CN105457958A - Energy saving system for bottle washing machine - Google Patents

Abstract

The invention discloses an energy saving system for a bottle washing machine. The energy saving system comprises a pre-sprinkling tank, a temperature increase pipeline, a heat exchanger and a temperature decrease pipeline. The temperature increase pipeline comprises a temperature increase water outflow pipeline and a temperature increase water inflow pipeline. The water inflow end of the temperature increase water inflow pipeline is connected with a water outlet of the pre-sprinkling tank. The water outflow end of the temperature increase water inflow pipeline is connected with a water inlet of a first heat exchange medium pipeline on the heat exchanger. The temperature increase water outflow pipeline is connected to the portion between a water outlet of the first heat exchange medium pipeline and a sprinkling head of the pre-sprinkling tank. The temperature increase pipeline is provided with a pre-sprinkling pump. The temperature decrease pipeline comprises a temperature decrease water outflow pipeline and a temperature decrease water inflow pipeline. The water inflow end of the temperature decrease water inflow pipeline is connected with a water outlet of an alkali tank on the lowest stream of the bottle washing machine. The water outflow end of the temperature decrease water inflow pipeline is connected with a water inlet of a second heat exchange medium pipeline on the heat exchanger. The temperature decrease water outflow pipeline is connected to the portion between a water outlet of the second heat exchange medium pipeline and a water inlet of the alkali tank of the lowest stream. The temperature decrease pipeline is provided with a loop sprinkling pump. By the adoption of the energy saving system, the temperature of discharged washed bottles is guaranteed and heat energy is effectively used.

Description

A kind of bottle washing machine energy conserving system

Technical field

The present invention relates to glass-bottle washing machine field, refer to a kind of bottle washing machine energy conserving system especially.

Background technology

Existing glass-bottle washing machine comprises several alkali grooves, vial is in whole cleaning process, successively through pre-spray, first alkali groove, second alkali groove, 3rd alkali groove, until the alkali groove of most downstream, vial early stage pre-spray and the first alkali groove in temperature decline very fast, and the temperature of vial can raise gradually in the alkali groove in downstream, the more and more temperature of the previous alkali groove of convergence, rear part temperature is caused to raise, the structure of existing bottle washing machine is not owing to having energy conserving system, cause the problem of two aspects: first, the temperature of the alkali groove of most downstream is higher, final bottle outlet temperature is easily caused to raise, filling bottle explosion probability is finally caused to increase, on the other hand, anterior pre-spray temperature declines too fast, and the temperature of vial rises in alkali groove subsequently, thus causes the waste pre-spray in early stage being waited to heat energy.

Summary of the invention

Technical problem to be solved by this invention is: provide a kind of bottle washing machine energy conserving system, and this energy conserving system achieves the effective utilization to heat energy on the one hand, ensure that the bottle outlet temperature after wash bottle on the other hand, solves the problem that bottle outlet temperature is too high in the past.

For solving the problems of the technologies described above, technical scheme of the present invention is: a kind of bottle washing machine energy conserving system, comprise pre-spray groove, warming pipeline, heat exchanger and cooling pipeline, described warming pipeline comprises intensification outlet conduit and intensification inlet channel, the water inlet end of described intensification inlet channel is connected with the delivery port of pre-spray groove, the water side of described intensification inlet channel is connected with the water inlet of the first heat transferring medium pipeline on heat exchanger, described intensification outlet conduit is connected between the delivery port of the first heat transferring medium pipeline and the spray head of pre-spray groove, described warming pipeline is provided with pre-spray pump, described cooling pipeline comprises cooling outlet conduit and cooling inlet channel, the described water inlet end of cooling inlet channel is connected with the delivery port of the alkali groove of the most downstream of bottle washing machine, the cooling water side of inlet channel is connected with the water inlet of the second heat transferring medium pipeline on heat exchanger, described cooling outlet conduit is connected between the water inlet of the delivery port of the second heat transferring medium pipeline and the alkali groove of most downstream, described cooling pipeline is provided with loop spray pump.

As the preferred scheme of one, described energy conserving system also comprises spray loop, and the water inlet in this spray loop to be connected on cooling pipeline and to be positioned at the downstream of loop spray pump delivery port, and the delivery port in described spray loop is connected with the spray head of the alkali groove of most downstream.

As the preferred scheme of one, described loop spray pump is arranged on cooling inlet channel, and the water inlet in described spray loop is arranged between the water inlet of loop spray pump delivery port and the second heat transferring medium pipeline.

As the preferred scheme of one, described heat exchanger is plate type heat exchanger.

As the preferred scheme of one, the caliber of described cooling pipeline is more than or equal to the caliber in spray loop.

As the preferred scheme of one, described pre-spray pump is arranged on intensification inlet channel, and this intensification inlet channel is provided with the first filter, and described first filter bits is in the upstream of the water inlet of pre-spray pump.

As the preferred scheme of one, described cooling inlet channel is provided with the second filter, this second filter bits is in the upstream of the water inlet of loop spray pump.

