CN208395103U - A kind of carbonization chamber that efficiency can be improved - Google Patents

A kind of carbonization chamber that efficiency can be improved Download PDF

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Publication number
CN208395103U
CN208395103U CN201821059392.9U CN201821059392U CN208395103U CN 208395103 U CN208395103 U CN 208395103U CN 201821059392 U CN201821059392 U CN 201821059392U CN 208395103 U CN208395103 U CN 208395103U
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CN
China
Prior art keywords
carbonization
carbonization chamber
rotation axis
fixedly connected
arc bump
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Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN201821059392.9U
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Chinese (zh)
Inventor
尚剑苹
郭文强
张飞跃
宋海军
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Wuhai West Coal Chemical Co Ltd
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Wuhai West Coal Chemical Co Ltd
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Priority to CN201821059392.9U priority Critical patent/CN208395103U/en
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Publication of CN208395103U publication Critical patent/CN208395103U/en
Expired - Fee Related legal-status Critical Current
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Abstract

The utility model discloses a kind of carbonization chambers that efficiency can be improved, including the first carbonization chamber and the second carbonization chamber, combuster is fixedly connected between first carbonization chamber and the second carbonization chamber, rotation axis is equipped in the combustion chamber, rotation axis one end is pierced by combustion chamber rear wall and is fixedly connected across fixed plate with motor, the fixed board ends are fixedly connected with the first carbonization chamber and the second carbonization chamber respectively, the rotation axis other end is connect with combustion chamber front inner wall by bearing rotary, and multiple first sleeves are fixed in the rotation axis.The utility model motor driven rotation axis, the first arc bump is driven constantly to hit the first fixed block back and forth, piston plate will slide in heat conducting pipe back and forth in this way, so that the indoor hot-air that burns is flowed into the indoor speed of charing and accelerates, to improve the speed of carbonization chamber heating, the efficiency of burning, the coking of coal ensure that.

