CN220903872U - Temperature measuring device of vulcanizing machine - Google Patents
Temperature measuring device of vulcanizing machine Download PDFInfo
- Publication number
- CN220903872U CN220903872U CN202322835309.XU CN202322835309U CN220903872U CN 220903872 U CN220903872 U CN 220903872U CN 202322835309 U CN202322835309 U CN 202322835309U CN 220903872 U CN220903872 U CN 220903872U
- Authority
- CN
- China
- Prior art keywords
- side plate
- magnetic
- thermocouple
- lower side
- upper side
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
- 230000001681 protective effect Effects 0.000 claims abstract description 12
- 238000004519 manufacturing process Methods 0.000 abstract description 4
- 210000001161 mammalian embryo Anatomy 0.000 description 3
- 238000000691 measurement method Methods 0.000 description 3
- 238000000034 method Methods 0.000 description 3
- 238000009529 body temperature measurement Methods 0.000 description 2
- 238000005259 measurement Methods 0.000 description 2
- 230000007547 defect Effects 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 238000004073 vulcanization Methods 0.000 description 1
Landscapes
- Moulds For Moulding Plastics Or The Like (AREA)
- Heating, Cooling, Or Curing Plastics Or The Like In General (AREA)
Abstract
The utility model relates to a temperature measuring device of a vulcanizing machine, and belongs to the field of tire production equipment. The inner side wall of the upper side plate is provided with an upper side plate magnetic thermocouple group, and four upper side plate magnetic thermocouples are adsorbed on the inner cavity wall of the annular upper side plate at 90-degree intervals; the inner side wall of the lower side plate is provided with a lower side plate magnetic thermocouple group, and four lower side plate magnetic thermocouples are adsorbed on the inner cavity wall of the annular lower side plate at 90-degree intervals; the inner side wall of the pattern block is provided with a pattern block magnetic thermocouple group, and four pattern block magnetic thermocouples are adsorbed on the inner cavity wall of the annular pattern block at 90-degree intervals; the pattern block magnetic thermocouple, the upper side plate magnetic thermocouple and the lower side plate magnetic thermocouple are identical in structure, a magnetic base is arranged, a channel is processed between the bottom surface and the top surface of the magnetic base, a thermocouple protective sleeve is inserted in the channel, a thermocouple terminal connected with one end of a thermocouple wire is arranged in the thermocouple protective sleeve at the bottom of the magnetic base, and the other end of the thermocouple wire is connected with a thermometer.
Description
Technical Field
The utility model relates to the field of tire production equipment, in particular to a temperature measuring device of a vulcanizing machine.
Background
As is well known, most of vulcanizing machines newly installed by tire enterprises adopt two measuring modes for checking and accepting the temperature of the vulcanizing machines, and the first is to directly measure the temperature of the surface of a die by adopting an infrared thermometer or a contact thermometer; the second is to use thermocouple wires embedded in the surface of the embryo to vulcanize the tire to measure the temperature of the mold surface. In the first measurement method, the mold is required to be measured in an open state, and the temperature of the surface of the mold is seriously radiated because the mold is not in a closed state, so that the temperature of the surface of the mold is seriously distorted by holding an infrared thermometer or a contact thermometer by an acceptance person for measurement. The second measurement method is necessary to use the embryo used for production, the thermocouple wire is needed to be embedded on the surface of the embryo, and the temperature of the surface of the die is measured accurately, but the operation is relatively troublesome, time and labor are wasted, and the measurement method influences the acceptance progress of the new vulcanizing machine.
Disclosure of Invention
In order to overcome the defects of the prior art, the utility model provides a temperature measuring device of a vulcanizing machine, which can eliminate the problems of distortion, troublesome measurement and poor timeliness of measuring the surface temperature of a die.
