CN216071045U - Heat preservation device for manufacturing mold top rubber - Google Patents

Abstract

The utility model provides a heat preservation device for manufacturing a mold top adhesive, which comprises a heat preservation box and a heat preservation bottle positioned in the heat preservation box; a liquid inlet and a liquid outlet are arranged on the vacuum bottle; liquid inlets of the plurality of vacuum bottles are connected with a liquid inlet pipeline; liquid outlets of the plurality of vacuum bottles are connected with a liquid outlet pipeline; the vacuum bottle is internally provided with an automatic switch device and an auxiliary device matched with the switch device. The automatic switch device and the auxiliary device matched with the switch device are arranged, so that the mixed liquid is smoothly introduced into the vacuum bottle while the vacuum bottle is at a relative temperature in the heat preservation box, and the manual packaging removing process is omitted; while also avoiding heat losses.

Description

Heat preservation device for manufacturing mold top rubber

Technical Field

The utility model relates to a heat preservation device for manufacturing a mold top rubber.

Background

In the process of manufacturing the die-top glue, heating and accelerated dissolution are common phenomena, and heat loss is particularly common in work due to various raw materials of the die-top glue. In order to ensure that the activity of the top mold glue is relatively stable, namely the top mold glue is not condensed, the top mold glue is subjected to heat preservation in the manufacturing process or the preservation process, and if the consumed energy is too large in the heat preservation process, the cost is invisibly increased, and social pressure is caused.

In the conventional operation practice, much heat energy is dissipated in the process of taking the mold top glue out of the mixing reaction tank and packaging, and the cost is not controlled.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model aims to provide a heat preservation device for manufacturing a mold top rubber,

in order to achieve the purpose, the utility model is realized by the following technical scheme:

a heat preservation device for manufacturing mold top glue comprises a heat preservation box and a vacuum bottle positioned in the heat preservation box; a liquid inlet and a liquid outlet are arranged on the vacuum bottle; liquid inlets of the plurality of vacuum bottles are connected with a liquid inlet pipeline; liquid outlets of the plurality of vacuum bottles are connected with a liquid outlet pipeline; the vacuum bottle is internally provided with an automatic switch device and an auxiliary device matched with the switch device.

The automatic switch device comprises a floating ball, a vertical rod, a switch head, a connecting rod and a limiting device; the floating ball is connected to the top of the vertical rod; the limiting device is positioned on one side of the vertical rod, and the switch head is positioned on the other side of the vertical rod; the limiting device comprises a box body with an inner cavity, a limiting plate is arranged in the box body, and a limiting channel is arranged on one side wall of the box body; one end of the connecting rod is connected with the vertical rod, and the other end of the connecting rod penetrates through the limiting channel to be connected with the limiting plate.

The auxiliary device comprises an elbow pipe connected to the liquid inlet, and the opening of the elbow pipe faces downwards; the switch head consists of an upright post, a connecting shaft and a plug; the plug consists of a tip part and a circular arc-shaped cap part for sealing the opening of the elbow.

The auxiliary device comprises a straight pipe connected to the liquid inlet, a straight plate extends outwards from the opening part of the straight pipe, parallel sliding rails are arranged on two sides of the straight plate, and a limiting plate is arranged at the top of each sliding rail; the switch head consists of a cubic block sliding in the slide rail and a plug body for sealing the opening of the straight pipe; the plug body is composed of a colloid with a protruding cambered surface.

The heat preservation box is internally provided with water level scales for observing the water level.

A temperature measuring device for measuring water temperature is arranged in the heat preservation box.

When the vacuum bottle works, water is drained from the heat preservation box and heated, the mixed liquid enters the vacuum bottle through the liquid inlet pipeline, and when the amount of the mixed liquid in the vacuum bottle reaches a certain degree, the floating ball is pulled upstream by buoyancy to drive the switch head to seal the liquid inlet.

When the auxiliary device is a bent pipe and the switch head consists of an upright post, a connecting shaft and a plug. The amount of the mixed liquid in the thermos bottle reaches a certain degree, the floating ball is pulled upstream by buoyancy, and the tip part and the cap body part of the plug ascend to block the pipe orifice of the elbow pipe.

When the auxiliary device for selection is a straight pipe, the straight plate, the slide rail and the limiting plate are matched; when the switch head is composed of a cubic block and a plug body. The amount of the mixed liquid in the thermos bottle reaches a certain degree, and the floating ball is pulled upstream by buoyancy to drive the cubic block and the plug body to rise to block the pipe orifice of the straight pipe.

During the application, the liquid inlet pipeline is externally connected with the liquid outlet which is originally subjected to heating treatment. This avoids substantial heat loss.

Has the advantages that:

the automatic switch device and the auxiliary device matched with the switch device are arranged, so that the mixed liquid is smoothly introduced into the vacuum bottle while the vacuum bottle is at a relative temperature in the heat preservation box, and the manual packaging removing process is omitted; while also avoiding heat losses.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a second schematic structural diagram of an embodiment of the present invention;

FIG. 3 is a third exemplary diagram of the present invention;

FIG. 4 is a fourth schematic structural diagram according to the embodiment of the present invention;

FIG. 5 is a fifth exemplary diagram of the structure of the present invention;

FIG. 6 is a sixth schematic structural diagram according to an embodiment of the present invention.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the utility model easy to understand, the utility model is further described with the specific embodiments.

