CN209068457U - The multiunit return wire type wire connection structure of the more devices that can flexibly increase and decrease - Google Patents

Abstract

A kind of multiunit return wire type wire connection structure of more devices that can flexibly increase and decrease, it includes multiple luminescent devices or illuminating device, attaching plug or input terminal, power outlet or output terminal, multiple luminescent devices or illuminating device are divided into multiple aggregation units, each aggregation units include at least two luminescent devices or illuminating device, the multiple luminescent devices or illuminating device of each aggregation units are connected in parallel, and multiple aggregation units are serially connected in total collection unit.The utility model is under more combination of devices service conditions, the normal use of assembling device will not be influenced because of some unit or certain device failures, it thus can effectively keep line voltage distribution stable and work normally, and luminescent device and illuminating device quantity can be increased or decreased according to actual needs.

Description

The multiunit return wire type wire connection structure of the more devices that can flexibly increase and decrease

[technical field]

The utility model relates to luminescent device or the line constructions of illuminating device, can increase as needed more particularly to one kind Add deduct the quantity of few luminescent device or illuminating device, and wherein some or certain device faults or damage when, be able to maintain The multiunit return wire type wire connection structure of the more devices that can flexibly increase and decrease line voltage distribution stabilization and worked normally.

[background technique]

Luminescent device and illuminating device are widely used in the every field of human lives, wherein illuminating device can be people The offers illumination such as production, life, work, study, and luminescent device then can be used as light decorations such as Christmas tree, craftwork, wide Accuse the light source of lamp box, product working status instruction, electronic signs etc..Existing luminescent device and illuminating device connect in multiple devices Connect in use, when multiple LED lamp beads for example being connected into christmas decorating lamp string, traditional connection method be in parallel or series, this The defect of the single connection method of kind is apparent.In conventional parallel structure, each device is connected in parallel on power lead respectively, no It can avoid voltage reduction problem occur.And work as multiple devices in series in use, such as the appearance event in concatenated multiple devices When barrier, the voltage that will lead to other devices rises, to increase the load of other devices, and substantially reduces the device still in work The service life of part, or even other devices can be damaged and entire lamp string is caused to be not normally functioning.Therefore, traditional luminescent device There is the defects of connection is unreasonable, and use is dangerous, job insecurity when more combination of devices use with illuminating device.

[summary of the invention]

The purpose of the utility model is to solve the above problems and to provide a kind of luminescent devices and illuminating device to make in more combination of devices In the case of, the normal use of assembling device will not be influenced because of some unit or certain device failures, thus can be effective Keep line voltage distribution stable and work normally, and can increase or decrease luminescent device and illuminating device quantity according to actual needs can The multiunit return wire type wire connection structure of the more devices flexibly increased and decreased.

To achieve the above object, the utility model provides a kind of multiunit return wire type route of more devices that can flexibly increase and decrease Connection structure, the return wire type wire connection structure include multiple luminescent devices or illuminating device, attaching plug or input terminal, electricity Supply socket or output terminal, multiple luminescent devices or illuminating device are divided into multiple aggregation units, each aggregation units packet At least two luminescent devices or illuminating device are included, the multiple luminescent devices or illuminating device of each aggregation units are connected in parallel, and more A aggregation units are serially connected in total collection unit, the first set unit in total collection unit and the attaching plug or input Terminal electrical connection, last aggregation units are electrically connected with the power outlet or output terminal, attaching plug or input terminal and power supply It is connected by positive lead with negative lead between socket or output terminal, wherein one end of positive lead is connected to Between attaching plug or input terminal anode and first set unit, the other end is electrically connected with power outlet or output terminal, is born Pole connecting line one end is electrically connected with the last aggregation units cathode, and the other end is electrically connected with attaching plug or input terminal cathode.

The luminescent device or illuminating device is illuminating light bulb, LED light or ornamental LED, lamp bead.

In the aggregation units, anode and the anode of multiple luminescent devices or illuminating device, cathode are successively electrically connected with cathode It connects, and the anode of the anode and attaching plug or input terminal of first in first set unit luminescent device or illuminating device It is electrically connected, the luminescent device of end or the cathode of illuminating device in last aggregation units are electrically connected with negative lead.

