CN108443858A - A kind of new and effective low consumption catalysis material and burner - Google Patents
A kind of new and effective low consumption catalysis material and burner Download PDFInfo
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- CN108443858A CN108443858A CN201810186715.9A CN201810186715A CN108443858A CN 108443858 A CN108443858 A CN 108443858A CN 201810186715 A CN201810186715 A CN 201810186715A CN 108443858 A CN108443858 A CN 108443858A
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- pipe fitting
- end wall
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F22—STEAM GENERATION
- F22B—METHODS OF STEAM GENERATION; STEAM BOILERS
- F22B33/00—Steam-generation plants, e.g. comprising steam boilers of different types in mutual association
- F22B33/18—Combinations of steam boilers with other apparatus
-
- C—CHEMISTRY; METALLURGY
- C01—INORGANIC CHEMISTRY
- C01B—NON-METALLIC ELEMENTS; COMPOUNDS THEREOF; METALLOIDS OR COMPOUNDS THEREOF NOT COVERED BY SUBCLASS C01C
- C01B3/00—Hydrogen; Gaseous mixtures containing hydrogen; Separation of hydrogen from mixtures containing it; Purification of hydrogen
- C01B3/02—Production of hydrogen or of gaseous mixtures containing a substantial proportion of hydrogen
- C01B3/32—Production of hydrogen or of gaseous mixtures containing a substantial proportion of hydrogen by reaction of gaseous or liquid organic compounds with gasifying agents, e.g. water, carbon dioxide, air
- C01B3/34—Production of hydrogen or of gaseous mixtures containing a substantial proportion of hydrogen by reaction of gaseous or liquid organic compounds with gasifying agents, e.g. water, carbon dioxide, air by reaction of hydrocarbons with gasifying agents
- C01B3/346—Production of hydrogen or of gaseous mixtures containing a substantial proportion of hydrogen by reaction of gaseous or liquid organic compounds with gasifying agents, e.g. water, carbon dioxide, air by reaction of hydrocarbons with gasifying agents using heat generated by superheated steam
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24H—FLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
- F24H7/00—Storage heaters, i.e. heaters in which the energy is stored as heat in masses for subsequent release
- F24H7/02—Storage heaters, i.e. heaters in which the energy is stored as heat in masses for subsequent release the released heat being conveyed to a transfer fluid
- F24H7/04—Storage heaters, i.e. heaters in which the energy is stored as heat in masses for subsequent release the released heat being conveyed to a transfer fluid with forced circulation of the transfer fluid
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F28—HEAT EXCHANGE IN GENERAL
- F28D—HEAT-EXCHANGE APPARATUS, NOT PROVIDED FOR IN ANOTHER SUBCLASS, IN WHICH THE HEAT-EXCHANGE MEDIA DO NOT COME INTO DIRECT CONTACT
- F28D21/00—Heat-exchange apparatus not covered by any of the groups F28D1/00 - F28D20/00
- F28D21/0001—Recuperative heat exchangers
- F28D21/0003—Recuperative heat exchangers the heat being recuperated from exhaust gases
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P20/00—Technologies relating to chemical industry
- Y02P20/10—Process efficiency
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- Chemical & Material Sciences (AREA)
- Physics & Mathematics (AREA)
- Thermal Sciences (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Chemical Kinetics & Catalysis (AREA)
- Combustion & Propulsion (AREA)
- Organic Chemistry (AREA)
- Health & Medical Sciences (AREA)
- General Health & Medical Sciences (AREA)
- Inorganic Chemistry (AREA)
- Feeding And Controlling Fuel (AREA)
Abstract
The invention discloses a kind of new and effective low consumption catalysis material and burners, including shell A, identical four stabilizer blades of size are respectively arranged on the angle of the bottom surfaces the shell A four, the stabilizer blade bottom surface is fixedly installed for adsorbing sucker on the ground, it is provided with hollow cavity in the shell A, lead to be provided in the hollow cavity left end wall and stretches out out external pipe fitting A, the pipe fitting A, which leads to upper surface, is provided with valve A, the valve A upper surface, which is led to, is provided with pipe fitting B, it is installed with resistance wire in the hollow cavity left end wall, it is installed with filter between the hollow cavity left hand end wall, diverging case is installed in the filter, the diverging case is fixed with the hollow cavity lower end wall, present device is simple in structure, it is easy to use, hydrogen preparation efficiency is high, speed is adjustable, realize heat recovery, realize low energy consumption.
Description
Technical field
The present invention relates to Material Fields, and in particular to a kind of new and effective low consumption catalysis material and burner.
Background technology
It needs to realize catalysis burning in industrial production and experiment, and catalysis burning may be implemented in hydrogen.Hydrogen ratio is higher than
The upper limit of explosion limit or when less than lower limit, since hydrogen or oxygen are there are one insufficient, so being tranquil burning, if quick-fried
In the fried limit, the two ratio is suitable, and quickly, heat largely accumulates rapidly reaction speed, causes to explode.Traditional hydrogen preparation is set
Standby energy consumption is big, and efficiency is low, needs to improve.
