CN208536098U - Cogenerator - Google Patents

Abstract

The utility model relates to a kind of cogenerators, cooling circuit including power generator, plate heat exchanger and connection between power generator and plate heat exchanger, the structure of voltage regulation for adjusting pressure in cooling circuit is communicated on the cooling circuit, it can conveniently adjust the pressure in cooling circuit by structure of voltage regulation, so that equipment can work normally.

Description

Cogenerator

Technical field

The utility model relates to generating set, in particular to a kind of cogenerator.

Background technique

Cogenerator refers to using combustion gas as the energy, can meet cold (heat) in the building of region, electricity demanding simultaneously A kind of energy supply device is placed with supply cold, heat and electricity triple supply jet dynamic control, cool and thermal power in cogenerator cabinet Trilogy supply jet dynamic control is usually made of generating set, lithium bromide absorption cold (heat) water dispenser group and heat exchange equipment.

The patent that Authorization Notice No. is CN100570230C discloses a kind of cogeneration system, including power generator, use The cooling circuit of the cooling power generator of 1st thermal medium, the heat exchanger being arranged on cooling circuit, in use, the 1st thermal medium will It is flowed in cooling circuit, handle in heat exchanger will be entered after the heat absorption of power generator sending subsequently into power generator Heat sheds, and the 1st thermal medium, which is returned in cooling circuit, later cools down power generator, but cooling circuit and power generation fill Set and heat exchanger between the circuit that forms be loop, and the 1st thermal medium its volume after heated can change, together When have the 1st medium of part that can evaporate, temperature is will lead to after rising in circuit between cooling circuit, power generator and heat exchanger Pressure increase, and power generator and heat exchanger long-term work are easy to cause power generator or heat exchanger to send out in high pressure conditions Raw damage, so that the service life of equipment reduces.

Utility model content

The purpose of this utility model is to provide a kind of cogenerators, have pressure size in adjustable cooling circuit Avoid the advantage that pressure is excessive in cooling circuit.

The above-mentioned technical purpose of the utility model has the technical scheme that a kind of cogeneration dress It sets, the cooling circuit including power generator, plate heat exchanger and connection between power generator and plate heat exchanger, the cooling The structure of voltage regulation for adjusting pressure in cooling circuit is communicated on circuit.

Through the above technical solutions, the heat that power generator issues will be cooled the cooling liquid in circuit when work It absorbs, the cooling liquid for absorbing heat later, which will enter, carries out heat exchange in plate heat exchanger, so that the portion in cooling liquid Heat is divided to shed, but with the increase of working time, the temperature of cooling liquid will be will increase, at this time the pressure in cooling circuit It will will increase, due to being communicated with structure of voltage regulation on cooling circuit, structure of voltage regulation experiences pressure change in cooling circuit at this time The pressure in cooling circuit will be adjusted afterwards, so that the pressure in cooling circuit is kept in a certain range, to a certain degree On avoid the case where damaging power generator or plate heat exchanger.

Preferably, the structure of voltage regulation includes vacuum tank and is slidably arranged in vacuum tank for vacuum tank to be divided into two The piston of a isolation cavity, described vacuum tank one end are provided with pressure stabilizing outlet, and the piston deviates from pressure stabilizing outlet end and vacuum tank Between be provided with the elastic component having for making piston always to pressure stabilizing outlet end movement tendency, the pressure stabilizing outlet and cooling Circuit communication.

Through the above technical solutions, the cooling liquid in part when using in cooling circuit will export disengaging pressure stabilizing by pressure stabilizing Tank, the cooling liquid when the pressure in cooling circuit increases in cooling circuit will push piston motion, and piston will push at this time Elastic component movement, the cavity volume that vacuum tank is used to fill cooling liquid in the process becomes larger, so that the pressure in cooling circuit Become smaller, avoid the pressure in cooling circuit excessive, when adjusting does not need manual adjustment, whole pressure automatic adjustment, governing response Speed is fast.