In the total collection unit, by by the cathode of the end glow device of each aggregation units or illuminating device and separately First luminescent device of one aggregation units or the anode of illuminating device connect and form the series connection between each aggregation units.

The operating voltage of each aggregation units is the operating voltage of each luminescent device or illuminating device, total collection unit Total working voltage is the sum of the operating voltage of each aggregation units.

In the multiple luminescent devices or illuminating device of the aggregation units, the anode of a luminescent device or illuminating device with The cathode and another luminescent device of the electrical connection of the cathode of another luminescent device or illuminating device, a luminescent device or illuminating device Or the anode electrical connection of illuminating device, and the anode and power supply of first luminescent device or illuminating device in first set unit The anode of plug or input terminal is electrically connected, the luminescent device of end or the cathode of illuminating device and cathode in last aggregation units Connecting line electrical connection.

In the total collection unit, the luminescent device of first set cell end or the anode of illuminating device collect with second First luminescent device or illuminating device anode for closing unit mutually concatenate, the luminescent device of the end of second set unit or illumination The cathode of device connects with first luminescent device of third aggregation units or the capacitors of illuminating device, other aggregation units according to Secondary alternating, by the end glow device or illuminating device of each aggregation units and first luminescent device of another aggregation units or The anode of illuminating device concatenates with the alternative expression of cathode with anode, cathode and multiple aggregation units is serially connected in total collection list Member.

The operating voltage of each aggregation units is the operating voltage of each luminescent device or illuminating device, total collection unit Total working voltage is the sum of the operating voltage of each aggregation units.

When the quantity of the aggregation units is by N number of increase as N+1, the total working voltage of total collection unit is × individually Luminescent device or illuminating device operating voltage, the quantity of the aggregation units by it is N number of be reduced to N-1 when, total collection unit Total working voltage be × single luminescent device or illuminating device operating voltage.

In each aggregation units, when the quantity of luminescent device or illuminating device is N+1 by N number of increase, the collection The operating voltage for closing unit is the operating voltage of each luminescent device or illuminating device, when the quantity of luminescent device or illuminating device by N number of when being reduced to N-1, the operating voltage of the aggregation units is the operating voltage of each luminescent device or illuminating device.

The contribution of the utility model is, efficiently solves problems of the prior art.The utility model is by group It closes the multiple luminescent devices used or illuminating device is divided into several aggregation units, the multiple luminescent devices or illuminating device of each unit It is connected in parallel, so that each unit voltage is constant when increasing or decreasing device.Meanwhile multiple aggregation units being connected in series, no So that luminescent device or illuminating device infinitely can be expanded or is reduced, and can steadily control total voltage, avoids in the prior art When because of some or certain device failures, other devices bear big load and circuit are caused to damage.Secondly, the utility model Circuit connecting line directly connect with attaching plug or input terminal and power outlet or output terminal, thus simplify circuit knot Structure, it is easier to keep voltage stabilization, eliminate and generate the possibility of failure because tie point is excessive.The utility model can be according to reality Demand expansion unit quantity, to meet the needs of big quantity combination of devices such as similar christmas decorating lamp string uses.

[Detailed description of the invention]

Fig. 1 is 1 circuit diagram of the embodiments of the present invention.

Fig. 2 is 2 circuit diagram of the embodiments of the present invention.

[specific embodiment]

The following example is being explained further and supplementing to the utility model, does not constitute any limit to the utility model System.

The multiunit return wire type wire connection structure of the more devices that can flexibly increase and decrease of the utility model includes luminescent device Or illuminating device 10, attaching plug or input terminal 20, power outlet or output terminal 30, positive lead 41 and cathode connection Line 42.It is for a more detailed description to the utility model below in conjunction with accompanying drawings and embodiments.