The technical scheme adopted for solving the technical problems is as follows: the temperature measuring device of the vulcanizing machine is provided with a vulcanizing mold consisting of an upper side plate, pattern blocks and a lower side plate, and is characterized in that an upper side plate magnetic thermocouple group is arranged on the inner side wall of the upper side plate, the upper side plate magnetic thermocouple group consists of four upper side plate magnetic thermocouples, and the four upper side plate magnetic thermocouples are adsorbed on the inner cavity wall of the annular upper side plate at 90-degree intervals; the inner side wall of the lower side plate is provided with a lower side plate magnetic thermocouple group, the lower side plate magnetic thermocouple group consists of four lower side plate magnetic thermocouples, and the four lower side plate magnetic thermocouples are adsorbed on the inner cavity wall of the annular lower side plate at an angle of 90 degrees; the inner side wall of the pattern block is provided with a pattern block magnetic thermocouple group, the pattern block magnetic thermocouple group consists of four pattern block magnetic thermocouples, and the four pattern block magnetic thermocouples are adsorbed on the inner cavity wall of the annular pattern block at 90-degree intervals; the pattern block magnetic thermocouple, the upper side plate magnetic thermocouple and the lower side plate magnetic thermocouple have the same structure, a magnetic base is arranged, a channel is processed between the bottom surface and the top surface of the magnetic base, a thermocouple protective sleeve is inserted in the channel, a thermocouple wire is inserted in the thermocouple protective sleeve, and a thermocouple terminal connected with one end of the thermocouple wire is arranged in the thermocouple protective sleeve at the bottom of the magnetic base; the lower side plate is provided with a temperature measuring channel, a temperature measuring instrument is arranged outside the vulcanizing mold, and the other ends of all thermocouple wires penetrate through the temperature measuring channel and are connected with the temperature measuring instrument.
The method has the advantages that the measuring method is simple and quick, the temperature of the surface of the vulcanizing mold can be truly measured, and reliable data support is provided for whether the temperature of the novel vulcanizing machine mold reaches the acceptance condition.
Drawings
The utility model will be further described with reference to the drawings and examples.
FIG. 1 is a schematic diagram of the structure of the present utility model.
Fig. 2 is a schematic structural view of a magnetic thermocouple.
In the figure, the thermocouple terminal is 1, the magnetic base is 2, the thermocouple protective sleeve is 3, the thermocouple wire is 4, the upper side plate is 5, the upper side plate is 6, and 7, a lower side plate magnetic thermocouple group, 8, a lower side plate, 9, a temperature measuring channel, 10, pattern blocks, 11, a pattern block magnetic thermocouple group and 12, and a temperature measuring instrument.
Detailed Description
In the figure, an upper side plate 5, pattern blocks 10 and a lower side plate 8 form a vulcanization mold, an upper side plate magnetic thermocouple group 6 is arranged on the inner side wall of the upper side plate 5, the upper side plate magnetic thermocouple group 6 consists of four upper side plate magnetic thermocouples, and the upper side plate magnetic thermocouples are respectively marked as an upper side plate magnetic thermocouple No. 1, an upper side plate magnetic thermocouple No. 2, an upper side plate magnetic thermocouple No. 3 and an upper side plate magnetic thermocouple No. 4, and the upper side plate magnetic thermocouples No. 1, the upper side plate magnetic thermocouple No. 2, the upper side plate magnetic thermocouple No. 3 and the upper side plate magnetic thermocouple