CN201113764Y - Energy-saving power machine units - Google Patents

Energy-saving power machine units Download PDF

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Publication number
CN201113764Y
CN201113764Y CNU2007201467558U CN200720146755U CN201113764Y CN 201113764 Y CN201113764 Y CN 201113764Y CN U2007201467558 U CNU2007201467558 U CN U2007201467558U CN 200720146755 U CN200720146755 U CN 200720146755U CN 201113764 Y CN201113764 Y CN 201113764Y
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CN
China
Prior art keywords
motor
electrically connected
power
storage battery
transformer
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.)
Expired - Fee Related
Application number
CNU2007201467558U
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Chinese (zh)
Inventor
杜明明
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Individual
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Individual
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Publication date
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Priority to CNU2007201467558U priority Critical patent/CN201113764Y/en
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Publication of CN201113764Y publication Critical patent/CN201113764Y/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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Abstract

The utility model relates to an energy saving power unit, which comprises a storage battery, low-voltage loads which are connected in parallel to both electrodes of the storage battery, and a motor, wherein, the motor is connected with a dynamo through a gear box; a transformer and a stabilizer which are connected in parallel to the dynamo; the stabilizer is connected with an electrical energy output device through a wire; the electrical energy output device is connected with an electronic load; a stabilizer, a voltage booster and a charger are connected in parallel to the transformer; the stabilizer is electrically connected with the motor; the voltage booster is electrically connected with a mechanical motor which is connected with a mechanical load through the gear box; the charger is electrically connected with the storage battery; and a voltage regulator is electrically connected between the voltage booster and the mechanical motor. The energy saving power unit can simultaneously provide power for the electronic load and the mechanical load and greatly saves the resources; moreover, during the operating process, the energy consumed by the power unit can be self-replenished, thereby energy consumption is low.

Description

The energy-saving power machine group
Technical field
The utility model relates to the energy-saving power machine group.
Background technology
The function ratio of traditional power unit is more single, and electronic load and mechanical load can not be worked in a power unit simultaneously, and promptly electronic load and mechanical load need power unit independent of each other that power is provided.Will cause the wasting of resources like this, and power consumption is big.
Summary of the invention
The purpose of this utility model provides a kind of multi-functional energy-saving power machine group.
For achieving the above object, the utility model is by the following technical solutions:
Energy-saving power machine group described in the utility model, its characteristics are: it comprises storage battery, is connected in parallel on the low-voltage load and the motor at storage battery the two poles of the earth; The power output shaft of motor is by the power intake of gearbox connection generator, and the power output end of generator is parallel with transformer and pressurizer; The output of pressurizer connects power output device by lead, and power output device is electrically connected electronic load; Be parallel with pressurizer, stepup transformer and charger on the output of transformer, pressurizer is electrically connected with the power input of motor, the output of stepup transformer is electrically connected the power input of mechanical motor, the power output shaft of mechanical motor connects mechanical load by gearbox, and the output of charger is electrically connected with storage battery.
Be in series with voltage regulator between above-mentioned stepup transformer and the mechanical motor.
The utility model can be simultaneously for electronic load and mechanical load provide power, saved resource greatly; In addition, in the course of the work, the energy that the power unit is consumed can be by self part supply, and it is little to consume energy.
Description of drawings
Accompanying drawing is the circuit connection diagram of a kind of embodiment of the utility model.
Embodiment
The utility model will be further described below in conjunction with the drawings and specific embodiments.
The energy-saving power machine group as shown in drawings, comprises storage battery A, is connected in parallel on the low-voltage load C and the motor G at storage battery A the two poles of the earth, and the C1 end of low-voltage load C is electrically connected with the A1 end of storage battery A, and C2 holds and passes through K switch 1 and be electrically connected with A2; The G1 end of motor G is electrically connected with the A1 end of storage battery A by unilateral diode D, the G2 end is electrically connected with the A2 end by K switch 3, the effect of unilateral diode D is to make electric current flow to motor G from storage battery A, avoids the output of pressurizer E to charge to storage battery A.The power output shaft of motor G makes its running and then generating by the power intake that gearbox H1 connects generator I for generator I provides power.Be parallel with transformer F and pressurizer N on the power output end of generator I, input F3, the F4 of transformer F is electrically connected with power output end I1, the I2 of generator I respectively; The output of pressurizer N connects power output device M by lead, and power output device M is electrically connected electronic load J.Be parallel with pressurizer E, stepup transformer P and charger B on the output of transformer F, the E1 end of pressurizer E is electrically connected with the F1 end of transformer F, and the E2 end is electrically connected with the F2 end by K switch 2; Output E3, the E4 of pressurizer E is electrically connected with power input G1, the G2 of motor G respectively.Input P1, the P2 of stepup transformer P is electrically connected with output F1, the F2 of transformer F respectively.The output of stepup transformer P is electrically connected the power input of mechanical motor T, and is in series with resistance-type voltage regulator Q between stepup transformer P and mechanical motor T, is used for regulating the power input voltage of motor T.The P3 end of stepup transformer P is electrically connected with the Q1 end of voltage regulator Q, and the Q2 end is electrically connected with the T2 end of mechanical motor T, and the P4 end of stepup transformer P is electrically connected with the T1 end of mechanical motor T.The power output shaft of mechanical motor T connects mechanical load S by gearbox H2.The input B1 end of charger B is electrically connected with the F1 end of transformer F, and the input B2 end of charger B is electrically connected with the F2 end, and the output B3 end of charger B is electrically connected with the charging end A3 end of storage battery A.
During work, storage battery A makes it enter normal operating conditions to low-voltage load C and motor G power supply.Motor G when work by gearbox H1 to generator I transmitting power, make its running can normal power generation.After the adjustment of the voltage of the electric energy that generator I produces through pressurizer N, be transported to electronic load J, make electronic load J operate as normal via power output device M.After the adjustment of the voltage of the electric energy that generator I produces through transformer F, supply with three parallel circuitss: the first, after adjusting voltage, pressurizer E powers to motor G; The second, charge to storage battery A through charger B; The 3rd, after adjusting voltage, stepup transformer P, make it pass through gearbox H2 to mechanical load S transmitting power to mechanical motor T power supply.