Invention content
The purpose of the present invention is to provide a kind of new and effective low consumption catalysis material and burners, can overcome existing skill
The drawbacks described above of art.
According to the present invention, a kind of new and effective low consumption catalysis material and burner of present device, including shell A,
Identical four stabilizer blades of size are respectively arranged on the angle of the bottom surfaces the shell A four, the stabilizer blade bottom surface, which is fixedly installed, to be used for
Sucker on the ground is adsorbed, hollow cavity is provided in the shell A, leads in the hollow cavity left end wall and be provided with to overhanging
It grows the external upper surfaces pipe fitting A, the pipe fitting A and leads to and be provided with valve A, the valve A upper surface, which is led to, is provided with pipe fitting
B is installed with resistance wire in the hollow cavity left end wall, is installed with filter between the hollow cavity left hand end wall, in the filter
It is installed with diverging case, the diverging case is fixed with the hollow cavity lower end wall, and diverging chamber, the hair are provided in the diverging case
It dissipates chamber left hand end wall and leads to the accent for being provided with zygomorphism, the accent leads to the hollow cavity, described diverging chamber or so
Slip is provided with passage plate between end wall, and the passage plate upper surface is installed with cushion, the passage plate upper surface is fixed
The rod piece for having cushion described in break-through and extending upwards, passing through the diverging chamber upper end wall and extending for the rod piece slip are gone out
Portion, the upper surfaces the shell A are installed with fixed block, and the fixed block upper surface is installed with sliding case, is arranged in the sliding case
There is tooth runner chamber of the accent towards a left side, motor is installed in the tooth runner chamber upper end wall, the line shaft lower face of the motor is solid
Equipped with the first tooth runner, leads on the left of the tooth runner chamber and be provided in the sliding case and the eyelet of break-through up and down, institute
The rotating drum for leading on the left of eyelet and being provided in the sliding case is stated, outside eyelet and the rod piece described in the rod piece break-through
Perficial helical mating connection is provided with the second tooth runner, and end wall and the tooth turn the second tooth runner up and down with the rotating drum
Taking turns chamber, end wall activity is connected up and down, and the second tooth runner is engaged with the first tooth runner, the sliding case upper surface
It is installed with the fixed link extended upwards, fixed link left side slip is provided with spin-block, the rod piece and the spin-block
It is fixed, it is provided with the cavity in the shell A below the hollow cavity, leads in the cavity right end wall and is provided with to the right
It extends external pipe fitting C and the right sides pipe fitting E, the pipe fitting C leads to and are provided with valve B, the valve B right side, which is led to, to be set
It is equipped with conduit, the pipe fitting E, which leads to right side to be provided with the right sides valve body C, the valve body C and lead to, is provided with pipe fitting F, the chamber
Lead to the pipeline for being provided with and leading to the diverging chamber in body upper end wall, the lower end of duct face, which is led to, to be provided with positioned at the chamber
Internal electrically-controlled valve, the electrically-controlled valve lower face, which is led to, is provided with taper block, and taper block lower face, which is led to, is provided with volatilization
Case is provided with the evaporation chamber of accent upward in the volatilization case, and the evaporation chamber and the pipe fitting C lead to, and the hollow cavity is right
Side is provided with the thermal transpiration chamber in the shell A, and gasket, the cavity right end are installed in the thermal transpiration chamber upper end wall
Lead to be provided with the upper surfaces pipe fitting F, the pipe fitting F and lead to be provided with the upper surfaces valve body D, the valve body D and lead in wall and be provided with
The conduct heat away pipe of thermal transpiration chamber described in break-through, gasket described in the conduct heat away pipe break-through and extends outside, the heat
Exhalant upper surface, which is led to, to be provided with the upper surfaces valve body E, the valve body E and leads to setting pipe fitting H, in the thermal transpiration chamber right end wall
Lead to and be provided with the pipe fitting I extended to the right and be provided with hot pass box on the right side of pipe fitting J, the shell A, is set in the hot pass box
It is equipped with heat and transmits chamber, the pipe fitting I probes into the right the heat and transmits intracavitary and transmit intracavitary bending in the heat and stretch out to the left
Outside, the pipe fitting J lead to right side the pump housing for being provided with and leading to the pipe fitting I, and the heat is transmitted leads in chamber right end wall
It is provided with the pipe fitting K extended to the right and the right sides pipe fitting M, the pipe fitting K leads to that be provided with the right sides valve body F, the valve body F logical
It is connected with and is equipped with pipe fitting L, be provided with conduct heat away case on the right side of the hot pass box, accent is provided with upward in the conduct heat away case
Cavity portion, the pipe fitting L is probeed into the cavity portion and the right sides the pipe fitting L lead to and are provided with conduct heat away piece, the pipe fitting M
It probes into the cavity portion and the conduct heat away piece and pipe fitting M leads to, lead in the cavity portion lower end wall and be provided with zygomorphism
Enter pipe, it is described enter pipe extend downwards it is external and it is described enter pipe lower face and lead to be provided with air compressor, it is described
It is provided with the storage chamber in the shell A on the left of hollow cavity, leads in the storage chamber upper end wall and is provided with upward elongation
The upper surfaces pipe fitting N, the pipe fitting N lead to be provided with the upper surfaces valve body G, the valve body G and lead to and be provided with pipe fitting O, the storage
It puts chamber lower end wall and leads to the pipe fitting P for being provided with and extending to the right, the upper surfaces the pipe fitting P extended to the right, which are led to, is provided with valve body I,
The valve body I leads to upper surface the firn-jet head for being provided with and probeing into the cavity, and the firn-jet head is opposite with the volatilization case, institute
It states to lead to be provided with the right sides pipe fitting Q, the pipe fitting Q and lead on the right side of pipe fitting P and is provided with the right sides valve body H, the valve body H and leads to
It is provided with pipe fitting R, the pipe fitting R leads to the hollow cavity, and sound insulation shock-damping device is provided on the motor.
