CN204892616U - Alloy rod is with high -efficient automatic alignment household utensils device - Google Patents
Alloy rod is with high -efficient automatic alignment household utensils device Download PDFInfo
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- CN204892616U CN204892616U CN201520658386.5U CN201520658386U CN204892616U CN 204892616 U CN204892616 U CN 204892616U CN 201520658386 U CN201520658386 U CN 201520658386U CN 204892616 U CN204892616 U CN 204892616U
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Abstract
The utility model relates to an alignment household utensils device especially relates to an alloy rod is with high -efficient automatic alignment household utensils device. The utility model discloses an overcome that present artifical alignment alloy rod intensity of labour is big, inefficiency, the numerous and diverse shortcoming of operation, the utility model provides a such alloy rod is with high -efficient automatic alignment household utensils device, including hydraulic cylinder, heating element I, heating element II, heating element III, connecting axle, step motor, pressure sensor, base and control system, hydraulic cylinder and heating element I are connected, heating element III is located heating element I under, heating element III and heating element II are connected with step motor through the connecting axle, pressure sensor is located heating element's III below. The utility model provides a big, the inefficiency of present artifical alignment alloy rod intensity of labour, the numerous and diverse shortcoming of operation, the utility model discloses reached that automatic operation, work efficiency are high, resources are saved's effect.
Description
Technical field
The utility model relates to a kind of alignment capsule means, particularly relates to the efficient automatic aligning capsule means of a kind of alloy bar material.
Background technology
Alloy is the material with metallic character synthesized by two or more metal and metal or the certain method of nonmetal warp, generally obtains by fusing into uniform liquid and solidify.Alloy has the premium properties such as fusing point is low, hardness is large, intensity is high, resistance to corrosion is strong, heat-resisting, and therefore, alloy material is widely used in many science, sphere of life.
Alloy material is of a great variety, wherein hard alloy bar is the one of alloy material, hard alloy bar makes it be widely applied in fields such as intermetallic composite coating, electronics industry, timber processing, aerospace and medical science because of its special erosion resistant, heat-resisting, high rigidity, excellent fracture toughness and compression strength, is the desirable previous materials manufacturing milling cutter, reamer, step tool, stock cutter, screw tap and dot-matrix printer print needle etc.But in the production process of hard alloy bar, before the hardness strengthening alloy bar material, the alloy bar material produced easily occurs bending and deformation, and therefore needs to carry out alignment operation to diastrophic alloy bar material.
At present mainly through the diastrophic alloy bar material of manually-operated method alignment, existing manual operation labour intensity is comparatively large, and efficiency is low, trivial operations, not only wastes resource, and wastes time and energy.
Up to the present, do not find yet a kind of can better the technique of alignment alloy bar material or device, therefore, study a kind of automatic operation, labour intensity is low, and the alloy bar material that efficiency is high is more and more urgent by efficient automatic aligning capsule means.
Utility model content
(1) technical problem that will solve
Existing artificial alignment alloy bar material labour intensity is large, efficiency is low, the shortcoming of trivial operations in order to overcome for the utility model, the technical problems to be solved in the utility model is to provide a kind of automatic operation, labour intensity is low, operating efficiency is high, economize on resources and production cost, raising manufacturer profit the efficient automatic aligning capsule means of alloy bar material.
(2) technical scheme
In order to solve the problems of the technologies described above, the utility model provides the efficient automatic aligning capsule means of so a kind of alloy bar material, include hydraulic jack, heating component I, heating component II, heating component III, connecting axle, stepper motor, pressure sensor, pedestal and control system, described hydraulic jack is connected with heating component I, described heating component III is positioned at immediately below heating component I, described heating component III is connected with stepper motor by connecting axle with heating component II, described pressure sensor is positioned at the below of heating component III, described pressure sensor is arranged on pedestal, described control system respectively with hydraulic jack, stepper motor, pressure sensor connects,
Described heating component I includes calandria shell I, calandria I and alignment vessel I, described calandria I is arranged on the inside of calandria shell I, described alignment vessel I are arranged on the below of calandria shell I, described heating component II includes calandria shell II, calandria II and alignment vessel II, described calandria II is arranged on the inside of calandria shell II, described alignment vessel II are arranged on the top of calandria shell II, described heating component III includes calandria shell III, calandria III and alignment vessel III, described calandria III is arranged on the inside of calandria shell III, described alignment vessel III are arranged on the top of calandria shell III, described control system respectively with calandria I, calandria II, calandria III connects.
