CN218328675U - Combined electromagnetic hot-blast stove - Google Patents

Abstract

The utility model discloses a modular electromagnetism hot-blast furnace, which comprises a housin, the both ends of casing are air inlet end and air-out end respectively, still including being used for getting into the heating mechanism that the inside air of casing goes on heating, the supporting mechanism who is used for promoting the area of contact of heating mechanism and air and be used for providing the supporting mechanism that supports for the supporting mechanism, heating mechanism is located inside the casing, supporting mechanism are located heating mechanism's lateral part, and supporting mechanism corresponds the supporting mechanism and is located the inboard middle part of casing, the beneficial effects of the utility model are that be equipped with heating mechanism, effectively promote its area of contact with the air under supporting mechanism's effect to promote its heat exchange area, heating mechanism keeps the lower temperature state and can satisfy the heating demand, and the thermal efficiency is high, avoids heating mechanism high temperature oxidation phenomenon to appear, promotes its life, and connecting portion divide into the point contact, and the air resistance of corresponding production is less, reduces the influence that air resistance produced heat exchange efficiency.

Description

Combined electromagnetic hot-blast stove

Technical Field

The utility model belongs to the technical field of electromagnetism hot-blast apparatus technique and specifically relates to a modular electromagnetism hot-blast furnace is related to.

Background

In the prior art, electromagnetic heating is also called electromagnetic induction heating, namely an electromagnetic heating technology, the principle of electromagnetic heating is that an alternating magnetic field is generated through an electronic circuit board component, when a ferrous container is placed on the electromagnetic heating container, the surface of the container cuts alternating magnetic lines of force to generate alternating current (namely eddy current) on a metal part at the bottom of the container, the eddy current enables carriers at the bottom of the container to move randomly at a high speed, and the carriers collide and rub with atoms to generate heat energy. Thereby achieving the effect of heating the article. Since the iron vessel itself generates heat, the heat conversion is particularly high, and up to 95% is a direct heating method. Electromagnetic heating technology is adopted in an electromagnetic oven, an electromagnetic stove and an electromagnetic heating electric cooker. The existing electromagnetic hot blast stove has certain disadvantages when in use, firstly, the device can not well preserve heat when in use, the energy-saving effect is poor, the use of people is not facilitated, and in addition, the device can not well be disassembled and assembled when in use, the maintenance is difficult, and certain adverse effects are brought to the use process of people.

The application numbers are: 202123349699.7 discloses an electromagnetic heating hot-blast stove, including the urceolus, the electromagnetic heating hot-blast stove comprises equipment barrel, heating barrel etc. and heating barrel comprises cartridge heater, heat preservation, electromagnetic wire, control by temperature change probe and automatically controlled cabinet, in the use, can set up a plurality of cartridge heaters according to hot-blast demand. In the use, the temperature of hot-blast temperature and cartridge heater need set up in advance, prevents that the cartridge heater from overburning, sets up the temperature after, just can start automatically controlled cabinet and heat. However, the whole electromagnetic heating hot blast stove adopts a thick iron pipe structure, the external part of the thick iron pipe structure is insulated and wound with a coil, a core pipe of an end socket is placed in the thick iron pipe structure, air is forced to pass through a gap between the core pipe and the thick iron pipe, meanwhile, the thick iron pipe generates heat under the action of electromagnetic induction to heat the air passing through the gap so as to generate hot air, in the hot air generating process, the thick iron pipe only internally contacts with the air, the contact area is small, the temperature can only be increased if the efficiency of heating the air is improved, the temperature is generally higher than 300 ℃, the thick iron pipe can be seriously oxidized at high temperature after long-time work in the state, the service life of the electromagnetic hot blast stove is obviously shortened, the electromagnetic hot blast stove generally needs to be eliminated and replaced within 2 to 3 years, the use cost is high, the gap between the core pipe and the thick iron pipe cannot be too large, the air resistance is increased if the gap is large, the specification of a matched fan needs to be increased, and the energy waste is caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a modular electromagnetism hot-blast furnace.