Description

A kind of carbonization chamber that efficiency can be improved
Technical field
The utility model relates to coking of coal equipment technical field, specially a kind of carbonization chamber that efficiency can be improved.
Background technique
Coal is placed in carbonization chamber, and combustion chamber starts firing up and generates hot-air, and hot-air passes through thermally conductive delivery pipe It acts in carbonization chamber, is burnt to coal, coking, however existing is to match two carbonization chambers using a combustion chamber, And heat is only simply transmitted to carbonization chamber using the flowing of hot-air during hot-air is passed to carbonization chamber in combustion chamber Amount, but this mode transmission efficiency is slow, causes the time of coal burning, coking long, to directly affect entire coal tar chemical industry The production efficiency of skill, and work as a carbonization chamber and be fully finished burning, coking, and another carbonization chamber is not completed also, this When combustion chamber transmitting heat still is being carried out to completed carbonization chamber, cause the waste of the energy.Therefore we, which make this, changes Into proposing a kind of carbonization chamber that efficiency can be improved.
Utility model content
To solve defect of the existing technology, the utility model provides a kind of carbonization chamber that efficiency can be improved.
In order to solve the above-mentioned technical problem, the utility model provides the following technical solution:
A kind of carbonization chamber that efficiency can be improved of the utility model, including the first carbonization chamber and the second carbonization chamber, described It is fixedly connected with combuster between one carbonization chamber and the second carbonization chamber, is equipped with rotation axis in the combustion chamber, rotation axis one end is worn Combustion chamber rear wall and be fixedly connected out across fixed plate with motor, the fixed board ends respectively with the first carbonization chamber and second Carbonization chamber is fixedly connected, and the rotation axis other end is connect with combustion chamber front inner wall by bearing rotary, in the rotation axis Multiple first sleeves are fixed with, first sleeve two sides are symmetrically fixedly connected with the first arc bump, first arc bump Side is equipped with heat conducting pipe, and combustion chamber two sides are pierced by and extend into the first carbonization chamber and the second carbonization chamber respectively for multiple heat conducting pipe sides It is interior to be connected with efferent duct fixation, the first check valve is fixedly installed on the efferent duct, the heat conducting pipe other side is fixed Abacus is connected, slidably connects piston plate in the heat conducting pipe, multiple air inlets, peace in air inlet are fixed on piston plate Equipped with second one-way valve, the piston plate side is fixedly connected with sliding bar one end, and the sliding bar other end passes through piston plate It is fixedly connected with the first fixed block, is fixedly connected with compressed spring between first fixed block and orifice plate, compressed spring covers On sliding bar, first fixed block is bonded with the first arc bump, and first fixed block is fixedly connected with second on top surface Fixed plate, second fixed plate side are fitted with the second arc bump, second arc bump and the fixed company of second sleeve It connects, the second sleeve fixing sleeve is arranged in threaded rod, threaded rod in the positive upper end of rotation axis, described threaded rod one end and combustion chamber Preceding inner sidewall is connected by bearing rotary, and the threaded rod other end passes through combustion chamber rear wall and fixed plate and the fixed company of handle It connects.
As a kind of optimal technical scheme of the utility model, the motor is fixedly mounted in fixed plate, the motor It is electrically connected with external power supply.
As a kind of optimal technical scheme of the utility model, second arc bump and second sleeve are provided with more It is a.
As a kind of optimal technical scheme of the utility model, the rotation axis is equal with the radius of threaded rod, and described The length and radian of one arc bump and the second arc bump are equal.
As a kind of optimal technical scheme of the utility model, the rotation axis, fixed plate, first sleeve, the first arc Convex block, heat conducting pipe, efferent duct, orifice plate, piston plate, sliding bar, the first fixed block, compressed spring, the second fixed plate, the second arc Convex block, second sleeve and threaded rod are made of high temperature resistant stainless steel.
