CN213687292U - Novel split type heat preservation of cylindrical container device - Google Patents

Abstract

The utility model discloses a novel split type heat preservation of cylindrical container device, including filling there is carbon dioxide's main part, fixed mounting has two median plates in the main part, two equal fixed mounting has the elastic sleeve between median plate and the main part, two fixed mounting has a section of thick bamboo and two baffles of keeping in between the median plate, two equal fixed mounting has the heating rod, two on the baffle equal fixed mounting has the heat conduction pole between heating rod and two median plates, two all communicate between elastic sleeve and the corresponding median plate has the catheter, and two catheters all are located a section of thick bamboo of keeping in, two all install the intercommunication mechanism in the catheter, main part, a section of thick bamboo of keeping in, two elastic sleeves all communicate there is the feed liquor pipe. Has the advantages that: the three-level heat preservation heating operation in the container can be realized by arranging the heating rod, the grading heat preservation effect is obvious, the whole heat preservation effect is good, the whole manufacturing cost is low, and the practicability is high.

Description

Novel split type heat preservation of cylindrical container device

Technical Field

The utility model relates to a technical field of cylindrical container especially relates to a novel split type heat preservation of cylindrical container device.

Background

The cylindrical split type container is a container for storing and insulating liquid in a grading way, and in order to improve the heat insulation effect of the container, a heat insulation device is usually arranged in the existing container to heat and insulate the liquid;

the existing heat preservation device is usually composed of a plurality of heating elements, a plurality of grading areas in a plurality of containers are heated respectively, although the effect of grading heating can be realized by the mode, the increase cost is higher, the popularization and the use are not facilitated, and certain limitation is realized, so that a novel split type heat preservation device for the cylindrical container is urgently needed to be designed to solve the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problems existing in the prior art and providing a novel split type heat preservation device for a cylindrical container.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a novel split type heat preservation device for a cylindrical container comprises a main body filled with carbon dioxide gas, two middle plates are fixedly arranged in the main body, elastic sleeves are fixedly arranged between the two middle plates and the main body, a temporary storage cylinder and two partition plates are fixedly arranged between the two middle plates, heating rods are fixedly arranged on the two partition plates, heat conducting rods are fixedly arranged between the two heating rods and the two middle plates, liquid guide pipes are communicated between the two elastic sleeves and the corresponding middle plates, and two liquid guide pipes are positioned in the temporary storage cylinder, a communicating mechanism is arranged in each of the two liquid guide pipes, the two communicating mechanisms are arranged in an inverted way, the main body, the temporary storage cylinder and the two elastic sleeves are all communicated with a liquid inlet pipe, and equal fixed mounting has the valve on every feed liquor pipe, fixed mounting has temperature sensor in the main part.

In foretell split type heat preservation device of novel cylindrical container, the communicating mechanism includes the baffle of fixed mounting in the drain pipe, there is the shutoff round pin through intercommunicating pore slidable mounting in the baffle, and fixed mounting has two reset spring between shutoff round pin and the baffle, install the kickboard through sliding construction in the drain pipe, and the intercommunication has communicating pipe on the kickboard, fixed mounting has the ejector pin of mutually supporting with the shutoff round pin on the kickboard.

In the above-mentioned split type heat preservation device of novel cylindrical container, sliding structure includes the trapezoidal slider of fixed mounting on the kickboard, set up in the drain pipe with trapezoidal slider matched with trapezoidal spout.

In the novel split type heat preservation device for the cylindrical container, two sealing sleeves are fixedly mounted at one ends, far away from the corresponding baffle plates, of the sealing pins.

In the above-mentioned split type heat preservation device of novel cylindrical container, the outside cover of main part is equipped with the insulation cover.

In the above-mentioned split type heat preservation device of novel cylindrical container, equal fixed mounting has the temperature to detect the piece on a section of thick bamboo, two elastic sleeves, one of them baffle of keeping in, and every temperature detects the piece and all is connected for being connected for the electricity between the temperature sensor.

Compared with the prior art, the utility model discloses the advantage lies in:

1: through setting up the heating rod and the temperature detection piece, can make the heating rod start when the temperature detection piece detects the inside liquid temperature of baffle when lower, can heat the inside liquid of baffle during the heating of heating rod, the inside liquid of baffle is the highest one-level of temperature in the container this moment.

2: through setting up the heat conduction pole, have partial temperature to get into the upper and lower part of median plate through the heat conduction pole when the heating rod heating, can carry out the indirect heating to two elastic sleeves that lie in the upper and lower part of median plate, the liquid temperature in the elastic sleeve is the one-level that the temperature is the lowest in the container this moment.