Further technical solution, the upper and lower end wall of the rotating drum and end wall above and below the tooth runner chamber and second tooth
It is mobilizable between runner to be provided with spin, make the second tooth runner in the rotating drum, eyelet and tooth runner intracavitary activity,
To improve the stability of equipment.
Further technical solution, the sound insulation shock-damping device include be fixed at the motor left and right sides every
Sound pad and the shock absorbing plate for being fixed at motor front and rear sides face, the sound insulating pad are connected with the shock absorbing plate.
The beneficial effects of the invention are as follows:
In the initial state due to present device, the resistance wire, the pump housing, firn-jet head, air compressor and motor are in and stop
Only working condition, the valve A, electrically-controlled valve, valve B, valve body C, valve body D, valve body E, valve body F, valve body H, valve body I and valve body G
It is closed, to make a movement structure be in original state, is conducive to subsequent repair and installation.
When equipment is run, the valve body G is opened, and the storage intracavitary is full of coal gas, the valve body I is opened, and makes coal
Gas is sprayed and is lighted outward by the firn-jet head, and the valve body C is opened, and air is passed through by the pipe fitting F, valve body C and pipe fitting E
It maintains the burning of coal gas, the valve B to open in the cavity, liquid water is passed through institute by the conduit, valve B and pipe fitting C
It states in evaporation chamber, high-temperature vapor is formed by the taper block, electrically-controlled valve and pipeline after the liquid water heating in the evaporation chamber
It is spilt into the hollow cavity into the diverging intracavitary, and by the accent, the valve body H is opened, and coal gas is passed through described
In hollow cavity, the resistance wire carries out discontinuous operation according to the temperature adjustment in the hollow cavity, makes the coal in the hollow cavity
Gas is reacted with vapor, the products such as production hydrogen, and is diffused up by the filter, and the valve A is opened, by gases such as hydrogen
Collection device is passed through by the hollow cavity, pipe fitting A, valve A and pipe fitting B, then is further extracted, the pump housing work makes
The aqueous of the thermal transpiration intracavitary is recycled, and the valve body D and valve body E are opened, by the high-temperature gas in the cavity by institute
It states pipe fitting F, valve body D, conduct heat away pipe, valve body E and pipe fitting H and is passed through external recycling device, the heat of high-temperature gas is by the pipe
Part I brings the heat into and transmits intracavitary, is flowed into the pipe fitting K after the heat transmission medium heating of the heat transmission intracavitary, the valve
Body F is opened, and so that heat transmission medium is entered in the pipe fitting L, and spread in the conduct heat away piece, the air compressor work
Make, dries into pipe into the cavity portion along described, the heat that the conduct heat away piece dissipates is diffused up, heat has been dissipated
The heat transmission medium of amount comes back to the heat by the pipe fitting M and transmits intracavitary, and heated by gas liquid water is utilized to realize
It produces vapor and is used to carry out reacting production hydrogen with coal gas by liquid water, and heat is realized using a series of structures
High efficiente callback, and using warming oneself indoors.
When needing reaction speed, the motor drives the first tooth runner rotation, the first tooth runner with
The second tooth runner occlusion, makes the second tooth runner be rotated in the rotating drum and tooth runner intracavitary, due to the rod piece
It is connect with the second tooth runner threaded engagement, and the spin-block is connected with fixed link sliding, then the rod piece production
Life moves up and down, and the passage plate is made to move up and down, and the accent degree of the accent is blocked by the passage plate, in turn
The adjusting for controlling reaction speed, to improve the reaction modulability of equipment.
