CN218019753U - Heat dissipation equipment in supercritical polymerization foaming shoe material workshop - Google Patents

Abstract

The utility model discloses a heat dissipation equipment in supercritical polymerization foaming shoes material workshop, its structure includes: radiator shell, grid heat dissipation pipe support, guide vane board, heat dissipation fin cover, inner frame shell, grid heat dissipation pipe support and heat dissipation fin cover are nested integrative and be in on same vertical face, guide vane board is equipped with the front side that a straight line was just all installed in the inside of inner frame shell and heat dissipation fin cover to vertical side by side more than two, the utility model discloses an application grid heat dissipation pipe support cooperatees with heat dissipation fin cover, forms the radiating operation effect of grid around the stack gradient formula in the heat dissipation fin cover covers through two thick heat dissipation pipe supports of group, thin heat dissipation pipe support, guarantees that the balance of whole equipment external interior winding tank pressure calorific value and super critical value heat up and keep the operation effect of adaptation polymerization foaming work, promotes the high-efficient balanced and steady adaptation processing operation effect of calorific value behind the workshop foaming tank grafting heat abstractor.

Description

Heat dissipation equipment in supercritical polymerization foaming shoe material workshop

Technical Field

The utility model relates to a heat dissipation equipment in supercritical polymerization foaming shoes material workshop belongs to heat dissipation machinery.

Background

The radiator device is a device for radiating heat indoors in two modes of convection and radiation, and is a radiating device which is widely used in China. The radiator is classified into cast iron, steel and other radiators according to the material; the structure forms include pipe type, wing type, column type, flat plate type and the like; according to the heat transfer mode, convection type convection heat transfer accounts for more than 60%, and radiation type radiation heat transfer accounts for more than 60%. Utilize hanging stove or boiler heating circulating water, rethread tubular product transmits the radiator, finally exports suitable temperature through the radiator, forms the indoor difference in temperature, carries out thermal cycle at last and makes whole indoor temperature rise evenly, and the public shortcoming of treating the optimization of present technique has:

the heat temperature of a hot-melting foaming tank in a supercritical polymerization foaming shoe material workshop is increased to easily generate indoor temperature differential pressure, so that the whole workshop is subjected to internal heat diffusion or the critical value of the tank pressure saturation is easy to collapse, and the imbalance of heat value balance caused by insufficient heat dissipation in the workshop and insufficient tank pressure heat dissipation is serious.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a heat radiation equipment in supercritical polymerization foaming shoes material workshop to the hot melt foaming jar heat temperature that solves supercritical polymerization foaming shoes material workshop risees and produces indoor temperature pressure differential easily, causes the whole factory building of internal heat diffusion or the jar pressure saturation critical value easily to collapse, and to the workshop internal heat dissipation and jar pressure heat dissipation not enough, causes the more serious problem of unbalance of calorific value balance.

In order to achieve the above purpose, the present invention is realized by the following technical solution: a heat dissipation device for a supercritical polymerization foaming shoe material workshop structurally comprises: radiator shell, grid cooling pipe support, guide vane board, heat dissipation fin cover, inner gimbal shell, grid cooling pipe support and heat dissipation fin cover are nested integratively and are in on same vertical face, guide vane board is equipped with the front side that vertical and alignment becomes a straight line more than two and all install in the inside of inner gimbal shell and heat dissipation fin cover, heat dissipation fin cover is installed in the inside of inner gimbal shell and is in on same vertical face, inner gimbal shell and radiator shell lock are in the same, grid cooling pipe support inlays in radiator shell's inside and be in on same vertical face, grid cooling pipe support is equipped with pneumatic fast takeover, thick cooling pipe support, thin cooling pipe support, wide check frame, thick cooling pipe support is installed in the front side of thin cooling pipe support and is in on same vertical face, pneumatic fast takeover is equipped with two and inserts respectively and inlays the upper and lower both ends on thick cooling pipe support and thin cooling pipe support right side, thick cooling pipe support and thin cooling pipe support are all installed in the inside of wide check frame and are in same vertical face with the vertical face, wide check frame is nested and be in the same body with the heat dissipation fin cover and be in same vertical face with the pipe support and be in the same.