3: through setting up carbon dioxide gas, can heat the carbon dioxide gas in the main part when the heat conduction pole heat conduction, carbon dioxide gas is heated can expand rapidly and extrude the elastic sleeve, can extrude liquid in it when the elastic sleeve pressurized promptly and pass through in the catheter gets into a section of thick bamboo of keeping in, and the liquid in a section of thick bamboo of just keeping in has the inside liquid of baffle to carry out indirect heating, and the liquid temperature in the section of thick bamboo of keeping in this moment is the one-level that the temperature is next highest in the container.

To sum up, the utility model discloses a set up the tertiary heat preservation heating operation in the heating rod can realizing the container, hierarchical heat retaining effect is comparatively obvious, and whole heat preservation effect is better, and whole cost is also lower, and the practicality is stronger.

Drawings

Fig. 1 is a schematic structural view of a novel split type heat preservation device for a cylindrical container provided by the utility model;

FIG. 2 is an enlarged view of the catheter of FIG. 1 and its upper portion;

fig. 3 is a top view of the middle plate and its upper part mechanism in fig. 1.

In the figure: the device comprises a main body 1, a middle plate 2, a partition plate 3, a heating rod 4, a temporary storage barrel 5, a heat conducting rod 6, an elastic sleeve 7, a heat preservation sleeve 8, a liquid inlet pipe 9, a liquid guide pipe 10, a floating plate 11, a communicating pipe 12, a push rod 13, a baffle plate 14, a blocking pin 15, a return spring 16, a communicating hole 17 and a sealing sleeve 18.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, a novel split type heat preservation device for a cylindrical container comprises a main body 1 filled with carbon dioxide gas, two middle plates 2 are fixedly installed in the main body 1, elastic sleeves 7 are fixedly installed between the two middle plates 2 and the main body 1, a temporary storage cylinder 5 and two partition plates 3 are fixedly installed between the two middle plates 2, heating rods 4 are fixedly installed on the two partition plates 3, heat conducting rods 6 are fixedly installed between the two heating rods 4 and the two middle plates 2, liquid guide pipes 10 are respectively communicated between the two elastic sleeves 7 and the corresponding middle plates 2, the two liquid guide pipes 10 are respectively located in the temporary storage cylinder 5, communicating mechanisms are respectively installed in the two liquid guide pipes 10, the two communicating mechanisms are arranged in an inverted manner, liquid inlet pipes 9 are respectively communicated on the main body 1, the temporary storage cylinder 5 and the two elastic sleeves 7, and valves are respectively fixedly installed on each liquid inlet pipe 9, a temperature sensor is fixedly arranged in the main body 1;

the following points are notable:

1. the airtight space between two median plates 2 and two clapboards 3 is a first-level storage area, the inner space of two elastic sleeves 7 is a second-level storage area, and the inner space of the temporary storage cylinder 5 is a third-level storage area.

2. The temperature detection blocks are fixedly mounted on the temporary storage barrel 5, the two elastic sleeves 7 and one of the partition plates 3, each temperature detection block is electrically connected with the temperature sensor, the temperature detection blocks are arranged in the three storage areas respectively, and the liquid temperatures in the three storage areas can be detected respectively.

3. The controller is fixedly arranged in the main body 1, and is electrically connected with the heating rod 4, the temperature sensor and the temperature detection block, and the controller can be used for controlling the running state of the devices and conducting signals.

4. When the temperature detects the piece and detects the inside liquid temperature of one-level storage area in the baffle 3 when lower, the temperature detects the piece and can be with signal conduction to the controller in, the controller can control heating rod 4 to start promptly, can heat the inside liquid of one-level storage area promptly when heating rod 4 heats, the inside liquid of one-level storage area is the highest one-level of temperature in the container this moment.

5. When the heating rod 4 is heated, partial temperature enters the upper part and the lower part of the two middle plates 2 through the heat conducting rod 6, so that the two elastic sleeves 7 positioned at the upper part and the lower part of the two middle plates 2 can be indirectly heated, and the temperature of liquid in a secondary storage area in the elastic sleeves 7 is the lowest level in the container.

6. Carbon dioxide gas fills in the airtight space between two median plates 2 and main part 1 in main part 1, can heat carbon dioxide gas when heat conduction rod 6 conducts heat, carbon dioxide gas is heated and can expand rapidly and extrude elastic sleeve 7, can extrude liquid in it when the elastic sleeve 7 pressurized promptly and pass through in catheter 10 gets into a section of thick bamboo 5 of keeping in, and the liquid in a section of thick bamboo 5 of keeping in can carry out indirect heating by the liquid in the inside one-level storage area of baffle 3, the liquid temperature in a section of thick bamboo 5 of keeping in this moment is the one-level that the temperature is second highest in the container.