As a kind of optimal technical scheme of the utility model, the rotation axis is equipped with close with combustion chamber rear wall contact position Seal, sealing ring are fixedly connected with combustion chamber rear wall.
As a kind of optimal technical scheme of the utility model, the distance between the rotation axis and threaded rod are greater than first The 3mm-5mm of arc bump length, the distance between the threaded rod and combustion chamber inner roof wall are greater than the second arc bump length 3mm-5cm.
The beneficial effects of the utility model are: this kind can be improved the carbonization chamber of efficiency, motor driven rotation axis drives the One arc bump constantly hits the first fixed block back and forth, and such piston plate will slide in heat conducting pipe back and forth, so that burning Indoor hot-air, which is flowed into the indoor speed of charing, to be accelerated, to improve the speed of carbonization chamber heating, ensure that the combustion of coal It burns, the efficiency of coking, and works as the first carbonization tank and first burn, after coking, it, can be with mitigation of gases because of the setting of orifice plate Amount of flow, and combustor side piston plate is limited using the second arc bump, so that the heat conducting pipe of combustor side slows down To the rate of the first carbonization tank transmitting hot-air, and the heat conducting pipe inner piston plate of the combustion chamber other side also is continuing to slidably reciprocate, The indoor hot-air that burns can be thus allowed to be passed into faster into the second carbonization tank, if the second carbonization tank first fires It burns, after coking, limits the piston plate of the combustion chamber other side, can thus accelerate hot-air and enter the first carbonization tank It is interior, in conclusion making full use of for heat thus may be implemented, reduce heat losses to a certain extent, it is effective to save About energy resources.
Detailed description of the invention
Attached drawing is used to provide a further understanding of the present invention, and constitutes part of specification, practical with this Novel embodiment is used to explain the utility model together, does not constitute limitations of the present invention.In the accompanying drawings:
Fig. 1 is a kind of structural schematic diagram for the carbonization chamber that efficiency can be improved of the utility model;
Fig. 2 is Section A-A structural schematic diagram in a kind of Fig. 1 for the carbonization chamber that efficiency can be improved of the utility model;
Fig. 3 is a kind of Fig. 1 overlooking structure diagram for the carbonization chamber that efficiency can be improved of the utility model;
Fig. 4 is partial enlargement structural representation at B in a kind of Fig. 3 for the carbonization chamber that efficiency can be improved of the utility model.
In figure: 1, the first carbonization chamber;2, the second carbonization chamber;3, combustion chamber;4, the first carbonization tank;5, the second carbonization tank;6, Rotation axis;7, fixed plate;8, motor;9, first sleeve;10, the first arc bump;11, heat conducting pipe;12, efferent duct;13, first Check valve;14, orifice plate;15, piston plate;16, air inlet;17, second one-way valve;18, sliding bar;19, the first fixed block;20, Compressed spring;21, the second fixed plate;22, the second arc bump;23, second sleeve;24, threaded rod;25, handle.
Specific embodiment
It is illustrated below in conjunction with preferred embodiment of the attached drawing to the utility model, it should be understood that described herein excellent It selects embodiment to be only used for describing and explaining the present invention, is not used to limit the utility model.
Embodiment: as shown in Figure 1, Figure 2, Figure 3 and Figure 4, a kind of carbonization chamber that efficiency can be improved of the utility model, including First carbonization chamber 1 and the second carbonization chamber 2, are fixedly connected with combuster 3, institute between first carbonization chamber 1 and the second carbonization chamber 2 It states and is equipped with rotation axis 6 in combustion chamber 3,6 one end of rotation axis, which is pierced by 3 rear wall of combustion chamber and passes through fixed plate 7 and fix with motor 8, to be connected Connect, 7 both ends of fixed plate are fixedly connected with the first carbonization chamber 1 and the second carbonization chamber 2 respectively, 6 other end of rotation axis with 3 front inner wall of combustion chamber is connected by bearing rotary, is fixed with multiple first sleeves 9, first sleeve 9 in the rotation axis 6 Two sides are symmetrically fixedly connected with the first arc