When equipment stable operation, the valve body G is opened, and more coal gas are led to by the pipe fitting O, valve body G and pipe fitting N
Enter the storage intracavitary, you can continuous work is realized, to improve the continuous work of equipment.
Present device is simple in structure, easy to use, and hydrogen preparation efficiency is high, and speed is adjustable, realizes heat recovery,
Realize low energy consumption.
The above, the specific implementation mode only invented, but invent protection domain be not limited thereto, it is any without
The change or replacement that creative work is expected are crossed, should all be covered within the protection domain of invention.Therefore, the protection domain of invention
It should be determined by the scope of protection defined in the claims.
Description of the drawings
It, below will be to embodiment or existing in order to illustrate more clearly of inventive embodiments or technical solution in the prior art
Attached drawing is briefly described needed in technology description, it should be apparent that, the accompanying drawings in the following description is only to invent
Some embodiments for those of ordinary skill in the art without creative efforts, can also basis
These attached drawings obtain other attached drawings.
Fig. 1 is the overall structure diagram of a kind of new and effective the low consumption catalysis material and burner of the present invention;
Fig. 2 is the enlarged diagram of A in Fig. 1;
Fig. 3 is the enlarged diagram of B in Fig. 1;
Fig. 4 is the schematic diagram in the directions C-C in Fig. 3;
Fig. 5 is the schematic diagram in the directions E-E in Fig. 1.
Specific implementation mode
All features disclosed in this specification or disclosed all methods or in the process the step of, in addition to mutually exclusive
Feature and/or step other than, can combine in any way.
This specification(Including any accessory claim, abstract and attached drawing)Disclosed in any feature, except non-specifically chatting
It states, can be replaced by other alternative features that are equivalent or have similar purpose.That is, unless specifically stated, each feature is only
It is an example in a series of equivalent or similar characteristics.
As shown in Figs. 1-5, of the invention a kind of new and effective low consumption catalysis material and burner, including shell A100,
Identical four stabilizer blades 401 of size are respectively arranged on the angle of the bottom surfaces the shell A100 four, 401 bottom surface of the stabilizer blade is fixed and set
It is equipped with for adsorbing sucker 402 on the ground, hollow cavity 111,111 left end of the hollow cavity is provided in the shell A100
Lead to be provided with to stretch out out the external upper surfaces pipe fitting A108, the pipe fitting A108 and lead in wall and be provided with valve A 109,
109 upper surface of the valve A, which is led to, is provided with pipe fitting B110, and resistance wire 200, institute are installed in 111 left end wall of the hollow cavity
It states and is installed with filter 201 between 111 left hand end wall of hollow cavity, diverging case 203, the diverging case are installed in the filter 201
203 fix with 111 lower end wall of the hollow cavity, and diverging chamber 206, the diverging chamber 206 or so are provided in the diverging case 203
End wall leads to the accent 205 for being provided with zygomorphism, and the accent 205 leads to the hollow cavity 111, the diverging chamber 206
Being provided with for slip elapses plate 204 between left hand end wall, and 204 upper surface of passage plate is installed with cushion 202, the passage
204 upper surface of plate is installed with cushion 202 and the rod piece extended upwards described in break-through, and the rod piece slip passes through the diverging
206 upper end wall of chamber simultaneously extends outside, and the upper surfaces the shell A100 are installed with fixed block 300,300 upper surface of the fixed block
It is installed with sliding case 304, accent is provided in the sliding case 304 towards left tooth runner chamber 301, on the tooth runner chamber 301
Motor 303 is installed in end wall, the line shaft lower face of the motor 303 is installed with the first tooth runner 302, the tooth runner chamber
301 left sides, which are led to, is provided with interior and break-through up and down the eyelet 307 positioned at the sliding case 304, and 307 left side of the eyelet, which is led to, to be set
It is equipped with and is located at the rotating drum 305 slid in case 304, eyelet 307 and rod piece outer surface spiral shell described in the rod piece break-through
It screws conjunction and is connected with the second tooth runner 306, the second tooth runner 306 and about 305 end wall of the rotating drum and described
About the 301 end wall activity of tooth runner chamber is connected, and the second tooth runner 306 is engaged with the first tooth runner 302, described
304 upper surface of sliding case is installed with the fixed link 113 extended upwards, and 113 left side slip of the fixed link is provided with rotation
Block 112, the rod piece are fixed with the spin-block 112, and 111 lower section of the hollow cavity is provided with the chamber in the shell A100
Body 145, leads in 145 right end wall of the cavity to be provided with and extends external pipe fitting C138 and pipe fitting E144, the pipe to the right
Part C138, which leads to right side, is provided with valve B 139, and 139 right side of the valve B, which is led to, is provided with conduit 140, the pipe fitting