7. The communicating mechanism comprises a baffle 14 fixedly installed in the liquid guide pipe 10, a blocking pin 15 is installed in the baffle 14 in a sliding mode through a communicating hole 17, two return springs 16 are fixedly installed between the blocking pin 15 and the baffle 14, a floating plate 11 is installed in the liquid guide pipe 10 through a sliding structure, the floating plate 11 is communicated with a communicating pipe 12, a mandril 13 matched with the blocking pin 15 is fixedly installed on the floating plate 11, when the elastic sleeve 7 is pressed, liquid in the elastic sleeve can extrude the floating plate 11 and push the floating plate to move, when the floating plate 11 moves, the mandril 13 on the floating plate can be driven to jack up the blocking pin 15, the blocking pin 15 is separated from the communicating hole 17, at the moment, the communicating hole 17 can be in a communicating state, and at the moment, the liquid in the elastic sleeve 7 can enter the temporary storage barrel 5 through the communicating hole.

8. When the temperature of the carbon dioxide gas is reduced, the elastic sleeve 7 can automatically reset, the liquid in the elastic sleeve 7 can not extrude the floating plate 11 at the moment, the floating plate 11 is not pressed, the reset spring 16 can automatically reset at the moment and drives the plugging pin 15 to return to the original position, and then the communicating hole 17 can be plugged.

9. The sealing sleeves 18 are fixedly mounted at one ends, far away from the corresponding baffle plates 14, of the two plugging pins 15, the sealing sleeves 18 play a role in sealing and isolating, and the sealing sleeves 18 can be tightly attached to the communication holes 17 when the plugging pins 15 are clamped with the communication holes 17, so that liquid cannot flow back.

10. The sliding structure comprises a trapezoidal sliding block fixedly arranged on the floating plate 11, a trapezoidal sliding groove matched with the trapezoidal sliding block is formed in the liquid guide pipe 10, and the sliding structure is used for enabling the floating plate 11 to move up and down only in the liquid guide pipe 10 without deviating and separating from the liquid guide pipe 10.

11. The outside cover of main part 1 is equipped with insulation cover 8, and insulation cover 8 can carry out holistic heat preservation to main part 1, makes the heat preservation effect of this device better.

Further, unless otherwise specifically stated or limited, the above-described fixed connection is to be understood in a broad sense, and may be, for example, welded, glued, or integrally formed as is conventional in the art.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. A novel split type heat preservation device for a cylindrical container comprises a main body (1) filled with carbon dioxide gas, and is characterized in that two middle plates (2) are fixedly installed in the main body (1), elastic sleeves (7) are fixedly installed between the two middle plates (2) and the main body (1), a temporary storage cylinder (5) and two partition plates (3) are fixedly installed between the two middle plates (2), heating rods (4) are fixedly installed on the two partition plates (3), heat conducting rods (6) are fixedly installed between the two heating rods (4) and the two middle plates (2), liquid guide pipes (10) are communicated between the two elastic sleeves (7) and the corresponding middle plates (2), the two liquid guide pipes (10) are located in the temporary storage cylinder (5), and communicating mechanisms are installed in the two liquid guide pipes (10), and each other is invertd the setting between two feed mechanisms, all communicate on main part (1), a section of thick bamboo (5), two elastic sleeve (7) and have feed liquor pipe (9), and equal fixed mounting has the valve on every feed liquor pipe (9), fixed mounting has temperature sensor in main part (1).

2. The novel split type heat preservation device for the cylindrical container as claimed in claim 1, wherein the communication mechanism comprises a baffle (14) fixedly installed in the liquid guide tube (10), a plugging pin (15) is installed in the baffle (14) in a sliding manner through a communication hole (17), two return springs (16) are fixedly installed between the plugging pin (15) and the baffle (14), a floating plate (11) is installed in the liquid guide tube (10) through a sliding structure, a communication pipe (12) is communicated with the floating plate (11), and an ejector rod (13) matched with the plugging pin (15) is fixedly installed on the floating plate (11).

3. The novel split type insulation device for the cylindrical container according to claim 2, wherein the sliding structure comprises a trapezoidal sliding block fixedly installed on the floating plate (11), and a trapezoidal sliding groove matched with the trapezoidal sliding block is formed in the liquid guide pipe (10).

4. The novel split type heat preservation device for the cylindrical container as claimed in claim 2, wherein a sealing sleeve (18) is fixedly mounted at one end of each of the two plugging pins (15) far away from the corresponding baffle (14).

5. The novel split type insulation device for the cylindrical container according to claim 1, wherein the insulation sleeve (8) is sleeved outside the main body (1).

6. The novel split type heat preservation device for the cylindrical container as claimed in claim 1, wherein the temporary storage cylinder (5), the two elastic sleeves (7) and one of the partition plates (3) are fixedly provided with temperature detection blocks, and each temperature detection block is electrically connected with a temperature sensor.

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