Preferably, described calandria I, calandria II and calandria III is the thermistor of same size.
Preferably, described alignment vessel I, alignment vessel II and alignment vessel III are all evenly distributed with semi-circular recesses.
Preferably, described alignment vessel I, alignment vessel II are identical with alignment vessel III model specification.
Preferably, described control system is PLC system.
Operation principle: before device is started working, puts into the alloy bar material treating alignment in the groove of alignment vessel II and alignment vessel III;
Started working by control system hydraulic control oil cylinder, hydraulic jack drives heating component I to move down, be pressed on the alignment vessel III on heating component III, under the effect of calandria assembly I pressure, the pressure increase that pressure sensor is subject to, when the pressure that pressure sensor detects reaches setting value, control system immediately hydraulic control oil cylinder quits work, then, calandria I and calandria III are started working, alloy bar material between alignment vessel I and alignment vessel III is heated, under the heat effect of calandria I and calandria III, diastrophic alloy bar material starts slowly to straighten,
After heating a period of time, control system controls calandria III and quits work, hydraulic control oil cylinder reverse operation simultaneously, hydraulic jack drives heating component I to move up, and makes it get back to initial position, then, control system control step electric motor starting, stepper motor drives heating component II and heating component III to rotate by connecting axle, makes heating component II and heating component III transposition, now heating component II is positioned at immediately below heating component I, and then stepper motor quits work;
Then, control system hydraulic control oil cylinder starts, hydraulic jack drives heating component I to move down, be pressed on the alignment vessel II on heating component II, under the effect of calandria assembly I pressure, the pressure increase that pressure sensor is subject to, when the pressure that pressure sensor detects reaches setting value, control system immediately hydraulic control oil cylinder quits work, control system controls calandria II and starts working, alloy bar material between alignment vessel I and alignment vessel II is heated, under the heat effect of calandria I and calandria II, diastrophic alloy bar material starts slowly to straighten,
Alloy bar material between alignment vessel I and alignment vessel II is being carried out in the process of alignment, the alloy bar material after alignment on swage ware III can taken off, and then put into the alloy bar material treating alignment, waiting alignment process to be heated;
Device is according to above program, and periodic duty, not only operating efficiency is high, and makes full use of waste heat, reaches energy-saving effect.
Described calandria I, calandria II and calandria III is the thermistor of same size, reaches the effect providing stable heat.
Described alignment vessel I, alignment vessel II and alignment vessel III are evenly distributed with V-shaped groove, reach effect that is fixing and alignment alloy bar material.
Described alignment vessel I, alignment vessel II are identical with alignment vessel III model specification, and the effect of alignment alloy bar material is best.
Described control system is PLC system.
Described pressure sensor and control system are existing mature technology, and the utility model is no longer explained in detail.
(3) beneficial effect
The utility model solves that existing artificial alignment alloy bar material labour intensity is large, efficiency is low, the shortcoming of trivial operations, the utility model reaches automatic operation, labour intensity is low, operating efficiency is high, economize on resources and production cost, raising manufacturer profit effect.
Accompanying drawing explanation
Fig. 1 is structural representation of the present utility model.
Being labeled as in accompanying drawing: 1-hydraulic jack, 2-calandria shell I, 3-calandria I, 4-alignment vessel I, 5-alignment vessel II, 6-calandria II, 7-calandria shell II, 8-connecting axle, 9-stepper motor, 10-pressure sensor, 11-pedestal, 12-calandria shell III, 13-calandria III, 14-alignment vessel III, 15-control system.