Embodiment 1

As shown in Figure 1, the multiunit return wire type wire connection structure packet of the more devices that can flexibly increase and decrease of the utility model Include multiple luminescent devices or illuminating device 10, attaching plug or input terminal 20, power outlet or output terminal 30, wherein institute The luminescent device or illuminating device 10 stated can be well known luminescent device or illuminating device, such as illuminating light bulb, LED light Or LED, lamp bead of Christmas tree ornament etc..In the present embodiment, the luminescent device or illuminating device are with the LED light of Christmas tree For pearl.The attaching plug or input terminal 20 can be any well known attaching plug or input terminal, the electricity Supply socket or output terminal 30 can be any well known power outlet or output terminal, with attaching plug and electricity in the present embodiment For supply socket.

In Fig. 1, multiple luminescent devices or illuminating device 10 are divided into multiple aggregation units 100 from 101~10N, Each aggregation units 100 include at least two luminescent devices or illuminating device 10.In the present embodiment, multiple LED lamp beads 10 are divided At two aggregation units 101,102, each aggregation units 100 include 10 LED lamp beads 10, and certainly, the quantity of the LED lamp bead can Any as needed to expand, there is no restriction to this for the utility model.As shown in Figure 1, in the present embodiment, two aggregation units 101, In 102,10 LED lamp beads 10 of each aggregation units are connected in parallel.Specifically, in the aggregation units 101,102, Mei Geji The anode and anode, cathode for closing 10 LED lamp beads 10 of unit are successively connected in parallel with cathode.The first set unit 101 In the anode of first LED lamp bead 1011 be electrically connected with the positive of attaching plug 20, the end in last aggregation units 102 The cathode of LED lamp bead 1022 is electrically connected with negative lead 42.In the present embodiment, each of two aggregation units 101,102 The operating voltage of LED lamp bead 10 is 3V, the operating voltage of two aggregation units 101,102 and the work of LED lamp bead 10 It is identical to make voltage, is also 3V, the total working voltage of total collection unit 200 is 2 × 3V=6V, the i.e. chief engineer of total collection unit 200 Making voltage is 6V.

As shown in Figure 1, being connected in series between two aggregation units 101,102 in the total collection unit 200.Tool Body, the anode of first LED lamp bead 1021 of the cathode and aggregation units 102 of the end LED lamp bead 1012 of aggregation units 101 It mutually concatenates, the end LED lamp bead 1022 of aggregation units 102 is electrically connected with the cathode of power outlet 30, therefrom gathers two Unit 101,102 is serially connected in total collection unit 200.

Refering to fig. 1, Fig. 2, in the aggregation units 101,102, the quantity of LED lamp bead 10 can carry out according to actual needs Increase and decrease.When the quantity of LED lamp bead 10 is 11 by 10 increases, the operating voltage of two aggregation units 101,102 and each LED The operating voltage of lamp bead 10 is identical, i.e., the operating voltage of two aggregation units 101,102 is respectively 3V.When the number of LED lamp bead 10 When amount is reduced to 9 by 10, the operating voltage of two aggregation units 101,102 is still 3V respectively.By the quantity of LED lamp bead 10 The voltage change of aggregation units caused by changing shows that the quantity variation of the LED lamp bead 10 in some aggregation units not will lead to The voltage of the aggregation units changes, which means that even if event occurs for one or more LED lamp beads 10 of some aggregation units Barrier will not cause line voltage distribution to rise the increase with load, the i.e. stability of the certifiable line work of the wire connection structure.

Refering to fig. 1 or Fig. 2, it is assumed that the quantity of the aggregation units 100 by 10 increase be 11 when, total collection unit Total working voltage be 11 × 3V=33V.It is assumed that when the quantity of the aggregation units 100 is reduced to 9 by 10, total collection The total working voltage of unit 200 is 9 × 3V=27V, that is, when increasing or decreasing the quantity of aggregation units, the chief engineer of total collection unit The increase and decrease of multiple can be occurred by making voltage.This shows the quantity that aggregation units can be increased or decreased according to design voltage, is set with meeting The requirement of meter and actual use.

