CN205102127U - A cremator for diamond is buried - Google Patents

Abstract

The utility model provides a cremator for diamond is buried relates to the cremation equipment field. This a cremator for diamond is buried includes the furnace body, and the furnace body includes furnace chamber, sealing door, air inlet and gas exports, and sealing door, air inlet, gas exports all communicate the furnace chamber, and the furnace chamber is equipped with support, siege and ignition, support and siege fixed connection, and the below of siege is equipped with the combustion adjuvant, and the top of siege is equipped with temperature sensor. The utility model provides a cremator for diamond is buried can furthest the carbon in the cremate in -process remains, reduce carbon and run off.

Description

A kind of cremator buried for diamond

Technical field

The utility model relates to cremation equipment field, in particular to a kind of cremator buried for diamond.

Background technology

The deceased can cremate, the voucher that the bone ash after cremate has become it unique, is also the spiritual ballast that its family members kith and kin recall the deceased.Miss the consideration of the deceased based on relatives, in prior art, just have and the carbon in the deceased's bone ash obtained after cremate is extracted the operation of making diamond, wear for its relatives, and then recall the deceased, realize on spirit level, the hope that the deceased coexists with it.Bone ash is utilized to cultivate the method for diamond, mostly be constantly inject gaseous flow carbon source in diamond cultivating process, the general carbon source all needing 5 ~ 50kg, and utilize existing cremator to cremate, 1 ~ 2kg carbon source is all only had in the bone ash of the adult obtained, so need additional carbon, but for the relatives of the deceased, mix the purity that other carbon sources can affect the deceased's life.

Utility model content

In view of this, the utility model provides a kind of cremator buried for diamond, after improving the cremate of existing cremator, and the problem that in the bone ash obtained, phosphorus content is few.

For achieving the above object, the utility model provides following technical scheme:

For the cremator that diamond is buried, comprise body of heater, described body of heater comprises furnace chamber, hermatic door, air intake and gas outlet, and described hermatic door, described air intake, described gas outlet are all communicated with described furnace chamber,

Described furnace chamber is provided with support, siege and igniter, and described support is fixedly connected with described siege, and the below of described siege is provided with combustion adjuvant, and the top of described siege is provided with temperature sensor.

Combustion adjuvant is arranged on the below of siege, under the effect of oxygen, igniter, just can burn to the remains on siege.Because combustion adjuvant has been arranged on the below of siege, so when there is burning, vigorous combustion mainly carries out in the below of siege, for the burning of remains, temperature is just lower comparatively speaking, so temperature just can be avoided too high, reach the fusing point of carbon, and the loss of the carbon caused.Meanwhile, the top of siege is provided with temperature sensor, and it can carry out perception to temperature and output signal, and staff just can adjust the air intake size of air intake according to the signal exported, thus the violent situation of adjustment body of heater combustion.If burning is too violent, temperature is too high, then reduce air intake; If it is too faint to burn, temperature is too low, then increase air intake.In addition, this kind of cremate mode changes burning approach, avoids fuel oil and directly waters pouring to remains, embody the respect to the deceased.

Preferably, in the above-mentioned cremator buried for diamond, described gas outlet is arranged at the top of described furnace chamber, and described air intake is arranged at the bottom of described furnace chamber.The setting of air entrance location, when can make burning, air mainly concentrates on below siege, bottom furnace chamber, reduce air above siege, remains position distributes, thus reduces the oxidized probability of carbon in remains, retains more carbon.

Preferably, in the above-mentioned cremator buried for diamond, described combustion adjuvant is oxidizing solids.The localization effects of oxidizing solids is better, is convenient to guide vigorous combustion to carry out in the below of siege.

Preferably, in the above-mentioned cremator buried for diamond, described oxidizing solids is anthracite.Anthracite as oxidizing solids, its burning time do not smolder, noncoking.

Preferably, in the above-mentioned cremator buried for diamond, described body of heater also comprises secondary combustion chamber, and described secondary combustion chamber is provided with chimney, and described secondary combustion chamber is communicated with described furnace chamber by described gas outlet.Secondary combustion chamber is communicated with furnace chamber, so the high heat of furnace chamber will be delivered in secondary combustion chamber, secondary combustion chamber will just have higher temperature.In furnace chamber, primary combustion occurs, intermediate product sufficient dwell time in the sufficiently high secondary combustion chamber of temperature that burning produces, secondary combustion chamber just more thoroughly can decompose intermediate product, generates stable end product, thus reaches emission request.

