CN209371821U - A kind of hyperthermal material detector - Google Patents
A kind of hyperthermal material detector Download PDFInfo
- Publication number
- CN209371821U CN209371821U CN201821689812.1U CN201821689812U CN209371821U CN 209371821 U CN209371821 U CN 209371821U CN 201821689812 U CN201821689812 U CN 201821689812U CN 209371821 U CN209371821 U CN 209371821U
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- China
- Prior art keywords
- fire door
- casing cover
- shell
- heater strip
- hyperthermal
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Abstract
The utility model discloses a kind of hyperthermal material detectors, including heating system, heat-insulation system, shell, and it is the Si-Mo rod material calandria of superhigh temperature resistant that wherein heating system, which includes left heater strip and right heater strip,;Heat-insulation system includes upper left fire door, lower-left fire door, left hearth, upper right fire door, bottom right fire door, right bearth, is the zirconium alumina silicate fibre thermal insulation material of superhigh temperature resistant;Shell includes upper left casing cover, left outside shell, left fire door rib, lower-left casing cover, upper right casing cover, right casing, right fire door block, bottom right casing cover, handle, He Jin mechanism, wherein He Jin mechanism includes lock, hinge, hinge axis, by the calandria that the material of heater strip is replaced with to Si-Mo rod material, and by lower fire door, the thermal insulation material of upper fire door and burner hearth etc. is also replaced with aluminium silicate fiber containing zirconia material, and the operating temperature of this detector is just made to have reached the temperature requirement of superhigh temperature (1400 DEG C).
Description
Technical field
The utility model relates to testing equipment field more particularly to a kind of hyperthermal material detector.
Background technique
High-temperature material detector refers to high temperature furnace of the temperature of heating within the scope of 300-1200 DEG C at present, used to add
Electrothermal stove silk is ferrum-chromium-aluminum 0Cr27Al7Mo2Material, highest use environment temperature are 1200 DEG C.So, it is desirable to heat high temperature furnace
Temperature reach 1400 DEG C of hyperthermal environments at a temperature of, calandria 0Cr27Al7Mo2It is unable to satisfy requirement.
Summary of the invention
The technical problem to be solved by the present invention is to provide a kind of hyperthermal material detectors, for solving high-temperature material
The problem of highest use environment temperature of detector is not achieved 1400 DEG C.
In order to solve the above-mentioned technical problem, the technical solution of the utility model are as follows: a kind of hyperthermal material detector, including
Heating system, heat-insulation system, shell, wherein heating system include the Si-Mo rod material of superhigh temperature resistant left heater strip and resistance to superelevation
The right heater strip of the Si-Mo rod material of temperature;Heat-insulation system includes upper left fire door, lower-left fire door, left hearth, upper right fire door, bottom right furnace
Mouth, right bearth are the zirconium alumina silicate fibre thermal insulation material of superhigh temperature resistant;Shell includes upper left casing cover, left outside shell, left fire door gear
Side, lower-left casing cover, upper right casing cover, right casing, right fire door block, bottom right casing cover, handle, He Jin mechanism, wherein closing tight
Mechanism includes lock, hinge, hinge axis, and hinge axis is inserted into two hinge shaft holes, two hinges and shell rivet interlacement, outside
Shell to side lock and shell rivet interlacement.
As a preferred embodiment of the present invention, the heating system includes the left heater strip of superhigh temperature resistant Si-Mo rod material
With the right heater strip of superhigh temperature resistant Si-Mo rod material.
As a preferred embodiment of the present invention, the heat-insulation system includes using superhigh temperature resistant zirconium alumina silicate fibre thermal insulating material
Upper left fire door, lower-left fire door, left hearth, upper right fire door, bottom right fire door, right bearth made of expecting.
As a preferred embodiment of the present invention, the left heater strip and right heater strip are U-shaped.
As a preferred embodiment of the present invention, the He Jin mechanism includes 2 locks, is divided into lock and lower lock.
As a preferred embodiment of the present invention, a handle is equipped on the left hearth and the right bearth.
As a preferred embodiment of the present invention, it is latched on described with a distance from the upper left casing cover from detector as entire inspection
The a quarter of instrument height is surveyed to one third.
It as a preferred embodiment of the present invention, is entire inspection with a distance from the lower lower-left casing cover latched from detector
The a quarter of instrument height is surveyed to one third.
As a preferred embodiment of the present invention, there is the non-conductor plastic material packet of heat at the position that the handle hand is held
It wraps up in.
