CN220670255U - Cooling device convenient for linkage work of multiple cooling towers - Google Patents

Abstract

The utility model relates to the technical field of food sterilization, in particular to a cooling device convenient for the linkage work of a plurality of cooling towers, which comprises a plurality of sterilization devices, cooling towers and a main control module, wherein the sterilization devices and the cooling towers are in one-to-one correspondence, the upper part of each sterilization device is provided with a first water inlet communicated with the inside and the outside, and the lower part of each sterilization device is provided with a first water outlet communicated with the inside and the outside.

Description

Cooling device convenient for linkage work of multiple cooling towers

Technical Field

The utility model relates to the technical field of food sterilization, in particular to a cooling device convenient for linkage work of a plurality of cooling towers.

Background

Most of food processing enterprises at present are limited by factors of product types, packaging specifications and packaging materials, and a plurality of sterilization modes are often adopted to meet the requirements of product factory commercial sterility, mainly spray sterilization, water bath sterilization and the like, in the sterilization modes, cooling water is needed to cool the product after heating, and in order to save the consumption of the cooling water, cooling equipment is needed to cool the used cooling water for recycling.

Each set of sterilization equipment in the prior cooling equipment is provided with an independent cooling tower, no intersection work exists among a plurality of cooling towers, when one part of sterilization equipment runs under high load, the condition that one part of cooling towers are idle and the other part of cooling towers are overloaded easily occurs, the cooling efficiency during sterilization is reduced, the water level of the cooling towers is easy to overflow higher when the production load is heavy, the water resource is wasted, when the water level of the cooling towers is lower, the water pump of the cooling towers is easy to suck and damage, and meanwhile, the cooling efficiency of the cooling towers is reduced due to overhigh or overlow water level of the cooling towers.

Disclosure of Invention

The utility model provides a cooling device convenient for the linkage work of a plurality of cooling towers, which overcomes the defects of the prior art, and can effectively solve the problems that a plurality of cooling towers of cooling equipment in the prior food sterilization process work independently of each other, and the condition that one part of cooling towers is idle and the load of the other part of cooling towers is overlarge, so that the cooling efficiency is low.

The technical scheme of the utility model is realized by the following measures: the utility model provides a cooling device convenient to work of many cooling towers linkage, including sterilizing equipment, cooling tower and main control module, sterilizing equipment and cooling tower are a plurality of and one-to-one, the first water inlet of inside and outside intercommunication has all been seted up on every sterilizing equipment upper portion, the first delivery port of inside and outside intercommunication has all been seted up on every cooling tower upper portion, the second water inlet of inside and outside intercommunication has all been seted up on every cooling tower lower part, all fixed intercommunication has first pipeline between the first delivery port of every sterilizing equipment and the second water inlet of corresponding cooling tower, all fixed intercommunication has the second pipeline intercommunication between the adjacent cooling tower, fixed intercommunication has the third pipeline between the first delivery port of every sterilizing equipment and the second delivery port of corresponding cooling tower, all be provided with the solenoid valve on every third pipeline, all be provided with temperature acquisition module in every cooling tower, every temperature acquisition module and every solenoid valve all are connected with main control module.

The following are further optimizations and/or improvements to the above-described inventive solution:

the water storage tank is provided with a third water inlet communicated with the inside and the outside, the lower part of the water storage tank is provided with a third water outlet communicated with the inside and the outside, the middle part of each second pipeline is provided with an overflow outlet and a recovery opening communicated with the inside and the outside at intervals, a fourth pipeline is fixedly communicated between each overflow outlet and the third water inlet, a fifth pipeline is fixedly communicated between each recovery opening and the third water outlet, and electromagnetic valves are arranged on each fourth pipeline and each fifth pipeline.

The cooling tower comprises a water level collecting module, wherein each cooling tower is provided with a water level collecting module capable of collecting water level data in the cooling tower in real time, each second pipeline is provided with an electromagnetic valve, and each water level collecting module is connected with the main control module.

The intelligent electronic device can further comprise a display module and a reminding module, wherein the display module and the reminding module are connected with the main control module.

The cooling tower has reasonable and compact structure, is convenient to use, is fixedly communicated with the second pipeline, when the water level of cooling water in one cooling tower exceeds the height of the pipeline opening of the second pipeline, the excessive cooling water flows into the adjacent cooling towers through the second pipeline, balances the water level among the cooling towers, can effectively solve the problems that a plurality of cooling towers in the existing food sterilization process work independently of each other, easily cause the condition that one part of cooling towers is overloaded and the other part of cooling towers are idle, and cause low cooling efficiency, and is also provided with the water storage tank, so that when a plurality of sterilization devices work at high strength, a part of cooling water can be stored, the water quantity exceeds the total load of the cooling towers, so that the cooling water overflows to the outside of the cooling towers to cause equipment damage and water resource waste, and the cooling water directly flows to the cooling towers with low water level through the water storage tank, thereby being convenient to regulate the water level of the cooling towers simultaneously.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic circuit structure of the present utility model.

