CN203978774U - A kind of new type compressor - Google Patents

Abstract

The utility model discloses a kind of new type compressor, its technological points is: comprise compressor body and cooling tower, between described compressor body and cooling tower, by intake pipe and outlet pipe, be connected, it is characterized in that: on described compressor body, be provided with the first pipeline and second pipe, the other end of the other end of described the first pipe sealing and second pipe sealing is connected with intake pipe and outlet pipe respectively, and described the first pipeline and second pipe are connected by several the 3rd pipelines.By this set, increased the pipeline area in compressor, make the cooling water temperature that better cooling compressor produces in compressor, thereby avoid compressor to produce the phenomenon of high temperature stop jumping.The utility model is applicable to a kind of new type compressor.

Description

A kind of new type compressor

Technical field

The utility model relates to Compressor Technology field, especially relates to a kind of new type compressor.

Background technique

Air compressor (also claiming compressor) is to utilize the principle rotatablely moving with to-and-fro motion conversion, rotatablely moving of power equipment is converted to the to-and-fro motion of piston, utilizes piston to the air acting in cylinder, realizes the compression to air.In the process of compressor compresses air, compressor block can produce a large amount of heats, the operation of compressor long term high temperature, gently cold oil cracking, heavy oil-way system coking main frame is killed, and equipment moves for a long time under high exhaust temperature state, can cause reduce working life.High temperature has directly affected the life-span of compressor part, and even loss compressor, when excess Temperature chaser, can cause the interruption of production, causes huge loss.

Therefore a hydrologic cycle cooling system can be set when compressor operating, by hydrologic cycle cooling system, reduce the temperature producing in compressor operating process.

Application number is that 201320573174 patent documentation discloses a kind of compressor cooling water circulatory system, comprise compressor and cooling tower, between described compressor and cooling tower, by intake pipe, be connected, on described compressor, be provided with outlet pipe, described outlet pipe below is provided with water receiving funnel, between described water receiving funnel and cooling tower, by return pipe, be connected, utilize the cooling water in cooling tower to carry out cooling to compressor, but most of water cooled compressor is due to the pipeline being arranged in compressor in the market, just simply along rectilinear direction setting, cooling water is entered in compressor and from outlet pipe and is flowed out by intake pipe, when compressor temperature is higher, the effective cooling area of the pipeline that rectilinear direction arranges in compressor is limited, make the cooling effect of cooling water also not reach the zone of reasonableness that can keep compressor operating, make compressor operating for a long time in the condition of high temperature, thereby have influence on the working life of compressor.

Model utility content

The deficiency existing for prior art, it is a kind of in compressor operating running that the purpose of this utility model is to provide, can be by increasing the area of pipeline on compressor, make the cooling water temperature that effectively cooling compressor produces, thereby can effectively reduce the new type compressor of compressor temperature.

For achieving the above object, the utility model provides following technological scheme: comprise compressor body and cooling tower, between described compressor body and cooling tower, by intake pipe and outlet pipe, be connected, it is characterized in that: on described compressor body, be provided with the first pipeline and second pipe, the other end of the other end of described the first pipe sealing and second pipe sealing is connected with intake pipe and outlet pipe respectively, and described the first pipeline and second pipe are connected by several the 3rd pipelines.

By adopting technique scheme, in compressor body running, compressor body can produce a large amount of heats by pressurized air, through cooling tower cooling water out, through intake pipe, be first transferred in compressor, by be provided with the first pipeline in compressor body, second pipe and the 3rd pipeline, thereby increased the area of contact of pipeline in compressor body, strengthened the cooling effect of water quench compressor body, thereby the heat that cooling water can produce compressor by heat conducting mode in pipeline is delivered in cooling water, by making the water temperature of cooling water increase, reduce the temperature of compressor body, through cooled cooling water, through outlet pipe, flow in cooling tower, cooling water water temperature after supercooling is reduced, and then it is cooling by intake pipe, to enter compressor, repeat last time cooling, thereby reached the object of circulating cooling compressor body.

