CN205992862U - Embedded commutator transformer - Google Patents
Embedded commutator transformer Download PDFInfo
- Publication number
- CN205992862U CN205992862U CN201621030759.5U CN201621030759U CN205992862U CN 205992862 U CN205992862 U CN 205992862U CN 201621030759 U CN201621030759 U CN 201621030759U CN 205992862 U CN205992862 U CN 205992862U
- Authority
- CN
- China
- Prior art keywords
- commutator transformer
- heat conduction
- conduction panel
- embedded
- described heat
- 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
Abstract
This utility model is related to a kind of embedded commutator transformer, solves the problems, such as that commutator transformer occupies large space using safety, radiating, use.Using scheme:Including commutator transformer, for fixing the heat conduction panel of commutator transformer, described heat conduction panel is the good conductor of heat, being fixed on described heat conduction panel inner wall of described commutator transformer.Its feature:Commutator transformer is hidden in inside heat conduction panel, commutator transformer is radiated by heat conduction panel, the impact to internal circuit for the transformator heat is reduced with this;Decrease the space occupancy rate of commutator transformer;Distributed by heat conduction panel to the heat in space, secondary utilization can be carried out, for indoor heating;The distance between reduce and load, reduce the line loss unbalanced phenomenon of load voltage brought the consumption reducing power line.
Description
Technical field
This utility model is related to a kind of commutator transformer, more particularly, to a kind of embedded commutator transformer.
Background technology
The supply voltage of existing electric heating products is substantially AC220V, at this voltage using have the very high class of insulation will
Ask, with product using and ageing process, the class of insulation of product decreases, and the thing followed has electric leakage, gets an electric shock
Risk.In order to solve the risk leaked electricity, get an electric shock, improve safety and reliability, be proposed again and use DC low-voltage(Voltage is
DC36V and following)Product, in order to be suitable for low-voltage direct-current electric heating products, need using commutator transformer to electric main drop
Pressure and rectification.However, being limited to the impact of the factors such as electronic product electric current, voltage, heat dissipation capacity, the body of conventional commutator transformer
Long-pending larger, noise is larger(Because the caloric value of commutator transformer is larger, electronic component products need by wind-cooling heat dissipating, direct current
Need on transformator to increase cooling fan), it is not easy to be directly mounted at interior.Therefore determine commutator transformer and be necessarily mounted at and set
Standby some outdoor area such as balcony, furred ceiling, installation region requires possess the conditions such as convenient maintenance, maintenance, ventilation, and part increases peace
Dress up this, for the user being fitted without region, then cannot use the electric heating products of commutator transformer.Again because direct current becomes
The distance between depressor and load are big, and each load position has voltage non-uniform phenomenon(There is the generation of voltage drop), also increase
More additional power supply, increases use cost.Additionally, power line adopts DC36V and following power voltage supply, electric current ratio is larger,
Need the thicker power line of configuration, increased the material cost of power line.
Content of the invention
The purpose of this utility model is to solve the problems referred to above of prior art presence and provides a kind of embedded direct current to become
Depressor, commutator transformer is hidden in inside heat conduction panel, commutator transformer is radiated by heat conduction panel, to reduce transformation with this
The impact to internal circuit for the device heat;Decrease the space occupancy rate of commutator transformer;Distributed to space by heat conduction panel
Heat, can carry out secondary utilization, for indoor heating;The distance between reduce and load, reduce the load electricity that line loss is brought
Press unbalanced phenomenon and reduce the consumption of power line.
Above-mentioned technical purpose of the present utility model mainly solves by the following technical programs:Embedded direct current transformation
It is characterised in that including commutator transformer, for fixing the heat conduction panel of commutator transformer, described heat conduction panel is heat to device
Good conductor, being fixed on described heat conduction panel inner wall of described commutator transformer.
First by commutator transformer and heat conduction panel(As aluminium alloy heat conduction panel)Fit together.Heat conduction panel can conduct
One huge radiator of commutator transformer, solves the heat dissipation problem of commutator transformer, it is to avoid using the side of wind-cooling heat dissipating
Case.The heat conduction panel that the technical program is related to is mounted in interior(As arranged skirt line position, form skirting), thermal conductive surface
The radiating to radiator for the plate, can also provide certain heating using this partial heat for interior.Heat conduction panel and load are
Closely, therefore decrease distance between the two, make load voltage uniformly, reduce the material cost of power line.No
Need to be individually for install commutator transformer and redesign maintenance, based on and ventilation equipment, saving installation cost.
