CN209488842U - A kind of aluminium block embedded glass part formula heating system with filling device - Google Patents
A kind of aluminium block embedded glass part formula heating system with filling device Download PDFInfo
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- CN209488842U CN209488842U CN201821689134.9U CN201821689134U CN209488842U CN 209488842 U CN209488842 U CN 209488842U CN 201821689134 U CN201821689134 U CN 201821689134U CN 209488842 U CN209488842 U CN 209488842U
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- heating
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- inner hole
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Abstract
The aluminium block embedded glass part formula heating system with filling device that the utility model discloses a kind of, including heating device, and the bottom plate of heating device bottom is set, it is characterized in that, aluminium block is provided in the heating device, the heating inner hole of multiple relatively independent placement glass workpieces is provided in the aluminium block, the heating inner hole radially inner edge is provided with heat-conducting silica gel sheet, when the glass workpiece is inserted into heating inner hole, it is interference fit between heat-conducting silica gel sheet and glass workpiece, the heating device bottom is uniformly machined with multiple pores for placing heating rod.After the utility model can solve glass workpiece and the aluminium block installation of aluminium block embedded glass part formula heating system, it will appear loosening, cause glass workpiece to be placed built on the sand, contact tension cause glass workpiece frangible and glass workpiece and aluminium block contact point it is uneven caused by heat transfer difference the problem of.
Description
Technical field
The utility model belongs in embedded heating device technology area more particularly to a kind of aluminium block with filling device
Pane part formula heating system.
Background technique
Heating method in view of ammonia nitrogen distilling apparatus in the market is mostly electromagnetic oven bottom-heated or alcolhol burner bottom-heated,
Thermal energy waste is larger;And multiple samples cannot be distilled simultaneously, can only single furnace list sample distillation be easy when doing multiple groups comparative experiments
Cause the heating difference between group.However aluminium block embedded glass part formula heating system, there is also install: (1) glass
After part and metal installation, it may appear that loosen, glass workpiece is caused to be placed built on the sand, contact tension causes glass workpiece frangible;(2) glass
Conduct heat difference problem caused by part and metal contact are uneven.In view of problem above, the present inventor has attempted multiple material, more
Kind structure goes to solve the above problem: (1) considering the heating conduction of aluminium block, first joined aluminium at the heating inner hole in aluminium block
Ball, although playing certain effect, installation difficulty is big, is easily agglomerated using rear aluminum shot, and without buffering effect, glass workpiece is fragile
It splits, and can not replace;(2) soft rubber is used, can achieve the protective effect to glass, but soft rubber material is intolerant to height
Temperature, and heat-conductive characteristic is poor.
Summary of the invention
The purpose of this utility model is that: glass workpiece and aluminium block for above-mentioned aluminium block embedded glass part formula heating system are pacified
After dress, it may appear that loosen, glass workpiece is caused to be placed built on the sand, contact tension causes glass workpiece frangible and glass workpiece connects with aluminium block
Caused by contact is uneven the problem of heat transfer difference, the utility model provides a kind of aluminium block embedded glass part with filling device
Formula heating system.
The technical solution adopted in the utility model is as follows:
A kind of aluminium block embedded glass part formula heating system with filling device, including heating device, and setting are adding
The bottom plate of thermal bottom, which is characterized in that be provided with aluminium block in the heating device, be provided in the aluminium block multiple opposite
The independent heating inner hole for placing glass workpiece, the heating inner hole radially inner edge are provided with heat-conducting silica gel sheet, and the glass workpiece is inserted
Enter to when heating inner hole, to be interference fitted between heat-conducting silica gel sheet and glass workpiece, the heating device bottom is uniformly machined with more
A pore for placing heating rod, the pore extend in aluminium block and are arranged inside heating inner hole periphery, the heating device
PT-100 thermal resistance temperature sensor is installed, outside is equipped with high temperature relay.