The codes in the drawings are respectively: 1 is sterilizing equipment, 2 is a cooling tower, 3 is a water storage tank, 4 is a temperature acquisition module, 5 is an electromagnetic valve, 6 is a first pipeline, 7 is a second pipeline, 8 is a third pipeline, 9 is a fourth pipeline, 10 is a fifth pipeline, and 11 is a water level acquisition module.

Detailed Description

The present utility model is not limited by the following examples, and specific embodiments can be determined according to the technical scheme and practical situations of the present utility model.

In the present utility model, for convenience of description, the description of the relative positional relationship of each component is described according to the layout manner of the drawings in the specification, such as: the positional relationship of the front, rear, upper, lower, left, right, etc. is determined in accordance with the layout direction of the drawings of the specification.

The utility model is further described below with reference to examples and figures:

first, as shown in fig. 1 and 2, this cooling device convenient to work of many cooling towers linkage includes sterilization equipment 1, cooling tower 2 and main control module, sterilization equipment 1 and cooling tower 2 are a plurality of and one-to-one, the first water inlet of inside and outside intercommunication has all been seted up on every sterilization equipment 1 upper portion, the first delivery port of inside and outside intercommunication has all been seted up on every sterilization equipment 1 lower part, the second water inlet of inside and outside intercommunication has all been seted up on every cooling tower 2 upper portion, the second delivery port of inside and outside intercommunication has all been seted up on every cooling tower 2 lower part, all fixed intercommunication has first pipeline 6 between the first delivery port of every sterilization equipment 1 and the second water inlet of corresponding cooling tower 2, all fixed intercommunication has second pipeline 7 intercommunication between the adjacent cooling tower 2, fixed intercommunication has third pipeline 8 between the first water inlet of every sterilization equipment 1 and the second delivery port of corresponding cooling tower 2, all be provided with solenoid valve 5 on every third pipeline 8, all be provided with temperature acquisition module 4 in every cooling tower 2, every temperature acquisition module 4 and every solenoid valve 5 all are connected with main control module.

The sterilizing equipment 1 and the cooling tower 2 are all known in the prior art; the main control module is a conventional well-known PLC; the electromagnetic valve 5 is a prior known technology, and the electromagnetic valve 5 with the model number DN63 can be used; the temperature acquisition module 4 is a known technology, and a temperature acquisition module 4 with the model of KHTH-K-4 can be used.

During the use, every sterilization equipment 1 after using high temperature cooling water flows to corresponding cooling tower 2 through outlet through first pipeline 6 and cools off, temperature acquisition module 4 gathers the temperature data in the corresponding cooling tower 2 in real time, and with temperature data real time transmission to main control module, main control module judges whether temperature data is less than temperature threshold value data, if, main control module opens the solenoid valve 5 on the corresponding third pipeline 8 of this cooling tower 2, the cooling water flows to the water inlet of sterilization equipment 1 through third pipeline 8, if not, solenoid valve 5 maintains the off state, make things convenient for the cooling water to in time discharge to sterilization equipment 1 after accomplishing the cooling, fixedly communicate between the adjacent cooling tower 2 has second pipeline 7, when the cooling water level in a certain cooling tower 2 exceeded the height at second pipeline mouth, the cooling water of excess part can flow to in the adjacent cooling tower 2 through second pipeline 7, balance the water level between a plurality of cooling towers 2, a plurality of cooling towers 2 that exist each other independent work in the effective solution in the current food sterilization process, the condition that the cooling tower 2 is easy to appear partly loaded partly cooling tower 2 and partly cooling tower 2 is low in the idle cooling tower condition that leads to the fact.

In the second embodiment, as shown in fig. 1, this embodiment is a further optimization of the above embodiment, and further includes a water storage tank 3, a third water inlet communicated with the inside and the outside is provided at the upper portion of the water storage tank 3, a third water outlet communicated with the inside and the outside is provided at the lower portion of the water storage tank 3, an overflow outlet and a recovery opening communicated with the inside and the outside are provided at left and right intervals at the middle portion of each second pipeline 7, a fourth pipeline 9 is fixedly communicated between each overflow outlet and the third water inlet, a fifth pipeline 10 is fixedly communicated between each recovery opening and the third water outlet, and electromagnetic valves 5 are provided on each fourth pipeline 9 and the fifth pipeline 10.

When a plurality of sterilization devices 1 work in high intensity, a worker controls the electromagnetic valve 5 on the fourth pipeline 9 to be opened through the main control module, and part of cooling water flows into the water storage tank 3 through the fourth pipeline 9, so that the condition that the cooling water overflows to the outside of the cooling towers 2 to cause equipment damage and water resource waste due to the fact that the water quantity exceeds the total load of the cooling towers 2 is prevented; when the water levels of the cooling towers 2 are too low, a worker controls the corresponding electromagnetic valve 5 on the fifth pipeline 10 to be opened through the main control module, so that cooling water directly flows to the cooling towers 2 with low water levels through the water storage tank 3, and the water levels of the cooling towers 2 are conveniently and simultaneously adjusted.

