CN205487637U - Reactor and rimq device thereof - Google Patents
Reactor and rimq device thereof Download PDFInfo
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- CN205487637U CN205487637U CN201521110572.1U CN201521110572U CN205487637U CN 205487637 U CN205487637 U CN 205487637U CN 201521110572 U CN201521110572 U CN 201521110572U CN 205487637 U CN205487637 U CN 205487637U
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- reactor
- deep bead
- force fit
- abat
- vent
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Abstract
The utility model discloses a reactor and deep bead, the reactor rimq device include: set up in a plurality of deep beads of the outlying of reactor, a plurality of hoardings that keep out the wind form the wind channel together, the cross -sectional area of wind channel upper portion port is less than the cross -sectional area of lower part port. The tip exceeds reactor coil under the deep bead, more amount of wind reactor coil that flows through when guaranteeing the lower part air inlet. The deep bead is GPO3 board or ya keli board, the deep bead reserves apart from the reactor body that < 10mm's safe distance, deep bead use the fixed bolster and the metal folder of reactor partly to be connected. The utility model provides a reactor and deep bead adopt wedge reactor wind channel structure, and big end down's structure forces cabinet internal cooling wind flowing through from the coil air flue with higher velocity of flow as much as possible forming pressure differential along the reactor direction of height to improve the heat exchange efficiency of complete machine.
Description
Technical field
This utility model belongs to reactor technical field, relates to a kind of reactor, particularly relates to a kind of reactor abat-vent.
Background technology
Existing forced air cooling reactor mostly is without air channel structure or square air damper structure, and in cabinet, cooling air quantity does not sufficiently flow through reactor winding air flue;Radiating efficiency is relatively low, it is impossible to makes full use of the cooling air quantity that cooling fan brings and effectively dispels the heat, causes reactor temperature rise or design volume excessive.
In view of this, nowadays in the urgent need to a kind of new air-cooled reactor of design, in order to overcome the drawbacks described above that existing air-cooled reactor exists.
Utility model content
Technical problem to be solved in the utility model is: provide a kind of reactor abat-vent, use wedge shape reactor air channel structure, up-small and down-big structure is forming pressure reduction along reactor short transverse, in forcing cabinet, cooling wind flows through from coil airway so that high flow velocities is as much as possible, thus improves the heat exchange efficiency of complete machine.
In addition, this utility model also provides for a kind of reactor, uses wedge shape reactor air channel structure, and up-small and down-big structure is forming pressure reduction along reactor short transverse, in forcing cabinet, cooling wind flows through from coil airway so that high flow velocities is as much as possible, thus improves the heat exchange efficiency of complete machine.
For solving above-mentioned technical problem, this utility model adopts the following technical scheme that
A kind of reactor, described reactor includes reactor body, abat-vent;Described abat-vent includes: be arranged at peripheral some deep beads of reactor;
Described deep bead is GPO3 plate or acrylic board, and deep bead distance reactor body reserves the safe distance of < 10mm, and deep bead uses fixed support to be connected with the metal clip part of reactor body;
Described deep bead bottom exceeds reactor winding, it is ensured that during the air intake of bottom, more air quantity flows through reactor winding;
The cross-sectional area of described air channel upper port is less than the cross-sectional area of lower port;Part or all trapezoidal in described some deep beads, the length at the trapezoidal upper end is less than the trapezoidal length gone to the bottom;Described deep bead forms one 5 °~the angle of 15 ° with vertical.
As a kind of preferred version of the present utility model, described reactor also includes cooling water pipeline, injector, water recovery apparatus, cooled plate and resistance;
Described reactor body includes iron core, the coil being surrounded on iron core, copper bar;Described copper bar is external in the two ends of described coil;Described cooling water pipeline picks out coil described in approach from described injector and accesses described water recovery apparatus again;
Described cooled plate is arranged at outside reactor body;Described cooled plate includes: the first force fit plate, the second force fit plate, alignment pin, hollow pipe, the first contiguous block, the second contiguous block;
Described first force fit plate, the second force fit plate are aluminium sheet or copper coin, and hollow pipe is hollow copper pipe or Aluminum Hollow pipe;
Having hollow circular tube indent on described first force fit plate, the second force fit plate, hollow pipe is U-shape structure, and embeds in the hollow circular tube indent formed between the first force fit plate, the second force fit plate;
Being provided with dowel hole outside described first force fit plate, the second force fit plate, dowel hole is provided with chamfering, coordinates alignment pin that the first force fit plate, the second force fit plate is tight with hollow pipe pressing, form an entirety during pressing;
Described hollow pipe is reserved 20-30mm outside cooled plate, coordinates with the first contiguous block, the second contiguous block and welds;The section of hollow pipe is oval or circular or 8 fonts.
A kind of reactor abat-vent, described reactor abat-vent includes: being arranged at peripheral some deep beads of reactor, some deep beads are trapped among and form air channel together;The cross-sectional area on top, described air channel is less than the cross-sectional area of bottom.
As a kind of preferred version of the present utility model, the cross-sectional area of described air channel upper port is less than the cross-sectional area of lower port.
As a kind of preferred version of the present utility model, described deep bead bottom exceeds reactor winding, it is ensured that during the air intake of bottom, more air quantity flows through reactor winding.
As a kind of preferred version of the present utility model, described deep bead is GPO3 plate or acrylic board.
As a kind of preferred version of the present utility model, described deep bead distance reactor body reserves the safe distance of < 10mm, and deep bead uses fixed support to be connected with the metal clip part of reactor.
As a kind of preferred version of the present utility model, described deep bead top area is less than deep bead bottom area, and deep bead forms one 5 °~the angle of 15 ° with vertical.
As a kind of preferred version of the present utility model, described some deep beads are trapezoidal, and the length at the trapezoidal upper end is less than the trapezoidal length gone to the bottom.
The beneficial effects of the utility model are: the reactor that the utility model proposes and deep bead thereof, use wedge shape reactor air channel structure, up-small and down-big structure is forming pressure reduction along reactor short transverse, in forcing cabinet, cooling wind flows through from coil airway so that high flow velocities is as much as possible, thus improves the heat exchange efficiency of complete machine.
Traditional reactor duct materials is improved by this utility model, uses GPO3 plate or acrylic board to surround air channel.There is appearance looks elegant, good insulation preformance, the feature such as lightweight, reliability and durability.Reactor air channel uses up-small and down-big wedge structure, artificial top and the bottom, the reactor air channel pressure reduction that manufactures, raising radiating efficiency.
This utility model reactor deep bead uses GPO3 plate or acrylic board manufacture, and it is convenient to assemble, lightweight, reliability and durability.Wedge shape air duct radiation efficiency is high, makes reactor design smaller, and temperature rise is lower, improves operation stability.
Accompanying drawing explanation
Fig. 1 is the structural representation of this utility model reactor.
Fig. 2 is the structural representation of this utility model reactor abat-vent.
Detailed description of the invention
Describe preferred embodiment of the present utility model below in conjunction with the accompanying drawings in detail.
Embodiment one
Referring to Fig. 1, Fig. 2, this utility model discloses a kind of reactor, and described reactor includes reactor body 2, abat-vent;Described abat-vent includes: be arranged at peripheral some deep beads 1 of reactor.Abat-vent is fixed with reactor body 2 by fixed mechanism 3.
Described deep bead 1 is GPO3 plate or acrylic board, and deep bead 1 reserves the safe distance of < 10mm apart from reactor body 2, and deep bead 1 uses fixed support to be connected with the metal clip part of reactor body.
Described deep bead 1 bottom exceeds reactor winding, it is ensured that during the air intake of bottom, more air quantity flows through reactor winding.
The cross-sectional area of described air channel upper port 4 is less than the cross-sectional area of lower port 5;Part or all trapezoidal in described some deep beads, the length at the trapezoidal upper end is less than the trapezoidal length gone to the bottom;Described deep bead forms one 5 °~the angle of 15 ° with vertical.
Embodiment two
A kind of reactor abat-vent, described reactor abat-vent includes: being arranged at peripheral some deep beads of reactor, some deep beads are trapped among and form air channel together;The cross-sectional area of described air channel upper port is less than the cross-sectional area of lower port.
Preferably, described some deep beads are trapezoidal, and the length at the trapezoidal upper end is less than the trapezoidal length gone to the bottom.Described deep bead top area is less than deep bead bottom area, and deep bead forms one 5 °~the angle of 15 ° with vertical.
Described deep bead bottom exceeds reactor winding, it is ensured that during the air intake of bottom, more air quantity flows through reactor winding.
Described deep bead is GPO3 plate or acrylic board;Described deep bead distance reactor body reserves the safe distance of < 10mm, and deep bead uses fixed support to be connected with the metal clip part of reactor.
Embodiment three
The present embodiment is with the difference of embodiment one, and in the present embodiment, described reactor also includes cooling water pipeline, injector, water recovery apparatus, cooled plate and resistance.
Described reactor body includes iron core, the coil being surrounded on iron core, copper bar;Described copper bar is external in the two ends of described coil;Described cooling water pipeline picks out coil described in approach from described injector and accesses described water recovery apparatus again.
Described cooled plate is arranged at outside reactor body;Described cooled plate includes: the first force fit plate, the second force fit plate, alignment pin, hollow pipe, the first contiguous block, the second contiguous block.
Described first force fit plate, the second force fit plate are aluminium sheet or copper coin, and hollow pipe is hollow copper pipe or Aluminum Hollow pipe.
Having hollow circular tube indent on described first force fit plate, the second force fit plate, hollow pipe is U-shape structure, and embeds in the hollow circular tube indent formed between the first force fit plate, the second force fit plate.
Being provided with dowel hole outside described first force fit plate, the second force fit plate, dowel hole is provided with chamfering, coordinates alignment pin that the first force fit plate, the second force fit plate is tight with hollow pipe pressing, form an entirety during pressing.
Described hollow pipe is reserved 20-30mm outside cooled plate, coordinates with the first contiguous block, the second contiguous block and welds;The section of hollow pipe is oval or circular or 8 fonts.
In sum, the reactor that the utility model proposes and abat-vent thereof, use wedge shape reactor air channel structure, and up-small and down-big structure is forming pressure reduction along reactor short transverse, in forcing cabinet, cooling wind flows through from coil airway so that high flow velocities is as much as possible, thus improves the heat exchange efficiency of complete machine.
Traditional reactor duct materials is improved by this utility model, uses GPO3 plate or acrylic board to surround air channel.There is appearance looks elegant, good insulation preformance, the feature such as lightweight, reliability and durability.Reactor air channel uses up-small and down-big wedge structure, artificial top and the bottom, the reactor air channel pressure reduction that manufactures, raising radiating efficiency.
This utility model reactor deep bead uses GPO3 plate or acrylic board manufacture, and it is convenient to assemble, lightweight, reliability and durability.Wedge shape air duct radiation efficiency is high, makes reactor design smaller, and temperature rise is lower, improves operation stability.
Description the most of the present utility model and application are illustrative, are not wishing to limit in the above-described embodiments scope of the present utility model.The deformation of embodiments disclosed herein and change are possible, and for those skilled in the art, embodiment is replaced and the various parts of equivalence are known.It should be appreciated by the person skilled in the art that in the case of without departing from spirit or essential characteristics of the present utility model, this utility model can in other forms, structure, layout, ratio, and realize with other assembly, material and parts.In the case of without departing from this utility model scope and spirit, embodiments disclosed herein can be carried out other deformation and change.
