CN218424627U - Tank structure and CIP cleaning system - Google Patents

Abstract

The utility model relates to a CIP cleaning equipment technical field discloses a tank structure and CIP cleaning system, and its characterized in that, CIP cleaning system includes: a water inlet pipe, a water outlet pipe and a tank structure; the tank structure includes: the tank comprises a tank body, a condensing device and a respirator; the condensing device comprises a shell and a condensing pipe; the casing has first port and second port, the inside of casing is located to the condenser pipe, and inject between condenser pipe and the casing and be formed with the heat transfer clearance of the first port of intercommunication and second port, flow into the cooling water to the condenser pipe inside through the inlet tube, make steam pass through the heat transfer clearance earlier from first port to second port exhaust in-process, and the surface contact with the condenser pipe in heat transfer clearance department, flow back to the inside of jar body through first port after the condensation becomes liquid, the device not only can protect the surface of jar body and the equipment on the jar body, can also reduce the corruption to the respirator filter core, and be convenient for install, high durability and convenient use.

Description

Tank structure and CIP cleaning system

Technical Field

The utility model relates to a CIP cleaning equipment technical field especially relates to a tank structure and CIP cleaning system.

Background

At present, in dairy products, beverages and other factories adopting continuous operation of pipelining, in-situ cleaning, namely, CIP cleaning technology is generally adopted to clean tanks storing liquid, the CIP cleaning technology does not need to disassemble or move devices, and detergent and washing water are used for washing the inner surface of equipment at high speed to form mechanical action so as to wash away dirt, and the cleaning action on pipelines, pumps, heat exchangers, separators, valves and the like is very effective.

The CIP cleaning technology generally adopts high-temperature hot water to wash firstly, then adopts high-temperature alkaline liquid or acid liquid to wash, finally washes with cold water, in order to balance the pressure change brought by the water temperature change in the tank body, avoid the tank body to suck shriveled and other conditions to appear, generally set up the respirator on the tank body, balance the air pressure through the respirator, and still set up the filter screen on the respirator to avoid foreign matters to enter into the inside of the tank body, therefore when the CIP cleaning is carried out on the tank body, the liquid in the tank body can be gushed out from the respirator because of the steam that the temperature acutely rises and produces, not only can pollute the surface of the tank body after gushing out the steam with acidity or alkalinity, cause damage to the motor of the speed reducer set at the top of the tank body, corrode the air hose, still cause certain corrosion to the filter core of the respirator.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an aim at: provided are a tank structure and a CIP cleaning system, which can protect the surface of a tank and equipment on the tank, and can reduce corrosion to a respirator filter element.

In order to achieve the above object, the utility model provides a tank structure, include: the tank body, the condensing device and the respirator; the top of the tank body is provided with a vent hole, the condensing device comprises a shell and a condensing pipe, the shell is provided with a first port and a second port, the condensing pipe is arranged in the shell, a heat exchange gap communicated with the first port and the second port is formed between the condensing pipe and the shell in a limited mode, the first port is connected with the vent hole, and the respirator is installed on the second port.

Preferably, the shell further has a third port and a fourth port, the first port is opposite to the second port, the third port is opposite to the fourth port, and the condensation pipe is conveniently connected to the water pipe by the third port and the fourth port.

Preferably, the shell comprises a plurality of spaced condensation pipes, two ends of each condensation pipe are respectively communicated to the third port and the fourth port, and the condensation pipes are arranged to increase the contact area between the condensation pipes and steam, so that the condensation effect is enhanced.

Preferably, the inside of casing still is equipped with two mounting panels, two the mounting panel sets up respectively the third port with fourth port department, two are inserted respectively at the both ends of condenser pipe on the mounting panel, through setting up the fixing that the mounting panel can be better the position of condenser pipe.

Preferably, the third port and the fourth port are both in a circular truncated cone shape with the inner diameter gradually decreasing from one end close to the condenser pipe to the other end, and the small-diameter ends of the third port and the fourth port are respectively provided with a pipe joint for being clamped with a water pipe so as to be conveniently connected with the water pipe in a conventional mode.

Preferably, the first port and the vent hole are detachably connected through a clamp.

Preferably, the second port is detachably connected with the respirator through a clamping hoop.

Preferably, the filter element is arranged in the respirator, and the filter element is arranged to prevent substances outside the tank body from polluting the inside of the tank body.

In order to realize the same purpose, the utility model also provides a CIP cleaning system, including inlet tube, outlet pipe and as before the tank structure, the inlet tube with the outlet pipe is connected to respectively the both ends of condenser pipe.