Embodiment, referring to fig. 1-6, a heat preservation device for making a mold top glue comprises a heat preservation box 1 and a heat preservation bottle 2 positioned in the heat preservation box; a liquid inlet 3 and a liquid outlet 4 are arranged on the vacuum flask; liquid inlets of the plurality of vacuum bottles are connected with a liquid inlet pipeline 5; liquid outlets of the plurality of vacuum bottles are connected with a liquid outlet pipeline; the vacuum bottle is internally provided with an automatic switch device and an auxiliary device matched with the switch device.

The automatic switch device comprises a floating ball 6, a vertical rod 7, a switch head 8, a connecting rod 9 and a limiting device; the floating ball is connected to the top of the vertical rod; the limiting device is positioned on one side of the vertical rod, and the switch head is positioned on the other side of the vertical rod; the limiting device comprises a box body 10 with an inner cavity, a limiting plate 11 in the box body, and a limiting channel 12 arranged on one side wall of the box body; one end of the connecting rod is connected with the vertical rod, and the other end of the connecting rod penetrates through the limiting channel to be connected with the limiting plate.

The auxiliary device comprises an elbow 13 connected with the liquid inlet, and the opening of the elbow is downward; the switch head consists of a vertical column 14, a connecting shaft 15 and a plug 16; the plug consists of a tip part and a circular arc-shaped cap part for sealing the opening of the elbow.

The auxiliary device comprises a straight pipe connected to the liquid inlet, a straight plate 17 extends outwards from the opening part of the straight pipe, parallel slide rails 18 are arranged on the two sides of the straight plate, and a limiting plate is arranged at the top of each slide rail; the switch head consists of a cubic block 19 sliding in the slide rail and a plug body 20 for sealing the opening of the straight pipe; the plug body is composed of a colloid with a protruding cambered surface.

The heat preservation box is internally provided with water level scales for observing the water level.

A temperature measuring device for measuring water temperature is arranged in the heat preservation box.

When the vacuum bottle works, the mixed liquid enters the vacuum bottle through the liquid inlet pipeline, and when the amount of the mixed liquid in the vacuum bottle reaches a certain degree, the floating ball is pulled upstream by buoyancy to drive the switch head to seal the liquid inlet.

When the auxiliary device is a bent pipe and the switch head consists of an upright post, a connecting shaft and a plug. The amount of the mixed liquid in the thermos bottle reaches a certain degree, the floating ball is pulled upstream by buoyancy, and the tip part and the cap body part of the plug ascend to block the pipe orifice of the elbow pipe.

When the auxiliary device for selection is a straight pipe, the straight plate, the slide rail and the limiting plate are matched; when the switch head is composed of a cubic block and a plug body. The amount of the mixed liquid in the thermos bottle reaches a certain degree, and the floating ball is pulled upstream by buoyancy to drive the cubic block and the plug body to rise to block the pipe orifice of the straight pipe.

During the application, the liquid inlet pipeline is externally connected with the liquid outlet which is originally subjected to heating treatment. This avoids substantial heat loss.

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 (6)

1. The utility model provides a heat preservation device for making mould top is glued which characterized in that: comprises a heat preservation box and a vacuum flask positioned in the heat preservation box; a liquid inlet and a liquid outlet are arranged on the vacuum bottle; liquid inlets of the plurality of vacuum bottles are connected with a liquid inlet pipeline; liquid outlets of the plurality of vacuum bottles are connected with a liquid outlet pipeline; the vacuum bottle is internally provided with an automatic switch device and an auxiliary device matched with the switch device.

2. The heat preservation device for manufacturing the die-top glue according to claim 1, characterized in that: the automatic switch device comprises a floating ball, a vertical rod, a switch head, a connecting rod and a limiting device; the floating ball is connected to the top of the vertical rod; the limiting device is positioned on one side of the vertical rod, and the switch head is positioned on the other side of the vertical rod; the limiting device comprises a box body with an inner cavity, a limiting plate is arranged in the box body, and a limiting channel is arranged on one side wall of the box body; one end of the connecting rod is connected with the vertical rod, and the other end of the connecting rod penetrates through the limiting channel to be connected with the limiting plate.

3. The heat preservation device for manufacturing the die-top glue according to claim 2, characterized in that: the auxiliary device comprises an elbow pipe connected to the liquid inlet, and the opening of the elbow pipe faces downwards; the switch head consists of an upright post, a connecting shaft and a plug; the plug consists of a tip part and a circular arc-shaped cap part for sealing the opening of the elbow.

4. The heat preservation device for manufacturing the die-top glue according to claim 2, characterized in that: the auxiliary device comprises a straight pipe connected to the liquid inlet, a straight plate extends outwards from the opening part of the straight pipe, parallel sliding rails are arranged on two sides of the straight plate, and a limiting plate is arranged at the top of each sliding rail; the switch head consists of a cubic block sliding in the slide rail and a plug body for sealing the opening of the straight pipe; the plug body is composed of a colloid with a protruding cambered surface.

5. The heat preservation device for manufacturing the die-top glue according to claim 1, characterized in that: the heat preservation box is internally provided with water level scales for observing the water level.

6. The heat preservation device for manufacturing the die-top glue according to claim 1, characterized in that: a temperature measuring device for measuring water temperature is arranged in the heat preservation box.

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