As a preferred embodiment of the present invention, the on-deformable metal material of lock is stamped to form.
Beneficial effect by adopting the above technical scheme is: the heating by the way that the material of heater strip to be replaced with to Si-Mo rod material
The thermal insulation material of body, and by lower fire door, upper fire door and burner hearth etc. is also replaced with aluminium silicate fiber containing zirconia material, just makes this inspection
The operating temperature for surveying instrument has reached the temperature requirement of superhigh temperature (1400 DEG C).This hyperthermal material detector can 1200 DEG C-
It does experiment at a temperature of 1400 DEG C.
Detailed description of the invention
Fig. 1: hyperthermal material detector structure chart.
In figure, the upper left 1- casing cover, the left outside shell of 2-, the upper left 3- fire door, the left fire door rib of 4-, 5- left hearth, the left heating of 6-
Silk, 7- handle, 8- lock, the lower-left 9- fire door, the lower-left 10- casing cover, 11- upper right casing cover, 12- right casing, 13- upper right furnace
Mouthful, the right fire door block of 14-, 15- right bearth, the right heater strip of 16-, 17- hinge, 18- hinge axis, the bottom right 19- fire door, the bottom right 20-
Casing cover.
Specific embodiment
Specific embodiment of the present utility model is described further with reference to the accompanying drawing.It should be noted that
The explanation of these embodiments is used to help to understand the utility model, but does not constitute the restriction to the utility model.This
Outside, technical characteristic involved in the various embodiments of the present invention described below is as long as they do not conflict with each other
It can be combined with each other.
Referring to Fig. 1, a kind of hyperthermal material detector, including heating system, heat-insulation system, shell, wherein heating system
It is the Si-Mo rod material calandria of superhigh temperature resistant including left heater strip 6 and right heater strip 16;Heat-insulation system include upper left fire door 3,
Lower-left fire door 9, left hearth 5, upper right fire door 13, bottom right fire door 19, right bearth 15 are that the zirconium alumina silicate fibre of superhigh temperature resistant is kept the temperature
Material;Shell includes upper left casing cover 1, left outside shell 2, left fire door rib 4, lower-left casing cover 10, upper right casing cover 11, right outer
Shell 12, right fire door block 14, bottom right casing cover 20, handle 7, He Jin mechanism, wherein He Jin mechanism include lock 8, hinge 17,
Hinge axis 18, hinge axis 18 are inserted into 17 shaft hole of hinge, hinge 17 and shell rivet interlacement, in shell to side lock 8 and outer
Left and right burner hearth is combined and is sealed by shell rivet interlacement, this 3 components, in order to avoid heat dissipation, lock has 2, is divided into lock
With lower lock, on latch be with a distance from upper left casing cover 1 from detector entire detector height one third, it is lower latch from
The distance of the lower-left casing cover 10 of detector is the one third of entire detector height, and position is reasonable, and left and right shell respectively has one
A handle 7, it is easy to operate.
Before this, high-temperature material detector refer to heating high temperature furnace temperature within the scope of 300-1200 DEG C, it is used plus
Electrothermal stove silk is ferrum-chromium-aluminum 0Cr27Al7Mo2Material, highest use environment temperature are 1200 DEG C.So, it is desirable to heat high temperature furnace
Temperature reach 1400 DEG C of hyperthermal environments at a temperature of, calandria 0Cr27Al7Mo2It is unable to satisfy requirement.And this technology
Device is exactly the calandria by the way that the material of heater strip to be replaced with to Si-Mo rod material, and by lower-left fire door 9, upper left fire door 3,
The thermal insulation material of left hearth 5, bottom right fire door 19, upper right fire door 13 and right bearth 15 etc. is also replaced with aluminium silicate fiber containing zirconia material
The features such as material, has just reached the temperature requirement of superhigh temperature (1400 DEG C), and easy for installation, cheap.
It can be seen that by the calandria that the material of left heater strip 6 and right heater strip 16 is replaced with to Si-Mo rod material, and
And by the thermal insulation material of lower-left fire door 9, upper left fire door 3, left hearth 5, bottom right fire door 19, upper right fire door 13 and right bearth 15 etc.
It is replaced with aluminium silicate fiber containing zirconia material, the temperature for just making the operating temperature of this detector reach superhigh temperature (1400 DEG C) is wanted
It asks.
When this structure chart is installed, first handle 7 is mounted in the aperture of left outside shell, left heater strip 6 is first mounted on left furnace
It on the through-hole of thorax 5, is then then passed through upper left fire door 3 and fixes, the place that lifts one's head of heater strip 6 is compressed with copper wire ear, conveniently connects heating
Silk cable.Then lower-left fire door 9 is put into the left housings for installing lower-left casing cover, is reloaded into left heater strip 6
3 connector of left hearth 5 and upper left fire door, the left fire door rib 4 of two sides is fixed into left hearth 5, upper left fire door 3 and lower-left furnace
Mouth 9 completes the installation of left side furnaces.The erection sequence of right side furnace, it is desirable that with left side furnace, hinge 17 under then installing again, left and right
Wing furnace links together, and plugging hinge axis 18 can be completed the installation of a whole set of stove.
The upper left casing cover 1, left outside shell 2, lower-left casing cover 10, upper right casing cover 11, right casing 12, bottom right casing cover
20 be galvanized iron sheet.
The upper left casing cover 1 and left outside shell 2, lower-left casing cover 10 and left outside shell 2, left outside shell 2 and left fire door rib 4 are equal
It is rivet interlacement.
The upper right casing cover 11 is kept off with right casing 12, bottom right casing cover 20 and right casing 12, right casing 12 and right fire door
Block 14 is rivet interlacement.
Connecting between the right casing 12, left outside shell 2 and hinge 17 is rivet interlacement.
5 right bearth 15 of left hearth is opposite opened burner hearth, and the size and right bearth 15 of left hearth 5 are identical.
Connecting between the right casing 12, left outside shell 2 and handle 7 is screw connection.
The embodiments of the present invention is explained in detail in conjunction with attached drawing above, but the utility model is not limited to be retouched
The embodiment stated.For a person skilled in the art, right in the case where not departing from the utility model principle and spirit
These embodiments carry out a variety of change, modification, replacement and modification, still fall in the protection scope of the utility model.
Claims (7)
1. a kind of hyperthermal material detector, which is characterized in that including heating system, heat-insulation system, shell, wherein heating system
The right heater strip of the Si-Mo rod material of the left heater strip and superhigh temperature resistant of Si-Mo rod material including superhigh temperature resistant;Heat-insulation system packet
Upper left fire door, lower-left fire door, left hearth, upper right fire door, bottom right fire door, right bearth are included, is the zirconium alumina silicate fibre of superhigh temperature resistant
Thermal insulation material;Shell includes upper left casing cover, left outside shell, left fire door rib, lower-left casing cover, upper right casing cover, right casing, the right side
Fire door block, bottom right casing cover, handle, He Jin mechanism, wherein He Jin mechanism includes lock, hinge, hinge axis, hinge axis insertion
Two hinge shaft holes, two hinges and shell rivet interlacement, in shell to side lock and shell rivet interlacement.
2. hyperthermal material detector according to claim 1, which is characterized in that the heating system includes superhigh temperature resistant
The left heater strip of Si-Mo rod material and the right heater strip of superhigh temperature resistant Si-Mo rod material.
3. hyperthermal material detector according to claim 1, which is characterized in that the heat-insulation system includes with resistance to superelevation
Upper left fire door made of warm zirconium alumina silicate fibre thermal insulation material, lower-left fire door, left hearth, upper right fire door, bottom right fire door, right furnace
Thorax.
4. hyperthermal material detector according to claim 1, which is characterized in that the He Jin mechanism includes 2 locks,
It is divided into lock and lower lock.
5. hyperthermal material detector according to claim 1, which is characterized in that on the left hearth and the right bearth
It is equipped with a handle.
6. hyperthermal material detector according to claim 4, which is characterized in that latch the upper left from detector on described
The distance of casing cover is a quarter of entire detector height to one third.
7. hyperthermal material detector according to claim 4, which is characterized in that the lower lower-left latched from detector
The distance of casing cover is a quarter of entire detector height to one third.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201821689812.1U CN209371821U (en) | 2018-10-17 | 2018-10-17 | A kind of hyperthermal material detector |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201821689812.1U CN209371821U (en) | 2018-10-17 | 2018-10-17 | A kind of hyperthermal material detector |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN209371821U true CN209371821U (en) | 2019-09-10 |
Family
ID=67838427
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201821689812.1U Active CN209371821U (en) | 2018-10-17 | 2018-10-17 | A kind of hyperthermal material detector |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN209371821U (en) |
-
2018
- 2018-10-17 CN CN201821689812.1U patent/CN209371821U/en active Active
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