Preferably, a circulation backflow channel is further arranged between the water inlet pipe and the water outlet pipe, and the circulation backflow channel is arranged to ensure the circulation utilization of cooling water.

The embodiment of the utility model provides a tank structure and CIP cleaning system compares with prior art, and its beneficial effect lies in: the heat exchange clearance that forms and the cooling water that flows in to the condenser pipe inside through the inlet tube is injectd between condenser pipe and the casing for steam passes through the heat exchange clearance earlier from first port to second port exhaust in-process, and the surface contact of department and condenser pipe in heat exchange clearance, can condense into liquid and flow back to the inside of jar body through first port, the device not only can protect the surface of jar body and the equipment on the jar body, can also reduce the corruption to the respirator filter core, and be convenient for install, high durability and convenient use.

Drawings

Fig. 1 is a schematic diagram of a CIP cleaning system according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a main body of a condensing device according to an embodiment of the present invention;

fig. 3 is a front view of a condensing unit according to an embodiment of the present invention;

fig. 4 isbase:Sub>A sectional view of the condensing apparatus of the embodiment of the present invention inbase:Sub>A-base:Sub>A direction in fig. 3.

In the figure, 1, a tank structure; 11. a tank body; 111. a vent hole; 12. a condensing unit; 121. a housing; 1211. a first port; 1212. a second port; 1213. a third port; 1214. a fourth port; 1215. mounting a plate; 122. a condenser tube; 123. clamping a hoop; 13. a respirator; 2. a water inlet pipe; 3. and (5) discharging a water pipe.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

In the description of the present invention, it should be understood that the terms "front", "back", "top", "bottom", "inner", "outer", etc. are used in the present invention as indicating orientations or positional relationships based on the orientations or positional relationships shown in the drawings, only for convenience of description and simplification of description, and not for indicating or implying that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or to implicitly indicate the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

As shown in fig. 1 to 4, a tank structure 1 according to a preferred embodiment of the present invention includes: the tank body 11, the condensing device 12 and the breather 13; the top of the tank body 11 is opened with a vent hole 111, the condensing device 12 includes a casing 121 and a condensing tube 122, the casing 121 has a first port 1211 and a second port 1212, the condensing tube 122 is disposed inside the casing 121, a heat exchanging gap communicating the first port 1211 and the second port 1212 is defined between the condensing tube 122 and the casing 121, the first port 1211 is detachably connected to the vent hole 111, and the respirator 13 is detachably mounted on the second port 1212.

Based on the above scheme, the device defines the heat exchange gap between the condensation pipe 122 and the shell 121, so that the steam passes through the heat exchange gap in the process of being discharged from the first port 1211 to the second port 1212, contacts with the outer surface of the condensation pipe 122 at the heat exchange gap, can be condensed into liquid and flows back to the inside of the tank body 11 through the first port 1211, thereby preventing the steam from flowing out of the tank body 11, protecting the surface of the tank body 11 and the equipment on the tank body 11, and reducing corrosion of the steam to the filter element of the respirator 13.

As shown in fig. 2, in order to facilitate connection between the condensation duct 122 and the water pipe, the housing 121 further includes a third port 1213 and a fourth port 1214, the first port 1211 is disposed opposite to the second port 1212, the third port 1213 is disposed opposite to the fourth port 1214, and the condensation duct 122 and the water pipe are connected by disposing the third port 1213 and the fourth port 1214.

As shown in fig. 4, in order to enhance the condensation effect, the inside of the casing 121 includes a plurality of the condensation pipes 122 disposed at intervals, two ends of each condensation pipe 122 are respectively communicated to the third port 1213 and the fourth port 1214, and the plurality of condensation pipes 122 are disposed to increase the contact area between the condensation pipes 122 and the steam, thereby enhancing the condensation effect.

As shown in fig. 4, in order to better fix the condenser tube 122, two mounting plates 1215 are further disposed inside the casing 121, the two mounting plates 1215 are respectively disposed at the third port 1213 and the fourth port 1214, and both ends of the condenser tube 122 are respectively inserted into the two mounting plates 1215, so that the position of the condenser tube 122 can be better fixed by the mounting plates 1215.

As shown in fig. 2, in order to be able to be engaged with a water pipe of a standard specification, the third port 1213 and the fourth port 1214 are each in the shape of a circular truncated cone having an inner diameter gradually decreasing from one end close to the condenser pipe 122 to the other end, and a pipe joint for engaging with the water pipe is respectively installed at a small diameter end of each of the third port 1213 and the fourth port 1214, so as to facilitate connection with the water pipe of a conventional specification.