Preferably, in the above-mentioned cremator buried for diamond, described secondary combustion chamber is provided with secondary smoke pipe, and one end of described secondary smoke pipe is communicated with described chimney, and the other end of described secondary smoke pipe is communicated with described air intake.The partial heat of secondary combustion chamber can be delivered to air intake place by secondary smoke pipe, and the air passing into furnace chamber just has certain heat, so, just can reduce the use amount of combustion adjuvant or the intake of air, can recycle heat, improves heat utilization rate.Meanwhile, some flue gases in secondary combustion chamber also again can pass in furnace chamber in cyclic process, and the high temperature of furnace chamber just can decompose flue gas thoroughly.

Preferably, in the above-mentioned cremator buried for diamond, the cremator buried for diamond also comprises and transmits the conveyer of remains to described siege.Utilize conveyer to transmit remains, it is convenient to transmit.

Preferably, in the above-mentioned cremator buried for diamond, described body of heater also comprises bone ash and collects mouth, described siege comprises burner plate and bone ash collecting box, under described bone ash collecting box is positioned at described burner plate, described burner plate is provided with the multiple through holes being communicated with described bone ash collecting box, and described bone ash collecting box is communicated with described bone ash and collects mouth.Under bone ash collecting box is arranged on burner plate, the bone ash that the remains on burner plate produce in cremate process just falls into bone ash collecting box by through hole, the bone ash in bone ash collecting box reassociate bone ash collect mouth, be convenient to staff and collect bone ash.

Preferably, in the above-mentioned cremator buried for diamond, the both sides of described siege are provided with protruding baffle plate.In cremate process, the bone ash on siege may fall, and falls bottom furnace chamber, and is provided with protruding baffle plate due to siege both sides, and protruding baffle plate just can block the both sides of siege, avoids bone ash to be scattered.

Preferably, in the above-mentioned cremator buried for diamond, described air intake is provided with magnetic valve.By arranging magnetic valve, Electronic Control can be carried out to the intake of air, easy to operate.

Relative to prior art, the utility model comprises following beneficial effect:

(1) change the position of vigorous combustion, reduce the loss of carbon in remains, thus retain more carbon;

(2) temperature has adjustability, can adjust cavity temperature, flexible operation according to Actual combustion situation.

Accompanying drawing explanation

In order to clearer explanation the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is that cross-sectional schematic is looked on a left side for the cremator buried for diamond that the utility model embodiment one provides;

Fig. 2 is that cross-sectional schematic is looked on a left side for the cremator buried for diamond that the utility model embodiment two provides;

Fig. 3 is that cross-sectional schematic is looked on a left side for the cremator buried for diamond that the utility model embodiment three provides.

Wherein, Reference numeral gathers as follows:

Furnace chamber 101; Hermatic door 102; Air intake 103; Gas outlet 104; Secondary combustion chamber 105; Chimney 106; Secondary smoke pipe 107; Conveyer 108;

Support 201; Siege 202; Combustion adjuvant 203; Temperature sensor 204; Burner plate 205; Bone ash collecting box 206; Protruding baffle plate 207.

Detailed description of the invention

For making the object of the utility model embodiment, technical scheme and advantage clearly, below in conjunction with the accompanying drawing in the utility model embodiment, technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is the utility model part embodiment, instead of whole embodiments.The assembly of the utility model embodiment describing and illustrate in usual accompanying drawing herein can be arranged with various different configuration and design.

Therefore, below to the detailed description of the embodiment of the present utility model provided in the accompanying drawings and the claimed scope of the present utility model of not intended to be limiting, but selected embodiment of the present utility model is only represented.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

It should be noted that: represent similar terms in similar label and letter accompanying drawing below, therefore, once be defined in an a certain Xiang Yi accompanying drawing, then do not need to define further it and explain in accompanying drawing subsequently.

In description of the present utility model, it should be noted that, term " " center ", " on ", D score, " left side ", " right side ", " vertically ", " level ", " interior ", orientation or the position relationship of the instruction such as " outward " are based on orientation shown in the drawings or position relationship, or this utility model product orientation of usually putting or position relationship when using, only the utility model and simplified characterization for convenience of description, instead of indicate or imply that the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as restriction of the present utility model.In addition, term " first ", " second ", " the 3rd " etc. only for distinguishing description, and can not be interpreted as instruction or hint relative importance.

In description of the present utility model, also it should be noted that, unless otherwise clearly defined and limited, term " setting ", " installation ", " being connected ", " connection " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or connect integratedly; Can be mechanical connection, also can be electrical connection; Can be directly be connected, also indirectly can be connected by intermediary, can be the connection of two element internals.For the ordinary skill in the art, concrete condition the concrete meaning of above-mentioned term in the utility model can be understood.

