CN216432104U - High-safety and low-cost lubricating oil production heating system - Google Patents

Abstract

The utility model discloses a high security, low-cost lubricating oil production heating system belongs to the heating technology field in the lubricating oil production, including jar heating module, baking house and heating water tank, still include the heat storage water tank, the heat storage water tank is through millet electrical heating or solar heating, the hot water of heat storage water tank provides heat energy for jar heating module, baking house and heating water tank respectively. Has the advantages that: the mode of heating by the heat storage water tank is adopted to replace the mode of directly heating by an electric heating element and the mode of heating by a high-pressure steam boiler in the prior art, so that the direct contact between the high-temperature heating element and oil during electric heating and the use of the high-pressure steam boiler are avoided, and the safety in the heating operation of lubricating oil production is obviously improved. The heat source-heat storage water tank is heated by solar energy or electricity at the valley at night, so that the safety is improved, the purpose of reducing the power consumption cost is realized, the cost of producing lubricating oil by enterprises is indirectly reduced, and the market competitiveness of the enterprises is enhanced.

Description

High-safety and low-cost lubricating oil production heating system

Technical Field

The utility model relates to a heating technology field in the lubricating oil production, concretely relates to lubricating oil production heating system of high security, low cost.

Background

In the field of production and manufacturing, various lubricating oil products with various types and different performances are needed no matter various metal parts are processed or various devices are normally operated.

No matter what kind of performance's of allotment lubricating oil, manufacturing enterprise all often need heat respectively according to different material characteristics before lubricating oil production, like the material of crystalline state, have viscidity material etc. different material characteristics can adopt different heating methods in order to match the production demand. But also needs low-temperature heating in the production process to achieve the aim of more uniform mixing. Specifically, for some viscous materials with fluidity, the materials need to be put into a drying room for heat preservation and storage before production, so as to prevent viscosity increase and solidification. There are also some high-viscosity materials or materials which are solidified and crystallized, and the materials are melted by direct and rapid heating of an electric heating water tank before production. It should be noted that, no matter the production tank is heated at low temperature or in a drying room or a heating water tank, an electric heating mode or a high-pressure steam coil heating mode is usually adopted in the prior art, and high safety risks exist. The heating mode also does not meet the current trend of saving energy and reducing energy consumption. In the production process, the production tank is heated, the drying room is heated, and the heating water tank is heated, so that the power consumption is very high, the power consumption cost is quite high, the production cost of lubricating oil of an enterprise is increased invisibly, and the market competitiveness of the enterprise is reduced.

Therefore, a new lubricating oil production heating system is urgently needed, the safety risk in the production process is reduced, and the power consumption cost is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming prior art's not enough, provide a high security, low-cost lubricating oil production heating system, the mode that whole production heating system adopted the heat storage water tank heating has replaced prior art's electric heating element direct heating mode and high pressure steam boiler heating mode, high temperature heating element and the direct contact of oil and high pressure steam boiler's use when having avoided electric heating, is showing the security that has improved in the lubricating oil production heating operation. The heating of the heat source-the heat storage water tank in the production heating system is realized by solar heating or off-peak electric heating at night, so that the safety is improved, the aim of reducing the power consumption cost is fulfilled, the cost of producing lubricating oil by enterprises is indirectly reduced, and the market competitiveness of the enterprises is increased.

The utility model aims at achieving through the following technical measures: the utility model provides a high security, low-cost lubricating oil production heating system, includes jar heating module, baking house and adds the hot water tank, still includes the heat storage water tank, the heat storage water tank is through millet electrical heating or solar heating, the hot water of heat storage water tank provides heat energy for jar heating module, baking house and heating water tank respectively.

Further, the drying room and the heating water tank are arranged side by side, and the drying room and the heating water tank are simultaneously arranged on one side surface of the heat storage water tank.

Further, the internal space between the heat storage water tank and the drying room is separated by a heat conduction material.

Further, the length direction of the heat storage water tank completely covers the side faces, adjacent to and parallel to the heat storage water tank, of the drying room.

Further, the heat storage water tank comprises a first heat storage water tank and a second heat storage water tank, the first heat storage water tank corresponds to the position of the drying room, the first heat storage water tank provides heat energy for the drying room, the second heat storage water tank corresponds to the position of the heating water tank, and hot water is injected into the heating water tank from the second heat storage water tank.