E144, which leads to right side to be provided with the right sides valve body C142, the valve body C142 and lead to, is provided with pipe fitting F141, the cavity 145
Lead to the pipeline 207 for being provided with and leading to the diverging chamber 206 in upper end wall, 207 lower face of the pipeline, which is led to, is provided with position
In the electrically-controlled valve 208 in the cavity 145,208 lower face of the electrically-controlled valve, which is led to, is provided with taper block 143, the taper block
143 lower faces, which are led to, is provided with volatilization case 149, and the evaporation chamber 137 of accent upward is provided in the volatilization case 149, described to wave
Hair chamber 137 and the pipe fitting C138 lead to, and 111 right side of the hollow cavity is provided with the thermal transpiration chamber in the shell A100
131, gasket 116 is installed in 131 upper end wall of thermal transpiration chamber, is led in 145 right end wall of the cavity and is provided with pipe fitting
F136, the pipe fitting F136, which lead to upper surface to be provided with the upper surfaces valve body D135, the valve body D135 and lead to, is provided with break-through institute
It states the conduct heat away pipe 134 of thermal transpiration chamber 131, gasket 116 described in 134 break-through of conduct heat away pipe and extends outside, institute
State 134 upper surface of conduct heat away pipe lead to be provided with the upper surfaces valve body E115, the valve body E115 lead to setting pipe fitting H114, institute
It states to lead in 131 right end wall of thermal transpiration chamber and be provided on the right side of the pipe fitting I117 extended to the right and pipe fitting J132, the shell A100
It is provided with hot pass box 118, heat is provided in the hot pass box 118 and transmits chamber 119, the pipe fitting I117 probes into the right described
Heat transmit chamber 119 in and it is described heat transmit chamber 119 in bending and to the left stretching outside, the pipe fitting J132, which leads to right side, to be set
It is equipped with the pump housing 133 for leading to the pipe fitting I117, the heat, which is transmitted in 119 right end wall of chamber, leads to the pipe for being provided with and extending to the right
Part K120 and the right sides pipe fitting M128, the pipe fitting K120, which are led to, to be provided with the right sides valve body F121, the valve body F121 and leads to
It is provided with pipe fitting L122,118 right side of the hot pass box is provided with conduct heat away case 125, is arranged in the conduct heat away case 125
There is the cavity portion 123 of accent upward, the pipe fitting L122 is probeed into the cavity portion 123 and setting is led in the right sides the pipe fitting L122
There is conduct heat away piece 124, the pipe fitting M128 is probeed into the cavity portion 123 and the conduct heat away piece 124 and pipe fitting M128 are logical
Even, lead in 123 lower end wall of the cavity portion be provided with zygomorphism enter pipe 126, it is described to enter pipe 126 elongation is gone out downwards
Portion and 126 lower face of the entrance pipe, which are led to, is provided with air compressor 127, and 111 left side of the hollow cavity is provided with positioned at institute
The storage chamber 104 in shell A100 is stated, leads to the pipe fitting N105 for being provided with and extending upwards, institute in storage 104 upper end wall of chamber
It states the upper surfaces pipe fitting N105 and leads to be provided with the upper surfaces valve body G106, the valve body G106 and lead to and be provided with pipe fitting O107, it is described
Storage 104 lower end wall of chamber leads to the pipe fitting P101 for being provided with and extending to the right, and the upper surfaces the pipe fitting P101 extended to the right are led to
It is provided with the upper surfaces valve body I146, the valve body I146 and leads to the firn-jet head 147 for being provided with and probeing into the cavity 145, it is described
Firn-jet head 147 is opposite with the volatilization case 149, leads on the right side of the pipe fitting P101 and is provided with pipe fitting Q102, the pipe fitting Q102
Right side lead to be provided with the right sides valve body H103, the valve body H103 lead to be provided with pipe fitting R150, the pipe fitting R150 with
The hollow cavity 111 leads to, and sound insulation shock-damping device is provided on the motor 303.
Valuably, wherein about 305 end wall of the rotating drum and about 301 end wall of tooth runner chamber and described second
It is mobilizable between tooth runner 306 to be provided with spin, make the second tooth runner 306 in the rotating drum 305,307 and of eyelet
It is movable in tooth runner chamber 301, to improve the stability of equipment.
Valuably, wherein the sound insulation shock-damping device includes the sound insulation for being fixed at 303 left and right sides of the motor
Pad 3031 and the shock absorbing plate 3032 for being fixed at 303 front and rear sides face of the motor, the sound insulating pad 3031 and the shock absorbing
Plate 3032 is connected, and the sound insulation shock-damping device can effectively reduce the noise and vibrations that the operating of the motor 303 generates.
Present device in the initial state, the resistance wire 200, the pump housing 133, firn-jet head 147, air compressor 127
Be in stop working state with motor 303, the valve A 109, electrically-controlled valve 208, valve B 139, valve body C142, valve body D135,
Valve body E115, valve body F121, valve body H103, valve body I146 and valve body G106 are closed.