In order to achieve the above object, the present invention provides a technical solution:

the utility model provides a modular electromagnetism hot-blast furnace, includes the casing, the both ends of casing are air inlet end and air-out end respectively, still including being used for getting into the heating mechanism that the inside air of casing carries out the heating, the supporting mechanism that is used for promoting the area of contact of heating mechanism and air and is used for providing the supporting mechanism who supports for the supporting mechanism, heating mechanism is located inside the casing, the supporting mechanism is located the lateral part of heating mechanism, and the supporting mechanism corresponds the supporting mechanism and is located the inboard middle part of casing.

Heating mechanism is including heating steel pipe and heating coil, the heating steel pipe is equipped with four groups, and four groups heating steel pipe array arranges inside the casing, heating coil corresponds four groups heating steel pipe is equipped with four groups, four groups heating coil overlaps respectively and establishes four groups heating steel pipe's the outside, heating coil evenly encircles the setting and is in heating steel pipe's the outside.

And a space is reserved between the heating coil and the heating steel pipe, and the heating coil and the heating steel pipe jointly form a heating body structure in the electromagnetic hot air furnace.

The support mechanism comprises support pipes and support connecting cables, the support pipes correspond to four groups of heating steel pipes and are provided with four groups, each group of support pipes is composed of pipe bodies uniformly arranged in a ring mode, the four groups of support pipes are arranged on the side portions of the four groups of heating steel pipes and are attached to the corresponding heating steel pipes, the plurality of pipe bodies in each group of support pipes are arranged in a surrounding mode with the centers of the heating steel pipes as axes, the support connecting cables correspond to the four groups of support pipes and are provided with four groups, each group of support connecting cables is composed of a plurality of connecting cables arranged in a segmented mode, the four groups of support connecting cables are arranged on the side portions of the four groups of support pipes and are fixedly connected with the corresponding support pipes, the plurality of pipe bodies in each group of support pipes are connected through the support connecting cables, and the end portions of the support connecting cables are connected through connecting assemblies.

Coupling assembling detains and connects soon the cover including connecting soon, connect soon detain with it sets up relatively to connect soon the cover the tip of leg joint cable interconnect and with leg joint cable fixed connection, connect soon detain with the tip of connecting the relative setting of cover is equipped with internal thread and external screw thread respectively soon, connect soon detain with connect the relative tip threaded connection who sets up of cover soon.

The supporting mechanism comprises supporting partition plates, supporting blocks and damping assemblies, the supporting partition plates are arranged in the shell and fixedly connected with the shell, the supporting partition plates divide the inner part of the shell into four cavities, four groups of heating steel pipes are respectively located in the four cavities of the shell, the supporting blocks are provided with four groups corresponding to the four groups of support pipes, the four groups of supporting blocks are symmetrically arranged in the middle of the supporting partition plates and are respectively and fixedly connected with the four groups of support pipes, the damping assemblies are provided with four groups corresponding to the four groups of support pipes, and the four groups of damping assemblies are symmetrically arranged on the upper portion and the lower portion of the supporting partition plates and are located between the supporting partition plates and the support pipes.

Damping component includes snubber block, shock attenuation gag lever post and damping spring, the snubber block is equipped with two, two the snubber block side by side the interval set up and two the snubber block respectively with the supporting and separating board and corresponding support tube fixed connection, two the relative one end that sets up of snubber block is equipped with the mounting groove, the shock attenuation gag lever post sets up two between the snubber block and its one end and wherein one snubber block fixed connection, the shock attenuation gag lever post is located two in the mounting groove between the snubber block, damping spring sets up two between the snubber block and its both ends respectively with two snubber block fixed connection, the damping spring cover is established the outside of shock attenuation gag lever post just is located the mounting groove.

Still include vibration damping mount, vibration damping mount is equipped with two sets ofly, and is two sets of vibration damping mount sets up respectively support the division board with the support tube one side relative and with correspond support the division board perhaps support tube fixed connection, the snubber block inlays to be established and is corresponding vibration damping mount's middle part, the snubber block passes through vibration damping mount with support the division board and correspond support tube fixed connection.

The supporting partition plate is composed of two partition plates which are vertical to each other, and the two partition plates are integrally formed to form a cross-shaped partition structure.