As the preferred scheme of one, the outside in described warming pipeline, cooling pipeline, spray loop is all coated with insulation material.

After have employed technique scheme, the invention has the beneficial effects as follows: due to a kind of bottle washing machine energy conserving system, comprise pre-spray groove, warming pipeline, heat exchanger and cooling pipeline, described warming pipeline comprises intensification outlet conduit and intensification inlet channel, the water inlet end of described intensification inlet channel is connected with the delivery port of pre-spray groove, the water side of described intensification inlet channel is connected with the water inlet of the first heat transferring medium pipeline on heat exchanger, described intensification outlet conduit is connected between the delivery port of the first heat transferring medium pipeline and the spray head of pre-spray groove, described warming pipeline is provided with pre-spray pump, described cooling pipeline comprises cooling outlet conduit and cooling inlet channel, the described water inlet end of cooling inlet channel is connected with the delivery port of the alkali groove of the most downstream of bottle washing machine, the cooling water side of inlet channel is connected with the water inlet of the second heat transferring medium pipeline on heat exchanger, described cooling outlet conduit is connected between the water inlet of the delivery port of the second heat transferring medium pipeline and the alkali groove of most downstream, described cooling pipeline is provided with loop spray pump, while bottle washing machine wash bottle, warming pipeline, constantly heat exchange is carried out by heat exchanger between cooling pipeline, thus raise the temperature of pre-spray groove, reduce the temperature of the alkali groove of most downstream, this energy conserving system achieves on the one hand and utilizes the Efficient Cycle of heat energy, ensure that the bottle outlet temperature after wash bottle on the other hand, solve the problem that bottle outlet temperature is too high in the past.

Again because described energy conserving system also comprises spray loop, the water inlet in this spray loop to be connected on cooling pipeline and to be positioned at the downstream of loop spray pump delivery port, the delivery port in described spray loop is connected with the spray head of the alkali groove of most downstream, and spray loop can regulate with the use of the temperature jointly completed the alkali groove of most downstream with cooling pipeline.

Again because described heat exchanger is plate type heat exchanger, heat exchange efficiency is high, heat loss is little, advantages of compact and light structure, installation easy to clean, long service life.

Again because the caliber of described cooling pipeline is more than or equal to the caliber spraying loop, choose reasonable can be carried out for the different demands of bottle outlet temperature.

Again because described pre-spray pump is arranged on intensification inlet channel, this intensification inlet channel is provided with the first filter, described first filter bits, in the upstream of the water inlet of pre-spray pump, can effectively avoid pre-spray pump because of the problem of impurity generation blocking.

Again due to described cooling inlet channel being provided with the second filter, this second filter bits, in the upstream of the water inlet of loop spray pump, can effectively avoid loop spray pump because of the problem of impurity generation blocking.

Again because the outside in described warming pipeline, cooling pipeline, spray loop is all coated with insulation material, avoid unnecessary heat losses, be conducive to realizing making full use of of heat energy.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the invention will be further described.

Fig. 1 is the structural representation of the embodiment of the present invention;

In accompanying drawing: 1. pre-spray groove; 2. warming pipeline; 21. intensification inlet channels; 22. intensification outlet conduits; 3. heat exchanger; 4. cooling pipeline; 41. cooling inlet channels; 42. cooling outlet conduits; 5. spray loop; 6. pre-spray pump; 7. the alkali groove of most downstream; 8. loop spray pump; 9. the first filter; 10. the second filter.

Detailed description of the invention

Below by specific embodiment, a kind of bottle washing machine energy conserving system of the present invention is described in further detail.

As shown in Figure 1, a kind of bottle washing machine energy conserving system, comprise pre-spray groove 1, warming pipeline 2, heat exchanger 3 and cooling pipeline 4, described warming pipeline 2 comprises intensification outlet conduit 22 and intensification inlet channel 21, the water inlet end of described intensification inlet channel 21 is connected with the delivery port of pre-spray groove 1, the water side of described intensification inlet channel 21 is connected with the water inlet of the first heat transferring medium pipeline on heat exchanger 3, described intensification outlet conduit 22 is connected between the delivery port of the first heat transferring medium pipeline and the spray head of pre-spray groove 1, described warming pipeline 2 is provided with pre-spray pump 6, described cooling pipeline 4 comprises cooling outlet conduit 42 and cooling inlet channel 41, the described water inlet end of cooling inlet channel 41 is connected with the delivery port of the alkali groove 7 of the most downstream of bottle washing machine, the cooling water side of inlet channel 41 is connected with the water inlet of the second heat transferring medium pipeline on heat exchanger 3, described cooling outlet conduit 42 is connected between the water inlet of the delivery port of the second heat transferring medium pipeline and the alkali groove 7 of most downstream, described cooling pipeline 4 is provided with loop spray pump 8.