Preferably, the pressure stabilizing exit is provided with screw nipple, and the cooling circuit passes through connecting pipe and screw thread Connecting tube is detachably connected.

Through the above technical solutions, repairing vacuum tank for convenience, will be detachably connected between vacuum tank and cooling circuit, It can be convenient by screw nipple is arranged on vacuum tank and dismantle vacuum tank.

Preferably, the elastic component is spring, and the spring one end connect the other end with vacuum tank and connect with piston.

Through the above technical solutions, elastic range is big when spring works, while long service life when in use, it is very suitable to Used in this place for needing to automatically adjust.

Preferably, the vacuum tank with it is piston-shaped be it is cylindric, the vacuum tank is provided with away from pressure stabilizing outlet end For deviating from the conflict block that pressure stabilizing outlet end contradicts with piston, the piston goes out away from pressure stabilizing when the piston is with conflict block conflict Mouth end and vacuum tank are greater than the minimum active length of spring away from the distance between pressure stabilizing outlet end.

Through the above technical solutions, columned vacuum tank is more convenient when using, while also facilitating manufacture during fabrication, Since there is spring elastic limit to be provided with conflict in vacuum tank in order to avoid spring movement is to being more than elastic limit Block avoids spring from being compressed into and is more than most short active length, spring is protected, so that spring is not susceptible to plasticity shape by conflict block Become.

Preferably, the cooling system for cooling down to the cooling liquid in cooling circuit is communicated on the cooling circuit.

Through the above technical solutions, the heat in cooling circuit will be unable to change by board-like when not needing using heat Hot device sheds, and at this time in order to guarantee that power generator normal work needs to radiate to the cooling liquid in cooling circuit, passes through Cooling system can guarantee the proper heat reduction when not needing using heat, so that equipment can work normally.

Preferably, the cooling system includes cooling water tank and the cooling fan that is arranged on cooling water tank, the heat dissipation Water tank is connected in parallel in the cooling circuit, and the cooling water tank and cooling circuit connectivity part are provided with solenoid valve.

Through the above technical solutions, cooling down liquid at this time will enter in cooling water tank in use, solenoid valve is opened, Meeting under the action of radiator fan is so that the heat in cooling liquid quickly sheds, again into cooling after chilled liquid temperature reduces It radiates in circuit to power generator, when use, is simple and convenient, it does not need using closing solenoid valve when cooling system, this When the heat in cooling liquid can be utilized by plate heat exchanger.

Preferably, the flange collar concentric with vacuum tank is provided with along pressure stabilizing tank wall on the vacuum tank, around vacuum tank It is provided with for the fixed plate that vacuum tank is fixed, the fixed plate is semi-circular, and two free end of fixed plate is provided with folding Side is provided with fixation hole on the flanging, and the groove for flange collar insertion is provided in the fixed plate.

Through the above technical solutions, needing to fix vacuum tank, passing through fixed plate in order to avoid equipment shaking when using It can facilitate and vacuum tank is fixed up, passing through flange collar and groove after fixed can make vacuum tank will not be along the axial direction of vacuum tank Movement, it is more stable after fixed.

In conclusion the utility model having the beneficial effect that in contrast to the prior art

(1) it can conveniently adjust the pressure in cooling circuit by structure of voltage regulation, it is ensured that the pressure in cooling circuit is in Normal range (NR) avoids equipment from damaging because pressure is excessive；

(2) cooling system, which can be convenient, radiates to the cooling liquid in cooling circuit so that heat do not need it is sharp Used time sheds in time, guarantees that temperature is in normal range (NR) when equipment work.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor Under, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is the schematic diagram of embodiment；

Fig. 2 is the cross-sectional view of vacuum tank, the structure inside main prominent vacuum tank；

Fig. 3 is the structural schematic diagram of vacuum tank, the structure of main prominent fixed plate.

Appended drawing reference: 1, power generator；2, plate heat exchanger；3, cooling circuit；4, structure of voltage regulation；411, vacuum tank； 412, piston；5, pressure stabilizing exports；6, spring；7, screw nipple；8, conflict block；9, cooling water tank；10, cooling fan；11, convex Circle；12, fixed plate；13, flanging；14, fixation hole；15, groove.