The utility model has the advantages that:

be equipped with heating mechanism, heating mechanism constitutes interval modular structure under gimbal mechanism's effect, can effectively promote the area of contact of heating mechanism and air, thereby promote its heat exchange area, compare in traditional electromagnetism hot-blast furnace, the mechanism that generates heat keeps the lower temperature state to satisfy the heating demand in this scheme, the thermal efficiency is higher, effectively avoid heating mechanism high temperature oxidation phenomenon to appear, promote its life, thereby promote electromagnetism hot-blast furnace's life, gimbal mechanism and supporting mechanism are the point contact at the connecting portion of casing in, the air resistance of corresponding production is less, reduce the influence that air resistance produced heat exchange efficiency.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the heating mechanism of the present invention;

fig. 3 is a schematic structural view of the connection assembly of the present invention;

figure 4 is the utility model discloses damper assembly structure sketch map.

In the figure: 1. a housing; 2. heating the steel pipe; 3. a heating coil; 4. a stent tube; 5. a bracket connecting cable; 6. connecting a rotary buckle; 7. connecting a rotary sleeve; 8. supporting the partition plate; 9. a support block; 10. a damper block; 11. a shock-absorbing limit rod; 12. a damping spring; 13. shock attenuation base.

Detailed Description

The invention will be described in further detail with reference to the accompanying drawings,

the utility model provides a modular electromagnetism hot-blast furnace, includes casing 1, and casing 1's both ends are air inlet end and air-out end respectively, still including being used for carrying out the heating mechanism that heats to the air that gets into casing 1 inside, the supporting mechanism who is used for promoting the area of contact of heating mechanism and air and is used for providing the support for the supporting mechanism, heating mechanism is located casing 1 inside, and the supporting mechanism is located heating mechanism's lateral part, and the supporting mechanism corresponds the inboard middle part that the supporting mechanism is located casing 1, the utility model discloses the overall structure schematic diagram is shown in figure 1.

Heating mechanism is including heating steel pipe 2 and heating coil 3, heating steel pipe 2 is equipped with four groups, 2 arrays of four group's heating steel pipe are arranged inside casing 1, heating coil 3 corresponds four group's heating steel pipe 2 and is equipped with four groups, four group's heating coil 3 overlaps respectively and establishes in four group's heating steel pipe 2 outside, heating coil 3 evenly encircles the outside that sets up at heating steel pipe 2, heating mechanism is through heating steel pipe 2 and the cooperation of heating coil 3, heat the air in casing 1, wherein, heating steel pipe 2 is used for heating up under heating coil 3's electromagnetic induction effect, thereby heat it through the air contact in its inner wall and outer wall and casing 1, heating coil 3 is used for heating steel pipe 2 through electromagnetic induction effect, the utility model discloses heating mechanism structure schematic diagram is shown in fig. 2.

Leave the interval between heating coil 3 and the heating steel pipe 2 and heating coil 3 constitutes the heating member structure in the electromagnetic hot blast stove with heating steel pipe 2 jointly, wherein, leave the interval between heating coil 3 and the heating steel pipe 2 and can guarantee that the inner wall and the outer wall of heating steel pipe 2 all contact with the air in casing 1 in the course of the work to promote the heat exchange area of heating steel pipe 2.

The support mechanism comprises support pipes 4 and support connecting cables 5, wherein the support pipes 4 are provided with four groups corresponding to the four groups of heating steel pipes 2, each group of support pipes 4 is composed of a plurality of pipes uniformly arranged in a ring mode, the four groups of support pipes 4 are respectively arranged on the side portions of the four groups of heating steel pipes 2 and are attached to the corresponding heating steel pipes 2, the plurality of pipes in each group of support pipes 4 are arranged in a surrounding mode with the center of the heating steel pipe 2 as an axis, the support connecting cables 5 are provided with four groups corresponding to the four groups of support pipes 4, each group of support connecting cables 5 is composed of a plurality of connecting cables arranged in sections, the four groups of support connecting cables 5 are respectively arranged on the side portions of the four groups of support pipes 4 and are fixedly connected with the corresponding support pipes 4, the plurality of pipes in each group of support pipes 4 are connected through the support connecting cables 5, the end portions of the support connecting cables 5 are connected through the connecting assemblies, the support pipes 4 are located on the inner side of the heating coil 3, the support mechanism is matched with the support pipes 4 through the support connecting cables 5, a temperature-resistant support is formed so that the heating coil 3 is separated from the outer wall of the heating steel pipe 2, and the support pipes 4 are connected with the support pipes 4 in a point contact mode.

