CN102035143A

CN102035143A - High-temperature resistant energy-saving environment-friendly low-voltage switch cabinet

Info

Publication number: CN102035143A
Application number: CN2010105303869A
Authority: CN
Inventors: 王贝; 王进; 陆国栋; 衣建刚
Original assignee: Zhejiang University ZJU
Current assignee: Zhejiang University ZJU
Priority date: 2010-11-02
Filing date: 2010-11-02
Publication date: 2011-04-27
Anticipated expiration: 2030-11-02
Also published as: CN102035143B

Abstract

The invention discloses a high-temperature resistant energy-saving environment-friendly low-voltage switch cabinet, consisting of an internal-external two-compartment type box body part and a high-temperature resistant control system part, wherein the internal-external two-compartment type box body part mainly comprises an external compartment and a plurality of internal compartments; the external compartment is connected with the internal compartments through dual structures of a suspension ring and a supporting plate; the high-temperature resistant control system part is formed by sequentially connecting a temperature measurement module, a control module and a refrigeration module; by adopting the internal-external two-compartment type box body structure, the low-voltage switch cabinet has effect of dual heat insulation; the internal compartments and the external compartment are connected detachably, so that the internal compartments and the external compartment are manufactured by adopting a simple process, are flexible in layout, easy to separate and detach and benefit the check and replacement of internal electrical components; the high-temperature resistant control system monitors the internal temperature and intelligently reduces the temperature so as to achieve the effect of resisting high temperature; and by using a solar panel, the heat-insulating effect can be achieved, the auxiliary energy can be provided for the high-temperature resistant control system and the functions for saving energy and protecting environment can be achieved.

Description

Anti-high-temp energy-saving environment protection type low-tension switch cabinet

Technical field

The invention belongs to the low-tension switch cabinet technical field, relate in particular to a kind of novel anti-high-temp energy-saving environment protection type low-tension switch cabinet.

Background technology

Low-tension switch cabinet is regulated and is controlled distribution line, switch is monitored on the coupled columns, finish remote measurement, remote control, remote signalling, fault detection capability, carry out the order that the distribution main website issues, realize functions such as fault location, Fault Isolation and non-fault zone restore electricity fast, be widely used in various industrial control systems.

Traditional low-tension switch cabinet (Fig. 1) adopts the casing of compartment formula, and this incorporate body structure complexity, manufacturing process difficulty, cost height, layout are fixed, and are unfavorable for checking, changing of internal electric element.And traditional low-tension switch cabinet casing adopts metal material usually, and the outdoor switch cabinet is subjected to the direct projection of the sun daytime, and the metal material quick heating that is heated has caused certain influence to the property working properly of inner electric component.

Summary of the invention

The objective of the invention is to deficiency, a kind of anti-high-temp energy-saving environment protection type low-tension switch cabinet is provided at the conventional switch cabinet.

The objective of the invention is to be achieved through the following technical solutions: a kind of anti-high-temp energy-saving environment protection type low-tension switch cabinet, it is mainly divided by inside and outside two van-type chest portion and prevents that the high-temperature control components of system as directed forms.Described inside and outside two van-type chest portion divide mainly by an enclosure and in several railway carriage or compartment form, interior railway carriage or compartment places on the supporting plate of enclosure, and is connected by the cooperation of hanging ring with the load-bearing ring; Described anti-high-temperature control components of system as directed is connected to form successively by temperature measurement module, control module and refrigeration module.

Further, described temperature measurement module is mainly by thermocouple TE, voltage amplifier Z ₁, resistance R ₁, resistance R ₂And resistance R ₃Form.Described control module control module is mainly by A/D converter U ₁, single-chip microcomputer U ₂, D/A converter U ₃, resistance R ₄, resistance R ₅, variable resistor R _f, capacitor C ₁, capacitor C ₂, capacitor C ₃, electrochemical capacitor C ₄, crystal oscillator E ₁, diode D ₁, voltage amplifier Z ₂, K switch, six anti-phase this schmitt trigger H form.Described refrigeration module is mainly by triode VT, relay J, diode D ₂, solar panel S and several semiconductor chilling plates T form.

The invention has the beneficial effects as follows:

(1) body structure of inside and outside two van-types has dual heat insulation effect.

(2) inside and outside wing-rooms on either side of a one-story house connect by removable connected mode, and the enclosure manufacturing process is simple in making, layout flexible, separate dismounting easily, is beneficial to checking and changing of internal electric element.