Claims (2)

1. energy-saving power machine group, it is characterized in that: it comprises storage battery (A), is connected in parallel on the low-voltage load (C) and the motor (G) at storage battery (A) the two poles of the earth; The power output shaft of motor (G) is by the power intake of gearbox (H1) connection generator (I), and the power output end of generator (I) is parallel with transformer (F) and pressurizer (N); The output of pressurizer (N) connects power output device (M) by lead, and power output device (M) is electrically connected electronic load (J); Be parallel with pressurizer (E), stepup transformer (P) and charger (B) on the output of transformer (F), pressurizer (E) is electrically connected with the power input of motor (G), the output of stepup transformer (P) is electrically connected the power input of mechanical motor (T), the power output shaft of mechanical motor (T) connects mechanical load (S) by gearbox (H2), and the output of charger (B) is electrically connected with storage battery (A).
2. energy-saving power machine group according to claim 1 is characterized in that: be in series with voltage regulator (Q) between described stepup transformer (P) and the mechanical motor (T).
CNU2007201467558U 2007-04-23 2007-04-23 Energy-saving power machine units Expired - Fee Related CN201113764Y (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CNU2007201467558U CN201113764Y (en) 2007-04-23 2007-04-23 Energy-saving power machine units

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CNU2007201467558U CN201113764Y (en) 2007-04-23 2007-04-23 Energy-saving power machine units

Publications (1)

Publication Number Publication Date
CN201113764Y true CN201113764Y (en) 2008-09-10

Family

ID=39965509

Family Applications (1)

Application Number Title Priority Date Filing Date
CNU2007201467558U Expired - Fee Related CN201113764Y (en) 2007-04-23 2007-04-23 Energy-saving power machine units

Country Status (1)

Country Link
CN (1) CN201113764Y (en)

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Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
C17 Cessation of patent right
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20080910

Termination date: 20120423