Embodiment 2

As shown in Fig. 2, the basic structure of the present embodiment is with embodiment 1, the difference is that the total collection unit 200 will Multiple LED lamp beads 10 are divided into 5 aggregation units 101~105, and each aggregation units 100 include 4 LED lamp beads 10.Such as Fig. 2 institute Show, in the present embodiment, in 5 aggregation units 101~105,4 LED lamp beads 10 of each aggregation units are connected in parallel.Specifically Ground, in the aggregation units 101~105, the anode of LED lamp bead 10 and the cathode of another LED lamp bead 10 are connected in parallel, and one The cathode of a LED lamp bead 10 and the anode of another LED lamp bead 10 are connected in parallel, and first in first set unit 101 LED The anode of lamp bead 1011 is electrically connected with the anode of attaching plug 20, and the LED lamp bead 1052 of the end in last aggregation units 105 is born Pole is electrically connected with negative lead 42.In the present embodiment, 5 aggregation units 101~105 are serially connected in total collection unit 200, the first set unit 101 in total collection unit 200 is electrically connected with the attaching plug 20, last aggregation units 10N and institute State the electrical connection of negative lead 42.

As shown in Fig. 2, being series connection between each aggregation units 100.Specifically, 101 end of first set unit LED lamp bead 1012 anode with first LED lamp bead 1021 of second set unit 102 is positive mutually concatenates, second set list The cathode of end LED lamp bead 1022 and the capacitors of first LED lamp bead 1031 of third aggregation units 103 of member 102 connect, The anode of the end LED lamp bead 1032 of third aggregation units 103 and first LED lamp bead 1041 of the 4th aggregation units 104 It is positive mutually to concatenate, the cathode of the end LED lamp bead 1042 of the 4th aggregation units 104 and first LED of the 5th aggregation units 105 The capacitors of lamp bead 1051 connect, and pass through the of the end glow device or illuminating device of each aggregation units and another aggregation units The anode of one luminescent device or illuminating device concatenates with the alternative expression of cathode with anode, cathode and 5 aggregation units is connected Connect into total collection unit 200.

As shown in Fig. 2, the operating voltage of each LED lamp bead 10 in 5 aggregation units 101~105 is equal in the present embodiment Operating voltage for 3V, 5 aggregation units 101~105 is identical as the operating voltage of LED lamp bead 10, is also 3V.Total collection The total working voltage for closing unit 200 is 5 × 3V=15V, and principle is the same as embodiment 1.

Take this, the utility model, which passes through, is divided into multiple set lists for the multiple luminescent devices being applied in combination or illuminating device 10 Member 100, multiple luminescent devices or illuminating device 10 in multiple aggregation units 100 are connected in parallel, and multiple aggregation units 100 it Between be connected in series, form total collection unit 200, which makes the quantity of luminescent device or illuminating device can basis Need infinitely to expand or reduce, and wherein some or certain device failures when, on the voltage of route and load without influence, because And can guarantee more device routes similar to Christmas decorative lamp in some or certain device failures, entire route still is able to normally Operation, and ensure that the stability and normality of line work accordingly.

Although being disclosed by above embodiments to the utility model, the protection scope of the utility model not office It is limited to this, under conditions of conceiving without departing from the utility model, deformation, the replacement etc. done to above each component will fall into this In the scope of the claims of utility model.

Claims (10)

1. the multiunit return wire type wire connection structure of more devices that one kind can flexibly increase and decrease, which is characterized in that it includes multiple Luminescent device or illuminating device (10), attaching plug or input terminal (20), power outlet or output terminal (30), described is more A luminescent device or illuminating device (10) are divided into multiple aggregation units (100), and each aggregation units (100) include at least two hairs Optical device or illuminating device (10), the multiple luminescent devices or illuminating device (10) of each aggregation units (100) are connected in parallel, and more A aggregation units (100) are serially connected in total collection unit (200), the first set unit (101) in total collection unit (200) It is electrically connected with the attaching plug or input terminal (20), last aggregation units (10N) and the power outlet or output terminal (30) it is electrically connected, by positive lead (41) between attaching plug or input terminal (20) and power outlet or output terminal (30) It is connected with negative lead (42), wherein one end of positive lead (41) is connected to attaching plug or input terminal (20) Between anode and first set unit (101), the other end is electrically connected with power outlet or output terminal (30), negative lead (42) one end is electrically connected with described last aggregation units (10N) cathode, the other end and attaching plug or input terminal (20) negative electricity Connection.

2. the multiunit return wire type wire connection structure of the more devices that can flexibly increase and decrease as described in claim 1, feature exist In the luminescent device or illuminating device (10) are illuminating light bulb, LED light or ornamental LED, lamp bead.

3. the multiunit return wire type wire connection structure of the more devices that can flexibly increase and decrease as described in claim 1, feature exist In in the aggregation units (100), anode and the anode of multiple luminescent devices or illuminating device (10), cathode and cathode are successively Electrical connection, and the anode and attaching plug of first luminescent device or illuminating device (1011) in first set unit (101) Or the anode of input terminal (20) is electrically connected, the luminescent device or illuminating device (10N2) of the end in last aggregation units (10N) Cathode be electrically connected with negative lead (42).

4. the multiunit return wire type wire connection structure of the more devices that can flexibly increase and decrease as claimed in claim 3, feature exist In in the total collection unit (200), by by the end glow device of each aggregation units (100) or illuminating device (10) Cathode and first luminescent device of another aggregation units or the anode of illuminating device (10) connect and form each aggregation units (100) series connection between.

5. the multiunit return wire type wire connection structure of the more devices that can flexibly increase and decrease as claimed in claim 4, feature exist In the operating voltage of each aggregation units (100) is the operating voltage of each luminescent device or illuminating device (10), total collection list The total working voltage of first (200) is the sum of the operating voltage of each aggregation units (100).

6. the multiunit return wire type wire connection structure of the more devices that can flexibly increase and decrease as described in claim 1, feature exist In in the multiple luminescent devices or illuminating device of the aggregation units (100), a luminescent device or illuminating device (10) are just Pole is electrically connected with the cathode of another luminescent device or illuminating device (10), the cathode of a luminescent device or illuminating device (10) with The anode electrical connection of another luminescent device or illuminating device (10), and first luminescent device in first set unit (101) Or the anode of illuminating device (1011) is electrically connected with the anode of attaching plug or input terminal (20), in last aggregation units (10N) The luminescent device of end or the cathode of illuminating device (10N2) be electrically connected with negative lead (42).

7. the multiunit return wire type wire connection structure of the more devices that can flexibly increase and decrease as claimed in claim 6, feature exist In, in the total collection unit (200), the luminescent device of first set unit (101) end or illuminating device (1012) Anode is mutually concatenated with first luminescent device of second set unit (102) or illuminating device (1021) anode, second set list First of the luminescent device of the end of first (102) or the cathode of illuminating device (1022) and third aggregation units (103) shines The capacitors of device or illuminating device (1031) connect, and other aggregation units successively replace, and are sent out by the end of each aggregation units The anode of first luminescent device or illuminating device of optical device or illuminating device and another aggregation units and anode, cathode and negative The alternative expression of pole concatenates and multiple aggregation units is serially connected in total collection unit (200).

8. the multiunit return wire type wire connection structure of the more devices that can flexibly increase and decrease as claimed in claim 7, feature exist In the operating voltage of each aggregation units (100) is the operating voltage of each luminescent device or illuminating device (10), total collection list The total working voltage of first (200) is the sum of the operating voltage of each aggregation units (100).

9. the multiunit return wire type wire connection structure of the more devices that can flexibly increase and decrease as described in claim 1, feature exist In, aggregation units (100) quantity by it is N number of increase be N+1 when, the total working voltage of total collection unit is (N+1) × individually luminescent device or illuminating device (10) operating voltage, the quantity of the aggregation units (100) are reduced to N-1 by N number of When a, the total working voltage of total collection unit (200) is (N-1) × single luminescent device or illuminating device (10) operating voltage.

10. the multiunit return wire type wire connection structure of the more devices that can flexibly increase and decrease as described in claim 1, feature exist In, in each aggregation units (100), when the quantity of luminescent device or illuminating device (10) is N+1 by N number of increase, The operating voltage of the aggregation units (100) is the operating voltage of each luminescent device or illuminating device (10), when luminescent device or photograph The quantity of funerary objects part (10) by it is N number of be reduced to N-1 when, the operating voltages of the aggregation units (100) is each luminescent device or photograph The operating voltage of funerary objects part (10).