(3) inside and outside wing-rooms on either side of a one-story house adopt different materials, and enclosure adopts the SMC nonmetallic composite, strengthen effect of heat insulation, reduce the transmission of heat; The cold-rolled steel metal material is adopted in interior railway carriage or compartment, reaches anti-electromagnetic interference effect, and the heat that helps the internal semiconductor cooling piece spreads out of.

(4) anti-high-temperature control system carries out temperature monitoring, intelligent cooling to inside, reaches anti-high temp effect.

(5) use of solar panel had both reached effect of heat insulation, for anti-high-temperature control system provides auxiliary energy, played the energy-conserving and environment-protective effect again.

Description of drawings

Fig. 1 is conventional switch cabinet figure;

Fig. 2 is the semiconductor refrigerating schematic diagram;

Fig. 3 is the semiconductor chilling plate structure chart;

Fig. 4 is the switch cubicle structured flowchart, wherein, (a) is the body structure schematic diagram, (b) is anti-high-temperature control system;

Fig. 5 is switch cubicle casing and anti-high-temperature control alliance graph of a relation;

Fig. 6 is interior enclosure connection layout;

Fig. 7 is anti-high-temperature control system circuit diagram;

Fig. 8 is the workflow of anti-high-temperature control system;

Among the figure, potsherd 1, sheet metal 2, enclosure 3, interior railway carriage or compartment 4, semiconductor chilling plate 5, temperature thermocouple 6, solar panel 7, rivet 8, supporting plate 9, hanging ring 10, load-bearing ring 11.

Embodiment

Semiconductor refrigerating claims thermoelectric cooling or thermoelectric cooling again, is a kind of Refrigeration Technique that the fifties end grows up.The primary element of semiconductor refrigerating is a thermocouple, utilizes two kinds of different semi-conducting materials (p type and n type) to form thermocouple.As shown in Figure 2.When DC power supply was connected, electronics in two kinds of materials and hole be heat absorption and heat release in the process of crossing over the P-N knot, therefore above heat absorption, temperature reduces, and forms cold junction, below heat release, temperature raises, and forms the hot junction.Anti-high-temperature control system utilizes semi-conductive thermoelectric refrigerating effect exactly, reaches anti-high temp effect.Utilize the thermoelectric cooling principle, the p-n semiconductor is cross-linked, just can form a semiconductor chilling plate (as shown in Figure 3) countless.Wherein semi-conducting material adopts p type and n type Bi ₂Te ₃-Sb ₂Te ₃-Sb ₂Se ₃Accurate ternary-alloy material, the semi-conductive brace of p-n is a sheet metal 2, sheet metal 2 outer surfaces respectively add one deck potsherd 1, form semiconductor chilling plate.

As shown in Figure 4, the novel anti-high-temp energy-saving environment protection type switch cubicle of the present invention is divided by inside and outside two van-type chest portion and prevents that the high-temperature control components of system as directed forms.Inside and outside two van-type chest portion are divided mainly by an enclosure and are placed in the enclosure several railway carriage or compartment to form.Anti-high-temperature control components of system as directed is connected to form successively by temperature measurement module, control module, refrigeration module.Enclosure adopts nonmetallic composite, and metal material is adopted in interior railway carriage or compartment.

As shown in Figure 5, the position of described casing part and anti-high-temperature control system concerns.In the anti-high-temperature control system, the temperature thermocouple 6 of temperature measurement module and the semiconductor chilling plate 5 of refrigeration module are placed on interior railway carriage or compartment 4, and the solar panel 7 of refrigeration module covers enclosure 3 upper surfaces.

As shown in Figure 6, inside and outside two van-type chest portion branches, load-bearing ring 11 and supporting plate 9 are fixed on the enclosure 3 by rivet 8, and interior railway carriage or compartment 4 places on the supporting plate 9, and the hanging ring 10 in interior railway carriage or compartment 4 matches with load-bearing ring 11, connects thereby constitute dual structure.

Fig. 7 illustrates the anti-high-temperature control system of the novel anti-high-temp energy-saving environment protection type switch cubicle of the present invention, and (Fig. 7 a), control module (Fig. 7 b), refrigeration module (Fig. 7 c) form by temperature measurement module in anti-high-temperature control system.Temperature measurement module, refrigeration module are connected respectively to control module.

Among Fig. 7 (a), temperature measurement module is mainly by thermocouple TE, voltage amplifier Z ₁, resistance R ₁, resistance R ₂, resistance R ₃Form, wherein TE one end of thermocouple is connected to resistance R ₁An end, resistance R ₁The other end be connected respectively to inverting input and the resistance R of voltage amplifier Z ₂An end, resistance R ₂The other end be connected to voltage amplifier Z ₁Output, resistance R ₃An end be connected to voltage amplifier Z ₁In-phase input end, voltage amplifier Z ₁Output be connected to the A/D converter U of Fig. 7 (b) ₁, the other end of thermocouple TE, voltage amplifier Z ₁Negative power end and resistance R ₃Other end ground connection.