When equipment is run, the valve body G106 is opened, and coal gas, the valve body I146 will be full of in the storage chamber 104
It opens, coal gas is made to be sprayed and be lighted outward by the firn-jet head 147, the valve body C142 is opened, by air by the pipe fitting
F141, valve body C142 and pipe fitting E144 are passed through the burning that coal gas is maintained in the cavity 145, and the valve B 139 is opened, by liquid
State water is passed through by the conduit 140, valve B 139 and pipe fitting C138 in the evaporation chamber 137, the liquid in the evaporation chamber 137
High-temperature vapor is formed after water heating by the taper block 143, electrically-controlled valve 208 and pipeline 207 to be entered in the diverging chamber 206,
And spilt into the hollow cavity 111 by the accent 205, the valve body H103 is opened, and coal gas is passed through the hollow cavity 111
Interior, the resistance wire 200 carries out discontinuous operation according to the temperature adjustment in the hollow cavity 111, makes in the hollow cavity 111
Coal gas is reacted with vapor, the products such as production hydrogen, and is diffused up by the filter 201, and the valve A 109 is opened, by hydrogen
The gases such as gas are passed through collection device by the hollow cavity 111, pipe fitting A108, valve A 109 and pipe fitting B110, then carry out further
Extraction, the pump housing 133 work so that the aqueous in the thermal transpiration chamber 131 is recycled, the valve body D135 and valve body
E115 is opened, by the high-temperature gas in the cavity 145 by the pipe fitting F136, valve body D135, conduct heat away pipe 134, valve body
E115 and pipe fitting H114 is passed through external recycling device, and the heat of high-temperature gas brings the heat by the pipe fitting I117 and transmits chamber
In 119, the heat flows into after transmitting the heat transmission medium heating in chamber 119 in the pipe fitting K120, and the valve body F121 is opened,
Heat transmission medium is set to enter in the pipe fitting L122, and the diffusion in the conduct heat away piece 124, the air compressor 127
Work dries into the cavity portion 123 into pipe 126 along described, the heat that the conduct heat away piece 124 dissipates is expanded upwards
It dissipates, the heat transmission medium for having dissipated heat is come back to by the pipe fitting M128 in the heat transmission chamber 119.
When needing reaction speed, the motor 303 drives the first tooth runner 302 to rotate, first tooth
Runner 302 is engaged with the second tooth runner 306, makes the second tooth runner 306 in the rotating drum 305 and tooth runner chamber
Rotation in 301, since the rod piece is connect with 306 threaded engagement of the second tooth runner, and the spin-block 112 and the fixation
The sliding of bar 113 is connected, then the rod piece generation moves up and down, and so that the passage plate 204 is moved up and down, by described
Passage plate 204 blocks the accent degree of the accent 205, and then controls the adjusting of reaction speed.
When equipment stable operation, the valve body G106 is opened, by more coal gas by the pipe fitting O107, valve body G106
It is passed through in the storage chamber 104 with pipe fitting N105, you can realize continuous work.
The beneficial effects of the invention are as follows:In the initial state due to present device, the resistance wire, the pump housing, firn-jet head,
Air compressor and motor are in stop working state, the valve A, electrically-controlled valve, valve B, valve body C, valve body D, valve body E, valve
Body F, valve body H, valve body I and valve body G are closed, and to make a movement structure be in original state, are conducive to subsequent
Repair and installation.
When equipment is run, the valve body G is opened, and the storage intracavitary is full of coal gas, the valve body I is opened, and makes coal
Gas is sprayed and is lighted outward by the firn-jet head, and the valve body C is opened, and air is passed through by the pipe fitting F, valve body C and pipe fitting E
It maintains the burning of coal gas, the valve B to open in the cavity, liquid water is passed through institute by the conduit, valve B and pipe fitting C
It states in evaporation chamber, high-temperature vapor is formed by the taper block, electrically-controlled valve and pipeline after the liquid water heating in the evaporation chamber
It is spilt into the hollow cavity into the diverging intracavitary, and by the accent, the valve body H is opened, and coal gas is passed through described
In hollow cavity, the resistance wire carries out discontinuous operation according to the temperature adjustment in the hollow cavity, makes the coal in the hollow cavity
Gas is reacted with vapor, the products such as production hydrogen, and is diffused up by the filter, and the valve A is opened, by gases such as hydrogen
Collection device is passed through by the hollow cavity, pipe fitting A, valve A and pipe fitting B, then is further extracted, the pump housing work makes
The aqueous of the thermal transpiration intracavitary is recycled, and the valve body D and valve body E are opened, by the high-temperature gas in the cavity by institute
It states pipe fitting F, valve body D, conduct heat away pipe, valve body E and pipe fitting H and is passed through external recycling device, the heat of high-temperature gas is by the pipe
Part I brings the heat into and transmits intracavitary, is flowed into the pipe fitting K after the heat transmission medium heating of the heat transmission intracavitary, the valve
Body F is opened, and so that heat transmission medium is entered in the pipe fitting L, and spread in the conduct heat away piece, the air compressor work
Make, dries into pipe into the cavity portion along described, the heat that the conduct heat away piece dissipates is diffused up, heat has been dissipated
The heat transmission medium of amount comes back to the heat by the pipe fitting M and transmits intracavitary, and heated by gas liquid water is utilized to realize
It produces vapor and is used to carry out reacting production hydrogen with coal gas by liquid water, and heat is realized using a series of structures
High efficiente callback, and using warming oneself indoors.
