CN204503636U - A kind of CIP purging system - Google Patents

Abstract

The utility model discloses a kind of CIP purging system, wherein total flow pipe switching valve is arranged on total flow pipe, the right-hand member of total flow pipe and the water inlet of water pump affixed, the delivery port of water pump is connected with heater by flexible pipe, one end of water inlet manifold is connected with heater by the mode of welding, the upper end of large tank water inlet pipe is connected with the other end of water inlet manifold by the mode of welding, the lower end of large tank water inlet pipe is connected with the large tank of 8T by the mode of welding, the upper end of canister water inlet pipe is connected with water inlet manifold by the mode of welding, the lower end of canister water inlet pipe is connected with 0.6T canister by the mode of welding, the upper end of large tank scavenge pipe is welded on the lower end of the large tank of 8T, the upper end of canister scavenge pipe is welded on the lower end of 0.6T canister.The utility model has that cleaning speed is fast, low power consumption and other advantages.

Description

A kind of CIP purging system

Technical field

The utility model relates to a kind of CIP purging system, is applied to milk manufacture field.

Background technology

In milk processing, some process equipments need to clean on the spot with hot water when inside is not opened, at present, main employing CIP purging system cleans these equipment, but this kind of model of large tank only adopting 8T is filled with in the cleaning of existing CIP purging system, then the water pot of 8 tons is directly communicated with equipment, after the complete equipment of each cleaning, just can then clean next equipment, therefore speed is slower, efficiency is low, and when cleaning some mini-plants, still need the water heating in whole large tank could be used for cleaning mini-plant completely, but clean the mini-plant water yield used and be less than again the water yield heated in large tank, thus cause the waste of electric energy.

Utility model content

For solving the defect of above-mentioned prior art, the utility model discloses the CIP purging system that a kind of cleaning speed is fast, energy consumption is low.

The utility model discloses a kind of CIP purging system, comprise: the large tank of 8T, 0.6T canister, water tank, total flow pipe, total flow pipe switching valve, water pump, large tank outlet pipe, large tank outlet pipe switching valve, canister outlet pipe, canister outlet pipe switching valve, heater, water inlet manifold, large tank water inlet pipe, large tank water inlet pipe switching valve, canister water inlet pipe, canister water inlet pipe switching valve, large tank scavenge pipe, large tank scavenge pipe switching valve, canister scavenge pipe, canister scavenge pipe switching valve, the left end of described water inlet manifold is connected with water tank by the mode of welding, described total flow pipe switching valve is arranged on total flow pipe, and the position of total flow pipe switching valve is near water tank, the right-hand member of described total flow pipe and the water inlet of water pump affixed, one end of described large tank outlet pipe is connected with the large tank of 8T by the mode of welding, the other end of described large tank outlet pipe is connected with total flow pipe by the mode of welding, and the junction of large tank outlet pipe and total flow pipe is on the right of total flow pipe switching valve, described large tank outlet pipe switching valve is arranged on large tank outlet pipe, and the position of large tank outlet pipe switching valve is near the large tank of 8T, one end of described canister outlet pipe is connected with 0.6T canister by the mode of welding, the other end of described canister outlet pipe is connected with total flow pipe by the mode of welding, and the junction of canister outlet pipe and total flow pipe is on the right of the junction of large tank outlet pipe and total flow pipe, described canister outlet pipe switching valve is arranged on canister outlet pipe, and the position of canister outlet pipe switching valve is near 0.6T canister, the delivery port of described water pump is connected with heater by flexible pipe, one end of described water inlet manifold is connected with heater by the mode of welding, the upper end of described large tank water inlet pipe is connected with the other end of water inlet manifold by the mode of welding, the lower end of described large tank water inlet pipe is connected with the large tank of 8T by the mode of welding, described large tank water inlet pipe switching valve is arranged on large tank water inlet pipe, the upper end of described canister water inlet pipe is connected with water inlet manifold by the mode of welding, the lower end of described canister water inlet pipe is connected with 0.6T canister by the mode of welding, described canister water inlet pipe switching valve is arranged on canister water inlet pipe, the upper end of described large tank scavenge pipe is welded on the lower end of the large tank of 8T, described large tank scavenge pipe switching valve is arranged on large tank scavenge pipe, the upper end of described canister scavenge pipe is welded on the lower end of 0.6T canister, described canister scavenge pipe switching valve is arranged on canister scavenge pipe.

