CN208817662U - A kind of zero bar of tank emptying waste-heat recovery device of the power station increasing exhaust efficiency - Google Patents

Abstract

The utility model discloses zero bar of tank emptying waste-heat recovery devices of power station that one kind can increase exhaust efficiency, including air inlet pipe, main body, temperature sensor and intermediate tube, the right end of the air inlet pipe is connected with the first vacuum pump, inserted with sprue inside the top of the communicating pipe, the right side of communicating pipe is arranged in the main body, the main body is internally provided with pressing plate, the temperature sensor is located at the right side of main body, and the upper surface of temperature sensor is electrically connected with central controller, the intermediate tube is located at the right side of main body, the right side upper surface of the intermediate tube is connected with escape pipe.This can increase by zero bar of tank emptying waste-heat recovery device of power station of exhaust efficiency, the pumping efficiency to extraneous hot gas can be increased by multiple pipelines, the personnel of working at the same time can control deflation rate, and it can be promptly vented when air pressure is excessive, ensure to be not in safety accident, while temperature gas not up to standard can be discharged in time.

Description

A kind of zero bar of tank emptying waste-heat recovery device of the power station increasing exhaust efficiency

Technical field

The utility model relates to zero bar of tanks of power station to empty heat recovery technology field, and specially one kind can increase exhaust effect Zero bar of tank of power station of rate empties waste-heat recovery device.

Background technique

Power station can generate a large amount of hot steam during actual operation, these steam are all many times directly to arrange Enter into atmosphere, but with the environmental consciousness that the universal and people of present low-carbon life concept are gradually promoted, resource is returned again Receipts are widely used using technology, so, for the hot steam that power station is discharged, people are just by using zero bar of tank to it Waste heat recycling is carried out, to supply air-conditioner set；

But for existing zero bar of tank waste-heat recovery device in recovered steam waste heat, pumping efficiency is lower on the market, and Change that can not be artificial is vented delivery rate, and people's use is unable to satisfy when air-conditioner set heat supply requirement is larger, and It can not be promptly vented when air pressure is excessively high, there is security risk, while the gas that temperature has been lost can not be discharged, institute Now to develop a kind of zero bar of tank emptying waste-heat recovery device of the power station that can increase exhaust efficiency, to solve the above problems.

Utility model content

The purpose of this utility model is to provide zero bar of tank emptying waste heat recycling of power station that one kind can increase exhaust efficiency Device is taken out with solving existing zero bar of tank waste-heat recovery device mentioned above in the background art in recovered steam waste heat Gas efficiency is lower, and change that can not be artificial is vented delivery rate, is unable to satisfy when air-conditioner set heat supply requirement is larger People use, and can not be promptly vented when air pressure is excessively high, have security risk, while can not be lost temperature Gas discharge the problem of.

To achieve the above object, the utility model provides the following technical solutions: one kind can increase the power station of exhaust efficiency Zero bar of tank empties waste-heat recovery device, including air inlet pipe, main body, temperature sensor and intermediate tube, and the right end of the air inlet pipe connects It is connected to the first vacuum pump, and the right end of the first vacuum pump is connected with communicating pipe, inserted with sprue inside the top of the communicating pipe, And the top of sprue is fixedly connected with connecting plate, and the upper surface of connecting plate is welded with the first telescopic rod, the main body setting It is fixedly connected on the left end surface on the right side of communicating pipe, and main body with the right end of the first telescopic rod, the inside setting of the main body There is pressing plate, and the outer end surrounding of pressing plate is connected with rubber block, and the lower surface of pressing plate is fixedly connected with the second telescopic rod, it is described Temperature sensor is located at the right side of main body, and the upper surface of temperature sensor is electrically connected with central controller, the intermediate tube The detection ball that top is connected with temperature sensor is installed positioned at the inside on the right side of main body, and intermediate tube, and intermediate tube Right end is connected with air-conditioner set, the right side upper surface of the intermediate tube is connected with escape pipe, and escape pipe is internally provided with Baffle, the upper surface of the main body are equipped with the second vacuum pump.