Coupling assembling is including connecting spiral shell 6 and connecting spiral cover 7, connect spiral shell 6 and connect spiral cover 7 and set up relatively at 5 interconnect's of leg joint cable tip and with 5 fixed connection of leg joint cable, connect spiral shell 6 and be connected the relative tip that sets up of spiral cover 7 and do not be equipped with internal thread and external screw thread, connect the tip threaded connection who detains 6 and connect the relative setting of spiral cover 7 soon, coupling assembling is through connecting spiral shell 6 and connecting the cooperation of spiral cover 7, as the connection structure of 5 tip of leg joint cable, carry out the high-speed joint with the connecting cable between both ends, wherein, connect spiral shell 6 and connect through screw-thread fit in order to realize quick assembly disassembly and assembly to connect between the spiral cover 7, the utility model discloses coupling assembling structure schematic diagram is shown in fig. 3.

The supporting mechanism comprises supporting partition plates 8, supporting blocks 9 and damping assemblies, the supporting partition plates 8 are arranged inside the shell 1 and fixedly connected with the shell 1, the supporting partition plates 8 divide the interior of the shell 1 into four cavities, the four groups of heating steel pipes 2 are respectively located in the four cavities of the shell 1, the supporting blocks 9 are provided with four groups corresponding to the four groups of support pipes 4, the four groups of supporting blocks 9 are symmetrically arranged in the middle of the supporting partition plates 8 and are respectively and fixedly connected with the four groups of support pipes 4, the damping assemblies are provided with four groups corresponding to the four groups of support pipes 4, the four groups of damping assemblies are symmetrically arranged on the upper portion and the lower portion of the supporting partition plates 8 and are located between the supporting partition plates 8 and the support pipes 4, the supporting mechanism is matched with the supporting partition plates 8, the supporting blocks 9 and the damping assemblies to provide mounting supports for the support mechanism and the heating mechanism, the supporting partition plates 8 are used for dividing the interior of the shell 1 into a plurality of cavities and providing mounting supports for the support mechanism, the supporting blocks 9 are used for connecting the support mechanism with the supporting mechanism and providing mounting supports for the support for the heating mechanism under the effect of the supporting plate 8, and the damping assemblies are used for providing damping supports for reducing the effect of vibration on the heating mechanism.

Damping component includes snubber block 10, shock attenuation gag lever post 11 and damping spring 12, snubber block 10 is equipped with two, two snubber blocks 10 set up and two snubber blocks 10 respectively with support division board 8 and the support tube 4 fixed connection that corresponds side by side at the interval, the one end that two snubber blocks 10 set up relatively is equipped with the mounting groove, shock attenuation gag lever post 11 sets up between two snubber blocks 10 and its one end and one of them snubber block 10 fixed connection, shock attenuation gag lever post 11 is located the mounting groove between two snubber blocks 10, damping spring 12 sets up between two snubber blocks 10 and its both ends respectively with two snubber blocks 10 fixed connection, damping spring 12 cover is established in shock attenuation gag lever post 11's the outside and is located the mounting groove, damping component passes through snubber block 10, shock attenuation gag lever post 11 and damping spring 12 cooperation, constitute shock-absorbing structure, reduce the influence that vibrations produced heating mechanism and support mechanism, wherein, snubber block 10 is used for providing the erection bracing support for shock attenuation gag lever post 11 and damping spring 12, shock attenuation gag lever post 11 is used for limiting the interval between two snubber blocks 10, it influences the common heating mechanism and damping spring 12 to reduce shock attenuation gag lever post 10 and produce the common heating mechanism and thereby the utility model is shown in the shock attenuation gag lever post 10.

Still include shock mount base 13, shock mount base 13 is equipped with two sets ofly, two sets of shock mount base 13 set up respectively in the relative one side of support division board 8 and support tube 4 and with the support division board 8 or the support tube 4 fixed connection that correspond, snubber block 10 inlays the middle part of establishing at the shock mount base 13 that corresponds, snubber block 10 passes through snubber mount base 13 and support division board 8 and the support tube 4 fixed connection that corresponds, wherein, snubber mount base 13 is used for as the installation basis on support division board 8 and the support tube 4, thereby provide the erection bracing for snubber block 10 that corresponds.