Detailed description of the invention
Below in conjunction with drawings and Examples, the utility model is further described.
embodiment 1
The efficient automatic aligning capsule means of a kind of alloy bar material, as shown in Figure 1, include hydraulic jack 1, heating component I, heating component II, heating component III, connecting axle 8, stepper motor 9, pressure sensor 10, pedestal 11 and control system 15, described hydraulic jack 1 is connected with heating component I, described heating component III is positioned at immediately below heating component I, described heating component III is connected with stepper motor 9 by connecting axle 8 with heating component II, described pressure sensor 10 is positioned at the below of heating component III, described pressure sensor 10 is installed on the base 11, described control system 15 respectively with hydraulic jack 1, stepper motor 9, pressure sensor 10 connects,
Described heating component I includes calandria shell I 2, calandria I 3 and alignment vessel I 4, described calandria I 3 is arranged on the inside of calandria shell I 2, described alignment vessel I 4 are arranged on the below of calandria shell I 2, described heating component II includes calandria shell II 7, calandria II 6 and alignment vessel II 5, described calandria II 6 is arranged on the inside of calandria shell II 7, described alignment vessel II 5 are arranged on the top of calandria shell II 7, described heating component III includes calandria shell III 12, calandria III 13 and alignment vessel III 14, described calandria III 13 is arranged on the inside of calandria shell III 12, described alignment vessel III 14 are arranged on the top of calandria shell III 12, described control system 15 respectively with calandria I 3, calandria II 6, calandria III 13 connects.
Operation principle: before device is started working, puts into the alloy bar material treating alignment in the groove of alignment vessel II 5 and alignment vessel III 14;
Started working by control system 15 hydraulic control oil cylinder 1, hydraulic jack 1 drives heating component I to move down, be pressed on the alignment vessel III 14 on heating component III, under the effect of calandria assembly I pressure, the pressure increase that pressure sensor 10 is subject to, when the pressure that pressure sensor 10 detects reaches setting value, control system 15 immediately hydraulic control oil cylinder 1 quits work, then, calandria I 3 and calandria III 13 are started working, alloy bar material between alignment vessel I 4 and alignment vessel III 14 is heated, under the heat effect of calandria I 3 and calandria III 13, diastrophic alloy bar material starts slowly to straighten,
After heating a period of time, control system 15 controls calandria III 13 and quits work, hydraulic control oil cylinder 1 reverse operation simultaneously, hydraulic jack 1 drives heating component I to move up, it is made to get back to initial position, then, control system 15 control step motor 9 starts, stepper motor 9 drives heating component II and heating component III rotation by connecting axle 8, make heating component II and heating component III transposition, now heating component II is positioned at immediately below heating component I, and then stepper motor 9 quits work;
Then, control system 15 hydraulic control oil cylinder 1 starts, hydraulic jack 1 drives heating component I to move down, be pressed on the alignment vessel II 5 on heating component II, under the effect of calandria assembly I pressure, the pressure increase that pressure sensor 10 is subject to, when the pressure that pressure sensor 10 detects reaches setting value, control system 15 immediately hydraulic control oil cylinder 1 quits work, control system 15 controls calandria II 6 and starts working, alloy bar material between alignment vessel I 4 and alignment vessel II 5 is heated, under the heat effect of calandria I 3 and calandria II 6, diastrophic alloy bar material starts slowly to straighten,
Alloy bar material between alignment vessel I 4 and alignment vessel II 5 is being carried out in the process of alignment, the alloy bar material after alignment on swage ware III 14 can taken off, and then put into the alloy bar material treating alignment, waiting alignment process to be heated;
Device is according to above program, and periodic duty, not only operating efficiency is high, and makes full use of waste heat, reaches energy-saving effect.