Specific embodiment

The utility model is described in further detail below in conjunction with attached drawing.

This specific embodiment is only the explanation to the utility model, is not limitations of the present invention, ability Field technique personnel can according to need the modification that not creative contribution is made to the present embodiment after reading this specification, but As long as all by the protection of Patent Law in the scope of the claims of the utility model.

As shown in Figure 1, a kind of cogenerator, including power generator 1, plate heat exchanger 2 be connected in power generator 1 Cooling circuit 3 between plate heat exchanger 2, wherein power generator 1 includes jet dynamic control, and plate heat exchanger 2 is used to will The heat that jet dynamic control issues is utilized, and the utilization rate of heat is improved, in order to avoid the pressure in cooling circuit 3 is excessive It is communicated with structure of voltage regulation 4 on cooling circuit 3, the pressure size in cooling circuit 3 is adjusted by structure of voltage regulation 4 when use, really The pressure protected in cooling circuit 3 is in zone of reasonableness.

As shown in Figure 1, 2, wherein structure of voltage regulation 4 includes vacuum tank 411 and the piston being slidably arranged in vacuum tank 411 412, piston 412 completely cuts off vacuum tank 411 at two independent cavitys, and 411 one end of vacuum tank is provided with pressure stabilizing outlet 5, leads to It crosses pressure stabilizing outlet 5 to be connected to vacuum tank 411 with cooling circuit 3, is the by cavity that pressure stabilizing outlet 5 is connected to cooling circuit 3 One cavity, another cavity is the second cavity, since the first cavity is connected to cooling circuit 3, the pressure in the first cavity It is identical as the pressure in cooling circuit 3, spring 6 is provided in the second cavity, 6 one end of spring is connect with piston 412, the other end It is connect with vacuum tank 411, spring 6 is in compressive state always in use.

In use, 412 compressed spring 6 of piston will be pushed by cooling down liquid, so that connecing if the pressure of cooling circuit 3 increases The volume for entering the first cavity in cooling circuit 3 increases, and then reduces the pressure in cooling circuit 3, and then completes to adjust cooling The purpose of 3 pressure of circuit keeps the pressure in cooling circuit 3 in a certain range by piston 412 and spring 6, whole Pressure automatic adjustment, governing response speed are fast.

Vacuum tank 411 is cylindrical cavity, and piston 412 is provided with conflict block on the second cavity inner wall also to be cylindric 8, conflict block 8 is used to contradict with piston 412, the motion range of piston 412 is limited by conflict block 8, so that spring 6 is not easy to make Used time damages by pressure, repairs vacuum tank 411 for convenience, is welded with screw nipple 7 at pressure stabilizing outlet 5, and when use passes through screw thread Connecting tube 7 is connected to vacuum tank 411 with cooling circuit 3, need repairing vacuum tank 411 when, by vacuum tank 411 pass through screw thread connect Adapter tube 7 screws down.

As shown in Figure 2,3, wherein be provided with flange collar 11 on vacuum tank 411, flange collar 11 along vacuum tank 411 outer wall It is arranged and concentric with vacuum tank 411, in order to fix vacuum tank 411, vacuum tank 411 is provided with fixed plate 12, fixed plate 12 For vacuum tank 411 to be fixed on ground or rack, fixed plate 12 is semi-circular, and is arranged in 12 liang of free ends of fixed plate There is flanging 13, fixation hole 14 is provided on flanging 13, passing through fixation hole 14 by bolt when fixed can be fixed by fixed plate 12, Vacuum tank 411 is arranged fluted 15, when fixed plate 12 will be steady along its axial movement in fixed plate 12 in order to prevent when in use When tank 411 being pressed to surround, flange collar 11 will be in groove 15.