In the third embodiment, as shown in fig. 1 and 2, this embodiment is a further optimization of the above embodiment, and further includes a water level acquisition module 11, each cooling tower 2 is provided with a water level acquisition module 11 capable of acquiring the water level in the cooling tower 2 in real time, each second pipeline 7 is provided with an electromagnetic valve 5, and each water level acquisition module 11 is connected with the main control module.

The water level acquisition module 11 is a liquid level meter which is known in the prior art; the water level acquisition module 11 acquires water level data in the corresponding cooling tower 2 in real time and transmits the water level data to the main control module in real time, the main control module compares the water level data with a pre-stored water level standard value, if the water level data is larger than the water level standard value, the main control module opens the electromagnetic valve 5 on the second pipeline 7 and the fourth pipeline 9 connected with the cooling tower 2, and redundant cooling water flows into the water storage tank 3 through the second pipeline 7 and the fourth pipeline 9; if the water level data is equal to the water level standard value, the main control module closes the electromagnetic valve 5 on the second pipeline 7 corresponding to the cooling tower 2; if the water level data is smaller than the water level standard value, the main control module starts the electromagnetic valve 5 on the second pipeline 7 and the fifth pipeline 10 connected with the cooling tower 2, and cooling water in the water storage tank 3 flows into the cooling tower 2 through the fifth pipeline 10 and the second pipeline 7; the automatic control of the water level in the cooling tower 2 is realized, the water level standard value is kept, and the cooling tower 2 is conveniently kept at the optimal working efficiency at any time.

In the fourth embodiment, as shown in fig. 2, this embodiment is a further optimization of the foregoing embodiment, and further includes a display module and a reminding module, where the display module and the reminding module are both connected with the main control module.

The display module and the reminding module are both known in the prior art; the display module is used for displaying water level data and temperature data of each cooling tower 2 and the switching state of the electromagnetic valve 5, so that the cooling towers are convenient for operators to check; the reminding module is used for carrying out acousto-optic reminding when the main control module works, reminding workers not to randomly operate the main control module, and preventing misoperation.

The technical characteristics form the embodiment of the utility model, have stronger adaptability and implementation effect, and can increase or decrease unnecessary technical characteristics according to actual needs so as to meet the requirements of different situations.

Claims (5)

1. The utility model provides a cooling device convenient to work of many cooling towers linkage, a serial communication port includes sterilizing equipment, cooling tower and main control module, sterilizing equipment and cooling tower are a plurality of and one-to-one, the first water inlet of inside and outside intercommunication has all been seted up on every sterilizing equipment upper portion, the first delivery port of inside and outside intercommunication has all been seted up on every cooling tower upper portion, the second delivery port of inside and outside intercommunication has all been seted up on every cooling tower lower portion, all fixed intercommunication has first pipeline between the first delivery port of every sterilizing equipment and the second water inlet of corresponding cooling tower, all fixed intercommunication has the second pipeline intercommunication between the adjacent cooling tower, fixed intercommunication has the third pipeline between the first delivery port of every sterilizing equipment and the second delivery port of corresponding cooling tower, all be provided with the solenoid valve on every third pipeline, all be provided with temperature acquisition module in every cooling tower, every temperature acquisition module and every solenoid valve all are connected with main control module.

2. The cooling device for facilitating linkage work of a plurality of cooling towers according to claim 1, further comprising a water storage tank, wherein a third water inlet communicated with the inside and the outside is arranged at the upper part of the water storage tank, a third water outlet communicated with the inside and the outside is arranged at the lower part of the water storage tank, overflow outlets and recovery ports communicated with the inside and the outside are arranged at left and right intervals in the middle of each second pipeline, fourth pipelines are fixedly communicated between each overflow outlet and the third water inlet, a fifth pipeline is fixedly communicated between each recovery port and the third water outlet, and electromagnetic valves are arranged on each fourth pipeline and each fifth pipeline.

3. The cooling device for facilitating linkage operation of a plurality of cooling towers according to claim 1 or 2, further comprising a water level acquisition module, wherein each cooling tower is provided with a water level acquisition module capable of acquiring water level data in the cooling tower in real time, each second pipeline is provided with an electromagnetic valve, and each water level acquisition module is connected with the main control module.

4. The cooling device for facilitating the linkage work of a plurality of cooling towers according to claim 1 or 2, further comprising a display module and a reminding module, wherein the display module and the reminding module are connected with the main control module.

5. The cooling device for facilitating linkage work of a plurality of cooling towers according to claim 3, further comprising a display module and a reminding module, wherein the display module and the reminding module are connected with the main control module.