Working principle: when in use, glass workpiece to be heated is placed individually into each heating for the utility model heating module
In hole, by selecting the aluminium block of excellent thermal conductivity to disperse even heat after heating rod electrified regulation as heating carrier
To heating inner bore perimeter, heating rod and PT-100 thermal resistance temperature sensor are connected by conducting wire with high temperature relay, high temperature after
The thermo-electromotive force signal of electrical testing PT-100 thermal resistance temperature sensor and the heating power for adjusting heating rod, to entire heating
System forms overtemperature prote, by being provided with heat-conducting silica gel sheet in heating inner hole radially inner edge, increases glass workpiece and aluminium block
Contact area can have good heating conduction, maintain the heating effect of glass workpiece, and make shape between glass workpiece and heating inner hole
It is interference fit between heat-conducting silica gel sheet and glass workpiece, therefore thermal conductive silicon when glass workpiece is inserted into heating inner hole at buffer protection
The heating inner hole that is fixed on for having good leakproofness that glass workpiece is consolidated between film and glass workpiece is internally heated.
As a preferred mode, the heat-conducting silica gel sheet with a thickness of 0.5~3.0mm.By using with a thickness of 0.5
The heat-conducting silica gel sheet of~3.0 mm, both can satisfy installation requirements can also better meet the heat transfer requirement of heat-conducting silica gel sheet.
As a preferred mode, the bottom of the heat-conducting silica gel sheet, which is provided with, adds adhesion coating.By in heat-conducting silica gel sheet
Bottom is provided with plus adhesion coating can reinforce heat-conducting silica gel sheet and heats the viscous force between inner hole, is avoided falling off during fitting, be increased
The protective effect to glass workpiece is added.
As a preferred mode, the heating inner hole is at least provided with 4.It heats inner hole and is used for mosaic glass part,
By the way that multiple heating inner holes are arranged, the experiment liquid in multiple groups glass workpiece to be heated can be enable to be completely in heating inner hole simultaneously
It is heated, work efficiency is high.
As a preferred mode, the pore is even number, at least provided with 10.By the way that multiple pores are arranged,
Multiple heating rods are easily installed, to meet the use demand of multiple heating inner holes, so that heating inner hole is by thermostabilization.
As a preferred mode, the pore is uniformly arranged into two row side by side, per the pore two neighboring side by side
It is one group, the heating rod in every group of two pores is serially connected by conducting wire, and the heating rod in each group pore passes through conducting wire
Parallel connection, and the heating power of the heating rod is consistent.By way of the heating rod in pore is arranged to series, parallel,
Each heating rod switching electricity together is controlled when in use, the temperature that can control the glass workpiece in multiple heating inner holes simultaneously is consistent,
And the heating power of each heating rod is consistent, so that heating inner hole is heated evenly.
As a preferred mode, the heating inner hole is arranged with pore interval described in every group, i.e., each heating
Inner hole be circumferentially uniformly distributed there are four place heating rod the pore.Enable it is each heating inner hole in glass workpiece to be heated
Enough quick and thermally equivalents, improve heating efficiency.
As a preferred mode, the glass workpiece bottom is provided with drainpipe, is provided between pore described in every group
Glass workpiece drain tube holes.By the way that glass workpiece drain tube holes are arranged, pass through bottom convenient for the experimental liquid in glass workpiece to be heated
Drainpipe draining.
As a preferred mode, the cavity between the aluminium block and heating device is provided with asbestos, the aluminium block bottom
It is provided with one layer of thermal insulation board between portion and bottom plate, is provided with one layer of bakelite plate between the thermal insulation board and bottom plate, the thermal insulation board,
The mode that bakelite plate, bottom plate are connected through a screw thread is connected with the heating device.By be arranged thermal insulation board can play by
The effect of heating device and external insulation can be played the role of preventing heating device from leaking electricity, by setting by the way that bakelite plate is arranged
Set asbestos, can further play the role of insulation, heat preservation, guarantee entire heating module using safe.
In conclusion by adopting the above-described technical solution, the beneficial effects of the utility model are:
1. the utility model heating system, it is compact-sized it is regular, be easily installed, using safe, glass workpiece to be heated is embedding
Enter to each heating inner hole and heated, so that heat utilization rate is higher, low in energy consumption, heating efficiency is higher, while carrying out multiple groups
When comparative experiments, the temperature difference opposite sex is low, and the fixed temperature of experiment, constant temperature can control to carry out;By being provided in heating inner hole radially inner edge
Heat-conducting silica gel sheet, the contact area for increasing glass workpiece and aluminium block can have good heating conduction, maintain the heating of glass workpiece
Effect, and make glass workpiece and heat to form buffer protection between inner hole, when the spherical part of glass workpiece is inserted into heating inner hole, lead
It is interference fit between hot silica gel piece and the spherical part of glass workpiece, therefore between heat-conducting silica gel sheet and the spherical part of glass workpiece
The heating inner hole that is fixed on for having good leakproofness that glass workpiece is consolidated is internally heated, and the heat-conducting silica gel sheet can
Applied in a variety of embedded heating structures, 300 DEG C of heatproof or more;
2. the utility model by using the heat-conducting silica gel sheet with a thickness of 0.5~3.0mm, both can satisfy installation requirements or
The heat transfer requirement of heat-conducting silica gel sheet can be better met;
3. the utility model adds adhesion coating that can reinforce heat-conducting silica gel sheet and heating by being provided in heat-conducting silica gel sheet bottom
Viscous force between inner hole avoids falling off during fitting, increases the protective effect to glass workpiece;
4. the utility model heats inner hole and is used for mosaic glass part, by the way that multiple heating inner holes are arranged, multiple groups can be made to wait for
Experiment liquid in heating glass workpiece can be completely in heating inner hole while be heated, and work efficiency is high;
5. the utility model is easily installed multiple heating rods, to meet multiple heating inner holes by the way that multiple pores are arranged
Use demand so that heating inner hole by thermostabilization;
Respectively add 6. the utility model by way of the heating rod in pore is arranged to series and parallel, controls when in use
Hot pin is powered together, powers off, and the temperature that can control the glass workpiece in multiple heating inner holes simultaneously is consistent;
7. each heating inner hole of the utility model is circumferentially uniformly distributed there are four the pore for placing heating rod, make
It is each heating inner hole in glass workpiece to be heated can quickly and thermally equivalent, improve heating efficiency;
8. the utility model passes through bottom by setting glass workpiece drain tube holes convenient for the experimental liquid in glass workpiece to be heated
The drainpipe in portion drains;
9. the utility model can play the role of heating device and external insulation passing through setting by the way that thermal insulation board is arranged
Bakelite plate can play the role of preventing heating device from leaking electricity, and by the way that asbestos are arranged, can further play insulation, heat preservation
Effect, guarantee entire heating system using safe.
Detailed description of the invention
The utility model will illustrate by example and with reference to the appended drawing, in which:
Fig. 1 is the cross-sectional view of the utility model heating device;
Fig. 2 is the structural schematic diagram of the utility model heat-conducting silica gel sheet;
Fig. 3 is the structural schematic diagram of the utility model heating device;
Fig. 4 is the structural schematic diagram of the utility model aluminium block.
Appended drawing reference: 1- glass workpiece, 2- heating inner hole, 3- heating device, 4- aluminium block, 5- asbestos, 6- bottom plate, 7- pore,
8- heating rod, 9- glass workpiece drain tube holes, 10- drainpipe, 11- bakelite plate, 12- thermal insulation board, 13-PT-100 resistance and temperature
Sensor, 14- high temperature relay, 15- heat-conducting silica gel sheet, 16- add adhesion coating.
Specific embodiment
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.
It elaborates below with reference to Fig. 1, Fig. 2, Fig. 3 to the utility model.
Embodiment 1
A kind of 4 embedded glass part of aluminium block, 1 formula heating system with filling device, including heating device 3, and setting exist
The bottom plate 6 of 3 bottom of heating device, which is characterized in that be provided with aluminium block 4 in the heating device 3, be provided in the aluminium block 4
The heating inner hole 2 of multiple relatively independent placement glass workpieces 1,2 radially inner edge of heating inner hole are filled with heat-conducting silica gel sheet
15, it is interference fit, the heating between heat-conducting silica gel sheet 15 and glass workpiece 1 when the glass workpiece 1 is inserted into heating inner hole 2
3 bottom of device is uniformly machined with multiple pores 7 for placing heating rod 8, and the pore 7 extends in aluminium block 4 and is arranged and heating
Inner hole 2 is peripheral, is equipped with PT-100 thermal resistance temperature sensor 13 inside the heating device 3, outside is equipped with high temperature relay
Device 14.
Working principle: when in use, glass workpiece 1 to be heated is placed individually into each heating for the utility model heating system
In hole 2, by selecting the aluminium block 4 of excellent thermal conductivity to make even heat after 8 electrified regulation of heating rod as heating carrier
It is dispersed to heating 2 periphery of inner hole, high temperature relay 14 detects the thermo-electromotive force signal of PT-100 thermal resistance temperature sensor 13 simultaneously
The heating power for adjusting heating rod 8 forms overtemperature prote to entire heating system, by heating 2 radially inner edge of inner hole setting
There is heat-conducting silica gel sheet 15, the contact area for increasing glass workpiece and aluminium block there can be good heating conduction, maintain glass workpiece
Heating effect, and make to form buffer protection between glass workpiece and heating inner hole, when glass workpiece 1 is inserted into heating inner hole 2, thermal conductive silicon
It is interference fit between film 15 and glass workpiece 1, therefore has good leakproofness to make between heat-conducting silica gel sheet 5 and glass workpiece 1
What glass workpiece 1 can consolidate be fixed on, and heating inner hole 2 is internally heated.
Embodiment 2
On the basis of embodiment 1, the heat-conducting silica gel sheet 15 with a thickness of 0.5~3.0mm.By using with a thickness of
The heat-conducting silica gel sheet 15 of 0.5~3.0 mm, both can satisfy installation requirements can also better meet the biography of heat-conducting silica gel sheet 15
Heat demand.
Embodiment 3
On the basis of embodiment 1, the bottom of the heat-conducting silica gel sheet 15, which is provided with, adds adhesion coating 16.By in heat conductive silica gel
15 bottom of piece is provided with plus adhesion coating 16 can reinforce heat-conducting silica gel sheet 15 and heats the viscous force between inner hole 2, avoids fitting process
In fall off, increase the protective effect to glass workpiece 1.
Embodiment 4
On the basis of embodiment 1, the heating inner hole 2 is at least provided with 4.It heats inner hole 2 and is used for mosaic glass part
1, by the way that multiple heating inner holes 2 are arranged, the experiment liquid in multiple groups glass workpiece 1 to be heated can be enable to be completely in heating inner hole 2
Interior while being heated, work efficiency is high.
Embodiment 5
On the basis of embodiment 1, the pore 7 is even number, at least provided with 10.By the way that multiple pores 7 are arranged,
Multiple heating rods 8 are easily installed, to meet the use demand of multiple heating inner holes 2, so that heating inner hole 2 is by thermostabilization.
Embodiment 6
On the basis of embodiment 1, the pore 7 is uniformly arranged into two row side by side, per the pore 7 two neighboring side by side
It is one group, the heating rod 8 in every group two pores 7 is serially connected by conducting wire, and the heating rod 8 in each group pore 7 passes through
Conductor in parallel, and the heating power of the heating rod 8 is consistent.By the way that the heating rod 8 in pore 7 is arranged to series, parallel
Form, control when in use each heating rod 8 together switching electricity, can control simultaneously it is multiple heating inner holes 2 in glass workpieces 1
Temperature it is consistent, and the heating power of each heating rod 8 is consistent, so that heating inner hole 2 is heated evenly.
Embodiment 7
On the basis of embodiment 1, the heating inner hole 2 is arranged with the interval of pore 7 described in every group, i.e., each heating
Inner hole 2 is circumferential to be uniformly distributed that there are four the pores 7 for placing heating rod 8.So that the glass to be heated in each heating inner hole 2
Part 1 can quickly and thermally equivalent, improve heating efficiency.
Embodiment 8
On the basis of embodiment 1,1 bottom of glass workpiece is provided with drainpipe 10, is arranged between pore 7 described in every group
There is 1 drainpipe of glass workpiece, 10 hole 7.By the way that 1 drainpipe of glass workpiece, 10 hole 7 is arranged, convenient for the experimental liquid in glass workpiece 1 to be heated
It is drained by the drainpipe 10 of bottom.
Embodiment 9
On the basis of embodiment 1, the cavity between the aluminium block 4 and heating device 3 is provided with asbestos 5, the aluminium block 4
It is provided with one layer of thermal insulation board 12 between bottom and bottom plate 6, one layer of bakelite plate 11 is provided between the thermal insulation board 12 and bottom plate 6,
The mode that the thermal insulation board 12, bakelite plate 11, bottom plate 6 are connected through a screw thread is connected with the heating device 3.Pass through setting
Thermal insulation board 12 can play the role of heating device 3 and external insulation, and can be played by setting bakelite plate 11 prevents from heating
The effect that device 3 leaks electricity can further play the role of insulation, heat preservation, guarantee entire heated mould by the way that asbestos 5 are arranged
Block using safe.
Claims (9)
1. a kind of aluminium block embedded glass part formula heating system with filling device, including heating device (3), and setting are adding
The bottom plate (6) of thermal (3) bottom, which is characterized in that be provided with aluminium block (4) in the heating device (3), the aluminium block (4)
Inside it is provided with the heating inner hole (2) of multiple relatively independent placement glass workpieces (1), heating inner hole (2) the radially inner edge filling
Have heat-conducting silica gel sheet (15), is interference fit, the heating device (3) between the heat-conducting silica gel sheet (15) and glass workpiece (1)
Bottom is uniformly machined with multiple pores (7) for placing heating rod (8), and the pore (7), which extends in aluminium block (4) and is arranged, to be added
Hot inner hole (2) periphery, the heating device (3) is internal to be equipped with PT-100 thermal resistance temperature sensor (13), and outside is equipped with
High temperature relay (14).
2. a kind of aluminium block embedded glass part formula heating system with filling device according to claim 1, feature exist
In, the heat-conducting silica gel sheet (15) with a thickness of 0.5~2.0mm.
3. a kind of aluminium block embedded glass part formula heating system with filling device according to claim 1, feature exist
In the bottom of the heat-conducting silica gel sheet (15) is provided with plus adhesion coating (16).
4. a kind of aluminium block embedded glass part formula heating system with filling device according to claim 1, feature exist
In the heating inner hole (2) is at least provided with 4.
5. a kind of aluminium block embedded glass part formula heating system with filling device according to claim 1, feature exist
In the pore (7) is even number, at least provided with 10.
6. a kind of aluminium block embedded glass part formula heating system with filling device according to claim 1, feature exist
In the pore (7) is uniformly arranged into two row side by side, is one group, described in every group two per the pore (7) two neighboring side by side
Heating rod (8) in pore (7) is serially connected by conducting wire, and the heating rod (8) in each group pore (7) passes through conductor in parallel, and
The heating power of the heating rod (8) is consistent.
7. a kind of aluminium block embedded glass part formula heating system with filling device according to claim 1, feature exist
In the heating inner hole (2) is arranged with the interval of pore (7) described in every group, and each heating inner hole (2) is circumferentially evenly distributed with
Four are placed the pore (7) of heating rod (8).
8. a kind of aluminium block embedded glass part formula heating system with filling device according to claim 1, feature exist
In glass workpiece (1) bottom is provided with drainpipe (10), and pore described in every group is provided with glass workpiece drain tube holes between (7)
(7)。
9. a kind of aluminium block embedded glass part formula heating system with filling device according to claim 1, feature exist
In, the cavity between the aluminium block (4) and heating device (3) is provided with asbestos (5), aluminium block (4) bottom and bottom plate (6) it
Between be provided with one layer of thermal insulation board (12), be provided with one layer of bakelite plate (11) between the thermal insulation board (12) and bottom plate (6), it is described every
The mode that hot plate (12), bakelite plate (11), bottom plate (6) are connected through a screw thread is connected with the heating device (3).
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CN201821689134.9U CN209488842U (en) | 2018-10-17 | 2018-10-17 | A kind of aluminium block embedded glass part formula heating system with filling device |
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CN201821689134.9U CN209488842U (en) | 2018-10-17 | 2018-10-17 | A kind of aluminium block embedded glass part formula heating system with filling device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114856385A (en) * | 2022-05-07 | 2022-08-05 | 海门山峰玻璃科技有限公司 | Hollow laminated glass based on electromagnetic heating demisting and use method thereof |
-
2018
- 2018-10-17 CN CN201821689134.9U patent/CN209488842U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114856385A (en) * | 2022-05-07 | 2022-08-05 | 海门山峰玻璃科技有限公司 | Hollow laminated glass based on electromagnetic heating demisting and use method thereof |
CN114856385B (en) * | 2022-05-07 | 2024-01-09 | 海门山峰玻璃科技有限公司 | Hollow laminated glass based on electromagnetic heating defogging and using method thereof |
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Effective date of registration: 20200730 Address after: 750000 block B, third floor, Zhongxing smart Yinchuan big data center, Ningxia Yinchuan Suyin Industrial Park, Yinchuan City, Ningxia Hui Autonomous Region Patentee after: Yinchuan Lianhua Technology Development Co., Ltd Address before: 730060 4th Floor, Building A, 256 Xigudong Road, Xigu District, Lanzhou City, Gansu Province Patentee before: LANZHOU LIANHUA ENVIRONMENTAL PROTECTION TECHNOLOGY Co.,Ltd. |