Owing to adopting technique scheme, the utility model has following advantageous benefits:

1, cleaning speed is fast, and efficiency is high;

2, energy consumption is low.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of CIP purging system of the utility model.

Wherein: the large tank of 1-8T; 2-0.6T canister; 3-water tank; The total flow pipe of 4-; The total flow pipe switching valve of 5-; 6-water pump; The large tank outlet pipe of 7-; 8-large tank outlet pipe switching valve; 9-canister outlet pipe; 10-canister outlet pipe switching valve; 11-heater; 12-water inlet manifold; The large tank water inlet pipe of 13-; 14-large tank water inlet pipe switching valve; 15-canister water inlet pipe; 16-canister water inlet pipe switching valve; The large tank scavenge pipe of 17-; 18-large tank scavenge pipe switching valve; 19-canister scavenge pipe; 20-canister scavenge pipe switching valve.

Detailed description of the invention

As shown in Figure 1, the utility model discloses a kind of CIP purging system, comprise: the large tank 1 of 8T, 0.6T canister 2, water tank 3, total flow pipe 4, total flow pipe switching valve 5, water pump 6, large tank outlet pipe 7, large tank outlet pipe switching valve 8, canister outlet pipe 9, canister outlet pipe switching valve 10, heater 11, water inlet manifold 12, large tank water inlet pipe 13, large tank water inlet pipe switching valve 14, canister water inlet pipe 15, canister water inlet pipe switching valve 16, large tank scavenge pipe 17, large tank scavenge pipe switching valve 18, canister scavenge pipe 19, canister scavenge pipe switching valve 20, the left end of described water inlet manifold 4 is connected with water tank 3 by the mode of welding, described total flow pipe switching valve 5 is arranged on total flow pipe 4, and the position of total flow pipe switching valve 5 is near water tank 3, the right-hand member of described total flow pipe 4 and the water inlet of water pump 6 affixed, one end of described large tank outlet pipe 7 is connected with the large tank 1 of 8T by the mode of welding, the other end of described large tank outlet pipe 7 is connected with total flow pipe 4 by the mode of welding, and the junction of large tank outlet pipe 7 and total flow pipe 4 is on the right of total flow pipe switching valve 5, described large tank outlet pipe switching valve 8 is arranged on large tank outlet pipe 7, and the position of large tank outlet pipe switching valve 8 is near the large tank 1 of 8T, one end of described canister outlet pipe 9 is connected with 0.6T canister 2 by the mode of welding, the other end of described canister outlet pipe 9 is connected with total flow pipe 4 by the mode of welding, and the junction of canister outlet pipe 9 and total flow pipe 4 is on large tank outlet pipe 7 the right with the junction of total flow pipe 4, described canister outlet pipe switching valve 10 is arranged on canister outlet pipe 9, and the position of canister outlet pipe switching valve 10 is near 0.6T canister 2, the delivery port of described water pump 6 is connected with heater 11 by flexible pipe, one end of described water inlet manifold 12 is connected with heater 11 by the mode of welding, the upper end of described large tank water inlet pipe 13 is connected with the other end of water inlet manifold 12 by the mode of welding, the lower end of described large tank water inlet pipe 13 is connected with the large tank 1 of 8T by the mode of welding, described large tank water inlet pipe switching valve 14 is arranged on large tank water inlet pipe 13, the upper end of described canister water inlet pipe 15 is connected with water inlet manifold 12 by the mode of welding, the lower end of described canister water inlet pipe 15 is connected with 0.6T canister 2 by the mode of welding, described canister water inlet pipe switching valve 16 is arranged on canister water inlet pipe 15, the upper end of described large tank scavenge pipe 17 is welded on the lower end of the large tank 1 of 8T, described large tank scavenge pipe switching valve 18 is arranged on large tank scavenge pipe 17, the upper end of described canister scavenge pipe 19 is welded on the lower end of 0.6T canister 2, described canister scavenge pipe switching valve 20 is arranged on canister scavenge pipe 19.