When needing reaction speed, the motor drives the first tooth runner rotation, the first tooth runner with
The second tooth runner occlusion, makes the second tooth runner be rotated in the rotating drum and tooth runner intracavitary, due to the rod piece
It is connect with the second tooth runner threaded engagement, and the spin-block is connected with fixed link sliding, then the rod piece production
Life moves up and down, and the passage plate is made to move up and down, and the accent degree of the accent is blocked by the passage plate, in turn
The adjusting for controlling reaction speed, to improve the reaction modulability of equipment.
When equipment stable operation, the valve body G is opened, and more coal gas are led to by the pipe fitting O, valve body G and pipe fitting N
Enter the storage intracavitary, you can continuous work is realized, to improve the continuous work of equipment.
Present device is simple in structure, easy to use, and hydrogen preparation efficiency is high, and speed is adjustable, realizes heat recovery,
Realize low energy consumption.
The above, the specific implementation mode only invented, but invent protection domain be not limited thereto, it is any without
The change or replacement that creative work is expected are crossed, should all be covered within the protection domain of invention.Therefore, the protection domain of invention
It should be determined by the scope of protection defined in the claims.
Claims (3)
1. on a kind of new and effective low consumption catalysis material and burner, including the bottom surfaces four shell A, shell A angle respectively
Identical four stabilizer blades of size are provided with, the stabilizer blade bottom surface is fixedly installed for adsorbing sucker on the ground, the shell
It is provided with hollow cavity in body A, the pipe fitting A, the pipe fitting A for being provided with and stretching out out outside are led in the hollow cavity left end wall
Upper surface, which is led to, is provided with valve A, and the valve A upper surface, which is led to, is provided with pipe fitting B, is installed in the hollow cavity left end wall
Resistance wire is installed with filter between the hollow cavity left hand end wall, diverging case, the diverging case and institute is installed in the filter
It states hollow cavity lower end wall to fix, diverging chamber is provided in the diverging case, the diverging chamber left hand end wall, which leads to, is provided with left and right
The accent to match, the accent lead to the hollow cavity, and slip is provided with passage between the diverging chamber left hand end wall
Plate, the passage plate upper surface are installed with cushion, and the passage plate upper surface is installed with cushion described in break-through and extends upwards
Rod piece, the rod piece slip pass through the diverging chamber upper end wall and extend outside, and the upper surfaces the shell A are installed with
Determine block, the fixed block upper surface is installed with sliding case, accent is provided with towards left tooth runner chamber, the tooth in the sliding case
Motor is installed in runner chamber upper end wall, the line shaft lower face of the motor is installed with the first tooth runner, the tooth runner chamber
Left side, which is led to, to be provided in the sliding case and the eyelet of break-through up and down, is led on the left of the eyelet and is provided with positioned at described
The rotating drum in case is slid, eyelet and rod piece outer surface threaded engagement are connected with the second tooth described in the rod piece break-through
Runner, end wall activity is connected the second tooth runner up and down for end wall and the tooth runner chamber up and down with the rotating drum, institute
It states the second tooth runner to be engaged with the first tooth runner, the sliding case upper surface is installed with the fixed link extended upwards, described
Fixed link left side slip is provided with spin-block, and the rod piece is fixed with the spin-block, and position is provided with below the hollow cavity
Cavity in the shell A, leads in the cavity right end wall to be provided with and extends external pipe fitting C and pipe fitting E, institute to the right
It states the right sides pipe fitting C and leads to and be provided with valve B, the valve B right side, which is led to, is provided with conduit, and the right sides the pipe fitting E are logical
Be connected with to be equipped with the right sides valve body C, the valve body C and lead to and be provided with pipe fitting F, lead in the cavity upper end wall be provided with it is described
The electrically-controlled valve being provided in the cavity is led in the pipeline that leads to of diverging chamber, the lower end of duct face, under the electrically-controlled valve
End face, which is led to, is provided with taper block, and taper block lower face, which is led to, is provided with volatilization case, and accent is provided in the volatilization case
Evaporation chamber upward, the evaporation chamber and the pipe fitting C lead to, and are provided in the shell A on the right side of the hollow cavity
Thermal transpiration chamber is installed with gasket in the thermal transpiration chamber upper end wall, leads in the cavity right end wall and is provided with pipe fitting F, described
