CN210646288U - Rubber ejection of compact temperature regulating device - Google Patents

Abstract

The utility model discloses a rubber discharging temperature control device, which comprises a temperature control box body, wherein two ends of the temperature control box body are respectively communicated with a feeding pipe and a discharging pipe and are provided with an interlayer for the circulation of a temperature control medium, an upper baffle plate arranged on the top wall of the temperature control box body is arranged in the temperature control box body from one end of the feeding pipe to one end of the discharging pipe at intervals, a gap for the liquid rubber to pass through is formed between each upper baffle plate and the bottom wall of the temperature control box body, a lower baffle plate is arranged on the bottom wall of the temperature control box body between two adjacent upper baffle plates, and a gap for the liquid rubber to pass through is formed between; install the preheating commuting case that holds the inlet pipe on the control by temperature change box, preheat the intermediate layer intercommunication of commuting case and control by temperature change box, temperature regulating medium import pipe and temperature regulating medium outlet pipe respectively with the intermediate layer of control by temperature change box with preheat the commuting case intercommunication. The utility model has the characteristics of carry out temperature control to the rubber that is in the fluid state and treats the reaction in advance to make its adaptation epilogue operating mode, be applicable to rubber temperature control field in the rubber production.

Description

Rubber ejection of compact temperature regulating device

Technical Field

The utility model belongs to the technical field of rubber production facility, specifically speaking relates to a rubber ejection of compact temperature regulating device.

Background

In the production of rubber, many processes require the temperature of the fluid rubber to be maintained in order for the next process to proceed smoothly. For example, when rubber got into reation kettle and mixes the stirring, reation kettle need heat just can ensure to provide more suitable temperature and make the mixture more abundant, however, at the in-process of heating, because the temperature of feeding is different, influence the homogeneity of heating, and reation kettle mostly adopts steam heating, and reation kettle's material gets into the temperature of end lower like this, and keeps away from the temperature of steam heating coil department and can not ensure, and then causes the inhomogeneous phenomenon of mixture.

SUMMERY OF THE UTILITY MODEL

The utility model provides a carry out temperature control to the rubber that is in the fluid state and treats the reaction in advance to make its rubber ejection of compact temperature regulating device who adapts to the epilogue operating mode.

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

a rubber discharge temperature control device comprises a temperature control box body, wherein two ends of the temperature control box body are respectively communicated with a feeding pipe and a discharging pipe and are provided with an interlayer for a temperature control medium to circulate; in install the preheating commuting case that holds the inlet pipe on the control by temperature change box, preheat the commuting case with the intermediate layer intercommunication of control by temperature change box, temperature adjusting medium import pipe and temperature adjusting medium outlet pipe communicate with the intermediate layer of control by temperature change box and preheating the commuting case respectively.

Further, the outer wall of control by temperature change box encloses and constitutes half round platform column structure, and half round platform column structure has the horizontally up end, the inlet pipe is connected in half round platform column structure major diameter end department and communicates with the inside of half round platform column structure through the up end of half round platform column structure, the discharging pipe is connected in the upper portion position department of half round platform column structure minor diameter end.

Further, the bottom wall of the temperature control box body extends downwards from the small-diameter end to the large-diameter end in an inclined mode.

Furthermore, the temperature regulating medium inlet pipe is communicated with the bottom of one side of the discharge pipe of the temperature control box body.

Further, the feeding pipe is provided with a circuitous part which is circuitous and bent and is arranged in the preheating exchange box.

Further, the roundabout part is in a shape of undulation along the vertical direction.

Furthermore, a residue discharge pipe communicated with the inside of the temperature control box body is arranged at the bottom of the temperature control box body.

Furthermore, the residual discharge pipes are multiple, one of the residual discharge pipes is arranged at the position, corresponding to the feed pipe, of the temperature control box body, and the rest residual discharge pipes are respectively arranged at one side, close to the discharge pipe, of each lower baffle plate.

The utility model discloses owing to adopted foretell structure, it compares with prior art, and the technical progress who gains lies in: rubber in a fluid state enters the temperature control box body from the feeding pipe, because upper baffle plates arranged on the top wall of the temperature control box body are arranged in the temperature control box body at intervals from one end of the feeding pipe to one end of the discharging pipe, a gap for the liquid rubber to pass through is formed between each upper baffle plate and the bottom wall of the temperature control box body, a lower baffle plate is arranged on the bottom wall of the temperature control box body between two adjacent upper baffle plates, and a gap for the liquid rubber to pass through is formed between each lower baffle plate and the top wall of the temperature control box body; thus, a cavity is formed between each group of adjacent lower baffle plates and each group of adjacent upper baffle plates, the adjacent cavities are communicated with each other, and the rubber in the cavity at the upstream is gradually added into the rubber of the cavity to be gradually replaced into the cavity at the downstream, so that the flowing stroke of the material in the temperature control box is increased, the heat exchange efficiency of the material in the temperature control box and the temperature adjusting medium in the interlayer of the temperature control box is improved, and the temperature adjusting medium is hot oil or steam; install the preheating exchange box that holds the inlet pipe on the control by temperature change box, the effect of preheating the exchange box is to heating the material that gets into in the control by temperature change box in advance, and the material difference in temperature that prevents to get into in the control by temperature change box is great with the material difference in the control by temperature change box, and causes phenomenons such as sediment, can know from this, the utility model has the characteristics of carry out temperature control to the rubber that is in fluid state and treats the reaction in advance to make it adapt to the epilogue operating mode.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

In the drawings:

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

fig. 2 is a sectional view of the structure of fig. 1.

Labeling components: 1-a temperature control box body, 2-an interlayer, 3-a preheating exchange box, 4-a temperature regulating medium inlet pipe, 5-a first control valve, 6-a temperature regulating medium outlet pipe, 7-a second control valve, 8-a feed pipe, 9-a circuitous part, 10-a third control valve, 11-a discharge pipe, 12-an upper baffle, 13-a lower baffle, 14-a first residual discharge pipe, 15-a first residual discharge valve, 16-a second residual discharge pipe and 17-a second residual discharge valve.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings. It should be understood that the preferred embodiments described herein are for purposes of illustration and explanation only and are not intended to limit the invention.

Embodiment rubber ejection of compact temperature regulating device

The embodiment discloses a rubber discharging temperature control device, which comprises a temperature control box body 1 and a preheating exchange box 3 as shown in fig. 1 and 2. The temperature control box body 1 is provided with an interlayer 2, a temperature regulating medium is circulated in the interlayer 2 and used for heating materials in the temperature control box body 1, and hot oil or steam is adopted as the temperature regulating medium; a feeding pipe 8 and a discharging pipe 11 are respectively welded at two ends of the temperature control box body 1, a plurality of upper baffle plates 12 are welded at intervals from one end of the feeding pipe 8 to one end of the discharging pipe 11 in the temperature control box body 1, each upper baffle plate 12 is installed on the top wall of the temperature control box body 1, and a gap for liquid rubber to pass through is formed between each upper baffle plate 12 and the bottom wall of the temperature control box body 1; the bottom wall of the temperature control box body 1 between two adjacent upper baffle plates 12 is welded with a lower baffle plate 13, a gap for liquid rubber to pass through is formed between each lower baffle plate 13 and the top wall of the temperature control box body 1, and the upper baffle plates 12 and the lower baffle plates 13 are vertically arranged. The preheating exchange box 3 is arranged on the temperature control box body 1 and is communicated with the interlayer 2 of the temperature control box body 1, and the feeding pipe 8 penetrates through the preheating exchange box 3 and extends into the temperature control box body 1; the temperature adjusting medium inlet pipe 4 and the temperature adjusting medium outlet pipe 6 are respectively communicated with the interlayer 2 and the preheating exchange box 3 of the temperature control box body 1, and the temperature adjusting medium inlet pipe 4 is communicated with the bottom of one side of the discharge pipe 11 of the temperature control box body 1. The working principle of the embodiment is as follows: a cavity is formed between each group of adjacent lower baffle plates 13 and upper baffle plates 12, the adjacent cavity is communicated with each other, rubber in the cavity at the upstream is gradually added into the rubber of the cavity and gradually replaced into the cavity at the downstream, so that the flowing stroke of the material in the temperature control box body 1 is increased, the heat exchange efficiency of the material in the temperature control box body 1 and the temperature regulating medium in the interlayer 2 of the temperature control box body 1 is improved, and the temperature regulating medium is hot oil or steam; the effect of preheating the exchange box 3 is to heat the material that gets into in the temperature control box 1 in advance, and the material that prevents to get into in the temperature control box 1 is great with the material difference in temperature in the temperature control box 1, and causes the emergence of phenomenons such as sediment.