bump 10, and 10 side of the first arc bump is equipped with heat conducting pipe 11, multiple thermally conductive 3 two sides of combustion chamber are pierced by and extend into the first carbonization chamber 1 and the second carbonization chamber 2 and 12 stationary phase of efferent duct 11 side of pipe respectively Lead to and connect, the first check valve 13 is fixedly installed on the efferent duct 12,11 other side of heat conducting pipe is fixedly connected with abacus 14, piston plate 15 is slidably connected in the heat conducting pipe 11, is fixed with multiple air inlets 16 on piston plate 15, in air inlet 16 Second one-way valve 17 is installed, 15 side of piston plate is fixedly connected with 18 one end of sliding bar, 18 other end of sliding bar It is fixedly connected across piston plate 15 with the first fixed block 19, is fixedly connected with compression between first fixed block 19 and orifice plate 14 Spring 20,20 sets of compressed spring on sliding bar 18, first fixed block 19 is bonded with the first arc bump 10, described first The second fixed plate 21 is fixedly connected on 19 top surface of fixed block, 21 side of the second fixed plate is fitted with the second arc bump 22, second arc bump 22 is fixedly connected with second sleeve 23, and 23 fixing sleeve of second sleeve is in threaded rod 24, screw thread Bar 24 is arranged in the positive upper end of rotation axis 6, and described 24 one end of threaded rod is connect with inner sidewall before combustion chamber 3 by bearing rotary, institute 24 other end of threaded rod is stated to be fixedly connected across 3 rear wall of combustion chamber and fixed plate 7 with handle 25.Efficiency can be improved in this kind Carbonization chamber, motor 8 drive rotation axis 6, and the first arc bump 10 is driven constantly to hit the first fixed block 19, such piston back and forth Plate 15 will slide in heat conducting pipe 11 back and forth, so that hot-air is flowed into the indoor speed quickening of charing in combustion chamber 3, thus The speed for improving carbonization chamber heating, ensure that the efficiency of burning, the coking of coal, and when the first carbonization tank 4 first burns, coking After, it, can be with the amount of flow of mitigation of gases because of the setting of orifice plate 14, and limited and burnt using the second arc bump 22 3 side piston plate 15 of room, so that the heat conducting pipe 11 of 3 side of combustion chamber slows down the rate to the first carbonization tank 4 transmitting hot-air, and The 11 inner piston plate 15 of heat conducting pipe of 3 other side of combustion chamber also is continuing to slidably reciprocate, and can thus make the heat in combustion chamber 3 empty Gas can be passed into faster into the second carbonization tank 5, if the second carbonization tank 5 first burns, after coking, limited and burnt The piston plate 15 of 3 other side of room can thus accelerate hot-air and enter in the first carbonization tank 4, in conclusion thus may be used To realize making full use of for heat, reduce the waste of heat, effectively saves certain energy resources.
Wherein, the motor 8 is fixedly mounted in fixed plate 7, and the motor 8 is electrically connected with external power supply, Ke Yiyou The offer of effect continues drive energy.
Wherein, second arc bump 22 and second sleeve 23 are provided with multiple, ensure that in the course of work, Ke Yijun Even driving.
Wherein, the rotation axis 6 is equal with the radius of threaded rod 24, first arc bump 10 and the second arc bump 22 length and radian is equal, can be convenient and carries out the first fixed block 19 of limit using the second arc bump 22.
Wherein, the rotation axis 6, fixed plate 7, first sleeve 9, the first arc bump 10, heat conducting pipe 11, efferent duct 12, Orifice plate 14, piston plate 15, sliding bar 18, the first fixed block 19, compressed spring 20, the second fixed plate 21, the second arc bump 22, Second sleeve 23 and threaded rod 24 are made of high temperature resistant stainless steel, ensure that whole device can operate normally.
Wherein, the rotation axis 6 is equipped with sealing ring, sealing ring and 3 rear wall of combustion chamber with 3 rear wall contact position of combustion chamber It is fixedly connected, improves sealing effect, prevent heat losses.
The distance between the rotation axis 6 and threaded rod 24 are greater than the 3mm-5mm of 10 length of the first arc bump, the spiral shell The distance between rasp bar 24 and 3 inner roof wall of combustion chamber are greater than the 3mm-5cm of 22 length of the second arc bump, ensure that the first arc Convex block 10 and the second arc bump 22 can be with normal rotations.