As shown in fig. 2, the first port 1211 is detachably connected to the vent hole 111 through a clip 123 for easy installation.

As shown in FIG. 2, the second port 1212 is removably connected to the respirator 13 by a clamp 123 for ease of installation.

Preferably, in order to avoid the condensed water from being polluted, the inside of the breather 13 is provided with a filter core (not shown in the drawing), and the inside of the tank body is prevented from being polluted by substances outside the tank body through the filter core.

As shown in fig. 1, a CIP cleaning system according to a preferred embodiment of the present invention includes a water inlet pipe 2, a water outlet pipe 3, and a tank structure 1 for CIP cleaning as described above, wherein the water inlet pipe 2 and the water outlet pipe 3 are respectively connected to two ends of the condenser pipe 122, cooling water is input into the condenser pipe 122 through the water inlet pipe 2, and the used cooling water is discharged from the condenser pipe 122 through the water outlet pipe 3.

As shown in fig. 1, in order to save cooling water, a circulation return channel (not shown in the drawing) is further disposed between the water inlet pipe 2 and the water outlet pipe 3, and the circulation return channel is disposed to ensure the circulation of cooling water.

The utility model discloses a working process does: the first port 1211 of the condensing device 12 is connected with the vent hole 111 through the clamp 123, the respirator 13 is mounted on the second port 1212 of the condensing device 12 through the clamp 123, the water inlet pipe 2 is connected with the third port 1213 of the condensing device 12, the water outlet pipe 3 is connected with the fourth port 1214 of the condensing device 12, a circulation return channel is connected between the water inlet pipe 2 and the water outlet pipe 3, cooling water is introduced into the condensing pipe 122 through the water inlet pipe 2, and steam inside the tank body 11 contacts with the outer surface of the condensing pipe 122 in the process of being discharged from the first port 1211 to the second port 1212, is condensed into liquid and flows back into the tank body 11.

To sum up, the embodiment of the utility model provides a tank structure and CIP cleaning system, it is through the heat transfer clearance of injecing formation between condenser pipe 122 and the casing 121 and through the cooling water that inlet tube 2 flows into to the condenser pipe 122 inside, make steam from first port 1211 to the second port 1212 exhaust in-process, with the surface contact of condenser pipe 122, can condense into the inside of liquid flow back jar body 11, the device not only can protect the surface of the jar body and the equipment on the jar body, can also reduce the corruption to respirator 13's filter core, and be convenient for install, high durability and convenient use.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and replacements can be made without departing from the technical principle of the present invention, and these modifications and replacements should also be considered as the protection scope of the present invention.

Claims (10)

1. A can body structure, comprising: the tank body, the condensing device and the respirator; the top of the tank body is provided with an air vent, the condensing device comprises a shell and a condensing pipe, the shell is provided with a first port and a second port, the condensing pipe is arranged inside the shell, a heat exchange gap communicated with the first port and the second port is limited and formed between the condensing pipe and the shell, the first port is detachably connected with the air vent, and the respirator is detachably arranged on the second port.

2. The can structure of claim 1 wherein the housing further has a third port and a fourth port, the first port being disposed opposite the second port, the third port being disposed opposite the fourth port.

3. The tank structure according to claim 2, wherein the interior of the housing includes a plurality of spaced condensation tubes, and both ends of each condensation tube are respectively connected to the third port and the fourth port.

4. The tank structure according to claim 3, wherein two mounting plates are further provided inside the casing, the two mounting plates are respectively provided at the third port and the fourth port, and both ends of the condenser pipe are respectively inserted into the two mounting plates.

5. The tank structure according to claim 2, wherein the third port and the fourth port each have a circular truncated cone shape in which an inner diameter thereof gradually decreases from one end close to the condenser tube to the other end, and a pipe joint for engaging with a water pipe is attached to each of the small-diameter ends of the third port and the fourth port.

6. The tank structure of claim 1, wherein the first port is removably connected to the vent hole by a clamp.

7. The tank structure of claim 1, wherein the second port is removably connected to the breather by a clamp.

8. The tank structure according to claim 1, characterized in that the inside of the breather is provided with a filter cartridge.

9. CIP cleaning system comprising a water inlet pipe, a water outlet pipe and a tank structure according to any one of claims 1 to 8, said water inlet pipe and said water outlet pipe being connected to both ends of said condenser pipe, respectively.

10. The CIP cleaning system according to claim 9, wherein a recirculation return passage is further provided between the inlet pipe and the outlet pipe.

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