As shown in Figure 1, wherein be communicated with cooling system on cooling circuit 3, cooling system include cooling water tank 9 with it is cold But fan 10, cooling water tank 9 are closed cavity, are internally provided with several radiating fins in cooling water tank 9, radiating fin and are dissipated Boiler 9 connects, and when coolant liquid body is located in cooling water tank 9, cooling liquid will come into full contact with radiating fin, radiator fan On cooling water tank 9 and it is used to radiate to 9 surface of cooling water tank, in use, cooling water tank 9 is connected in parallel on cooling circuit In 3, cooling water tank 9 and 3 connectivity part of cooling circuit are provided with solenoid valve.

When not needing using heat, solenoid valve is opened, cooling down liquid at this time will enter in cooling water tank 9, cold at this time But the heat on liquid will be transferred on cooling water tank 9 by radiating fin, at this time under the action of radiator fan meeting so that dissipate The heat on 9 surface of boiler quickly sheds so that the temperature of cooling liquid reduces, after chilled liquid temperature reduces again into Enter in cooling circuit 3 and radiate to power generator 1, when use is simple and convenient, closes electromagnetism when not needing using cooling system Valve.

The above is only the exemplary embodiment of the utility model, the protection scope rather than limited the present invention, The protection scope of the utility model is determined by the attached claims.

Claims (8)

1. a kind of cogenerator, including power generator (1), plate heat exchanger (2) be connected in power generator (1) and board-like Cooling circuit (3) between heat exchanger (2), it is characterised in that: be communicated on the cooling circuit (3) for adjusting cooling circuit (3) structure of voltage regulation (4) of pressure in.

2. cogenerator according to claim 1, it is characterised in that: the structure of voltage regulation (4) includes vacuum tank (411) it and is slidably arranged in for vacuum tank (411) to be divided into the pistons (412) of two isolation cavitys in vacuum tank (411), Described vacuum tank (411) one end is provided with pressure stabilizing outlet (5), and the piston (412) is away from pressure stabilizing outlet (5) end and vacuum tank (411) be provided between be used for so that piston (412) always have to pressure stabilizing outlet (5) end motion trend elastic component, it is described Pressure stabilizing outlet (5) is connected to cooling circuit (3).

3. cogenerator according to claim 2, it is characterised in that: be provided with screw thread at the pressure stabilizing outlet (5) Connecting tube (7), the cooling circuit (3) are detachably connected by connecting pipe with screw nipple (7).

4. cogenerator according to claim 2, it is characterised in that: the elastic component is spring (6), the spring (6) one end connect the other end with vacuum tank (411) and connect with piston (412).

5. cogenerator according to claim 4, it is characterised in that: the vacuum tank (411) and piston (412) shape Shape be it is cylindric, the vacuum tank (411) away from pressure stabilizing outlet (5) end be provided with for going out with piston (412) away from pressure stabilizing The conflict block (8) that mouth (5) end contradicts, the piston (412) goes out away from pressure stabilizing when the piston (412) is with conflict block (8) conflict Mouthful (5) end is greater than the minimum active length of spring (6) with vacuum tank (411) away from the distance between pressure stabilizing outlet (5) end.

6. cogenerator according to claim 1, it is characterised in that: be communicated with and be used on the cooling circuit (3) The cooling system to cool down to the cooling liquid in cooling circuit (3).

7. cogenerator according to claim 6, it is characterised in that: the cooling system includes cooling water tank (9) With the cooling fan (10) being arranged on cooling water tank (9), the cooling water tank (9) is connected in parallel in the cooling circuit (3), institute It states cooling water tank (9) and cooling circuit (3) connectivity part is provided with solenoid valve.

8. cogenerator according to claim 5, it is characterised in that: along vacuum tank on the vacuum tank (411) (411) outer wall is provided with the flange collar (11) concentric with vacuum tank (411), is provided with around vacuum tank (411) for by vacuum tank (411) fixed fixed plate (12), the fixed plate (12) are semi-circular, and (12) two free end of fixed plate is provided with flanging (13), it is provided with fixation hole (14), is provided on the fixed plate (12) for the recessed of flange collar (11) insertion on the flanging (13) Slot (15).