Preferably, the longitudal section shape of the communicating pipe is in inverted " t " shape, and the connection type of communicating pipe and main body is method Orchid connection, and communicating pipe has 3 in the outside spaced set of main body.

Preferably, the sprue is that card slot connects, and sprue monomer passes through connecting plate with the connection type on communicating pipe top It is interconnected to constitute an entirety, and sprue passes through the first telescopic rod free extension on communicating pipe.

Preferably, the main body includes shell, vacuum layer, thermal insulation layer and drying layer, and shell, vacuum layer, thermal insulation layer and Drying layer is sequentially distributed from outside to inside, and shell, vacuum layer, thermal insulation layer and the mutual connection type of drying layer are viscous Patch connection.

Preferably, the pressing plate is slide construction in the inside of main body, and pressing plate and rubber block being integrally formed structure, and And the outer surface of rubber block and the inner surface of drying layer fit closely.

Preferably, the shape of the baffle is disc, and baffle is rotational structure in the inside of escape pipe.

Compared with prior art, the utility model has the beneficial effects that this can increase by zero bar of tank of power station of exhaust efficiency Waste-heat recovery device is emptied, the pumping efficiency to extraneous hot gas can be increased by multiple pipelines, the personnel of working at the same time can be controlled Deflation rate processed, and being promptly vented when air pressure is excessive, it is ensured that be not in safety accident, while temperature Gas not up to standard can be discharged in time；

1, communicating pipe has 3 in the outside spaced set of main body, and 3 communicating pipe passed through the first vacuum pump and 3 air inlets Pipe is connected, and increases the device to the efficiency that pumps of extraneous hot gas, the supply indirectly increased, while communicating pipe is longitudinal sectional Face is " T " shape, can in case of emergency be vented, avoid the occurrence of safety accident；

2, pressing plate can squeeze the gas of body interior for slide construction by the sliding of pressing plate in body interior Pressure, to accelerate it to be discharged by intermediate tube, to increase deflation rate when supply requirement is big；

3, it can be lost to avoid heat from body interior by thermal insulation layer and vacuum layer that material is heat insulation foam, and material is The drying layer of absorbent wool can be by the cooling moisture absorption for condensing into droplet.

Detailed description of the invention

Fig. 1 is the utility model front cross-sectional structural schematic diagram；

Fig. 2 is the utility model side structure schematic diagram；

Fig. 3 is enlarged structure schematic diagram at A in the utility model Fig. 1.

In figure: 1, air inlet pipe；2, the first vacuum pump；3, communicating pipe；4, sprue；5, the first telescopic rod；6, main body；601, outer Shell；602, vacuum layer；603, thermal insulation layer；604, drying layer；7, pressing plate；8, rubber block；9, the second telescopic rod；10, temperature sensing Device；11, central controller；12, intermediate tube；13, ball is detected；14, air-conditioner set；15, escape pipe；16, baffle；17, second is true Sky pump；18, connecting plate.