Among Fig. 7 (b), control module is mainly by A/D converter U ₁, single-chip microcomputer U ₂, D/A converter U ₃, resistance R ₄, resistance R ₅, variable resistor R _f, capacitor C ₁, capacitor C ₂, capacitor C ₃, electrochemical capacitor C ₄, crystal oscillator E ₁, diode D ₁, voltage amplifier Z ₂, K switch, six anti-phase this schmitt trigger H form, wherein, A/D converter U ₁Can adopt Shenzhen's news to rise product, the single-chip microcomputer U of the ADC0801 of Science and Technology Ltd. model ₂Can adopt Beijing to show product, the D/A converter U of all AT80C51 of Science and Technology Ltd. models ₃Can adopt the product of the little DAC0832 of the Co., Ltd model that makes the science and technology prosperous of Shenzhen's connection, six anti-phase this schmitt trigger H can adopt the product of the CD40106 model of red flag mountain, Wenling, Zhejiang province city electronic artwork factory, but all are not limited thereto.

A/D converter U ₁With D/A converter U ₃Respectively by parallel port bus and single-chip microcomputer U ₂Connect.Voltage amplifier Z in the temperature measurement module ₁Output and A/D converter U ₁In U _{IN (+)}End (10 pin) links to each other, A/D converter U ₁D ₀～D ₇End (13～20 pin) is by 8 parallel-by-bit mouth buses and single-chip microcomputer U ₂P _0.0～P _0.7End (1～8 pin) links to each other, A/D converter U ₁In

End (23 pin) is connected to single-chip microcomputer U ₂RD end (14 pin), D/A converter U ₃

End (2 pin), A/D converter U ₁In

End (22 pin) is connected to single-chip microcomputer U ₂WR end (14 pin), A/D converter U ₁

End (24 pin) is connected to single-chip microcomputer U ₂P _2.4End (25 pin), A/D converter U ₁ End (21 pin) is connected to single-chip microcomputer U ₂P _2.3End (24 pin), capacitor C ₁An end be connected to A/D converter U ₁CLK end (9 pin) and resistance R ₄An end, resistance R ₄The other end be connected to A/D converter U ₁CLKR end (8 pin), A/D converter U ₁U _{IN (-)}End (11 pin), AGND end (12 pin), DGND hold (13 pin) and capacitor C ₁The other end hold with being connected to.Single-chip microcomputer U ₂In RST end (9 pin) be connected to the output of six anti-phase this schmitt trigger H, the input of six anti-phase this schmitt trigger H is connected respectively to diode D ₁Positive terminal, electrochemical capacitor C ₄Positive terminal, an end and the resistance R of K switch ₅An end, diode D ₁Negative pole end, resistance R ₅The other end be connected to power supply, the other end of K switch and electrochemical capacitor C ₄Negative pole end ground connection, single-chip microcomputer U ₂XTAL1 end (19 pin) be connected respectively to crystal oscillator E ₁An end and capacitor C ₂An end, single-chip microcomputer U ₂XTAL2 end (18 pin) be connected to crystal oscillator E ₁The other end, capacitor C ₃An end, single-chip microcomputer U ₂GND end (20 pin), capacitor C ₂The other end and capacitor C ₃Other end ground connection, single-chip microcomputer U ₂P _0.7～P _0.0End (32～39 pin) is connected to D/A converter U ₁D ₇～D ₀, single-chip microcomputer U ₂P _2.2End (23 pin) is connected to the transistor base of Fig. 7 (c), D/A converter U ₃Vcc end (20 pin) and V _REFEnd (8 pin) is connected respectively to the power supply of 12V and 5V, D/A converter U ₃I _O1End (11 pin) is connected to voltage amplifier Z ₂Negative input, voltage amplifier Z ₂Output V _OUTBe connected to variable resistor R _fAn end and the Chang Kaiduan of the relay J of Fig. 7 (c), variable resistor R _fThe other end be connected to D/A converter U ₃R _FBEnd (9 pin), voltage amplifier Z ₂Positive power source terminal be connected to the power supply of 12V, D/A converter U ₃ End (1 pin), AGND end (3 pin), DGND hold (10 pin), I _O2End (12 pin),

End (17 pin),

End (18 pin) and voltage amplifier Z ₂Positive terminal, power-power end hold with being connected respectively to.