Further, the number of the heating water tanks is more than 1, and when the number of the heating water tanks is more than 2, the hot water in the heat storage water tank is connected in parallel or in series to provide heat energy for the heating water tanks.

Further, jar heating module sets up in the lubricating oil production region, jar heating module provides heat energy for the lubricating oil production jar, and hot water in the heat storage water tank pours into jar heating module into through heating pipeline behind the heating water tank.

Further, the hot water of the tank heating module is connected with the hot water storage tank through a pipeline.

Compared with the prior art, the beneficial effects of the utility model are that: the whole production heating system adopts a heat storage water tank heating mode to replace an electric heating element direct heating mode and a high-pressure steam boiler heating mode which are commonly adopted in the prior art, so that the direct contact between a high-temperature heating element and oil and the use of a high-pressure steam boiler during electric heating are avoided, and the safety in the lubricating oil production heating operation is obviously improved. The heating of the heat source-heat storage water tank in the production heating system is realized by solar heating or off-peak electric heating at night, so that the safety is improved, the purpose of reducing the power consumption cost is realized, the cost of producing lubricating oil by enterprises is indirectly reduced, and the market competitiveness of the enterprises is increased.

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Drawings

Fig. 1 is a schematic plan view of the present invention.

The system comprises a first heat storage water tank 1, a second heat storage water tank 2, a drying room 3, a heating water tank 4, a production tank 5, an iron plate 6, a heating pipeline 7, a pipeline 8, a water inlet valve 9 and an on-off valve 10.

Detailed Description

As shown in fig. 1, a high-safety and low-cost lubricating oil production heating system comprises a tank heating module, a drying room 3, a heating water tank 4 and a heat storage water tank, wherein the heat storage water tank is heated by valley electricity or solar energy, and hot water of the heat storage water tank respectively provides heat energy for the tank heating module, the drying room 3 and the heating water tank 4. The whole production heating system adopts a heat storage water tank heating mode to replace an electric heating element direct heating mode and a high-pressure steam boiler heating mode which are commonly adopted in the prior art, so that the direct contact between a high-temperature heating element and oil during electric heating and the use of the high-pressure steam boiler are avoided, and the safety in the lubricating oil production heating operation is obviously improved. The heating of the heat source-heat storage water tank in the production heating system is realized by solar heating or off-peak electric heating at night, so that the safety is improved, the purpose of reducing the power consumption cost is realized, the cost of producing lubricating oil by enterprises is indirectly reduced, and the market competitiveness of the enterprises is increased.

The drying room 3 and the heating water tank 4 are arranged side by side, and the drying room 3 and the heating water tank 4 are arranged on one side face of the heat storage water tank. The drying room 3, the heating water tank 4 and the heat storage water tank are arranged in a position relation, so that unnecessary heat energy loss between the drying room 3, the heating water tank 4 and the heat storage water tank can be reduced.

The interior space between the heat storage water tank and the drying room 3 is separated by a heat conducting material. The heat storage water tank can directly radiate heat to the drying room 3 through the heat conduction material. Heating coils do not need to be arranged around the drying room 3 or at the bottom of the drying room, and the investment of the heating coils is reduced. A heat conductive material such as an iron plate 6, a stainless steel plate, etc.

The length direction of the heat storage water tank completely covers the side faces of the drying room 3, which are adjacent to and parallel to the heat storage water tank. The setting that covers completely, the whole side that is about to baking house 3 all has enlarged heating area as the heating surface of heat storage water tank, has promoted heating efficiency.

The heat storage water tank comprises a first heat storage water tank 1 and a second heat storage water tank 2, the first heat storage water tank 1 corresponds to the position of the drying room 3, the first heat storage water tank 1 provides heat energy for the drying room 3, the second heat storage water tank 2 corresponds to the position of the heating water tank 4, and the second heat storage water tank 2 injects hot water into the heating water tank 4. Through the division of two heat storage water tanks, can realize the control to the different heating temperature of two heat storage water tanks to the actual demand of better satisfying the heating.