Embodiment one

Fig. 1 shows the cremator buried for diamond that the utility model embodiment one provides, comprise body of heater, body of heater comprises furnace chamber 101, hermatic door 102, air intake 103 and gas outlet 104, hermatic door 102, air intake 103, gas outlet 104 are all communicated with furnace chamber 101, furnace chamber 101 is provided with support 201, siege 202 and igniter, support 201 is fixedly connected with siege 202, and the below of siege 202 is provided with combustion adjuvant 203, and the top of siege 202 is provided with temperature sensor 204.

Combustion adjuvant 203 is arranged on the below of siege 202, under the effect of oxygen, igniter, just can burn to the remains on siege 202.Because combustion adjuvant 203 has been arranged on the below of siege 202, so when there is burning, vigorous combustion mainly carries out in the below of siege 202, for the burning of remains, temperature is just lower comparatively speaking, so temperature just can be avoided too high, reach the fusing point of carbon, and the loss of the carbon caused.Meanwhile, the top of siege 202 is provided with temperature sensor 204, and it can carry out perception to temperature and output signal, and staff just can adjust the air intake size of air intake 103 according to the signal exported, thus the violent situation of adjustment body of heater combustion.If burning is too violent, temperature is too high, then reduce air intake; If it is too faint to burn, temperature is too low, then increase air intake.In addition, this kind of cremate mode changes burning approach, avoids fuel oil and directly waters pouring to remains, embody the respect to the deceased.

In the present embodiment, combustion adjuvant 203 is oxidizing solids, can certainly select liquid combustion improver, but the localization effects of oxidizing solids is better, is convenient to guide vigorous combustion to carry out in the below of siege.If select liquid combustion improver, then need to add flusher.Oxidizing solids in the present embodiment is anthracite.Do not smolder during anthracite combustion, noncoking, combustion efficiency is good.Certainly, this kind is chosen not as limiting, and also can select other oxidizing solids, as potassium nitrate.For convenience of explanation, in following examples, all adopt anthracite as combustion adjuvant.

Temperature sensor 204 in the present embodiment is infrared radiation thermometer, belongs to non-contact temperature sensor, and certainly, this kind is chosen not as limiting, and also can select other temperature sensor 204, as contact type temperature sensor.Temperature sensor 204 carries out relative set and belongs to prior art in order to work in high temperature environments, do not repeat them here, and temperature sensor 204 will inevitably connection signal output device, also repeats no more at this.In cremate process, cremate temperature range is 800 ~ 1500 DEG C, preferably 1000 ~ 1500 DEG C.

In the present embodiment, gas outlet 104 is arranged at the top of furnace chamber 101, and air intake 103 is arranged at the bottom of furnace chamber 101.Gas outlet 104 is arranged at top, contribute to the discharge of flue gas, and the setting of air intake 103 position, when can make burning, air mainly concentrates on below siege 202, bottom furnace chamber 101, reduce air above siege 202, remains position distributes, thus reduces the oxidized probability of carbon in remains, retains more carbon.Certainly, this kind is arranged not as limiting, and also gas outlet 104 can be arranged on other positions, as being arranged on furnace chamber 101 sidewall, air intake 103 also can be arranged on other positions, as furnace chamber 101 sidewall, and furnace chamber 101 top.For convenience of explanation, in following examples, gas outlet 104 is all arranged at the top of furnace chamber 101, and air intake 103 is all arranged at the bottom of furnace chamber 101.As for igniter, because it is prior art, do not repeat them here.

Embodiment two

Fig. 2 shows the cremator buried for diamond that the utility model embodiment two provides, comprise body of heater, hermatic door 102, air intake 103, gas outlet 104 that body of heater comprises furnace chamber 101 and is communicated with furnace chamber 101, gas outlet 104 is arranged at the top of furnace chamber 101, air intake 103 is arranged at the bottom of furnace chamber 101, furnace chamber 101 is provided with support 201, siege 202 and igniter, and the below of siege 202 is provided with combustion adjuvant 203, and the top of siege 202 is provided with temperature sensor 204.Body of heater also comprises combustion adjuvant supplementary device, because supplement (similar oil circuit device) for combustion adjuvant belongs to prior art, does not repeat them here.In the present embodiment, combustion adjuvant 203 is anthracite, and temperature sensor 204 is thermoelectric couple.