Among Fig. 7 (c), refrigeration module is mainly by triode VT, relay J, diode D ₂, solar panel S and several semiconductor chilling plates T (T ₁, T ₂) form, wherein, the collector electrode of triode VT is connected to power supply, and the emitter of triode VT is connected to coil one end of relay J, and the normal-closed end of relay J is connected to diode D ₂Negative pole end, the common port of relay J is connected to the end of semiconductor chilling plate T, diode D ₂Positive terminal be connected to the positive terminal of solar panel S, the other end of the coil other end of relay J, the negative pole end of solar panel S and semiconductor chilling plate T is ground connection respectively.

The workflow of anti-high-temperature control of the present invention system can be divided into following steps as shown in Figure 8:

1. the hardware parameter to system carries out initialization.

2. temperature measurement module is measured temperature, output signal.

3. whether the threshold values of control module comparison signal value and initializing set judges signal value greater than threshold values, selects the mode of operation of refrigeration module.If, step 4; If not, step 5.

4. enter intelligent refrigeration mode, open refrigeration module: stop the solar panel energy supply, according to the size of signal value, regulating the voltage that offers refrigeration module can be big or small, control refrigeration intensity.

5. enter energy-conservation refrigeration mode, close refrigeration module: directly utilize solar panel that cooling power is provided.

Claims

1. an anti-high-temp energy-saving environment protection type low-tension switch cabinet is characterized in that, it is mainly divided by inside and outside two van-type chest portion and prevents that the high-temperature control components of system as directed forms.Described inside and outside two van-type chest portion divide mainly by an enclosure and in several railway carriage or compartment form, interior railway carriage or compartment places on the supporting plate of enclosure, and is connected by the cooperation of hanging ring with the load-bearing ring; Described anti-high-temperature control components of system as directed is connected to form successively by temperature measurement module, control module and refrigeration module.

2. anti-high-temp energy-saving environment protection type low-tension switch cabinet according to claim 1 is characterized in that described temperature measurement module is mainly by thermocouple TE, voltage amplifier Z ₁, resistance R ₁, resistance R ₂And resistance R ₃Form.Wherein, described thermocouple TE one end is connected to resistance R ₁One end, resistance R ₁The other end be connected respectively to inverting input and the resistance R of voltage amplifier Z ₂An end, resistance R ₂The other end be connected to voltage amplifier Z ₁Output, resistance R ₃An end be connected to voltage amplifier Z ₁In-phase input end, the other end of thermocouple TE, voltage amplifier Z ₁Negative power end and resistance R ₃Other end ground connection.

3. anti-high-temp energy-saving environment protection type low-tension switch cabinet according to claim 1 is characterized in that described control module control module is mainly by A/D converter U ₁, single-chip microcomputer U ₂, D/A converter U ₃, resistance R ₄, resistance R ₅, variable resistor R _f, capacitor C ₁, capacitor C ₂, capacitor C ₃, electrochemical capacitor C ₄, crystal oscillator E ₁, diode D ₁, voltage amplifier Z ₂, K switch, six anti-phase this schmitt trigger H form.Wherein, described A/D converter U ₁With D/A converter U ₃Respectively by parallel port bus and single-chip microcomputer U ₂Connect.Capacitor C ₁An end be connected to A/D converter U ₁And resistance R ₄An end, resistance R ₄The other end be connected to A/D converter U ₁, capacitor C ₁Other end ground connection.The output of six anti-phase this schmitt trigger H meets single-chip microcomputer U ₂, the input of six anti-phase this schmitt trigger H is connected respectively to diode D ₁Positive pole, electrochemical capacitor C ₄Positive pole, an end and the resistance R of K switch ₅An end, diode D ₁Negative pole, resistance R ₅The other end connect power supply, the other end of K switch and electrochemical capacitor C ₄Negative pole end ground connection, crystal oscillator E ₁Two ends connect capacitor C respectively ₁And capacitor C ₂An end, capacitor C ₁And capacitor C ₂Other end ground connection, voltage amplifier Z ₂Output termination variable resistor R _fAn end.

4. anti-high-temp energy-saving environment protection type low-tension switch cabinet according to claim 1 is characterized in that described refrigeration module is mainly by triode VT, relay J, diode D ₂, solar panel S and several semiconductor chilling plates T form.Wherein, the collector electrode of described triode VT is connected to power supply, and the emitter of triode VT is connected to coil one end of relay J, and the normal-closed end of relay J is connected to diode D ₂Negative pole end, the common port of relay J is connected to the end of semiconductor chilling plate T, diode D ₂Positive terminal be connected to the positive terminal of solar panel S, the other end of the coil other end of relay J, the negative pole end of solar panel S and semiconductor chilling plate T is ground connection respectively.