Pipe fitting F lead to upper surface be provided with the upper surfaces valve body D, the valve body D lead to be provided with thermal transpiration chamber described in break-through heat hair
Separate tube, gasket described in the conduct heat away pipe break-through and extends outside, and conduct heat away pipe upper surface, which is led to, is provided with valve
Body E, the valve body E leads to upper surface setting pipe fitting H, leads to the pipe fitting for being provided with and extending to the right in the thermal transpiration chamber right end wall
Be provided with hot pass box on the right side of I and pipe fitting J, the shell A, heat be provided in the hot pass box and transmits chamber, the pipe fitting I to
The right side probes into the heat transmission intracavitary and outside the heat transmission intracavitary bending and stretching out to the left, and the pipe fitting J leads to right side
It is provided with the pump housing for leading to the pipe fitting I, the heat, which is transmitted in chamber right end wall, leads to the pipe fitting K and pipe for being provided with and extending to the right
Part M, the pipe fitting K, which leads to right side to be provided with the right sides valve body F, the valve body F and lead to, is provided with pipe fitting L, and the heat is transmitted
It is provided with conduct heat away case on the right side of case, the cavity portion of accent upward is provided in the conduct heat away case, the pipe fitting L probes into described
In the cavity portion and right sides the pipe fitting L, which are led to, is provided with conduct heat away piece, and the pipe fitting M is probeed into the cavity portion and the heat
Diverging piece and pipe fitting M lead to, and the pipe that enters for being provided with zygomorphism is led in the cavity portion lower end wall, described to be stretched downwards into pipe
Grow it is external and it is described enter pipe lower face and lead to be provided with air compressor, be provided with positioned at the shell on the left of the hollow cavity
Storage chamber in body A leads to the upper surfaces pipe fitting N, the pipe fitting N for being provided with and extending upwards in the storage chamber upper end wall and leads to
It is provided with the upper surfaces valve body G, the valve body G and leads to and be provided with pipe fitting O, the storage chamber lower end wall, which leads to be provided with, to be extended to the right
Pipe fitting P, the upper surfaces the pipe fitting P extended to the right, which lead to be provided with the upper surfaces valve body I, the valve body I and lead to, is provided with spy
Entering the firn-jet head in the cavity, the firn-jet head is opposite with the volatilization case, leads on the right side of the pipe fitting P and is provided with pipe fitting Q,
The pipe fitting Q lead to right side be provided with the right sides valve body H, the valve body H lead to be provided with pipe fitting R, the pipe fitting R with it is described
Hollow cavity leads to, and sound insulation shock-damping device is provided on the motor.
2. a kind of new and effective low consumption catalysis material as described in claim 1 and burner, it is characterised in that:The rotation
It is mobilizable between end wall and the second tooth runner above and below the upper and lower end wall of chamber and the tooth runner chamber to be provided with spin.
3. a kind of new and effective low consumption catalysis material as described in claim 1 and burner, it is characterised in that:The sound insulation
Shock-damping device includes being fixed at the sound insulating pad of the motor left and right sides and being fixed at the motor front and rear sides
The shock absorbing plate in face, the sound insulating pad are connected with the shock absorbing plate.
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CN201810186715.9A CN108443858A (en) | 2018-03-07 | 2018-03-07 | A kind of new and effective low consumption catalysis material and burner |
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CN201810186715.9A CN108443858A (en) | 2018-03-07 | 2018-03-07 | A kind of new and effective low consumption catalysis material and burner |
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Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN101679032A (en) * | 2008-01-09 | 2010-03-24 | 松下电器产业株式会社 | Hydrogen generation apparatus and fuel battery system |
CN108163808A (en) * | 2018-03-07 | 2018-06-15 | 佛山腾谱工业设计有限公司 | A kind of coal gas hydrogen producer |
CN108411112A (en) * | 2018-03-07 | 2018-08-17 | 佛山常百乐机械设计有限公司 | A kind of electronic component metal manufacturing equipment |
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2018
- 2018-03-07 CN CN201810186715.9A patent/CN108443858A/en active Pending
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101679032A (en) * | 2008-01-09 | 2010-03-24 | 松下电器产业株式会社 | Hydrogen generation apparatus and fuel battery system |
CN108163808A (en) * | 2018-03-07 | 2018-06-15 | 佛山腾谱工业设计有限公司 | A kind of coal gas hydrogen producer |
CN108411112A (en) * | 2018-03-07 | 2018-08-17 | 佛山常百乐机械设计有限公司 | A kind of electronic component metal manufacturing equipment |
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Application publication date: 20180824 |