The utility model is further set to: described the first pipeline and second pipe be arranged in parallel, and described the 3rd pipeline is evenly distributed between the first pipeline and second pipe.

By adopting technique scheme, cooling water in entering compressor body is passed through after the first pipeline, can flow into several the 3rd pipelines that arrange on the first pipeline, and be finally pooled to second pipe, through outlet pipe, finally flow in cooling tower, in whole process, by the first pipeline, second pipe and the 3rd pipeline that arrange at compressor, increase the film-cooled heat of cooling water, thereby reached the object of better cooling compressor body.

The utility model is further set to: in described cooling tower, be provided with water pump, described water pump one end is connected with outlet pipe, and the other end is provided with the atomization spray cap for atomization cooling water, and the shower nozzle direction of described atomization spray cap is over against cooling tower.

By adopting technique scheme, cooling water after cooling compressor body, through outlet pipe, flow to cooling tower, at water pump by being under mechanical energy by electric energy conversion, cooling water in pipeline is passed through after the effect of water pump, the cooling water of high-voltage high-speed is through atomization spray nozzle device, can form tiny vaporific particle, thereby increased the area that cooling water contacts in air, can better by air, water quench be got off, and it is cooling again to pass through cooling tower, thereby effectively reduce the temperature of cooling water.

The utility model is further set to: described intake pipe is provided with water scale removing device, described water scale removing device is disposed with the first filtration tank body, second from cooling tower to compressor body and filters tank body and the 3rd filtration tank body, and described the first filtration tank body, second filters in tank body and the 3rd filtration tank body and is filled to respectively Barium Chloride crystal, crystals of sodium carbonate and sodium hydroxide crystal.

By adopting technique scheme, the cooling water that enters water scale removing device enters in the first filtration tank body in advance, by the Barium Chloride crystal that arranges in the first filtration tank body and the sulphur radical ion in cooling water, react, generate barium sulfate precipitate, thereby reach the effect of removing sulphur radical ion, after removing sulphur radical ion, cooling water enters in the second filtration tank body, by the crystals of sodium carbonate that arranges in the second filtration tank body and the calcium ion in cooling water and first, filtering the barium ions that tank body brings out reacts, generate calcium carbonate and barium carbonate sediment, to reach the effect of removing calcium ion and barium ions, after cooling water is removed calcium ion and barium ions, entering into the 3rd filters in tank body, by the sodium hydroxide crystal that arranges in the 3rd filter tank body and the magnesium ion in cooling water, react, the magnesium hydrate precipitate generating, to reach the effect of removing magnesium ion, cooling water is after the filtration of water scale removing device like this, removed the calcium ion in cooling water, magnesium ion and various sulfate ion, thereby avoided producing the phenomenon of incrustation scale in pipeline.

The utility model is further set to: described the first filtration tank body, second filters tank body and by single piece type valve, is connected with intake pipe respectively with the 3rd two ends of filtering tank body.

By adopting technique scheme, after longer a period of time of filtrating equipment work, first filters tank body, the second strainability that filters the filtrate of filling in tank body and the 3rd filtration tank body can reduce gradually, do not reach the effect of again filtering, at this moment can pass through the first filtration tank body, the second single piece type valve that filters tank body and the 3rd filtration tank body both sides disassembles, make the first filtration tank body, second filters tank body separates with the pipeline being connected with the 3rd two ends of filtering tank body, make the first filtration tank body, the second filtration tank body and the 3rd filtering tank body can take off separately, thereby can change the filtrate in tank body, after having changed filtrate, after single piece type valve installation is good, make the first filtration tank body, second filters tank body and the 3rd filtration tank body and pipeline connects, thereby when changing filtrate, needs can facilitate, installing/dismounting tank body efficiently.

Accompanying drawing explanation

Fig. 1 is a kind of new type compressor structural drawing of the utility model;

Fig. 2 is A place enlarged view in Fig. 1;

Fig. 3 is B place enlarged view in Fig. 1.