Heat conduction panel uses as radiator and protection shell.Commutator transformer and its internal circuit pass through heat conduction panel admittedly
Determine and radiate, make the performance of commutator transformer reach technical requirements.The size of the different commutator transformers according to heat conduction panel can
To change therewith, therefore this embedded commutator transformer can incorporate in various different heat conduction panels.
Control the output voltage of commutator transformer depressor for convenience(DC0-40V), output current, electric pressure, output
The functions such as time period, are equipped with output voltage, current monitoring, and possess every protective measure and temperature control system, protective measure includes:
Overvoltage protection, low-voltage protection, overcurrent protection, short-circuit protection, the over the ground function such as protection.Temperature control system is provided simultaneously with remotely
Control function, the network-termination device such as computer, mobile phone, pad can carry out remotely control by network to equipment.
As improving further and supplementing to technique scheme, this utility model adopts following technical measures:
Described heat conduction panel is shape.Aluminum alloy materials are adopted to be to close from the aspect of material cost, steering capability
Suitable material.
Described heat conduction panel is skirting.Commutator transformer is hidden in after aluminum alloy skirting board.According to aluminium alloy
The dimensional requirement of skirting, the overall dimensions of commutator transformer are made flat, commutator transformer is embedded in aluminium alloy and plays
The rear side of payment to a porter, aluminum alloy skirting board to use as the radiating of commutator transformer, produces during commutator transformer work
Heat is transmitted in the air by aluminum alloy skirting board, can reduce the operating temperature of commutator transformer, and the heat energy being radiated may be used again
Compensate interior space temperature.The power supply mode of commutator transformer is the left and right sides of skirting as end of incoming cables and leading-out terminal.Negative
The mode of connection carrying and commutator transformer and power supply and commutator transformer between adopts plug-in Wiring port, is easy to installing
Assemble this electric power system in journey, and change commutator transformer product.Every aluminum alloy skirting board can install several direct current transformations
Device(The quantity of commutator transformer and the size of power are selected according to bearing power).The aluminium alloy that each carries commutator transformer is played
Payment to a porter is positioned on load side nearby, reduces the distance of power line, reduces cost.
Described commutator transformer or described heat conduction panel pass through wire connecting earthing device.Aluminum alloy skirting board also conduct
The earth terminal of commutator transformer is connected with ground wire, strengthens security performance.
Fix wire for convenience, it is to avoid mixed and disorderly, the top and bottom of described heat conduction panel inner wall are respectively provided with laterally to be passed through
Logical wire casing.During use, wire is contained in corresponding wire casing.
In order that commutator transformer can be fully contacted with heat conduction panel:The medial wall shape of described commutator transformer and institute
State heat conduction panel inner wall shape to be adapted, described commutator transformer is fitted on described heat conduction panel inner wall by heat conductive silica gel.
Described transformator two ends are respectively provided with connection lug, and described connection lug is fixed on described thermal conductive surface by connector
On plate.
The lower section setting reinforcement structure of the downside wire casing of described heat conduction panel.
Described reinforcement structure includes support bar and cross break side, and described support bar is two, is located at the described wire casing in lower section respectively
The outer of diapire and interior edge, described cross break side is located at the interior lower edge along described support bar turning up, described support bar, cross break side and
The diapire of described wire casing is structure as a whole.
This utility model has the advantage that:Commutator transformer is hidden in inside heat conduction panel, commutator transformer leads to
Cross the radiating of heat conduction panel, the impact to internal circuit for the transformator heat is reduced with this;The space decreasing commutator transformer accounts for
With rate;Distributed by heat conduction panel to the heat in space, secondary utilization can be carried out, for indoor heating;Reduce and load
Between distance, reduce the line loss unbalanced phenomenon of load voltage brought the consumption that reduces power line.
Brief description
Fig. 1 is a kind of structural representation of the present utility model.
Specific embodiment
Below by embodiment, and combine accompanying drawing, the technical solution of the utility model is described in further detail.
Embodiment:Embedded commutator transformer, as shown in figure 1, including commutator transformer 1, is used for fixing commutator transformer
Heat conduction panel 2, described heat conduction panel be heat good conductor, described commutator transformer be fixed on described heat conduction panel inner wall
On.