Claims (9)
1. a reactor, it is characterised in that described reactor includes reactor body, abat-vent;Described abat-vent includes: being arranged at peripheral some deep beads of reactor, some deep beads are trapped among and form air channel together;
Described deep bead is GPO3 plate or acrylic board, and deep bead distance reactor body reserves the safe distance of < 10mm, and deep bead uses fixed support to be connected with the metal clip part of reactor body;
Described deep bead bottom exceeds reactor winding, it is ensured that during the air intake of bottom, more air quantity flows through reactor winding;
The cross-sectional area of described air channel upper port is less than the cross-sectional area of lower port;Part or all trapezoidal in described some deep beads, the length at the trapezoidal upper end is less than the trapezoidal length gone to the bottom;Described deep bead forms one 5 °~the angle of 15 ° with vertical.
Reactor the most according to claim 1, it is characterised in that:
Described reactor also includes cooling water pipeline, injector, water recovery apparatus, cooled plate and resistance;
Described reactor body includes iron core, the coil being surrounded on iron core, copper bar;Described copper bar is external in the two ends of described coil;Described cooling water pipeline picks out coil described in approach from described injector and accesses described water recovery apparatus again;
Described cooled plate is arranged at outside reactor body;Described cooled plate includes: the first force fit plate, the second force fit plate, alignment pin, hollow pipe, the first contiguous block, the second contiguous block;
Described first force fit plate, the second force fit plate are aluminium sheet or copper coin, and hollow pipe is hollow copper pipe or Aluminum Hollow pipe;
Having hollow circular tube indent on described first force fit plate, the second force fit plate, hollow pipe is U-shape structure, and embeds in the hollow circular tube indent formed between the first force fit plate, the second force fit plate;
Being provided with dowel hole outside described first force fit plate, the second force fit plate, dowel hole is provided with chamfering, coordinates alignment pin that the first force fit plate, the second force fit plate is tight with hollow pipe pressing, form an entirety during pressing;
Described hollow pipe is reserved 20-30mm outside cooled plate, coordinates with the first contiguous block, the second contiguous block and welds;The section of hollow pipe is oval or circular or 8 fonts.
3. a reactor abat-vent, it is characterised in that described reactor abat-vent includes: being arranged at peripheral some deep beads of reactor, some deep beads are trapped among and form air channel together;The cross-sectional area on top, described air channel is less than the cross-sectional area of bottom.
Reactor abat-vent the most according to claim 3, it is characterised in that:
The cross-sectional area of described air channel upper port is less than the cross-sectional area of lower port.
Reactor abat-vent the most according to claim 3, it is characterised in that:
Described deep bead bottom exceeds reactor winding, it is ensured that during the air intake of bottom, more air quantity flows through reactor winding.
Reactor abat-vent the most according to claim 3, it is characterised in that:
Described deep bead is GPO3 plate or acrylic board.
Reactor abat-vent the most according to claim 3, it is characterised in that:
Described deep bead distance reactor body reserves the safe distance of < 10mm, and deep bead uses fixed support to be connected with the metal clip part of reactor.
Reactor abat-vent the most according to claim 3, it is characterised in that:
Described deep bead top area is less than deep bead bottom area, and deep bead forms one 5 °~the angle of 15 ° with vertical.
Reactor abat-vent the most according to claim 3, it is characterised in that:
Described some deep beads are trapezoidal, and the length at the trapezoidal upper end is less than the trapezoidal length gone to the bottom.
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CN201521110572.1U CN205487637U (en) | 2015-12-28 | 2015-12-28 | Reactor and rimq device thereof |
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CN201521110572.1U CN205487637U (en) | 2015-12-28 | 2015-12-28 | Reactor and rimq device thereof |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106449032A (en) * | 2016-08-29 | 2017-02-22 | 苏州腾冉电气设备股份有限公司 | Air-cooled and water-cooled integrated reactor |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106449032A (en) * | 2016-08-29 | 2017-02-22 | 苏州腾冉电气设备股份有限公司 | Air-cooled and water-cooled integrated reactor |
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