In figure: 1, compressor body; 2, cooling tower; 3, intake pipe; 4, outlet pipe; 5, the first pipeline; 6, second pipe; 7, the 3rd pipeline; 8, through hole; 9, water pump; 10, mist is through shower nozzle; 11, first filter tank body; 12, second filter tank body; 13, the 3rd filter tank body; 14, single piece type valve.

Embodiment

With reference to Fig. 1, new type compressor structural drawing described in Fig. 2 and Fig. 3, comprise compressor body 1 and cooling tower 2, between described compressor body 1 and cooling tower 2, by intake pipe 3, be connected, on described compressor body 1, be provided with outlet pipe 4, described outlet pipe 4 is connected with cooling tower 2, on described compressor body 1, be provided with the first pipeline 5 and second pipe 6, one end of described the first pipeline 5 and second pipe 6 is connected with intake pipe 3 and intake pipe 4 respectively, the other end of described the first pipeline 5 and second pipe 6 all seals setting, described the first pipeline 5 and second pipe 6 are communicated with by the 3rd pipeline 7.

Described the first pipeline 5 and second pipe 6 be arranged in parallel, and described the 3rd pipeline 7 is evenly distributed on 6 of the first pipeline 5 and second pipes.

In described cooling tower 2, be provided with water pump 9, described water pump 9 one end are connected with outlet pipe 3, and the described the other end is provided with the atomization spray cap 10 for atomization cooling water, and the shower nozzle direction of described atomization spray cap 10 is over against cooling tower 2.

Described intake pipe 3 is provided with water scale removing device, described water scale removing device is disposed with the first filtration tank body 11, second from cooling tower 2 to compressor body 1 and filters tank body 12 and the 3rd filtration tank body 13, and described first filters tank body 11, second filters tank body 12 and interior Barium Chloride crystal, crystals of sodium carbonate and the sodium hydroxide crystal of being filled to respectively of the 3rd filtration tank body 13.

Described the first filtration tank body 11, second filters tank body 12 and by single piece type valve 14, is connected with intake pipe 3 respectively with the 3rd two ends of filtering tank body 13.

In compressor body 1 running, first the cooling water coming from intake pipe 3 transmission passes through water scale removing device, cooling water is entered from the first filtration tank body 11, the second filtration tank body 12 and the 3rd water intake that filters tank body 13 respectively, then from the first filtration tank body 11, second, filter the water outlet outflow that tank body 12 and the 3rd filters tank body 13 respectively, making cooling water filter tank body 12 and the 3rd at the first filtration tank body 11, second filters in tank body 13 mobile from the bottom up, to increase the area of contact of cooling water and filtrate, thereby can strengthen filtering effect.

The cooling water entering in water scale removing device contains calcium ion, magnesium ion and various sulfate ion, cooling water enters in the first filtration tank body 11 in advance, by the first filtration tank body 11 is interior, arrange after material baffle, contact with Barium Chloride crystal, make the sulphur radical ion generation chemical reaction in Barium Chloride crystal and cooling water, generate barium sulfate precipitate, thereby reach the effect of removing sulfate ion, after removing sulfate ion, cooling water enters in the second filtration tank body 12, by the second filtration tank body 12 is interior, arrange after material baffle, contact with crystals of sodium carbonate, make the calcium ion and first in crystals of sodium carbonate and cooling water filter the barium ions generation chemical reaction that tank body 11 brings out, generate calcium carbonate and barium carbonate sediment, to reach the effect of removing calcium ion and barium ions, after cooling water is removed calcium ion and barium ions, entering into the 3rd filters in tank body 13, after material baffle by the 3rd filter tank body 13 interior settings, contact with sodium hydroxide crystal, make the magnesium ion generation chemical reaction in sodium hydroxide crystal and cooling water, generate magnesium hydrate precipitate, to reach the effect of removing magnesium ion, cooling water is after the filtration of water scale removing device like this, removed the calcium ion in cooling water, magnesium ion and various sulfate ion.

