein: the drying seat (901) is positioned above the water drain pipe (8), and the heat conducting rod (801) is positioned on the inner side of the drying seat (901).

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