Temperature measuring instrument with fireproof and high temperature resistance functions

专利摘要:
The inventive patent of the utility model discloses a temperature measuring instrument with fireproof and high temperature resistance functions, comprising a temperature measuring instrument body, and the temperature measuring instrument body comprises a fireproof layer and the bottom of the fireproof layer is fixedly connected to a filling layer, and the bottom of the filling layer the layer is firmly bonded to a bottom layer, and the fireproof layer includes a fire-resistant layer, a fire-retardant layer and an inner protective layer, and the bottom of the temperature measuring instrument body is firmly connected to a bearing seat, and the material of the fire-resistant layer is phenolic resin and the material of the fire-retardant layer is ceramic silicon rubber. The invention patent on the utility model, through the coordinated use of the temperature measuring instrument body, fireproof layer, filling layer, high temperature resistant layer and bottom layer, can effectively improve the fireproof and high temperature resistance performance of the temperature measuring instrument body, so temperature measuring instrument bodies can be used. high temperature resistance performance and light damage when used in a high temperature environment, with the existing temperature measuring instruments.
公开号:DK202000096U1
申请号:DK202000096U
申请日:2020-09-28
公开日:2020-10-22
发明作者:Xianwu Yang；Guopeng Yang
申请人:Suzhou Aimingsen Tech Co Ltd；
IPC主号:

专利说明:

DK 2020 00096 U1 -1- Temperature measuring instrument with fireproof and high-temperature resistance functions Description Technical field The invention patent on the utility model relates to the technical field for temperature measuring instruments, in particular a temperature measuring instrument with fireproof and high-temperature resistance functions.
Technical background The temperature measuring instrument is a kind of thermometer that uses the principle of infrared - transmission file of detecting the surface temperature of the object and is more convenient to operate, which is especially suitable for measuring objects with high temperature and has a wide range, including measuring surface temperature for different objects such as steel casting, oven temperature, machine parts, glass and room temperature, crab temperature, etc., but the existing temperature measuring instruments have poor fireproof and high temperature resistance performance and are prone to damage when used in high temperature environments.
content of the invention patent on the utility model The purpose of the invention patent on the utility model is to provide a temperature measuring instrument with fireproof and high temperature resistance functions, which has the advantage of good fireproof and high temperature resistance performance, and solves the problems of - poor fire resistance and high temperature a high temperature environment, with the existing temperature measuring instruments.
To achieve the above templates, the inventive patent of the utility model provides the following technical solutions: temperature measuring instrument with fireproof and high temperature resistance functions, comprising a temperature measuring instrument body, and the temperature measuring instrument body comprises a fireproof layer and the bottom of the fireproof layer is firmly connected to the filling layer is firmly connected to a high-temperature-resistant layer, and the bottom of the cavity temperature-resistant layer is firmly connected to a bottom layer.
DK 2020 00096 U1 -2- Preferably, the fireproof layer includes a fire-resistant layer, a fire-retardant layer and an inner protective layer, and the bottom of the temperature measuring instrument body is fixedly connected to a bearing seat.
Preferably, the material of the fire resistant layer is made of phenolic resin, and the material of the fire-retardant layer is ceramic silicon rubber, and the material of the inner protective layer is carbon fiber composite material.
Preferably, the material in the filler layer is refractory fiberglass, and the material in the high temperature resistant layer is nano-alumina.
Preferably, the material of the bottom layer is polyvinyl chloride and the thickness of the bottom layer is 2-4 mm.
Compared to the prior art, the beneficial effects of the invention patent on the utility model are as follows:
The invention patent on the utility model, through the coordinated use of the temperature measuring instrument body, fireproof layer, filler layer, high temperature resistant layer and bottom layer, can effectively improve the fireproof and high temperature resistance performance of the temperature measuring instrument body so that temperature measured in the environment. , which solves the problems of poor fireproof and high temperature resistance performance and easily damages when used in a high temperature environment, with the existing temperature measuring instruments.
2. The inventive patent on the utility model can effectively improve the fireproof performance of - the temperature measuring instrument body by adjusting the fireproof layer, and can conveniently position the temperature measuring instrument body by adjusting the bearing seat, and can effectively improve the fire-resistant performance of the temperature measuring instrument layer and the body fire-retardant performance of the temperature-measuring instrument body by adjusting the fire-retardant layer, and can effectively improve fire-resistant performance of the temperature-measuring instrument body by adjusting the filling layer, and can effectively improve the high-temperature resistance performance of the temperature-measuring instrument body at the high temperature-adjusting instrument body.
Description of the drawings FIG. 1 is a schematic diagram of the structure of the invention patent on the utility model; FIG. 2 is a schematic diagram of the structure of the temperature measuring instrument body according to the invention patent of the utility model; Figure 3 is a schematic diagram of the structure of the fireproof layer according to the invention patent of the utility model.
The figures in the figure refer to: 1. Temperature measuring instrument body; 101. fireproof layer;
1011. Fire resistant layer; 1012. Fire retardant layer; 1013. Inner protective layer; 102. Filling layer; 103. High temperature resistant layer; 104. Bundlag; 2. Rental seat.
DK 2020 00096 U1 -3- Specific implementation method Below we will clearly and completely describe the technical solutions in the embodiments of the invention patent on the utility model by combining the drawings in the embodiments of the invention patent on the utility model, but of course the described embodiments are only part of the embodiments of the invention. the utility model, not all of them, and based on the embodiments of the inventive patent on the utility model, all other embodiments obtained by the person skilled in the art without creative work must fall within the scope of protection of the inventive patent on the utility model.
The components according to the invention patent of the utility model are all universal standard components or components known to the person skilled in the art, and their structures and principles are all known to the person skilled in the art through technical manuals or through conventional experimental methods.
See FIG. 1-3, which are about a temperature measuring instrument with fireproof and high temperature resistance functions, comprising a temperature measuring instrument body 1, and the temperature measuring instrument body 1 comprises a fireproof layer 101, and the fireproof layer 101 includes a fire-resistant layer 1011, a fire-retardant layer 1012 and an inner protective layer 1013, and the bottom of the temperature measuring instrument body 1 is fixedly connected to a bearing seat 2, and the material of fire resistant layer 1011 is phenolic resin, and the material of fire retardant layer 1012 is ceramic silicon rubber, and the material of inner protective layer 1013 is carbon fiber composite material, of the fireproof layer 101 is fixedly connected to a filling layer 102, and the material of the filling layer 102 is refractory fiberglass, and the material of high temperature resistant layer 103 is nano-alumina, and the bottom of the filling layer 102 is fixedly connected to a high temperature resistant layer 103, and the bottom of high temperature resistant made 103 e r firmly bonded to a bottom layer 104, and the material of the bottom layer 104 is polyvinyl chloride, and the thickness of - the bottom layer 104 is 2-4 mm, and through the coordinated use of the temperature measuring instrument body 1, fireproof layer 101, filling layer 102, high temperature resistant layer 103 and the bottom layer 104, which can effectively improve the fireproof and high temperature resistance sewing of the temperature measuring instrument body 1, so that the temperature measuring instrument body 1 can be used normally in a high temperature environment, which solves the problems of poor fireproof and high temperature resistance performance and light damage when used in a high temperature environment, with the existing temperature measuring instruments.
When using this instrument, it can effectively improve the fireproof performance of the temperature measuring instrument body 1 by adjusting the fireproof layer 101, and can conveniently position the temperature measuring instrument body 1 by adjusting the bearing seat 2, and can effectively - improve fire-resistant performance of the temperature measuring instrument body 1 by
DK 2020 00096 U1 -4 - fire-resistant layer 1011, and can effectively improve fire-retardant performance of the temperature measuring instrument body 1 by adjusting the fire-retardant layer 1012, and can effectively improve fire-resistant performance of the temperature measuring instrument body 1 by adjusting the filling layer 102, and can effectively improve the high-performance material Temperature measuring instrument body 1 at high temperature by setting the high temperature resistant layer
103.
Although the embodiments of the inventive patent on the utility model have been shown and described to those skilled in the art, it will be understood that various changes, modifications, substitutions and variations may be made in these embodiments, and the scope of the inventive patent on the utility model is defined. of the attached claims and their equivalents.

权利要求:
Claims (5)
[1]
Temperature measuring instrument with fireproof and high temperature resistance functions, comprising a temperature measuring instrument body (1), characterized in that the temperature measuring instrument body (1) comprises a fireproof layer (101) and the bottom of the fireproof layer (101) is fixedly connected to a filling layer (102). ), and the bottom of the filling layer (102) is fixedly connected to a high temperature resistant layer (103), and the bottom of the high temperature resistant layer (103) is fixedly connected to a bottom layer (104).
[2]
Temperature measuring instrument with fireproof and high temperature resistance functions - according to claim 1, characterized in that the fireproof layer (101) includes a fire-resistant layer (1011), a fire-retardant layer (1012) and an inner protective layer (1013), and the bottom of the temperature measuring instrument body ( 1) is fixedly connected to a bearing seat (2).
[3]
Temperature measuring instrument with fireproof and high temperature resistance functions according to claim 2, characterized in that the material in the fire-resistant layer (1011) is phenolic resin, and - the material in the fire-retardant layer (1012) is ceramic silicon rubber, and the material in the inner protective layer (1013) is carbon fiber composite .
[4]
Temperature measuring instrument with fireproof and high-temperature resistance functions according to Claim 1, characterized in that the material in the filling layer (102) is refractory glass fiber and the material in the high-temperature-resistant layer (103) is nano-alumina.
[5]
Temperature measuring instrument with fireproof and high-temperature resistance functions according to Claim 1, characterized in that the material in the bottom layer (104) is polyvinyl chloride and the thickness of the bottom layer (104) is 2-4 mm.

类似技术:

---

公开号 | 公开日 | 专利标题

---

DK202000096Y3|2020-11-02|Temperature measuring instrument with fireproof and high temperature resistance functions

---

Geraci et al.2018|Micromechanical modelling of cohesive thermoelastic cracking in orthotropic polycrystalline materials

---

Deng et al.2017|Temperature dependent first matrix cracking stress model for the unidirectional fiber reinforced ceramic composites

---

Deng et al.2018|Modeling on temperature-dependent first matrix cracking stress for fiber reinforced ceramics considering fiber debonding and residual thermal stress

---

Jin et al.2020|Fatigue crack growth and delamination mechanisms of Ti/CFRP fibre metal laminates at high temperatures

---

CN102621184A|2012-08-01|Heat flow meter for testing protection performance of fire-fighting uniform and testing method thereof

---

Li et al.2018|Simulation of the thermal shock behavior of ultra-high temperature ceramics with the consideration of temperature-dependent crack propagation criterion and interaction between thermal shock cracks evolution and thermal conduction

---

Sciarretta2014|Modeling of mechanical damage in traditional brickwork walls after fire exposure

---

Sun et al.2014|Verification and prediction of residual strength of C/SiC composites under non-stress oxidation

---

WO2022027790A1|2022-02-10|Thermometer with fireproof and high-temperature-resistant functions

---

Hsu et al.2011|Modeling heat transfer in thin fire blanket materials under high external heat fluxes

---

Zhao et al.2015|Adiabatic Temperature Rise Model of Ultra-High-Volume Fly Ash Conventional Dam Concrete and a FEM Simulation of the Temperature History Curve

---

Liu et al.2015|Analysis on affecting factors of heat preservation properties for thermal insulation covers

---

Rajan et al.2018|Time temperature superposition and prony series coefficients of asphalt roof shingle material from viscoelastic creep testing

---

CN204882183U|2015-12-16|Anti crucible sample structure that corrodes testing experiment of high temperature

---

Tian et al.2017|Numerical prediction of degree of skin burn in thermal protective garment-air gap-human body system

---

Sayer et al.2005|Thermo-elastic stress analysis in a thermoplastic composite disc

---

DE212020000195U1|2020-10-07|A temperature measuring device with fireproof and high temperature resistant functions

---

Jin2018|A thermo-poroelasticity theory for infiltration processing of interpenetrating phase composites

---

CN208399046U|2019-01-18|A kind of fiber-optic grating sensor applied to power supply thermometric

---

Xi et al.2021|Thermal and Vibration Mechanical Reliability of Multicoat Compound Thin-Film Thermocouple

---

TWI712794B|2020-12-11|Electronic apparatus for predicting target's life

---

Wang2019|Breakage Mechanism and Heat Transfer

---

Zhi et al.2010|Theoretical modeling of concrete moisture diffusion surface factor

---

CN104213814A|2014-12-17|Novel inorganic thermal insulation fireproof door

同族专利:

---

公开号 | 公开日

---

DK202000096Y3|2020-11-02|

引用文献:

---

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

---

---

法律状态:
2020-10-22| UAT| Utility model published|Effective date: 20201019 |

---

2020-11-02| UME| Utility model registered|Effective date: 20201102 |

优先权:

---

申请号 | 申请日 | 专利标题

---

PCT/CN2020/115507|WO2022027790A1|2020-08-03|2020-09-16|Thermometer with fireproof and high-temperature-resistant functions|

---