The supporting and separating plate 8 is composed of two mutually perpendicular separating plates, the two separating plates are integrally formed to form a cross-shaped separating structure, wherein the supporting and separating plate 8 is used for separating the inner space of the shell 1 into a plurality of cavity structures, and the structure of the supporting and separating plate 8 can be correspondingly adjusted according to actual conditions.

A working method of a combined electromagnetic hot blast stove comprises the following steps:

a. preheating: starting the equipment, and preheating the heating steel pipe 2 by the heating coil 3 through electromagnetic induction;

b. ventilating: a fan configured in the equipment blows external air into the shell 1 from the air inlet end of the shell 1;

c. heating: heating coil 3 makes heating steel pipe 2 intensifies through electromagnetic induction, and the inner wall and the outer wall of heating steel pipe 2 contact with the inside air of casing 1, with the inside air heating of casing 1, simultaneously under the effect of fan, the air is in mobile state, and the inside air that passes through the heating of casing 1 is held the exhaust casing 1 in order to produce hot-blastly via the air-out of casing 1.

Wherein, heating steel pipe 2, heating coil 3, support tube 4, support connecting cable 5, coupling assembling, support division board 8, supporting shoe 9 and damper's quantity can carry out corresponding setting according to actual conditions and user demand to its arrangement can carry out the adaptability adjustment, can add or subtract the quantity of establishing body in support tube 4 according to heating steel pipe 2's corresponding the size specification, and accessible coupling assembling carries out quick assembly disassembly to it and connects.

The working principle is as follows:

heating mechanism constitutes the big heating member of heat exchange area with the gimbal mechanism jointly, heats the inside air of casing 1 through the inner wall and the outer wall of heating steel pipe 2, and the fan blows in the casing 1 with the outside air in via the air inlet end to in via air-out end discharge casing 1, its air flow's in-process, the heat that heating mechanism produced is taken away in order to produce hot-blastly by the air.

The beneficial effects of the utility model are that be equipped with heating mechanism, heating mechanism constitutes interval integrated configuration under the effect of gimbal mechanism, can effectively promote the area of contact of heating mechanism and air, thereby promote its heat exchange area, compare in traditional electromagnetism hot-blast furnace, the mechanism that generates heat keeps the lower temperature state to satisfy the heating demand in this scheme, the thermal efficiency is higher, effectively avoid heating mechanism high-temperature oxidation phenomenon to appear, promote its life, thereby promote the life of electromagnetism hot-blast furnace, gimbal mechanism and supporting mechanism connecting portion in the casing are the point contact, the air resistance of corresponding production is less, reduce the influence that air resistance produced heat exchange efficiency.

While one embodiment of the present invention has been described in detail, the present invention is only a preferred embodiment of the present invention, and should not be construed as limiting the scope of the present invention. The equivalent changes and improvements made according to the application scope of the present invention should be still included in the patent coverage of the present invention.

Claims (9)

1. The utility model provides a modular electromagnetism hot-blast furnace, includes casing (1), the both ends of casing (1) are air inlet end and air-out end respectively, its characterized in that still including being used for getting into the heating mechanism that the inside air of casing (1) goes on heating, the supporting mechanism that is used for promoting the area of contact of heating mechanism and air and is used for providing the supporting mechanism who supports for the supporting mechanism, heating mechanism is located inside casing (1), the supporting mechanism is located heating mechanism's lateral part, and the supporting mechanism corresponds the supporting mechanism and is located the inboard middle part of casing (1).

2. The combined electromagnetic hot blast stove according to claim 1, characterized in that the heating mechanism comprises four groups of heating steel pipes (2) and heating coils (3), the heating steel pipes (2) are provided with four groups, the four groups of heating steel pipes (2) are arranged in the shell (1) in an array manner, the heating coils (3) are provided with four groups corresponding to the four groups of heating steel pipes (2), the four groups of heating coils (3) are respectively sleeved on the outer sides of the four groups of heating steel pipes (2), and the heating coils (3) are uniformly arranged on the outer sides of the heating steel pipes (2) in a surrounding manner.

3. A combined electromagnetic hot blast stove according to claim 2, characterised in that a distance is left between the heating coil (3) and the heating steel tube (2) and the heating coil (3) and the heating steel tube (2) together form a heating body structure in the electromagnetic hot blast stove.