No. 4 are adsorbed on the inner cavity wall of the annular upper side plate 5 at an interval of 90 degrees; the inner side wall of the lower side plate 8 is provided with a lower side plate magnetic thermocouple group 7, the lower side plate magnetic thermocouple group 7 consists of four lower side plate magnetic thermocouples, wherein the lower side plate magnetic thermocouples are respectively marked as a No. 9 lower side plate magnetic thermocouple, a No. 10 lower side plate magnetic thermocouple, a No. 11 lower side plate magnetic thermocouple and a No. 12 lower side plate magnetic thermocouple, and the No. 9 lower side plate magnetic thermocouple, the No. 10 lower side plate magnetic thermocouple, the No. 11 lower side plate magnetic thermocouple and the No. 12 lower side plate magnetic thermocouple are adsorbed on the inner cavity wall of the annular lower side plate 8 at an angle of 90 degrees; the inner side wall of the pattern block 10 is provided with a pattern block magnetic thermocouple group 11, the pattern block magnetic thermocouple group 11 consists of four pattern block magnetic thermocouples, and the pattern block magnetic thermocouples are respectively marked as a pattern block magnetic thermocouple No. 5, a pattern block magnetic thermocouple No. 6, a pattern block magnetic thermocouple No. 7 and a pattern block magnetic thermocouple No. 8, and the pattern block magnetic thermocouple No. 5, the pattern block magnetic thermocouple No. 6, the pattern block magnetic thermocouple No. 7 and the pattern block magnetic thermocouple No. 8 are adsorbed on the inner cavity wall of the circular pattern block 10 at an angle of 90 degrees; the magnetic thermocouples of the upper side plate 1, the magnetic thermocouples of the upper side plate 2, the magnetic thermocouples of the upper side plate 3, the magnetic thermocouples of the upper side plate 4, the magnetic thermocouples of the pattern block 5, the magnetic thermocouples of the pattern block 6, the magnetic thermocouples of the pattern block 7, the magnetic thermocouples of the pattern block 8, the magnetic thermocouples of the lower side plate 9, the magnetic thermocouples of the lower side plate 10, the magnetic thermocouples of the lower side plate 11 and the magnetic thermocouples of the lower side plate 12 have the same structure, and the magnetic thermocouples comprise a magnetic base 2, wherein the magnetic base is convenient to adhere to the surfaces of the upper side plate 5, the pattern block 10 and the lower side plate 8. A channel is processed between the bottom surface and the top surface of the magnetic base 2, a thermocouple protective sleeve 3 is inserted in the channel, a thermocouple wire 4 is sleeved in the thermocouple protective sleeve 3, and a thermocouple terminal 1 connected with one end of the thermocouple wire 4 is arranged in the thermocouple protective sleeve 3 at the bottom of the magnetic base 2; the lower side plate 8 is provided with a temperature measuring channel 9, a temperature measuring instrument 12 is arranged outside the vulcanizing mold, and the other ends of all thermocouple wires 4 penetrate through the temperature measuring channel 9 and are connected with the temperature measuring instrument 12.
The external temperature of the vulcanizing machine is set to be the temperature required by the production process, the vulcanizing machine is manually in a die closing state, and the temperature measuring instrument 12 is started to collect the temperature values of the upper side plate 5, the lower side plate 8 and the pattern blocks 10. After twelve sets of temperature measurement data acquired by the thermometer 12 are stable, recording the twelve sets of temperature measurement data after the stability, and judging whether the temperature of the vulcanizing mold meets the acceptance condition according to contractual agreements of the two parties or a standard value of the internal vulcanizing process temperature of a company.
Claims (1)
1. The temperature measuring device of the vulcanizing machine is provided with a vulcanizing mold consisting of an upper side plate, pattern blocks and a lower side plate, and is characterized in that an upper side plate magnetic thermocouple group is arranged on the inner side wall of the upper side plate, the upper side plate magnetic thermocouple group consists of four upper side plate magnetic thermocouples, and the four upper side plate magnetic thermocouples are adsorbed on the inner cavity wall of the annular upper side plate at 90-degree intervals; the inner side wall of the lower side plate is provided with a lower side plate magnetic thermocouple group, the lower side plate magnetic thermocouple group consists of four lower side plate magnetic thermocouples, and the four lower side plate magnetic thermocouples are adsorbed on the inner cavity wall of the annular lower side plate at an angle of 90 degrees; the inner side wall of the pattern block is provided with a pattern block magnetic thermocouple group, the pattern block magnetic thermocouple group consists of four pattern block magnetic thermocouples, and the four pattern block magnetic thermocouples are adsorbed on the inner cavity wall of the annular pattern block at 90-degree intervals; the pattern block magnetic thermocouple, the upper side plate magnetic thermocouple and the lower side plate magnetic thermocouple have the same structure, a magnetic base is arranged, a channel is processed between the bottom surface and the top surface of the magnetic base, a thermocouple protective sleeve is inserted in the channel, a thermocouple wire is inserted in the thermocouple protective sleeve, and a thermocouple terminal connected with one end of the thermocouple wire is arranged in the thermocouple protective sleeve at the bottom of the magnetic base; the lower side plate is provided with a temperature measuring channel, a temperature measuring instrument is arranged outside the vulcanizing mold, and the other ends of all thermocouple wires penetrate through the temperature measuring channel and are connected with the temperature measuring instrument.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202322835309.XU CN220903872U (en) | 2023-10-23 | 2023-10-23 | Temperature measuring device of vulcanizing machine |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202322835309.XU CN220903872U (en) | 2023-10-23 | 2023-10-23 | Temperature measuring device of vulcanizing machine |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN220903872U true CN220903872U (en) | 2024-05-07 |
Family
ID=90918717
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202322835309.XU Active CN220903872U (en) | 2023-10-23 | 2023-10-23 | Temperature measuring device of vulcanizing machine |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN220903872U (en) |
-
2023
- 2023-10-23 CN CN202322835309.XU patent/CN220903872U/en active Active
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| CN207703141U (en) | Hosiery machine eccentric shaft centre-to-centre spacing and depth of parallelism comprehensive measurement device | |
| CN220903872U (en) | Temperature measuring device of vulcanizing machine | |
| CN104597137A (en) | Ultrasonic testing block group for residual stress of aluminum alloy prestretching plate and application method thereof | |
| CN201852553U (en) | Point-contact type check fixture for fast measuring flatness | |
| CN201897454U (en) | Special measuring tool for measuring gap width of forming die of plastic pipe extruder | |
| CN117405256A (en) | Acceptance measurement method for temperature of vulcanizing machine | |
| CN103674303A (en) | Simulated temperature measuring method for rubber tires | |
| CN109100497B (en) | Method for testing drying shrinkage performance of cement mortar | |
| CN108760502B (en) | Building wall insulation material compressive strength test equipment | |
| CN213767278U (en) | Air exhaust type tire mold with temperature measuring hole | |
| CN204359730U (en) | The device of test button heat dispersion is measured by laser | |
| CN204882419U (en) | Thermomechanical analysis appearance | |
| CN208721597U (en) | A kind of sample mould of the measurement wax shrinking percentage suitable for turbine wax-pattern | |
| CN203929004U (en) | A kind of deviation measurement device for glass insulator | |
| CN214563121U (en) | Measuring and calibrating device for tire loading and unloading device of tire vulcanizer | |
| CN202805472U (en) | Temperature measuring device for tire bladder molds | |
| CN215906081U (en) | Flexible glass thermal state centering stirring device | |
| CN111579480A (en) | Storage battery terminal performance simulation test structure and method thereof | |
| CN206450726U (en) | A kind of RF switch is without tooth measuring head | |
| CN210005388U (en) | Special measuring device for mortar fluidity tests | |
| CN203587007U (en) | Measuring tool used for detecting internal diameter of tire mold | |
| CN214927297U (en) | Device for nondestructive testing of type of bladder for tire vulcanization | |
| CN211453434U (en) | Equipment for rapidly judging strength and quality of building gypsum powder | |
| CN214333587U (en) | Novel radian gauge | |
| CN114112718B (en) | Method and device for detecting normal-temperature strength of lost foam coating |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| GR01 | Patent grant | ||
| GR01 | Patent grant |