In the present embodiment, described energy conserving system also comprises spray loop 5, the water inlet in this spray loop 5 to be connected on cooling pipeline 4 and to be positioned at the downstream of loop spray pump 8 delivery port, the delivery port in described spray loop 5 is connected with the spray head of the alkali groove 7 of most downstream, described loop spray pump 8 is arranged on cooling inlet channel 41, the water inlet in described spray loop 5 is arranged between the water inlet of loop spray pump 8 delivery port and the second heat transferring medium pipeline, described heat exchanger 3 is plate type heat exchanger 3, and the caliber of described cooling pipeline 4 is more than or equal to the caliber in spray loop 5.

Described pre-spray pump 6 is arranged on intensification inlet channel 21, this intensification inlet channel 21 is provided with the first filter 9, described first filter 9 is positioned at the upstream of the water inlet of pre-spray pump 6, described cooling inlet channel 41 is provided with the second filter 10, this the second filter 10 is positioned at the upstream of the water inlet of loop spray pump 8, and the outside in described warming pipeline 2, cooling pipeline 4, spray loop 5 is all coated with insulation material.

While bottle washing machine wash bottle, warming pipeline 2, constantly heat exchange is carried out by plate type heat exchanger 3 between cooling pipeline 4, the water outlet of the alkali groove 7 of most downstream is after the second filter 10 filters, a part is directly sprayed vial to be washed by spray loop 5, another part is lowered the temperature by plate type heat exchanger 3, pre-spray groove 1 is then heated up by plate type heat exchanger 3 after the first filter 9 filters again, then vial to be washed is sprayed, by this kind of mode, unnecessary heat in the alkali groove 7 of most downstream is passed to pre-spray groove 1, thus raise the temperature of pre-spray groove 1, reduce the temperature of the alkali groove 7 of most downstream, this energy conserving system structure is simple, ensure that the bottle outlet temperature after wash bottle on the one hand, avoid occurring bottle explosion phenomenon, achieve on the other hand and the Efficient Cycle of heat energy is utilized, solve the problem that bottle outlet temperature is too high in the past.

The above is only the preferred embodiment of the present invention, protection scope of the present invention be not only confined to above-described embodiment, and all technical schemes belonged under thinking of the present invention all belong to protection scope of the present invention.It should be pointed out that for those skilled in the art, some improvements and modifications without departing from the principles of the present invention, these improvements and modifications also should be considered as protection scope of the present invention.

Claims (8)

1. a bottle washing machine energy conserving system, it is characterized in that: comprise pre-spray groove, warming pipeline, heat exchanger and cooling pipeline, described warming pipeline comprises intensification outlet conduit and intensification inlet channel, the water inlet end of described intensification inlet channel is connected with the delivery port of pre-spray groove, the water side of described intensification inlet channel is connected with the water inlet of the first heat transferring medium pipeline on heat exchanger, described intensification outlet conduit is connected between the delivery port of the first heat transferring medium pipeline and the spray head of pre-spray groove, described warming pipeline is provided with pre-spray pump, described cooling pipeline comprises cooling outlet conduit and cooling inlet channel, the described water inlet end of cooling inlet channel is connected with the delivery port of the alkali groove of the most downstream of bottle washing machine, the cooling water side of inlet channel is connected with the water inlet of the second heat transferring medium pipeline on heat exchanger, described cooling outlet conduit is connected between the water inlet of the delivery port of the second heat transferring medium pipeline and the alkali groove of most downstream, described cooling pipeline is provided with loop spray pump.

2. a kind of bottle washing machine energy conserving system as claimed in claim 1, it is characterized in that: described energy conserving system also comprises spray loop, the water inlet in this spray loop to be connected on cooling pipeline and to be positioned at the downstream of loop spray pump delivery port, and the delivery port in described spray loop is connected with the spray head of the alkali groove of most downstream.

3. a kind of bottle washing machine energy conserving system as claimed in claim 2, is characterized in that: described loop spray pump is arranged on cooling inlet channel, and the water inlet in described spray loop is arranged between the water inlet of loop spray pump delivery port and the second heat transferring medium pipeline.

4. a kind of bottle washing machine energy conserving system as claimed in claim 3, is characterized in that: described heat exchanger is plate type heat exchanger.

5. a kind of bottle washing machine energy conserving system as claimed in claim 4, is characterized in that: the caliber of described cooling pipeline is more than or equal to the caliber in spray loop.

6. a kind of bottle washing machine energy conserving system as claimed in claim 5, it is characterized in that: described pre-spray pump is arranged on intensification inlet channel, this intensification inlet channel is provided with the first filter, and described first filter bits is in the upstream of the water inlet of pre-spray pump.

7. a kind of bottle washing machine energy conserving system as claimed in claim 6, it is characterized in that: described cooling inlet channel is provided with the second filter, this second filter bits is in the upstream of the water inlet of loop spray pump.

8. a kind of bottle washing machine energy conserving system as claimed in claim 7, is characterized in that: the outside in described warming pipeline, cooling pipeline, spray loop is all coated with insulation material.