embodiment 2
The efficient automatic aligning capsule means of a kind of alloy bar material, as shown in Figure 1, include hydraulic jack 1, heating component I, heating component II, heating component III, connecting axle 8, stepper motor 9, pressure sensor 10, pedestal 11 and control system 15, described hydraulic jack 1 is connected with heating component I, described heating component III is positioned at immediately below heating component I, described heating component III is connected with stepper motor 9 by connecting axle 8 with heating component II, described pressure sensor 10 is positioned at the below of heating component III, described pressure sensor 10 is installed on the base 11, described control system 15 respectively with hydraulic jack 1, stepper motor 9, pressure sensor 10 connects,
Described heating component I includes calandria shell I 2, calandria I 3 and alignment vessel I 4, described calandria I 3 is arranged on the inside of calandria shell I 2, described alignment vessel I 4 are arranged on the below of calandria shell I 2, described heating component II includes calandria shell II 7, calandria II 6 and alignment vessel II 5, described calandria II 6 is arranged on the inside of calandria shell II 7, described alignment vessel II 5 are arranged on the top of calandria shell II 7, described heating component III includes calandria shell III 12, calandria III 13 and alignment vessel III 14, described calandria III 13 is arranged on the inside of calandria shell III 12, described alignment vessel III 14 are arranged on the top of calandria shell III 12, described control system 15 respectively with calandria I 3, calandria II 6, calandria III 13 connects.
Described calandria I 3, calandria II 6 and calandria III 13 is the thermistor of same size.
Described control system 15 is PLC system.
Operation principle: before device is started working, puts into the alloy bar material treating alignment in the groove of alignment vessel II 5 and alignment vessel III 14;
Started working by control system 15 hydraulic control oil cylinder 1, hydraulic jack 1 drives heating component I to move down, be pressed on the alignment vessel III 14 on heating component III, under the effect of calandria assembly I pressure, the pressure increase that pressure sensor 10 is subject to, when the pressure that pressure sensor 10 detects reaches setting value, control system 15 immediately hydraulic control oil cylinder 1 quits work, then, calandria I 3 and calandria III 13 are started working, alloy bar material between alignment vessel I 4 and alignment vessel III 14 is heated, under the heat effect of calandria I 3 and calandria III 13, diastrophic alloy bar material starts slowly to straighten,
After heating a period of time, control system 15 controls calandria III 13 and quits work, hydraulic control oil cylinder 1 reverse operation simultaneously, hydraulic jack 1 drives heating component I to move up, it is made to get back to initial position, then, control system 15 control step motor 9 starts, stepper motor 9 drives heating component II and heating component III rotation by connecting axle 8, make heating component II and heating component III transposition, now heating component II is positioned at immediately below heating component I, and then stepper motor 9 quits work;
Then, control system 15 hydraulic control oil cylinder 1 starts, hydraulic jack 1 drives heating component I to move down, be pressed on the alignment vessel II 5 on heating component II, under the effect of calandria assembly I pressure, the pressure increase that pressure sensor 10 is subject to, when the pressure that pressure sensor 10 detects reaches setting value, control system 15 immediately hydraulic control oil cylinder 1 quits work, control system 15 controls calandria II 6 and starts working, alloy bar material between alignment vessel I 4 and alignment vessel II 5 is heated, under the heat effect of calandria I 3 and calandria II 6, diastrophic alloy bar material starts slowly to straighten,
Alloy bar material between alignment vessel I 4 and alignment vessel II 5 is being carried out in the process of alignment, the alloy bar material after alignment on swage ware III 14 can taken off, and then put into the alloy bar material treating alignment, waiting alignment process to be heated;
Device is according to above program, and periodic duty, not only operating efficiency is high, and makes full use of waste heat, reaches energy-saving effect.
Described calandria I 3, calandria II 6 and calandria III 13 is the thermistor of same size, reaches the effect providing stable heat.