In order to optimize the technical scheme, the method further comprises the following steps:

as a further improvement, thick heat dissipation pipe support is riveted by frame horizontal through pipe, circle and is detained cap, thick logical trachea and constitute, the frame horizontal through pipe is riveted through the circle and is detained cap and thick logical pipe lock together and mutually perpendicular, thick logical trachea is equipped with more than two levels and arranges into a straight line and all inserts and inlay between two frame horizontal through pipes.

As a further improvement, the thin heat dissipation pipe support is riveted by the horizontal siphunculus of inside casing, square and is detained cap, thin breather pipe and constitute, the horizontal siphunculus of inside casing is riveted the cap through the square and is detained the cap and thin breather pipe lock together and mutually perpendicular, thin breather pipe is equipped with more than two levels and arranges into a straight line and all inserts and inlay between two horizontal siphunculus of inside casing.

As the utility model discloses a further improvement, thick trachea is the inseparable thick tubular structure of spiral twill, and convenient intensive spiral heat dissipation thick pipe diffusion is high-efficient, and the grid transition heat dissipation of arranging promotes the extension area.

As the utility model discloses a further improvement, thin breather pipe is the tubule body structure of arranging for the double-inclined line interval, and convenient equidistant pipeline that pulls open densely arranged forms well accuse pipeline frame and protects the operational effect of diffusion heat conduction.

Advantageous effects

The utility model relates to a heat dissipation equipment in supercritical polymerization foaming shoes material workshop, the staff is through wrapping up radiator shell grid heat dissipation pipe support and water conservancy diversion blade board, under the interior interlayer parcel frame of heat dissipation fin cover and inner frame shell protects, let pneumatic quick-witted fast-connection pipe interlude thick heat dissipation pipe support and thin heat dissipation pipe support form frame horizontal pipe and circle riveting cap in wide check frame inslot and receive the thin breather pipe operational effect of weaving thick breather pipe grid support and the crisscross inside casing horizontal pipe of staggering and square riveting cap receipts, the operational effect that the double-deck rack of gradient formula grid distributes and pipeline distribution combination heat dissipation butt joint switches on around the formation.

The utility model discloses the advantage that can reach after the operation has:

the grid radiating pipe support is matched with the radiating fin cover, the stacked gradient type front and rear grid radiating operation effect in the radiating fin cover is formed through the double groups of coarse radiating pipe supports and fine radiating pipe supports, the balance of the winding tank pressure heat value in the external connection of the whole equipment and the supercritical value temperature rise are guaranteed, the operation effect of adaptive polymerization foaming work is kept, and the high-efficiency balance and stable adaptive processing operation effect of the heat value after the heat radiating equipment is connected in the foaming tank in a workshop is improved.

Drawings

Other features, objects, and advantages of the present invention will become more apparent from the following detailed description of the embodiments of the invention when taken in conjunction with the accompanying drawings, in which:

fig. 1 is a schematic structural diagram of a heat dissipation device in a supercritical polymerization foaming shoe material workshop of the present invention.

Fig. 2 is a detailed sectional structure schematic diagram of the grid heat dissipation pipe support of the present invention.

Fig. 3 is the cross-sectional structure schematic diagram of the working state of the thick heat dissipation pipe support of the present invention.

Fig. 4 is the utility model discloses thin heat dissipation pipe support operating condition's section structure schematic diagram.

Description of the reference numerals: the radiator comprises a radiator outer shell-1, a grid radiating pipe frame-2, a guide vane plate-3, a radiating fin cover-4, an inner frame shell-5, a pneumatic quick connection pipe-21, a thick radiating pipe frame-22, a fine radiating pipe frame-23, a wide lattice frame groove-24, an outer frame cross pipe-221, a round rivet cap-222, a thick air pipe-223, an inner frame cross pipe-231, a square rivet cap-232 and a fine air pipe-233.