Cooling water flows to the first pipeline 5 from water scale removing device flows out, on the first pipeline 5, be provided with several through holes 8, the 3rd pipeline 7 is connected between the first pipeline 5 and second pipe 6, cooling water in the first pipeline 5 can be flow in the 3rd a plurality of pipeline 7 of quantity, and finally come together in the rear outflow compressor 1 of second pipe 6, by be provided with the first pipeline 5 in compressor body 1, second pipe 6 and the 3rd pipeline 7, thereby increased the film-cooled heat of cooling water in compressor body 1, heat by heat is conducted, by making the water temperature of cooling water increase, reduce the temperature of compressor, thereby can effectively reduce the temperature that compressor body 1 produces.

The cooled cooling water water temperature of process is in higher temperature, from flowing out, compressor body 1 flow in outlet pipe 4, by water pump 9, by electric energy conversion, be mechanical energy, make cooling water to form high-voltage high-speed shape cooling water after the effect of water pump 9, and finally by atomization spray cap 10, spray, thereby at the vaporific cooling water of the interior formation of cooling tower 2, increased the area of contact of cooling water in air, can effectively by air cooling, carry out cooling cooling water, and by the effect of water pump 9, accelerated the flow velocity of cooling water in pipeline, cooling water is increased with the area of contact of compressor 1 within the unit time, effective cooling compressor.

Simultaneously, (the calcium ion containing in due to water after longer a period of time of water scale removing device work, magnesium ion and various sulfate ion are all trace, so filtrate can be filtered long period of time), first filters tank body 11, the second strainability that filters the filtrate of tank body 12 and the 3rd filtration tank body 13 interior fillings can reduce gradually, do not reach the effect of again filtering, at this moment can be by single piece type valve 14 be disassembled, make the first filtration tank body 11, the second filtration tank body 12 and the 3rd filters tank body 13 and takes off separately, thereby can change the filtrate in tank body, after having changed filtrate, single piece type valve 14 is being installed, make the first filtration tank body 11, second filters tank body 12 and the 3rd filtration tank body 13 and intake pipe 3 connects, thereby can facilitate, change efficiently filtrate.

Below be only preferred implementation of the present utility model, protection domain of the present utility model is also not only confined to above-described embodiment, and all technological schemes belonging under the utility model thinking all belong to protection domain of the present utility model.It should be pointed out that for those skilled in the art, in the some improvements and modifications that do not depart under the utility model principle prerequisite, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims (5)

1. a new type compressor, comprise compressor body and cooling tower, between described compressor body and cooling tower, by intake pipe and outlet pipe, be connected, it is characterized in that: on described compressor body, be provided with the first pipeline and second pipe, the other end of the other end of described the first pipe sealing and second pipe sealing is connected with intake pipe and outlet pipe respectively, and described the first pipeline and second pipe are connected by several the 3rd pipelines.

2. a kind of new type compressor according to claim 1, is characterized in that: described the first pipeline and second pipe be arranged in parallel, and described the 3rd pipeline is evenly distributed between the first pipeline and second pipe.

3. a kind of new type compressor according to claim 2, it is characterized in that: in described cooling tower, be provided with water pump, described water pump one end is connected with outlet pipe, and the other end is provided with the atomization spray cap for atomization cooling water, and the shower nozzle direction of described atomization spray cap is over against cooling tower.

4. a kind of new type compressor according to claim 3, it is characterized in that: described intake pipe is provided with water scale removing device, described water scale removing device is disposed with the first filtration tank body, second from cooling tower to compressor and filters tank body and the 3rd filtration tank body, and described the first filtration tank body, second filters in tank body and the 3rd filtration tank body and is filled to respectively Barium Chloride crystal, crystals of sodium carbonate and sodium hydroxide crystal.

5. a kind of new type compressor according to claim 4, is characterized in that: described the first filtration tank body, second filters tank body and by single piece type valve, is connected with intake pipe respectively with the 3rd two ends of filtering tank body.