First by commutator transformer and heat conduction panel(As aluminium alloy heat conduction panel)Fit together.Heat conduction panel can conduct
One huge radiator of commutator transformer, solves the heat dissipation problem of commutator transformer, it is to avoid using the side of wind-cooling heat dissipating
Case.The heat conduction panel that the technical program is related to is mounted in interior(As arranged skirt line position, form skirting), thermal conductive surface
The radiating to radiator for the plate, can also provide certain heating using this partial heat for interior.Heat conduction panel and load are
Closely, therefore decrease distance between the two, make load voltage uniformly, reduce the material cost of power line.No
Need to be individually for install commutator transformer and redesign maintenance, based on and ventilation equipment, saving installation cost.
Heat conduction panel uses as radiator and protection shell.Commutator transformer and its internal circuit pass through heat conduction panel admittedly
Determine and radiate, make the performance of commutator transformer reach technical requirements.The size of the different commutator transformers according to heat conduction panel can
To change therewith, therefore embedded commutator transformer can incorporate in various different heat conduction panels according to practical situation.
Control the output voltage of commutator transformer depressor for convenience(DC0-40V), output current, electric pressure, output
The functions such as time period, are equipped with output voltage, current monitoring, and possess every protective measure and temperature control system, protective measure includes:
Overvoltage protection, low-voltage protection, overcurrent protection, short-circuit protection, the over the ground function such as protection.Temperature control system is provided simultaneously with remotely
Control function, the network-termination device such as computer, mobile phone, pad can carry out remotely control by network to equipment.
Described heat conduction panel is shape, adopts aluminum alloy materials to be to close from the aspect of material cost, steering capability
Suitable material.
Described heat conduction panel is skirting, and commutator transformer is hidden in after aluminum alloy skirting board.According to aluminium alloy
The dimensional requirement of skirting, the overall dimensions of commutator transformer are made flat, commutator transformer is embedded in aluminium alloy and plays
The rear side of payment to a porter, aluminum alloy skirting board to use as the radiating of commutator transformer, produces during commutator transformer work
Heat is transmitted in the air by aluminum alloy skirting board, can reduce the operating temperature of commutator transformer, and the heat energy being radiated may be used again
Compensate interior space temperature.The power supply mode of commutator transformer is the left and right sides of skirting as end of incoming cables and leading-out terminal.Negative
The mode of connection carrying and commutator transformer and power supply and commutator transformer between adopts plug-in Wiring port, is easy to installing
Assemble this electric power system in journey, and change commutator transformer product.Every aluminum alloy skirting board can install several direct current transformations
Device(The quantity of commutator transformer and the size of power are selected according to bearing power).The aluminium alloy that each carries commutator transformer is played
Payment to a porter is positioned on load side nearby, reduces the distance of power line, reduces cost.
Described commutator transformer or described heat conduction panel pass through wire connecting earthing device 3.Aluminum alloy skirting board is also made
Earth terminal for commutator transformer is connected with ground wire, strengthens security performance.
Fix wire for convenience, it is to avoid mixed and disorderly, the top and bottom of described heat conduction panel inner wall are respectively provided with laterally to be passed through
Logical wire casing 11.During use, wire is contained in corresponding wire casing.
In order that commutator transformer can be fully contacted with heat conduction panel:The medial wall shape of described commutator transformer and institute
State heat conduction panel inner wall shape to be adapted, described commutator transformer is fitted on described heat conduction panel inner wall by heat conductive silica gel.
Described transformator two ends are respectively provided with connection lug 11, and described connection lug is fixed on described heat conduction by connector
On panel.
The lower section setting reinforcement structure 22 of the downside wire casing of described heat conduction panel, for being used for increasing to the intensity of heat conduction panel
By force, the weight of commutator transformer can be born.
Described reinforcement structure includes support bar 221 and cross break side 222, and described support bar is two, is located at lower section institute respectively
State the outer of wire casing diapire and interior edge, described cross break side is located at the interior lower edge along described support bar and turns up, described support bar, horizontal stroke
The diapire of flanging and described wire casing is structure as a whole.
The foregoing is only preferred embodiment of the present utility model, be not limited to this utility model.Above-mentioned
In embodiment, this utility model can have various modifications and variations.All of the present utility model spirit and principle within, made
Any modification, equivalent substitution and improvement etc., should be included within protection domain of the present utility model.