Detailed Description

In order to make the utility model realize, the technical means, the creation characteristics, the achievement purpose and the efficacy are easy to understand and understand, the utility model is further explained by combining the specific implementation mode.

The first embodiment is as follows:

referring to fig. 1-4, the present invention provides a heat dissipation device for a supercritical polymer foaming shoe material workshop, which comprises: radiator shell 1, grid cooling pipe support 2, guide vane board 3, heat dissipation fin cover 4, inside casing shell 5, grid cooling pipe support 2 becomes integrative and is in on same vertical face with heat dissipation fin cover 4 nestification, guide vane board 3 is equipped with the front side of vertical and straight line of being arranged in a straight line more than two and all installing in inside of inside casing shell 5 and heat dissipation fin cover 4, heat dissipation fin cover 4 installs in inside of inside casing shell 5 and is in on same vertical face, inside casing shell 5 is in the same with radiator shell 1 lock-joint together, grid cooling pipe support 2 inserts and inlays in radiator shell 1's inside and be in on same vertical face, grid cooling pipe support 2 is equipped with pneumatic fast takeover 21, thick cooling pipe support 22, thin cooling pipe support 23, wide check chase 24, thick cooling pipe support 22 installs in the front side of thin cooling pipe support 23 and is in on same vertical face, pneumatic takeover 21 is equipped with two and inserts respectively and inlays and at the upper and lower both ends on thick cooling pipe support 22 and thin cooling pipe support 23 right side, thick cooling pipe support 22 and thin cooling pipe support 23 all install in the inside of thin cooling pipe support 24 and be in same vertical check 24 and the vertical check face is in and the same, and the vertical check 24 is in on the same vertical check face.

Referring to fig. 3, the coarse heat dissipation pipe support 22 is composed of an outer frame cross pipe 221, a circular rivet cap 222 and a coarse air pipe 223, the outer frame cross pipe 221 is fastened with the coarse air pipe 223 through the circular rivet cap 222 and is perpendicular to the coarse air pipe 223, the coarse air pipe 223 is provided with more than two horizontal lines which are arranged in a straight line and are inserted between the two outer frame cross pipes 221, the coarse air pipe 223 is a coarse pipe structure with tight spiral twills, the diffusion of the dense spiral heat dissipation coarse pipes is facilitated, and the extension area is increased by grid arrangement and transitional heat dissipation.

Referring to fig. 4, the thin heat dissipation pipe support 23 is composed of an inner frame cross pipe 231, a square rivet cap 232, and a thin vent pipe 233, the inner frame cross pipe 231 is fastened together and perpendicular to the thin vent pipe 233 through the square rivet cap 232, the thin vent pipe 233 is provided with more than two horizontal lines which are arranged in a straight line and are inserted and embedded between the two inner frame cross pipes 231, the thin vent pipe 233 is a thin pipe structure with double inclined lines arranged at intervals, and the pipelines arranged densely at intervals can be conveniently pulled apart to form the operation effect of diffusion heat conduction of the central control pipe support.

The working process comprises the following steps: the staff is through wrapping up grid cooling pipe support 2 and guide vane board 3 with radiator shell 1, under the interior interlayer parcel frame of cooling fin cover 4 and inside casing 5 protects, let pneumatic quick-connection pipe 21 alternate thick cooling pipe support 22 and thin cooling pipe support 23 and form outer frame horizontal pipe 221 and circle rivet cap 222 and receive and compile thick through-air pipe 223 grid frame and protect the thin breather pipe 233 operation effect of staggering inside casing horizontal pipe 231 and square rivet cap 232 receipts and compile in wide check frame 24, form the operation effect that gradient formula grid double-deck rack distributes and pipeline distribution combination heat dissipation butt joint switches on around forming.

The utility model discloses a combination of each other of above-mentioned parts, reach application grid heat dissipation pipe support 2 and heat dissipation fin cover 4 and cooperate, through two thick heat dissipation pipe support 22 of group, thin heat dissipation pipe support 23 forms the radiating operation effect of grid around the stack gradient formula in the heat dissipation fin cover 4 covers, guarantee the external balance of winding tank pressure calorific value of whole equipment and the operation effect that super critical value intensifies and keeps adaptation polymerization foaming work, promote the high-efficient balanced and steady adaptation processing operation effect of calorific value behind the workshop foaming tank grafting heat dissipation equipment, solve the hot melt foaming tank heat temperature rising of super critical polymerization foaming shoe material workshop with this and produce indoor temperature differential pressure easily, cause the whole factory building of internal heat diffusion or tank pressure saturation critical value to collapse easily, it is not enough to heat dissipation and tank pressure heat dissipation in the workshop, cause the more serious problem of unbalance of calorific value balance.

The specific embodiments described herein are merely illustrative of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims.

Claims (5)

1. A heat dissipation device for a supercritical polymerization foaming shoe material workshop structurally comprises: radiator shell (1), grid heat dissipation pipe support (2), water conservancy diversion blade plate (3), heat dissipation fin cover (4), inside casing shell (5), its characterized in that:

the grid radiating pipe support (2) and the radiating fin cover (4) are embedded into a whole, more than two guide vane plates (3) are arranged vertically and parallelly in a straight line and are arranged in the inner frame shell (5) and the front side of the radiating fin cover (4), the radiating fin cover (4) is arranged in the inner frame shell (5), the inner frame shell (5) and the radiator shell (1) are buckled together, and the grid radiating pipe support (2) is embedded in the radiator shell (1) in an inserting mode;

the grid radiating pipe frame (2) is provided with a pneumatic quick connecting pipe (21), a thick radiating pipe frame (22), a thin radiating pipe frame (23) and a wide grid groove (24);

thick heat dissipation pipe support (22) are installed in the front side of thin heat dissipation pipe support (23), pneumatic quick-connection pipe (21) are equipped with two and insert respectively and inlay the upper and lower both ends on thick heat dissipation pipe support (22) and thin heat dissipation pipe support (23) right side, thick heat dissipation pipe support (22) and thin heat dissipation pipe support (23) are all installed in the inside of wide check frame groove (24), wide check frame groove (24) and radiating fin cover (4) are nested as an organic whole.

2. The heat dissipation device for the supercritical polymerization foaming shoe material workshop as claimed in claim 1, wherein: thick heat dissipation pipe support (22) are riveted cap (222), thick logical trachea (223) by frame cross tube (221), circle and are constituteed, frame cross tube (221) are riveted cap (222) and thick logical trachea (223) lock through the circle and are in the same place, thick logical trachea (223) are equipped with more than two levels and arrange into a straight line and all insert and inlay between two frame cross tubes (221).

3. The heat dissipation device for the supercritical polymerization foaming shoe material workshop as claimed in claim 1, wherein: thin heat dissipation pipe support (23) are riveted by inside casing horizontal pipe (231), square and are detained cap (232), thin breather pipe (233) and constitute, inside casing horizontal pipe (231) are riveted cap (232) and thin breather pipe (233) lock through the square and are in the same place, thin breather pipe (233) are equipped with more than two levels and arrange into a straight line and all insert and inlay between two inside casing horizontal pipes (231).

4. The heat dissipation device for the supercritical polymerization foaming shoe material workshop as claimed in claim 2, wherein: the thick air passing pipe (223) is of a thick pipe body structure with tight spiral twill.

5. The heat dissipation device for the supercritical polymerization foaming shoe material workshop as claimed in claim 3, wherein: the fine vent pipe (233) is in a fine pipe body structure with double inclined lines arranged at intervals.

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