Specific embodiment

Below by the attached drawing in knot and the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Fig. 1-3 is please referred to, the utility model provides a kind of technical solution: one kind can increase zero bar of power station of exhaust efficiency Tank empties waste-heat recovery device, including air inlet pipe 1, the first vacuum pump 2, communicating pipe 3, sprue 4, the first telescopic rod 5, main body 6, outer Shell 601, vacuum layer 602, thermal insulation layer 603, drying layer 604, pressing plate 7, rubber block 8, the second telescopic rod 9, temperature sensor 10, in Entreat controller 11, intermediate tube 12, detection ball 13, air-conditioner set 14, escape pipe 15, baffle 16, the second vacuum pump 17 and connecting plate 18, the right end of air inlet pipe 1 is connected with the first vacuum pump 2, and the right end of the first vacuum pump 2 is connected with communicating pipe 3, communicating pipe 3 Inserted with sprue 4 inside top, and the top of sprue 4 is fixedly connected with connecting plate 18, and the upper surface welding of connecting plate 18 There is the first telescopic rod 5, the right side of communicating pipe 3 is arranged in main body 6, and the right end of the left end surface of main body 6 and the first telescopic rod 5 is solid Fixed connection, main body 6 include shell 601, vacuum layer 602, thermal insulation layer 603 and drying layer 604, and shell 601, vacuum layer 602, every Thermosphere 603 and drying layer 604 are sequentially distributed from outside to inside, and shell 601, vacuum layer 602, thermal insulation layer 603 and drying layer 604 Mutual connection type is to paste connection, and thermal insulation layer 603 and vacuum layer 602 can protect heat and be not lost, drying layer 604 can be absorbed the steam for condensing into droplet, and main body 6 is internally provided with pressing plate 7, and the outer end surrounding of pressing plate 7 is connected with rubber Blob of viscose 8, and the lower surface of pressing plate 7 is fixedly connected with the second telescopic rod 9, and pressing plate 7 is slide construction in the inside of main body 6, and 8 being integrally formed structure of pressing plate 7 and rubber block, and the inner surface of the outer surface of rubber block 8 and drying layer 604 fits closely, Pressing plate 7 can squeeze steam by pushing and increase its rate of discharge, and rubber block 8 then avoids pressing plate 7 from wearing drying layer 604, temperature Degree sensor 10 is located at the right side of main body 6, and the upper surface of temperature sensor 10 is electrically connected with central controller 11, intermediate tube 12 are located at the right side of main body 6, and the detection ball 13 that the inside of intermediate tube 12 is equipped with top and temperature sensor 10 connects, and The right end of intermediate tube 12 is connected with air-conditioner set 14, and the right side upper surface of intermediate tube 12 is connected with escape pipe 15, and escape pipe 15 are internally provided with baffle 16, and the shape of baffle 16 is disc, and baffle 16 is rotational structure in the inside of escape pipe 15, By baffle 16, circulation of the control steam in escape pipe 15 be free to, the upper surface of main body 6 is equipped with the second vacuum pump 17。

If the longitudal section shape of communicating pipe 3 in Fig. 1 and Fig. 2 is in inverted " t " shape, and the connection type of communicating pipe 3 and main body 6 For flanged joint, and communicating pipe 3 has 3 in the outside spaced set of main body 6, can increase pumping effect 3 communicating pipe 3 Rate, and " T " shaped structure is vented communicating pipe 3 promptly when air pressure is excessively high.

Sprue 4 is that card slot connects, and 4 monomer of sprue passes through connecting plate 18 with the connection type on 3 top of communicating pipe as shown in figure 1 It is interconnected to constitute an entirety, and sprue 4 passes through the first telescopic rod 5 free extension on communicating pipe 3, it can by sprue 4 To avoid hot steam to flow out in the device normal use from 3 top of communicating pipe.

Working principle: in zero bar of tank emptying waste-heat recovery device of the power station that can increase exhaust efficiency using this, first It should be noted that temperature sensor 10, central controller 11 are all made of on the market mature product, and temperature sensor 10 Model can be DHT11, be also possible to the product of other models in the market, and in use, air inlet pipe 1 passes through the first vacuum pump 2 It by hot gas from being pumped into communicating pipe 3 elsewhere, and enters eventually into inside main body 6, in pumping process, can be passed through One telescopic rod 5 drives sprue 4 to be detached from from 3 top of communicating pipe, to promptly be vented when air pressure is excessively high, when hot gas enters Behind 6 inside of main body, due to the presence of thermal insulation layer 603 and vacuum layer 602, temperature will not be lost, and subsequent gas can enter centre The inside of pipe 12, if necessary to accelerate the circulating rate of gas, staff can be controlled under pressing plate 7 by the second telescopic rod 9 Pressure, so that squeezing gas accelerates its circulation, in extrusion process, rubber block 8 can protect drying layer 604 will not be because of pressing plate 7 It slides and is worn, and after gas enters 12 inside of intermediate tube, temperature sensor 10 passes through detection 13 probe gas of ball Temperature, if temperature is undesirable, temperature sensor 10 will be passed the signal along at central controller 11, center control Device 11 processed will control baffle 16 in 15 inner rotation of escape pipe into plumbness, and subsequent second vacuum pump 17 starts operation, will Gas extraction, if gas temperature meets the requirements, difficult its will be entered in air-conditioner set 14, be utilized, here it is this The whole process that zero bar of tank emptying waste-heat recovery device of power station of exhaust efficiency uses can be increased, do not made in detail in this specification The content of description belongs to the prior art well known to professional and technical personnel in the field.