Claims (9)
1. embedded commutator transformer it is characterised in that include commutator transformer, for fixing the heat conduction panel of commutator transformer,
Described heat conduction panel is the good conductor of heat, being fixed on described heat conduction panel inner wall of described commutator transformer.
2. embedded commutator transformer according to claim 1 is it is characterised in that described heat conduction panel is shape.
3. embedded commutator transformer according to claim 2 is it is characterised in that described heat conduction panel is skirting.
4. the embedded commutator transformer according to claim 1 or 2 or 3 it is characterised in that described commutator transformer or
Described heat conduction panel passes through wire connecting earthing device.
5. embedded commutator transformer according to claim 4 it is characterised in that the upper end of described heat conduction panel inner wall and
Lower end is respectively provided with the wire casing of lateral direction penetrating.
6. embedded commutator transformer according to claim 5 is it is characterised in that the medial wall shape of described commutator transformer
Shape is adapted with described heat conduction panel inner wall shape, and described commutator transformer is fitted in described heat conduction panel by heat conductive silica gel
On wall.
7. embedded commutator transformer according to claim 5 is it is characterised in that described transformator two ends are respectively provided with even
Connect lug, described connection lug is fixed on described heat conduction panel by connector.
8. embedded commutator transformer according to claim 7 is it is characterised in that the downside wire casing of described heat conduction panel
Lower section setting reinforcement structure.
9. embedded commutator transformer according to claim 8 it is characterised in that described reinforcement structure include support bar and
Cross break side, described support bar is two, is located at the outer of lower section described wire casing diapire and interior edge respectively, and described cross break side is located at interior
Along the lower edge of described support bar and turn up, the diapire of described support bar, cross break side and described wire casing is structure as a whole.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621030759.5U CN205992862U (en) | 2016-08-31 | 2016-08-31 | Embedded commutator transformer |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621030759.5U CN205992862U (en) | 2016-08-31 | 2016-08-31 | Embedded commutator transformer |
Publications (1)
Publication Number | Publication Date |
---|---|
CN205992862U true CN205992862U (en) | 2017-03-01 |
Family
ID=58105571
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201621030759.5U Active CN205992862U (en) | 2016-08-31 | 2016-08-31 | Embedded commutator transformer |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN205992862U (en) |
-
2016
- 2016-08-31 CN CN201621030759.5U patent/CN205992862U/en active Active
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN205725420U (en) | Rolling stock power model and the current transformer of rolling stock | |
CN201450442U (en) | Single bridge arm water-cooling current transformer device | |
CN205565636U (en) | High -efficient radiating copper bar conductor bus duct | |
CN206533290U (en) | Frequency converter, main circuit of frequency converter and its capacitor board | |
CN205992862U (en) | Embedded commutator transformer | |
CN202026062U (en) | Bus duct | |
CN203312733U (en) | Intensive-type enclosed bus groove provided with high-strength aluminum-magnesium alloy shell | |
CN212137211U (en) | High-efficient heat dissipation bus duct | |
CN206685962U (en) | A kind of single-phase uninterrupted power source of high frequency | |
CN204179957U (en) | A kind of high integrated wind cooling power unit | |
CN103715755B (en) | Communication ac uninterrupted power supply | |
CN207588650U (en) | A kind of integrated form integrated vehicle ventilated machine controller | |
CN202750019U (en) | Static reactive generator power unit structure | |
CN206117080U (en) | Radiating varactor bus duct of intelligence | |
CN214796999U (en) | Rectifier transformer for power supply product | |
CN206732332U (en) | Inversion welding source and electric welding machine | |
CN206293854U (en) | A kind of novel high-pressure common box bus | |
CN214279003U (en) | ETC lane charge control machine case | |
CN215221422U (en) | Collecting and distributing type combiner box | |
CN205319441U (en) | USB (Universal serial bus) charging socket | |
CN205283383U (en) | Portable relay protection testing power supply unit | |
CN203632344U (en) | AC uninterrupted power supply for communication | |
CN212343665U (en) | Rectifier box convenient to heat dissipation | |
CN208768354U (en) | A kind of high-power potential device of heat sinking construction | |
CN217692548U (en) | Whole earthing device of bus duct shell |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant |