RU140516U1 - UNINTERRUPTIBLE POWER SUPPLY - Google Patents

Abstract

1. An uninterruptible power supply (UPS) with isolation along the power supply circuit, comprising: a base having: two opposite ends, in which are made: a compartment for an electronic module made on a printed circuit board, and a battery compartment, on the inner wall of which two electrodes are mounted for electrical connection with the battery and create a power circuit; a fixed upper cover firmly mounted on one of the opposite ends of the base in accordance with the compartment for the electronic module, made on a printed circuit board containing a circuit switch, the circuit switch being mounted on the inner wall of the fixed top cover, connected to a power circuit inside the battery compartment and has an actuator configured to connect and disconnect the power circuit; a removable top cover fixed with the possibility of detachment at the other opposite end of the base in accordance with the battery compartment and having a pressing element made on its inner edge portion in accordance with the actuating element of the circuit switch. 2. The UPS according to claim 1, wherein the fixed top cover further comprises a cable for connecting to a power network, one end of which is electrically connected to an electrical appliance, and the other end is electrically connected to a UPS. The UPS according to claim 2, in which the fixed top cover also contains a circuit board located on its inner wall, on which the first power contact is made, having an electrical connection to the cable for connecting to the power supply, the second power contact is made, having

Description

The technical field to which the utility model relates.

This utility model relates to uninterruptible power supplies (UPS), in particular to uninterruptible power supplies (UPS) with isolation on the power circuit.

State of the art

The standard, commercially available UPSs can be connected to electrical / electronic devices and are mainly used to supply power when the power is interrupted. Individual UPSs can also perform the function of protection against power surges, as well as protection against interference of electrical / electronic equipment, in particular, high-precision devices that require high-quality energy. As a rule, users do not include UPSs in the main equipment until there is a need for high-quality power supply.

According to a Taiwanese energy company, the average power outage per energy consumer in technology parks across the island in 2010 was 1.2 minutes (approximately 72 seconds). Such an organization of the power supply system can be highly appreciated in terms of its quality, due to the dense concentration of consumers in technology parks, which are mainly related to the electronic, semiconductor, communications and photoelectronics industries, which usually suffer heavy losses during power outages.

In addition to using UPSs to provide uninterrupted power to production lines in industrial parks, regular consumers may also need them in everyday life. The most widely used are UPSs with replaceable batteries, the task of developing circuits of which is to create on the battery side a circuit for efficient isolation of power circuits from electrical / electronic devices connected to the UPS, and thus ensuring the protection of energy consumers from the possibility of electric shock voltage when replacing the battery. However, in this case, between the primary and secondary circuits it is necessary to have an additional isolated power supply, an optocoupler, an isolated detection circuit, etc., i.e. elements having a relatively high cost, and the use of which requires a relatively large internal space. In addition, the disadvantages of such devices can be attributed to the complexity of the circuits, a large number of decoupling elements, the high cost of the UPS, as well as the large size of the circuit board installed inside the device.

DISCLOSURE OF A USEFUL MODEL

The problem to which the claimed utility model is directed is to create a UPS with isolation on the power circuit, which allows to simplify the isolation circuit, reduce the number and cost of decoupling elements, and also reduce the internal space used.

To solve this problem, a UPS with a power supply isolation has a base (enclosures), a fixed top cover, and a removable top cover.

The base has two opposite ends, a compartment for an electronic module made on a printed circuit board, a compartment for a battery, and two electrodes.

The compartment for the electronic module, made on a printed circuit board, is made in the base.

A battery compartment is also provided at the base.

Two electrodes are mounted on the inner wall of the battery compartment to provide electrical connection to the battery and create a power circuit.

The fixed top cover is firmly fixed to one of the ends of the base in accordance with the compartment for the electronic module, made on the printed circuit board, and contains a circuit switch. The circuit switch is mounted on the inner wall of the fixed top cover, connected to the power circuit inside the battery compartment, and contains an actuator for connecting and disconnecting the power circuit.

The removable top cover is movably fixed on the other, opposite end of the base in accordance with the battery compartment and has a pressing element formed on the inner edge of the removable top cover in accordance with the actuator of the circuit switch.

When the removable top cover of the UPS is installed on the base and connected to the fixed top cover, the actuator of the fixed top cover can be pressed by the pressing element of the removable top cover, while ensuring connection to the power circuit. When you remove the removable top cover to replace the battery, it can be disconnected from the fixed top cover, while there is no preloading of the actuating element by means of a pressing element and the UPS power circuit will be open. Therefore, this design allows you to simplify the isolation circuit, reduce the number of decoupling elements required and their cost, as well as reduce the internal space used by the UPS.

These tasks, advantages, and new features of the utility model will become more apparent when considering the description below along with the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

Figure 1 shows a perspective image of a UPS with isolation on the power circuit in accordance with this utility model.

Figure 2 shows the image of the UPS shown in figure 1, in a partially disassembled form.

Figure 3 shows a schematic diagram of a first embodiment of a protective circuit providing isolation of the UPS of Figure 1.

Figure 4 shows an incomplete circuit diagram of a second embodiment of a protective circuit providing isolation of the UPS of Figure 1.

Figure 5 shows another partial circuit diagram of a second embodiment of a protective circuit providing isolation of the UPS of Figure 1.

IMPLEMENTATION OF A USEFUL MODEL

The isolation unit UPS according to the power supply circuit (FIG. 1) according to the present utility model has a base 10, a fixed upper cover 20 and a removable upper cover 30. The base 10 has two opposite ends. The fixed top cover 20 and the removable top cover 30 are connected on one side and are in contact with each other.

In the present embodiment of the utility model, the UPS also has a battery 50 and a cable for connecting to a power supply 40. A battery 50 is installed inside the UPS. The cable for connecting to the power supply 40 is connected to the outer portion of the fixed top cover 20 and has two ends. One end of the cable for connecting to the power supply 40 is electrically connected to the appliance, and the other end is electrically connected to the UPS. The base 10 has a compartment for an electronic module made on a printed circuit board, a compartment for a battery and two electrodes. The compartment for the electronic module, made on the printed circuit board, is made in the base 10. The compartment for the battery 50 is also made in the base 10. Two electrodes are mounted on the inner wall of the compartment for the battery to ensure electrical connection with the battery 50 and create a power circuit.

Figure 2 shows the internal structural elements of the fixed top cover 20 and the removable top cover 30 of the UPS shown in Figure 1.

The fixed top cover is firmly fixed to one of the ends of the base 10 in accordance with the compartment for the electronic module, made on the printed circuit board, and contains a circuit switch 21 and a mounting plate 22. The circuit switch 21 is mounted on the inner wall of the fixed top cover 20, connected to the power circuit inside the battery compartment and contains an actuator 211 for connecting and disconnecting the power circuit. The circuit board 22 is located on the inner wall of the fixed top cover 20 and contains a first power contact 221 and a second power contact 222. The first power contact 221 is made on the circuit board 22 and has an electrical connection to the cable for connecting to the power supply 40. The second power contact 222 is made on the circuit board 22 and is electrically connected to the circuit switch 21.

The removable top cover 30 is movably fixed on the other, opposite end of the base 10 in accordance with the battery compartment and has a pressing element 31 made on its inner edge portion in accordance with the actuator 211 of the circuit switch 21. The pressing element 31 is made so that when connected fixed top cover 20 with a removable top cover 30, it can be actuated by the actuating element 211, while the circuit switch will be in the on position, providing normal cial UPS operating mode.

In the present embodiment of the utility model, the removable top cover 30 has two rectangular inserts 32 formed on its inner edge portion located on the left and right sides of the pressing member 31 and having a smaller size compared to this member. In addition, in the fixed upper cover 20, a hole and two slotted holes for fastening are made. The hole is made in the inner edge portion of the fixed top cover 20 in accordance with the circuit switch 21. Slot holes for mounting are made in the inner edge portion and are located on the left and right sides of the hole in accordance with two rectangular inserts 32. When installing the removable top cover 30 on the base 10, the pressing member 31 may mesh with the hole, and the rectangular inserts 32 may respectively mesh with slotted holes to secure the fixed top Cover it with the possibility of a rigid connection 20 with a removable top cover 30.

When connecting the fixed top cover 20 to the removable top cover 30 (FIGS. 1 and 2), the actuator 211 is constantly pressed by the pressing member 31. The fixed top cover 20 is firmly connected to the removable top cover 30 by appropriately inserting both rectangular inserts 32 into the slotted holes for fastening, made on the fixed top cover 20. To replace the UPS battery 50, the removable top cover 30 can be disconnected by disengaging the rectangular inserts and slotted holes for mounting in this way the actuator 211 will not biased by biasing member 31, the circuit selector 21 moved to the off position.

Complete disconnection of the appliance when replacing the battery is possible with further joint operation of the circuit switch 21 with the protective circuit formed on the circuit board 22.

In the first embodiment of the utility model, the protective circuit protecting the isolation of the UPS (FIG. 3) includes a power management circuit 60 formed on the circuit board 22 and connected to a power source. A loop switch 21 is connected between the power control circuit 60 and the BAT-V loop inside the battery compartment. Power management circuit 60 includes an electronic switch Q1 and a voltage regulator U1. The voltage regulator U1 contains an input and output voltage. The electronic key Q1 has input and output contacts. The input contact is connected to the circuit switch 21. The output contact is connected to the input of the voltage regulator U1. From the circuit switch 21, a constant voltage 12B is supplied to the electronic key Q1, which then flows to the output contact of the electronic key Q1. The voltage regulator U1 is configured to regulate a constant voltage of 12B and outputting a constant voltage of 5B at its output. In this way, DC voltage of various sizes can be provided. To replace the battery 50, the removable top cover 30 is removed from the base 10, and the actuating element 211 will no longer be pressed by the pressing element 31. When the circuit switch 21 is turned off, the BAT-V circuit inside the battery compartment is disconnected from the power control circuit 60. Therefore, it is safe isolation of the power circuit can be achieved by shutting off the power supply and disconnecting from the power circuit.

In a second embodiment of the utility model, the protective circuit for isolating the UPS (FIGS. 4 and 5) includes a microcontroller (MCU) 23, a relay 24, and a switching circuit 25. The switching circuit 25 contains a control electrode and an input contact. Relay 24 contains a switch with normally closed contacts and a field coil. The excitation coil is connected between the power source 12B and the input terminal of the switching circuit 25 with the ability to control the switching mode of the switch with normally closed contacts. The microprocessor MCU 23 has many pins. One of the outputs of the D-SWITCH is connected to the circuit switch 21 by electronic means. The other INPUT-RLY terminal is electronically connected to the control electrode of the switching circuit 25. The loop switch 21 is connected to a DC voltage source 5B. When installing the removable top cover 30 on the base 10, the circuit switch 21 can be turned on with the possibility of applying voltage 5B to the D-SWITCH terminal of the MCU 23 microcontroller. In this case, the INPUT-RLY terminal of the MCU 23 microcontroller cannot send a signal to control the circuit switching 25. Therefore, the switch with normally closed contacts of the relay 24 will remain in the closed position. After replacing the battery 50 and removing the removable top cover 30, the loop switch 21 may be turned off. In this case, the potential of the D-SWITCH terminal of the MCU 23 can be changed and the INPUT-RLY terminal gives a signal to control the switching circuit 25 in such a way that the relay 24 can be turned off. The microcontroller MCU 23 gives another signal to cut off the power supply to the UPS and a safe isolation of the power circuit is performed.

In view of the above, the UPS power supply circuit can be disconnected and the battery can be isolated from the electrical appliance by using fewer decoupling elements and at a lower cost.

Despite the fact that in the above description, numerous characteristics and advantages of the present utility model were considered, as well as design details and operation of the utility model, the present description is for illustrative purposes only.

Changes are possible in detail, in particular with regard to the shape, size, and arrangement of elements, within the principles of the utility model, the significance of which is fully disclosed in the attached utility model formula.

Claims (8)

1. An uninterruptible power supply (UPS) with isolation on the power circuit, containing: a base having: two opposite ends in which are made: a compartment for an electronic module made on a printed circuit board, and a battery compartment, on the inner wall of which two electrodes are mounted for electrical connection with the battery and creating a power circuit; a fixed top cover firmly mounted on one of the opposite ends of the base in accordance with a compartment for an electronic module made on a printed circuit board containing a circuit switch, the circuit switch being mounted on the inner wall of the fixed top cover, connected to a power circuit inside the battery compartment, and has an actuator configured to connect and disconnect the power circuit; and a removable top cover fixed with the possibility of detachment at the other opposite end of the base in accordance with the battery compartment and having a pressing element made on its inner edge portion in accordance with the actuator element of the circuit switch. 2. The UPS according to claim 1, in which the fixed top cover further comprises a cable for connecting to a power supply network, one end of which is made with the possibility of electrical connection with an electrical appliance, and the other end has an electrical connection with the UPS. 3. The UPS according to claim 2, in which the fixed top cover also contains a circuit board located on its inner wall, on which made the first power contact having an electrical connection with a cable for connecting to a power network, made a second power contact having an electrical connection with a circuit switch; and the circuit switch is set. 4. The UPS according to claim 3, in which on the inner edge of the fixed upper cover, in addition, there is a through hole located in accordance with the circuit switch. 5. The UPS according to claim 4, in which the removable top cover also has two rectangular inserts formed on its inner edge portion located on the left and right sides of the pressing element and having a smaller size compared to this element; the fixed top cover also has two slotted holes for fastening, made on its inner edge portion and located on the left and right sides of the hole in accordance with these two rectangular inserts. 6. The UPS according to claim 5, in which: a power management circuit is formed on the circuit board, configured to connect to a power source; but a circuit switch is connected between the power management circuit and the circuit inside the battery compartment. 7. The UPS according to claim 6, in which the power management circuit comprises: a voltage regulator with an input voltage contact and an output voltage contact, and an electronic key having: input contact connected to the loop switch; and output contact connected to the input terminal of the voltage regulator. 8. The UPS according to claim 5, in which the circuit board also contains: a switching circuit comprising: control electrode and input contact; a microcontroller (MCU) having a plurality of terminals, one of which is connected to a circuit switch by electronic means, and the other terminal is connected to a control terminal of a switching circuit by electronic means; and a relay having: normally closed circuit breaker and an excitation coil connected between the power source and the input terminal of the switching circuit to enable the switch mode to be controlled with normally closed contacts.

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