4. The combined electromagnetic hot-blast stove according to claim 3, characterized in that the support mechanism comprises support pipes (4) and support connecting cables (5), the support pipes (4) are provided with four groups corresponding to the four groups of heating steel pipes (2), each group of support pipes (4) is composed of a plurality of uniformly annularly arranged pipe bodies, the four groups of support pipes (4) are respectively arranged at the side parts of the four groups of heating steel pipes (2) and are attached to the corresponding heating steel pipes (2), the plurality of pipe bodies in each group of support pipes (4) are arranged around the center of the heating steel pipe (2), the support connecting cables (5) are provided with four groups corresponding to the four groups of support pipes (4), each group of support connecting cables (5) is composed of a plurality of connecting cables arranged in sections, the four groups of support connecting cables (5) are respectively arranged at the side parts of the four groups of support pipes (4) and are fixedly connected with the corresponding support pipes (4), the plurality of pipe bodies in each group of support pipes (4) are connected by the support connecting cables (5), and the end parts of the support connecting assemblies are connected by the support connecting cables (5).

5. A combined electromagnetic hot-blast stove according to claim 4, characterised in that the connecting assembly comprises a connecting turn buckle (6) and a connecting turn sleeve (7), the connecting turn buckle (6) and the connecting turn sleeve (7) are arranged opposite at the end of the bracket connecting cable (5) which is connected with each other and fixedly connected with the bracket connecting cable (5), the end of the connecting turn buckle (6) opposite to the connecting turn sleeve (7) is provided with an internal thread and an external thread respectively, and the connecting turn buckle (6) and the end of the connecting turn sleeve (7) opposite to each other are in threaded connection.

6. A combined electromagnetic hot-blast stove according to claim 5, characterized in that the supporting mechanism comprises a supporting and dividing plate (8), supporting blocks (9) and damping components, the supporting and dividing plate (8) is arranged inside the housing (1) and fixedly connected with the housing (1), the supporting and dividing plate (8) divides the interior of the housing (1) into four cavities, four groups of heating steel pipes (2) are respectively located in the four cavities of the housing (1), four groups of supporting blocks (9) are arranged corresponding to the four groups of support pipes (4), the four groups of supporting blocks (9) are symmetrically arranged in the middle of the supporting and dividing plate (8) and are respectively fixedly connected with the four groups of support pipes (4), the damping components are arranged corresponding to the four groups of support pipes (4), and the four groups of damping components are symmetrically arranged at the upper and lower parts of the supporting and dividing plate (8) and are located between the supporting and dividing plate (8) and the support pipes (4).

7. The combined electromagnetic hot-blast stove according to claim 6, characterized in that the damping assembly comprises two damping blocks (10), two damping limiting rods (11) and two damping springs (12), wherein two damping blocks (10) are provided, two damping blocks (10) are arranged side by side at intervals, and two damping blocks (10) are respectively and fixedly connected with the supporting partition plate (8) and the corresponding support tube (4), one end of each of the two damping blocks (10) which is arranged oppositely is provided with a mounting groove, the damping limiting rods (11) are arranged between the two damping blocks (10) and one end of each of the damping blocks (10) is fixedly connected with one of the damping blocks (10), the damping limiting rods (11) are arranged in the mounting grooves between the two damping blocks (10), the damping springs (12) are arranged between the two damping blocks (10) and two ends of each of the damping limiting rod are respectively and fixedly connected with the two damping blocks (10), and the damping springs (12) are sleeved outside the damping limiting rods (11) and are arranged in the mounting grooves.

8. The combined electromagnetic hot blast stove according to claim 7, further comprising two damping bases (13), wherein two damping bases (13) are provided, two damping bases (13) are respectively provided on one side of the supporting partition plate (8) opposite to the support tube (4) and are fixedly connected with the corresponding supporting partition plate (8) or the support tube (4), the damping block (10) is embedded in the middle of the corresponding damping base (13), and the damping block (10) is fixedly connected with the supporting partition plate (8) and the corresponding support tube (4) through the damping base (13).

9. A combined electromagnetic hot-blast stove according to claim 6, characterised in that the supporting partition plate (8) consists of two mutually perpendicular partition plates, which are integrally formed to form a cruciform partition structure.

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