The utility model implements like this: when needs clean two equipment simultaneously, open total flow pipe switching valve 5, large tank water inlet pipe switching valve 14, canister water inlet pipe switching valve 16, by water pump 6, the water in water tank 3 is drawn in water pump 6 through total flow pipe 4, water to be sent in heater 11 by flexible pipe and is heated by water pump 6, the water heated flows in water inlet manifold 12, hot water in water inlet manifold 12 flows to the large tank 1 of 8T respectively from large tank water inlet pipe 13 and canister water inlet pipe 15 and 0.6T canister 2 stores, then large tank scavenge pipe switching valve 18 and canister scavenge pipe switching valve 20 is opened, hot water in the large tank of such 8T 1 flows out and cleans equipment in large tank scavenge pipe 17, hot water in 0.6T canister 2 flows out and cleans another equipment in canister scavenge pipe 19, thus achieve the object of simultaneously cleaning two equipment, cleaning speed is accelerated, cleaning efficiency improves thereupon, and when the hot water temperature in the large tank of 8T 1 is not high enough, large tank outlet pipe switching valve 8 can be opened, hot water in the large tank of 8T 1 can flow in total flow pipe 12 in large tank outlet pipe 7, then heating further in heater 11 is flow to through water pump 6, same principle, when hot water temperature in 0.6T canister 2 is not high enough, also can heat further according to the method described above, use more convenient, in addition, when the equipment cleaned is smaller, only need open canister water inlet pipe switching valve 14, and large tank water inlet pipe switching valve 14 cuts out, the water of such heating is merely able to flow in 0.6T canister 2, then cleaned by canister scavenge pipe 19 pairs of mini-plants, thus avoid at the full hot water of 8T large tank 1 storage, but hot water cannots be used up again and causes the waste of heat energy, also just directly electric energy is saved.

Above embodiment only in order to the utility model is described and and technical scheme described by unrestricted the utility model; Therefore, although this description has been described in detail the utility model with reference to each above-mentioned embodiment, those of ordinary skill in the art should be appreciated that and still can modify to the utility model or equivalent replacement; And all do not depart from technical scheme and the improvement thereof of spirit and scope of the present utility model, it all should be encompassed in right of the present utility model.

Claims (1)

1. a CIP purging system, comprise: the large tank of 8T, 0.6T canister, water tank, total flow pipe, total flow pipe switching valve, water pump, large tank outlet pipe, large tank outlet pipe switching valve, canister outlet pipe, canister outlet pipe switching valve, heater, water inlet manifold, large tank water inlet pipe, large tank water inlet pipe switching valve, canister water inlet pipe, canister water inlet pipe switching valve, large tank scavenge pipe, large tank scavenge pipe switching valve, canister scavenge pipe, canister scavenge pipe switching valve, the left end of described water inlet manifold is connected with water tank by the mode of welding, described total flow pipe switching valve is arranged on total flow pipe, and the position of total flow pipe switching valve is near water tank, the right-hand member of described total flow pipe and the water inlet of water pump affixed, one end of described large tank outlet pipe is connected with the large tank of 8T by the mode of welding, the other end of described large tank outlet pipe is connected with total flow pipe by the mode of welding, and the junction of large tank outlet pipe and total flow pipe is on the right of total flow pipe switching valve, described large tank outlet pipe switching valve is arranged on large tank outlet pipe, and the position of large tank outlet pipe switching valve is near the large tank of 8T, the delivery port of described water pump is connected with heater by flexible pipe, one end of described water inlet manifold is connected with heater by the mode of welding, the upper end of described large tank water inlet pipe is connected with the other end of water inlet manifold by the mode of welding, the lower end of described large tank water inlet pipe is connected with the large tank of 8T by the mode of welding, described large tank water inlet pipe switching valve is arranged on large tank water inlet pipe, the upper end of described large tank scavenge pipe is welded on the lower end of the large tank of 8T, described large tank scavenge pipe switching valve is arranged on large tank scavenge pipe, it is characterized in that: one end of described canister outlet pipe is connected with 0.6T canister by the mode of welding, the other end of described canister outlet pipe is connected with total flow pipe by the mode of welding, and the junction of canister outlet pipe and total flow pipe is on the right of the junction of large tank outlet pipe and total flow pipe, described canister outlet pipe switching valve is arranged on canister outlet pipe, and the position of canister outlet pipe switching valve is near 0.6T canister, the upper end of described canister water inlet pipe is connected with water inlet manifold by the mode of welding, the lower end of described canister water inlet pipe is connected with 0.6T canister by the mode of welding, described canister water inlet pipe switching valve is arranged on canister water inlet pipe, the upper end of described canister scavenge pipe is welded on the lower end of 0.6T canister, described canister scavenge pipe switching valve is arranged on canister scavenge pipe.