When work, firstly, combustion chamber 3 carries out lighting heating, motor 8 is connected external power supply and is started, at this moment the second arc Shape convex block 22 is, and second arc bump 22 top face combustion chamber 3 inner roof wall parallel with the second fixed plate 21.
Motor 8 rotates, and rotation axis 6 can be made to rotate, then the first arc bump 10 of 6 two sides of rotation axis begins to revolve Turn, and in rotary course, continuous the first fixed block of reciprocating collision 19 of meeting, to drive 18 extrusion piston plate 15 of sliding bar sliding It is dynamic, and by 12 outlet of efferent duct, second one-way valve 17 can only because the first check valve 13 can only make 11 hot-air of heat conducting pipe So that hot-air is entered in heat conducting pipe 11 by air inlet 16, due to the active force of compressed spring 20, so that it may so that piston Plate 15 can in heat conducting pipe 11 it is continuous back and forth slide, so that it may the hot-air in accelerated combustion room 3 can be quickly It enters in the first carbonization tank 4 and the second carbonization tank 5, so that the temperature in the first carbonization tank 4 and the second carbonization tank 5 is faster It increases, ensure that coal can burn faster in the first carbonization tank 4 and the second carbonization tank 5, coking.
When the first carbonization tank 4 completes burning, coking first, and the second carbonization tank 5 has not been completed, and can thus turn Dynamic handle 25, so that threaded rod 24 carries out the rotation of certain angle, such second arc bump 22 will be with the second fixed plate 21 Fitting, then can be limited to the first fixed block 19 of 3 side of combustion chamber, prevent piston plate 15 is from being slided It is dynamic, because orifice plate 14 is arranged, reduce the amount of flow of gas, and the heat conducting pipe 11 that 3 side of combustion chamber is connect with the first carbonization tank 4 Conveying hot-air will be conveyed only by the flowing of gas, and flow rate declines, and at this moment 3 other side of combustion chamber is thermally conductive Piston plate 15 in pipe 11 also because the first arc bump 10 collision, continuation sliding, and according to the flow behavior of gas, More hot-airs will be conveyed into the second carbonization tank 5 so in combustion chamber 3, can be increased so hot in the second carbonization tank 5 The amount of air can be burnt, coking faster, and will be reduced to the hot-air of the first carbonization tank 1 conveying, in this way can be with The small part energy is saved to a certain extent.
Burning, coking are first completed if it is the second carbonization tank 2, then just limiting combustion chamber using the second arc bump 22 First fixed block 19 of 3 other sides is limited, so that the heat conducting pipe 11 that combustion chamber 3 is connect with the second carbonization tank 5 slows down conveying Ability improves to the first carbonization tank 1 and conveys quantity of hot air, the first carbonization tank 1 can thus be made to be burnt faster, Coking.
In the description of the present invention, it should be understood that term " coaxial ", " bottom ", " one end ", " top ", " in The orientation of the instructions such as portion ", " other end ", "upper", " side ", " top ", "inner", " front ", " rear side ", " center ", " both ends " Or positional relationship is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of description the utility model and simplification is retouched It states, rather than the device or element of indication or suggestion meaning must have a particular orientation, be constructed and operated in a specific orientation, Therefore it should not be understood as limiting the present invention.
In addition, term " first ", " second ", " third ", " the 4th " are used for description purposes only, and should not be understood as instruction or It implies relative importance or implicitly indicates the quantity of indicated technical characteristic, define " first ", " second ", " the as a result, Three ", the feature of " the 4th " can explicitly or implicitly include at least one of the features.
Finally, it should be noted that the above descriptions are merely preferred embodiments of the present invention, it is not limited to this Utility model, although the utility model is described in detail with reference to the foregoing embodiments, for those skilled in the art For, it is still possible to modify the technical solutions described in the foregoing embodiments, or to part of technical characteristic It is equivalently replaced.Within the spirit and principle of the utility model, any modification, equivalent replacement, improvement and so on, It should be included within the scope of protection of this utility model.