Described control system 15 is PLC system.
embodiment 3
The efficient automatic aligning capsule means of a kind of alloy bar material, as shown in Figure 1, include hydraulic jack 1, heating component I, heating component II, heating component III, connecting axle 8, stepper motor 9, pressure sensor 10, pedestal 11 and control system 15, described hydraulic jack 1 is connected with heating component I, described heating component III is positioned at immediately below heating component I, described heating component III is connected with stepper motor 9 by connecting axle 8 with heating component II, described pressure sensor 10 is positioned at the below of heating component III, described pressure sensor 10 is installed on the base 11, described control system 15 respectively with hydraulic jack 1, stepper motor 9, pressure sensor 10 connects,
Described heating component I includes calandria shell I 2, calandria I 3 and alignment vessel I 4, described calandria I 3 is arranged on the inside of calandria shell I 2, described alignment vessel I 4 are arranged on the below of calandria shell I 2, described heating component II includes calandria shell II 7, calandria II 6 and alignment vessel II 5, described calandria II 6 is arranged on the inside of calandria shell II 7, described alignment vessel II 5 are arranged on the top of calandria shell II 7, described heating component III includes calandria shell III 12, calandria III 13 and alignment vessel III 14, described calandria III 13 is arranged on the inside of calandria shell III 12, described alignment vessel III 14 are arranged on the top of calandria shell III 12, described control system 15 respectively with calandria I 3, calandria II 6, calandria III 13 connects.
Described calandria I 3, calandria II 6 and calandria III 13 is the thermistor of same size.
Described alignment vessel I 4, alignment vessel II 5 and alignment vessel III 14 are all evenly distributed with semi-circular recesses.
Described control system 15 is PLC system.
Operation principle: before device is started working, puts into the alloy bar material treating alignment in the groove of alignment vessel II 5 and alignment vessel III 14;
Started working by control system 15 hydraulic control oil cylinder 1, hydraulic jack 1 drives heating component I to move down, be pressed on the alignment vessel III 14 on heating component III, under the effect of calandria assembly I pressure, the pressure increase that pressure sensor 10 is subject to, when the pressure that pressure sensor 10 detects reaches setting value, control system 15 immediately hydraulic control oil cylinder 1 quits work, then, calandria I 3 and calandria III 13 are started working, alloy bar material between alignment vessel I 4 and alignment vessel III 14 is heated, under the heat effect of calandria I 3 and calandria III 13, diastrophic alloy bar material starts slowly to straighten,
After heating a period of time, control system 15 controls calandria III 13 and quits work, hydraulic control oil cylinder 1 reverse operation simultaneously, hydraulic jack 1 drives heating component I to move up, it is made to get back to initial position, then, control system 15 control step motor 9 starts, stepper motor 9 drives heating component II and heating component III rotation by connecting axle 8, make heating component II and heating component III transposition, now heating component II is positioned at immediately below heating component I, and then stepper motor 9 quits work;
Then, control system 15 hydraulic control oil cylinder 1 starts, hydraulic jack 1 drives heating component I to move down, be pressed on the alignment vessel II 5 on heating component II, under the effect of calandria assembly I pressure, the pressure increase that pressure sensor 10 is subject to, when the pressure that pressure sensor 10 detects reaches setting value, control system 15 immediately hydraulic control oil cylinder 1 quits work, control system 15 controls calandria II 6 and starts working, alloy bar material between alignment vessel I 4 and alignment vessel II 5 is heated, under the heat effect of calandria I 3 and calandria II 6, diastrophic alloy bar material starts slowly to straighten,
Alloy bar material between alignment vessel I 4 and alignment vessel II 5 is being carried out in the process of alignment, the alloy bar material after alignment on swage ware III 14 can taken off, and then put into the alloy bar material treating alignment, waiting alignment process to be heated;
Device is according to above program, and periodic duty, not only operating efficiency is high, and makes full use of waste heat, reaches energy-saving effect.
Described calandria I 3, calandria II 6 and calandria III 13 is the thermistor of same size, reaches the effect providing stable heat.
Described alignment vessel I 4, alignment vessel II 5 and alignment vessel III 14 are evenly distributed with V-shaped groove, reach effect that is fixing and alignment alloy bar material.