Body of heater also comprises secondary combustion chamber 105, and secondary combustion chamber 105 is provided with chimney 106, and secondary combustion chamber 105 is communicated with furnace chamber 101 by gas outlet 104.Secondary combustion chamber 105 is communicated with furnace chamber 101, so the high heat of furnace chamber 101 will be delivered in secondary combustion chamber 105, secondary combustion chamber 105 will just have higher temperature.Primary combustion is there is in furnace chamber 101, intermediate product sufficient dwell time in the sufficiently high secondary combustion chamber 105 of temperature that burning produces, secondary combustion chamber 105 just more thoroughly can decompose intermediate product, generates stable end product, thus reaches emission request.

Secondary combustion chamber 105 is provided with secondary smoke pipe 107, and one end of secondary smoke pipe 107 is communicated with chimney 106, and the other end of secondary smoke pipe 107 is communicated with air intake 103.The partial heat of secondary combustion chamber 105 can be delivered to air intake 103 place by secondary smoke pipe 107, the air passing into furnace chamber 101 just has certain heat, so, just can reduce the use amount of combustion adjuvant 203 or the intake of air, can heat be recycled, improve heat utilization rate.Meanwhile, some flue gases in secondary combustion chamber 105 also can again pass in furnace chamber 101 in cyclic process, and the high temperature of furnace chamber 101 just can decompose flue gas thoroughly.

Body of heater also comprises bone ash and collects mouth, and siege 202 comprises burner plate 205 and bone ash collecting box 206, and bone ash collecting box 206 is positioned at burner plate 205 times, and burner plate 205 is provided with the multiple through holes being communicated with bone ash collecting box 206, and bone ash collecting box 206 is communicated with bone ash and collects mouth.Bone ash collecting box 206 is arranged on burner plate 205 times, the bone ash that remains on burner plate 205 produce in cremate process just falls into bone ash collecting box 206 by through hole, bone ash in bone ash collecting box 206 reassociate bone ash collect mouth, be convenient to staff and collect bone ash.

In the present embodiment, through hole is 32, certainly, also can be set to other numbers, as 40,18.And bone ash collecting box 206 is the bone ash collecting box of prism-frustum-shaped, other proterties can certainly be arranged to, as coniform.

Embodiment three

Fig. 3 shows the cremator buried for diamond that the utility model embodiment three provides, comprise body of heater, hermatic door 102, air intake 103, gas outlet 104 that body of heater comprises furnace chamber 101 and is communicated with furnace chamber 101, gas outlet 104 is arranged at the top of furnace chamber 101, air intake 103 is arranged at the bottom of furnace chamber 101, furnace chamber 101 is provided with support 201, siege 202 and igniter, and the below of siege 202 is provided with combustion adjuvant 203, and the top of siege 202 is provided with temperature sensor 204.Body of heater also comprises combustion adjuvant supplementary device.In the present embodiment, combustion adjuvant 203 is anthracite, and temperature sensor 204 is infrared thermometer.

Siege 202 can select high temperature resistant, that thermal conductivity is good siege, as copper coin, foam silicon carbide ceramics.

Body of heater also comprises secondary combustion chamber 105, and secondary combustion chamber 105 is provided with chimney 106, and secondary combustion chamber 105 is communicated with furnace chamber 101 by gas outlet 104.Secondary combustion chamber 105 can arrange smoke eliminator, smoke eliminator comprises deacidification water tank, flue gas cooling device and sack cleaner, deacidification water tank is connected with water pump, the top of flue gas cooling device is provided with outlet flue, the outlet flue of flue gas cooling device is communicated with sack cleaner by pipeline, and sack cleaner outlet is communicated with chimney by bend pipe.

The cremator buried for diamond also comprises the conveyer 108 of transmission remains to siege 202.Utilize conveyer 108 to transmit remains, it is convenient to transmit.Conveyer 108 is positioned at the front of hermatic door 102, and when hermatic door 102 is opened, remains just in time can be transported on siege 202 by conveyer 108.In the present embodiment, conveyer is roller conveyor, and certainly, this kind is chosen not as restriction, also can select other conveyer, as open mesh conveyer belt.

The both sides of siege 202 are provided with protruding baffle plate 207.In cremate process, the bone ash on siege 202 may fall, and falls bottom furnace chamber 101, and is provided with protruding baffle plate 207 due to siege 202 both sides, and protruding baffle plate 207 just can block the both sides of siege 202, avoids bone ash to be scattered.Protruding baffle plate 207 be with hermatic door 102 towards being as the criterion, be arranged at the left and right sides of siege 202.

Air intake 103 is provided with magnetic valve.By arranging magnetic valve, Electronic Control can be carried out to the intake of air, easy to operate.