Claims (7)

1. a kind of carbonization chamber that efficiency can be improved, including the first carbonization chamber (1) and the second carbonization chamber (2), first charing It is fixedly embedded respectively in room (1) and the second carbonization chamber (2) to have the first carbonization tank (4) and the second carbonization tank (5), first charing Sealing cover is stamped on tank (4) and the second carbonization tank (5) respectively, it is fixed between first carbonization chamber (1) and the second carbonization chamber (2) It connects combuster (3), which is characterized in that be equipped with rotation axis (6) in the combustion chamber (3), rotation axis (6) one end is pierced by burning It room (3) rear wall and passes through fixed plate (7) and is fixedly connected with the output end of motor (8), fixed plate (7) both ends are respectively with the One carbonization chamber (1) is fixedly connected with the second carbonization chamber (2), and rotation axis (6) other end passes through with inner sidewall before combustion chamber (3) Bearing rotary connects, and is fixed with multiple first sleeves (9) on the rotation axis (6), and first sleeve (9) two sides are symmetrically solid Surely it is connected with the first arc bump (10), the first arc bump (10) side is equipped with heat conducting pipe (11), multiple heat conducting pipes (11) one end is pierced by combustion chamber (3) side wall respectively and extend into the first carbonization tank (4) and the second carbonization tank (5) and efferent duct (12) fixation is connected, and is fixedly installed with the first check valve (13) on the efferent duct (12), the heat conducting pipe (11) is another End is fixedly connected abacus (14), is slidably connected piston plate (15) in the heat conducting pipe (11), and fixation is set on piston plate (15) Have multiple air inlets (16), is equipped with second one-way valve (17) in air inlet (16), the piston plate (15) and sliding bar (18) It is fixedly connected, the sliding bar (18) passes through orifice plate (14) and is fixedly connected with the first fixed block (19), first fixed block (19) it being fixedly connected between orifice plate (14) compressed spring (20), compressed spring (20) covers on sliding bar (18), and described One fixed block (19) and the first arc bump (10) face are arranged, and are fixedly connected with second on the first fixed block (19) top surface Fixed plate (21), the second fixed plate (21) side be equipped with the second arc bump (22), second arc bump (22) with Second sleeve (23) is fixedly connected, and second sleeve (23) fixing sleeve is being rotated in threaded rod (24), threaded rod (24) setting Axis (6) positive upper end, described threaded rod (24) one end are connect with inner sidewall before combustion chamber (3) by bearing rotary, the threaded rod (24) other end passes through combustion chamber (3) rear wall and fixed plate (7) is fixedly connected with handle (25).
2. a kind of carbonization chamber that efficiency can be improved according to claim 1, which is characterized in that the motor (8) is fixed It is mounted on fixed plate (7), the motor (8) and external power supply are electrically connected.
3. a kind of carbonization chamber that efficiency can be improved according to claim 1, which is characterized in that second arc bump (22) and second sleeve (23) be provided with it is multiple.
4. a kind of carbonization chamber that efficiency can be improved according to claim 1, which is characterized in that the rotation axis (6) with The radius of threaded rod (24) is equal, and the length and radian of first arc bump (10) and the second arc bump (22) are equal.
5. a kind of carbonization chamber that efficiency can be improved according to claim 1, which is characterized in that the rotation axis (6) is consolidated Fixed board (7), first sleeve (9), the first arc bump (10), heat conducting pipe (11), efferent duct (12), orifice plate (14), piston plate (15), sliding bar (18), the first fixed block (19), compressed spring (20), the second fixed plate (21), the second arc bump (22), Second sleeve (23) and threaded rod (24) are made of high temperature resistant stainless steel.
6. a kind of carbonization chamber that efficiency can be improved according to claim 1, which is characterized in that the rotation axis (6) with Combustion chamber (3) rear wall contact position is equipped with sealing ring, and sealing ring is fixedly connected with combustion chamber (3) rear wall.
7. a kind of carbonization chamber that efficiency can be improved according to claim 1, which is characterized in that the rotation axis (6) with The distance between threaded rod (24) is greater than the 3mm-5mm of the first arc bump (10) length, the threaded rod (24) and combustion chamber (3) the distance between inner roof wall is greater than the 3mm-5cm of the second arc bump (22) length.
CN201821059392.9U 2018-07-05 2018-07-05 A kind of carbonization chamber that efficiency can be improved Expired - Fee Related CN208395103U (en)

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CN201821059392.9U CN208395103U (en) 2018-07-05 2018-07-05 A kind of carbonization chamber that efficiency can be improved

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201821059392.9U CN208395103U (en) 2018-07-05 2018-07-05 A kind of carbonization chamber that efficiency can be improved

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CN208395103U true CN208395103U (en) 2019-01-18

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111299508A (en) * 2020-03-30 2020-06-19 安徽应流航源动力科技有限公司 Large-scale thin wall precision casting mould shell dewaxing device
CN112899002A (en) * 2021-01-20 2021-06-04 宜春惠众生物能源有限公司 Device for producing biochar by using straws

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111299508A (en) * 2020-03-30 2020-06-19 安徽应流航源动力科技有限公司 Large-scale thin wall precision casting mould shell dewaxing device
CN112899002A (en) * 2021-01-20 2021-06-04 宜春惠众生物能源有限公司 Device for producing biochar by using straws

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