The standardized element that the utility model uses can commercially, shaped piece according to specification and attached drawing Record can carry out customized, the specific connection type of each part is all made of in the prior art mature bolt, rivet, weldering Equal conventional means are connect, mechanical, part and equipment are all made of in the prior art, conventional model, in addition circuit connection is using existing Conventional connection type in technology, this will not be detailed here.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (6)

1. one kind can increase power station zero bar of tank emptying waste-heat recovery device of exhaust efficiency, including air inlet pipe (1), main body (6), Temperature sensor (10) and intermediate tube (12), it is characterised in that: the right end of the air inlet pipe (1) is connected with the first vacuum pump (2), And first the right end of vacuum pump (2) be connected with communicating pipe (3), inserted with sprue (4) inside the top of the communicating pipe (3), and The top of sprue (4) is fixedly connected with connecting plate (18), and the upper surface of connecting plate (18) is welded with the first telescopic rod (5), The main body (6) is arranged on the right side of communicating pipe (3), and the right end of the left end surface of main body (6) and the first telescopic rod (5) is fixed Connection, the main body (6) is internally provided with pressing plate (7), and the outer end surrounding of pressing plate (7) is connected with rubber block (8), and presses The lower surface of plate (7) is fixedly connected with the second telescopic rod (9), and the temperature sensor (10) is located at the right side of main body (6), and temperature The upper surface of degree sensor (10) is electrically connected with central controller (11), and the intermediate tube (12) is located at the right side of main body (6), And the detection ball (13) that the inside of intermediate tube (12) is equipped with top and temperature sensor (10) connects, and intermediate tube (12) Right end is connected with air-conditioner set (14), and the right side upper surface of the intermediate tube (12) is connected with escape pipe (15), and escape pipe (15) be internally provided with baffle (16), the upper surface of the main body (6) is equipped with the second vacuum pump (17).

2. one kind according to claim 1 can increase by zero bar of tank emptying waste-heat recovery device of power station of exhaust efficiency, Be characterized in that: the longitudal section shape of the communicating pipe (3) is in inverted " t " shape, and the connection type of communicating pipe (3) and main body (6) For flanged joint, and communicating pipe (3) has 3 in the outside spaced set of main body (6).

3. one kind according to claim 1 can increase by zero bar of tank emptying waste-heat recovery device of power station of exhaust efficiency, Be characterized in that: the sprue (4) is that card slot connects, and sprue (4) monomer passes through connection with the connection type on communicating pipe (3) top Plate (18) is interconnected to constitute an entirety, and sprue (4) passes through the first telescopic rod (5) free extension on communicating pipe (3).

4. one kind according to claim 1 can increase by zero bar of tank emptying waste-heat recovery device of power station of exhaust efficiency, Be characterized in that: the main body (6) includes shell (601), vacuum layer (602), thermal insulation layer (603) and drying layer (604), and shell (601), vacuum layer (602), thermal insulation layer (603) and drying layer (604) are sequentially distributed from outside to inside, and shell (601), vacuum Layer (602), thermal insulation layer (603) and the mutual connection type of drying layer (604) are to paste to connect.

5. one kind according to claim 1 can increase by zero bar of tank emptying waste-heat recovery device of power station of exhaust efficiency, Be characterized in that: the pressing plate (7) is slide construction, and pressing plate (7) and rubber block (8) being integrally formed in the inside of main body (6) Structure, and the inner surface of the outer surface of rubber block (8) and drying layer (604) fits closely.

6. one kind according to claim 1 can increase by zero bar of tank emptying waste-heat recovery device of power station of exhaust efficiency, Be characterized in that: the shape of the baffle (16) is disc, and baffle (16) is rotational structure in the inside of escape pipe (15).