Described control system 15 is PLC system.
embodiment 4
The efficient automatic aligning capsule means of a kind of alloy bar material, as shown in Figure 1, include hydraulic jack 1, heating component I, heating component II, heating component III, connecting axle 8, stepper motor 9, pressure sensor 10, pedestal 11 and control system 15, described hydraulic jack 1 is connected with heating component I, described heating component III is positioned at immediately below heating component I, described heating component III is connected with stepper motor 9 by connecting axle 8 with heating component II, described pressure sensor 10 is positioned at the below of heating component III, described pressure sensor 10 is installed on the base 11, described control system 15 respectively with hydraulic jack 1, stepper motor 9, pressure sensor 10 connects,
Described heating component I includes calandria shell I 2, calandria I 3 and alignment vessel I 4, described calandria I 3 is arranged on the inside of calandria shell I 2, described alignment vessel I 4 are arranged on the below of calandria shell I 2, described heating component II includes calandria shell II 7, calandria II 6 and alignment vessel II 5, described calandria II 6 is arranged on the inside of calandria shell II 7, described alignment vessel II 5 are arranged on the top of calandria shell II 7, described heating component III includes calandria shell III 12, calandria III 13 and alignment vessel III 14, described calandria III 13 is arranged on the inside of calandria shell III 12, described alignment vessel III 14 are arranged on the top of calandria shell III 12, described control system 15 respectively with calandria I 3, calandria II 6, calandria III 13 connects.
Described calandria I 3, calandria II 6 and calandria III 13 is the thermistor of same size.
Described alignment vessel I 4, alignment vessel II 5 and alignment vessel III 14 are all evenly distributed with semi-circular recesses.
Described alignment vessel I 4, alignment vessel II 5 are identical with alignment vessel III 14 model specification.
Described control system 15 is PLC system.
Operation principle: before device is started working, puts into the alloy bar material treating alignment in the groove of alignment vessel II 5 and alignment vessel III 14;
Started working by control system 15 hydraulic control oil cylinder 1, hydraulic jack 1 drives heating component I to move down, be pressed on the alignment vessel III 14 on heating component III, under the effect of calandria assembly I pressure, the pressure increase that pressure sensor 10 is subject to, when the pressure that pressure sensor 10 detects reaches setting value, control system 15 immediately hydraulic control oil cylinder 1 quits work, then, calandria I 3 and calandria III 13 are started working, alloy bar material between alignment vessel I 4 and alignment vessel III 14 is heated, under the heat effect of calandria I 3 and calandria III 13, diastrophic alloy bar material starts slowly to straighten,
After heating a period of time, control system 15 controls calandria III 13 and quits work, hydraulic control oil cylinder 1 reverse operation simultaneously, hydraulic jack 1 drives heating component I to move up, it is made to get back to initial position, then, control system 15 control step motor 9 starts, stepper motor 9 drives heating component II and heating component III rotation by connecting axle 8, make heating component II and heating component III transposition, now heating component II is positioned at immediately below heating component I, and then stepper motor 9 quits work;
Then, control system 15 hydraulic control oil cylinder 1 starts, hydraulic jack 1 drives heating component I to move down, be pressed on the alignment vessel II 5 on heating component II, under the effect of calandria assembly I pressure, the pressure increase that pressure sensor 10 is subject to, when the pressure that pressure sensor 10 detects reaches setting value, control system 15 immediately hydraulic control oil cylinder 1 quits work, control system 15 controls calandria II 6 and starts working, alloy bar material between alignment vessel I 4 and alignment vessel II 5 is heated, under the heat effect of calandria I 3 and calandria II 6, diastrophic alloy bar material starts slowly to straighten,
Alloy bar material between alignment vessel I 4 and alignment vessel II 5 is being carried out in the process of alignment, the alloy bar material after alignment on swage ware III 14 can taken off, and then put into the alloy bar material treating alignment, waiting alignment process to be heated;
Device is according to above program, and periodic duty, not only operating efficiency is high, and makes full use of waste heat, reaches energy-saving effect.
Described calandria I 3, calandria II 6 and calandria III 13 is the thermistor of same size, reaches the effect providing stable heat.
Described alignment vessel I 4, alignment vessel II 5 and alignment vessel III 14 are evenly distributed with V-shaped groove, reach effect that is fixing and alignment alloy bar material.