The number of the heating water tanks 4 is more than 1, and when the number of the heating water tanks 4 is more than 2, the hot water in the heat storage water tank provides heat energy for the heating water tanks 4 in a parallel or series connection mode. The arrangement of the plurality of heating water tanks 4 can heat materials with different total amounts according to the actual production requirements, when the total amount of heating is large, the heating water tanks 4 can be started simultaneously, and when the total amount of heating is small, the individual heating water tanks 4 can be started. If the parallel connection mode is adopted, hot water does not need to be introduced into the heating water tank 4 which is not started at the moment, and the heat energy loss is reduced. The figure shows that 4 heating water tanks 4 are arranged side by side, a water inlet valve 9 is arranged at a water inlet of each heating water tank 4, whether hot water is introduced into a single heating water tank 4 or not can be controlled by controlling the water inlet valve 9, a water outlet pipeline of the second heat storage water tank 2 is divided into two parts, one part enters the nearest heating water tank 4, the other part flows through the next heating water tank 4, an on-off valve 10 is arranged on a pipeline flowing through the next heating water tank 4, when a certain heating water tank 4 is not required to be used, the corresponding water inlet valve 9 is closed, the corresponding on-off valve 10 is opened, and then hot water can directly enter the next heating water tank 4 through the pipeline where the on-off valve 10 is positioned. The water injection of a single heating water tank 4 can be conveniently and flexibly controlled, and when a certain heating water tank 4 needs to be maintained or cleaned, the normal use of other heating water tanks 4 is not influenced.

The tank heating module is arranged in a lubricating oil production area, provides heat energy for the lubricating oil production tank 5, and hot water in the heat storage water tank is injected into the tank heating module through the heating pipeline 7 after being heated by the water heating tank 4. The production tank 5 needs low-temperature heating (40-50 ℃) and the heating temperature of the heating water tank 4 is 60-80 ℃, so that the hot water after the heating water tank 4 can be just supplied to the production tank 5 for heating, and a heat source is better utilized. The tank heating module is a hot water coil in the production tank 5. The heating of the mixed material in the production tank 5 is realized by introducing hot water into the hot water pipe.

The hot water of the tank heating module is connected with the heat storage water tank through a pipeline 8. And a circulating pipeline is formed between the hot water storage tank and the heating water tank 4 and between the tank heating modules, so that hot water can be better recycled.

In the description of the present invention, it is to be understood that the terms "upper", "middle", "outer", "inner", and the like, indicate positional or positional relationships, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the referenced components or elements must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. The utility model provides a high security, low-cost lubricating oil production heating system, includes jar heating module, baking house and adds the hot water tank, its characterized in that: still include the heat storage water tank, the heat storage water tank is through low millet electrical heating or solar heating, the hot water of heat storage water tank provides heat energy for jar heating module, baking house and heating water tank respectively.

2. The high safety, low cost lubricant production heating system of claim 1, wherein: the drying room and the heating water tank are arranged side by side, and the drying room and the heating water tank are arranged on one side face of the heat storage water tank at the same time.

3. The high safety, low cost lubricant production heating system of claim 2, wherein: the internal space between the heat storage water tank and the drying room is separated by a heat conduction material.

4. A high safety, low cost lubricant production heating system according to claim 2 or 3, characterized in that: the length direction of the heat storage water tank completely covers the side faces of the drying room, which are adjacent to and parallel to the heat storage water tank.

5. The high safety, low cost lubricant production heating system of claim 1, wherein: the heat storage water tank comprises a first heat storage water tank and a second heat storage water tank, the first heat storage water tank corresponds to the position of the drying room, the first heat storage water tank provides heat energy for the drying room, the second heat storage water tank corresponds to the position of the heating water tank, and hot water is injected into the heating water tank from the second heat storage water tank.

6. The high-safety, low-cost lubricant production heating system of claim 1 or 5, characterized in that: the number of the heating water tanks is more than 1, and when the number of the heating water tanks is more than 2, the hot water in the heat storage water tank is connected in parallel or in series to provide heat energy for the heating water tanks.

7. The high safety, low cost lubricant production heating system of claim 6, wherein: the tank heating module is arranged in a lubricating oil production area, the tank heating module provides heat energy for the lubricating oil production tank, and hot water in the heat storage water tank is injected into the tank heating module through a heating pipeline after passing through a heating water tank.

8. The high safety, low cost lubricant production heating system of claim 7, wherein: and the hot water of the tank heating module is connected with the heat storage water tank through a pipeline.

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