When the cremator provided utilizing the present embodiment is cremated, in order to ensure to cremate completely, the time of cremating is preferably 1.2 ~ 2 times of traditional cremator, i.e. 1 ~ 1.5h.Certainly, concrete condition still will be determined according to cavity temperature, cremator model, cremator size and remains weight.

Animals and plants bone ash after the cremator cremate utilizing the present embodiment to provide contains the carbon of 60 ~ 85% more, cultivate carbon sources calculate to prepare 5 grams of diamonds, need the bone ash of more than 8.33 grams, even and the people of different building shape, or the animal of the overwhelming majority, can both provide the carbon of this component after cremate.After carbon purification, diamond culture medium are ready to complete, these carbon can all for cultivating diamond, and also part carbon can be selected to cultivate diamond according to the wish of relatives, unnecessary bone ash still can take back burial by relatives.

The bone ash that the cremator that the present embodiment provides obtains after cremating, HTHP gradient method (HPHT) not only can be utilized to cultivate diamond, diamond can also be cultivated with vapour deposition process (CVD), and in vapour deposition process (CVD) cultivating process, also without the need to other carbon sources additional, because of the cremator that provided by the present embodiment cremate after bone ash in natively remain the carbon of larger component, so utilize these carbon just enough to cultivate diamond, and the bone ash after the cremator cremate of prior art, phosphorus content does not reach.

When utilizing vapour deposition process to cultivate diamond,

(1) first bone ash is carried out carbon purification, by the carbon high-temperature process under a small amount of Oxygen Condition extracted, generate CO gas; Then the CO gas of generation is cooled in cold water parcel pipeline, then Low-temperature cleaning in organic solvent, get rid of other foreign gases such as carbon dioxide, sulfur dioxide, hydrogen sulfide; Pass into steam, high-temperature heating, and combined catalyst (as RHM-266 catalyst), produce methane gas;

(2) methane gas is passed into the environment of high-temperature low-pressure (or ionization), the carbon atom of methane is separated with hydrogen atom, and carbon atom is crystalline growth on diamond growth base.Need during this period to pass into appropriate oxygen and inert gas, stablize to prevent graphitization and to maintain reaction environment.

Produce in the process of diamond in CVD, need ceaselessly to pass into methane, so for the carbon demand after purification very large (usually at several kilograms to tens kilograms), the carbon contained in bone ash after traditional cremator cremate does not reach requirement at all, need additional carbon, have impact on the purity of life, change the original intention utilizing bone ash to make Jubilee, and cremator that the present embodiment provides cremate after bone ash in carbon content just larger, satisfy the demands.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (10)

1. for the cremator that diamond is buried, it is characterized in that: comprise body of heater, described body of heater comprises furnace chamber, hermatic door, air intake and gas outlet, and described hermatic door, described air intake, described gas outlet are all communicated with described furnace chamber,

Described furnace chamber is provided with support, siege and igniter, and described support is fixedly connected with described siege, and the below of described siege is provided with combustion adjuvant, and the top of described siege is provided with temperature sensor.

2. the cremator buried for diamond according to claim 1, it is characterized in that: described gas outlet is arranged at the top of described furnace chamber, described air intake is arranged at the bottom of described furnace chamber.

3. the cremator buried for diamond according to claim 1, is characterized in that: described combustion adjuvant is oxidizing solids.

4. the cremator buried for diamond according to claim 3, is characterized in that: described oxidizing solids is anthracite.

5. the cremator buried for diamond according to claim 1, it is characterized in that: described body of heater also comprises secondary combustion chamber, described secondary combustion chamber is provided with chimney, and described secondary combustion chamber is communicated with described furnace chamber by described gas outlet.

6. the cremator buried for diamond according to claim 5, it is characterized in that: described secondary combustion chamber is provided with secondary smoke pipe, one end of described secondary smoke pipe is communicated with described chimney, the other end of described secondary smoke pipe is communicated with described air intake.

7. the cremator buried for diamond according to claim 1, is characterized in that: the cremator buried for diamond also comprises the conveyer of transmission remains to described siege.

8. the cremator buried for diamond according to claim 1, it is characterized in that: described body of heater also comprises bone ash and collects mouth, described siege comprises burner plate and bone ash collecting box, under described bone ash collecting box is positioned at described burner plate, described burner plate is provided with the multiple through holes being communicated with described bone ash collecting box, and described bone ash collecting box is communicated with described bone ash and collects mouth.

9. the cremator buried for diamond according to claim 1, is characterized in that: the both sides of described siege are provided with protruding baffle plate.

10. the cremator buried for diamond according to claim 1, is characterized in that: described air intake is provided with magnetic valve.