Described alignment vessel I 4, alignment vessel II 5 are identical with alignment vessel III 14 model specification, and the effect of alignment alloy bar material is best.
Described control system 15 is PLC system.
The above embodiment only have expressed preferred embodiment of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the utility model the scope of the claims.It should be pointed out that for the person of ordinary skill of the art, without departing from the inventive concept of the premise, can also make some distortion, improvement and substitute, these all belong to protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be as the criterion with claims.
Claims (5)
1. the efficient automatic aligning capsule means of alloy bar material, it is characterized in that, include hydraulic jack (1), heating component I, heating component II, heating component III, connecting axle (8), stepper motor (9), pressure sensor (10), pedestal (11) and control system (15), described hydraulic jack (1) is connected with heating component I, described heating component III is positioned at immediately below heating component I, described heating component III is connected with stepper motor (9) by connecting axle (8) with heating component II, described pressure sensor (10) is positioned at the below of heating component III, described pressure sensor (10) is arranged on pedestal (11), described control system (15) respectively with hydraulic jack (1), stepper motor (9), pressure sensor (10) connects,
Described heating component I includes calandria shell I (2), calandria I (3) and alignment vessel I (4), described calandria I (3) is arranged on the inside of calandria shell I (2), described alignment vessel I (4) are arranged on the below of calandria shell I (2), described heating component II includes calandria shell II (7), calandria II (6) and alignment vessel II (5), described calandria II (6) is arranged on the inside of calandria shell II (7), described alignment vessel II (5) are arranged on the top of calandria shell II (7), described heating component III includes calandria shell III (12), calandria III (13) and alignment vessel III (14), described calandria III (13) is arranged on the inside of calandria shell III (12), described alignment vessel III (14) are arranged on the top of calandria shell III (12), described control system (15) respectively with calandria I (3), calandria II (6), calandria III (13) connects.
2. the efficient automatic aligning capsule means of a kind of alloy bar material according to claim 1, is characterized in that, the thermistor that described calandria I (3), calandria II (6) and calandria III (13) are same size.
3. the efficient automatic aligning capsule means of a kind of alloy bar material according to claim 1, is characterized in that, described alignment vessel I (4), alignment vessel II (5) and alignment vessel III (14) are all evenly distributed with semi-circular recesses.
4. the efficient automatic aligning capsule means of a kind of alloy bar material according to claim 1, is characterized in that, described alignment vessel I (4), alignment vessel II (5) are identical with alignment vessel III (14) model specification.
5. the efficient automatic aligning capsule means of a kind of alloy bar material according to claim 1, is characterized in that, described control system (15) is PLC system.
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CN201520658386.5U CN204892616U (en) | 2015-08-28 | 2015-08-28 | Alloy rod is with high -efficient automatic alignment household utensils device |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN107486482A (en) * | 2017-08-03 | 2017-12-19 | 湘潭电机股份有限公司 | A kind of large-size machine rotating shaft Modeling Calculation type heat-straightening process method |
CN111530975A (en) * | 2020-05-22 | 2020-08-14 | 成都先进金属材料产业技术研究院有限公司 | Ultrahigh straightness straightening device and method for small-diameter titanium alloy seamless pipe |
CN113857299A (en) * | 2021-08-24 | 2021-12-31 | 苏州斯科勒自动化设备有限公司 | Screw rod straightening device and method |
-
2015
- 2015-08-28 CN CN201520658386.5U patent/CN204892616U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107486482A (en) * | 2017-08-03 | 2017-12-19 | 湘潭电机股份有限公司 | A kind of large-size machine rotating shaft Modeling Calculation type heat-straightening process method |
CN111530975A (en) * | 2020-05-22 | 2020-08-14 | 成都先进金属材料产业技术研究院有限公司 | Ultrahigh straightness straightening device and method for small-diameter titanium alloy seamless pipe |
CN113857299A (en) * | 2021-08-24 | 2021-12-31 | 苏州斯科勒自动化设备有限公司 | Screw rod straightening device and method |
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