The temperature control box 1 of this embodiment preferably has a structure in which the outer wall of the temperature control box 1 forms a semicircular truncated cone structure having a horizontal upper end surface, and the feed pipe 8 is disposed at the large diameter end of the semicircular truncated cone structure. The feeding pipe 8 is communicated with the interior of the semicircular truncated cone-shaped structure through the upper end face of the semicircular truncated cone-shaped structure, and the discharging pipe 11 is connected to the upper portion of the small-diameter end face of the semicircular truncated cone-shaped structure. The material gets into in the great space in the control by temperature change box 1 and along with follow-up material pours into gradually and flows to less space, at last through discharging pipe 11 discharge control by temperature change box 1 for the material is stable in the flow of control by temperature change box 1, can not take place after the sudden change of material supply rate, comes not too late to the material fully heating and flows out through discharging pipe 11. The bottom wall of the temperature-controlled box body 1 of the present embodiment extends obliquely downward from its small-diameter end to its large-diameter end, which effectively causes impurities in the rubber to precipitate and accumulate at the lower portion where the bottom wall is inclined and at the side of the lower baffle 13 near the tapping pipe 11. In order to facilitate discharging of precipitated impurities out of the temperature control box body 1, a plurality of residue discharge pipes communicated with the interior of the temperature control box body 1 are arranged at the bottom of the temperature control box body 1, in the embodiment, two residue discharge pipes are arranged according to the number of the lower baffle plates 13 and are respectively a first residue discharge pipe 14 and a second residue discharge pipe 16, the first residue discharge pipe 14 is arranged at the lowest point of the bottom wall of the temperature control box body 1, and a first residue discharge valve 15 is arranged on the first residue discharge pipe 14; the second residue discharge pipe 16 is arranged at one side of the lower baffle plate 13 close to the discharge pipe 11, the position is the lowest point of the bottom wall of the temperature control box body 1 from the lower baffle plate 13 to the discharge pipe 11, and a second residue discharge valve 17 is arranged on the second residue discharge pipe 16.

In this embodiment, in order to sufficiently heat the feed pipe 8 by the preheating exchanging box 3, as shown in fig. 2, the feed pipe 8 has a detour portion 9, the detour portion 9 is provided in the preheating exchanging box 3, and the detour portion 9 has a vertically undulating shape. Like this, realized having increased the material and passed through the inlet pipe 8 stroke that is located preheating the commuting case 3 part, made the heat transfer of material in preheating the commuting case 3 more abundant. And when impurities remain at the lower part of the roundabout part 9, the impurities can be flushed into the temperature control box body 1 only by carrying out pulse feeding for many times.

In this embodiment, the temperature adjusting medium inlet pipe 4, the temperature adjusting medium outlet pipe 6 and the feeding pipe 8 are respectively provided with a first control valve 5, a second control valve 7 and a third control valve 10, so that the feeding amount of the temperature control box 1 can be controlled and the heating temperature of the material in the temperature control box 1 can be controlled. In this embodiment, a thermometer may be installed on the temperature control box 1 for detecting the heating temperature of the material in the temperature control box 1.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the protection of the claims of the present invention.

Claims (8)

1. A rubber ejection of compact temperature regulating device which characterized in that: the device comprises a temperature control box body, wherein two ends of the temperature control box body are respectively communicated with a feeding pipe and a discharging pipe and are provided with an interlayer for a temperature-adjusting medium to circulate, upper baffle plates which are arranged on the top wall of the temperature control box body are arranged in the temperature control box body at intervals from one end of the feeding pipe to one end of the discharging pipe, a gap for liquid rubber to pass through is formed between each upper baffle plate and the bottom wall of the temperature control box body, a lower baffle plate is arranged on the bottom wall of the temperature control box body between two adjacent upper baffle plates, and a gap for liquid rubber to pass through is formed between each lower baffle plate; in install the preheating commuting case that holds the inlet pipe on the control by temperature change box, preheat the commuting case with the intermediate layer intercommunication of control by temperature change box, temperature adjusting medium import pipe and temperature adjusting medium outlet pipe communicate with the intermediate layer of control by temperature change box and preheating the commuting case respectively.

2. The rubber discharge temperature control device according to claim 1, characterized in that: the outer wall of control by temperature change box encloses and constitutes half round platform column structure, and half round platform column structure has the horizontally up end, the inlet pipe is connected in the big footpath end department of half round platform column structure and is linked together with the inside of half round platform column structure through the up end of half round platform column structure, the discharging pipe is connected in the upper portion position department of half round platform column structure footpath end.

3. The rubber discharge temperature control device according to claim 2, characterized in that: the bottom wall of the temperature control box body extends downwards from the small-diameter end to the large-diameter end in an inclined mode.

4. The rubber discharge temperature control device according to claim 1, characterized in that: the temperature adjusting medium inlet pipe is communicated with the bottom of one side of the discharge pipe of the temperature control box body.

5. The rubber discharge temperature control device according to any one of claims 1 to 4, characterized in that: the feeding pipe is provided with a circuitous part which is circuitous and bent and is arranged in the preheating exchange box.

6. The rubber discharge temperature control device of claim 5, wherein: the circuitous part is in a shape of undulation along the vertical direction.

7. The rubber discharge temperature control device according to any one of claims 1 to 4, characterized in that: and a residue discharge pipe communicated with the inside of the temperature control box body is arranged at the bottom of the temperature control box body.

8. The rubber discharge temperature control device of claim 7, wherein: the residual discharge pipes are arranged at the positions, corresponding to the feed pipes, of the temperature control box body, and the residual discharge pipes are arranged at one side, close to the discharge pipes, of the lower baffle plates respectively.

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