DE102018101606A1 - Current measuring module for photovoltaic connector tape - Google Patents

Abstract

Provided is a current measuring module for a photovoltaic connector tape (10), the current measuring module comprising: a first housing (100a) comprising first feedthrough holes (101a) through which a plurality of wires (C) in which an electric current flows and a first perforated plate (102a) defining each of the first feedthrough holes (101a) elongated along a feedthrough direction of each wire (C) of the plurality of wires (C); a second housing (100b) comprising second feedthrough holes (101b) through which the wires (C) passed through the first feedthrough holes (101a) pass, and a second perforated plate (102b) defining each of the second feedthrough holes (101b) 101b) and arranged coaxially with the first perforated plate (102a) of the first housing (100a) so as to face each other and coupled to the first housing (100a) to form a receiving area with the first housing (100a); a magnetic body (200) configured to surround either the first orifice plate (102a) or the second orifice plate (102b) through which each wire (C) is passed; a printed circuit board (300) and a terminal (302).

Description

STATE OF THE ART

Technical area

One or more embodiments relate to a current measurement module for a photovoltaic connector ribbon, and more particularly to a current measurement module for a photovoltaic connector ribbon having an improved structure for accurately monitoring a photovoltaic power generation condition and the occurrence of errors in measuring current for monitoring a photovoltaic connector To avoid power generation state and to improve the durability.

Description of the relevant art

A photovoltaic power generation apparatus converts light energy incident from the sun into electric energy, and collects the electric power, stores the collected electric power, and converts the electric power that is converted into direct current (DC) during collection into alternating current power (AC) to supply the AC energy to a transformer. In general, a plurality of light collecting plates for collecting photovoltaic light are installed, and the photovoltaic power generation device is provided in each of the light collecting plates.

In such a photovoltaic power generation apparatus, due to an electric shock, etc., unexpectedly unexpected voltages or currents can be generated rapidly, and accordingly, a circuit can be damaged. To avoid this problem, a photovoltaic power generation device includes a photovoltaic connector tape comprising various protection devices.

In general, the photovoltaic connector tape is provided between the photovoltaic power generation apparatus and a central controller, and includes a reverse voltage protection module, a current measurement module, an overcurrent protection, etc. The reverse voltage protection module included in the photovoltaic connector tape includes a reverse voltage protection diode that blocks electrical current flows in the reverse direction to protect a circuit at an input terminal.

In addition, the overcurrent protection blocks overcurrent to protect circuits. The current measurement module detects a current voltage and a current generated by a solar battery plate to monitor whether a power generation state is normal. A current measuring module of the related art detects an electric current of wires passing through a photovoltaic connector tape while performing the photovoltaic power generation.

The related art current measurement module has a measurement accuracy that decreases when the current measurement operation is performed in a similar manner for a long period of time, and therefore, the photovoltaic power generation state can not be accurately monitored. In addition, the current measurement module according to the related art includes means for measuring the current, however, a bonding force among these devices is weak, and therefore, errors may occur during the measurement of the current and its durability decreases.

In Korean patent application no. 2012-0038067 As the pertinent art, the following is disclosed: "Photovoltaic Solar Module Connection Device and Related Current Measuring Offset Compensation Method".

SUMMARY

One or more embodiments include a current measuring module for a photovoltaic connector tape capable of accurately and stably monitoring a photovoltaic power generation state in a non-contact manner by maintaining a level of measurement accuracy, even though a process for measuring a current for one long period is performed.

One or more embodiments include a current measurement module for a photovoltaic connector tape capable of identifying a current measurement state for each of the current measurement modules when a plurality of photovoltaic connector bands are provided, as well as preventing the occurrence of errors by applying a force for fixing the position and a bonding force among the enclosed devices, and improving the durability and stability in measuring the current.

Additional aspects are set forth in part in the description which follows, and in part will be apparent from the description, or may be learned by the practice of the described embodiments.

According to one or more embodiments of a current measuring module for a photovoltaic connector tape, the current measuring module comprises: a first housing including first through holes through which a plurality of wires in which an electric current flows, and a first hole plate defining each of the first feedthrough holes elongated along a feedthrough direction of each wire of the plurality of wires; a second housing comprising second feedthrough holes through which the wires passed through the first feedthrough holes pass, and a second perforated plate defining each of the second feedthrough holes and arranged coaxially with the first perforated plate of the first housing so as to face each other, and coupled to the first housing to form a receiving area with the first housing; a magnetic body configured to surround either the first orifice plate or the second orifice plate through which each wire is passed to generate a magnetic field in each wire, and comprising a placement groove in which a sensor in a certain portion in a circumferential direction arranged therefrom; a circuit board disposed in the receiving area, formed by the first housing and the second housing, and having components for transmitting a signal detected by the sensor mounted thereon to the outside; and a terminal mounted on the printed circuit board accommodated in an exposing hole formed in either the first housing or the second housing so as not to interfere with the coupling between the first housing and the second housing, and exposed to the outside the exposure hole in a state in which the first housing and the second housing are coupled together to be connected to an external communication cable.

The current measurement module may further comprise: a handling unit electrically connected to the circuit board and configured to generate an identification information signal such that a current measurement state of the current measurement module is detected for each current measurement module when a plurality of current measurement modules are provided.

Either the first housing or the second housing may include a handle portion formed as a recess at an upper corner portion thereof where the exposure hole is formed for finger-handling, and an opening for exposing the handle unit to the manipulation area.

The first housing and the second housing may include a pair of fitting ribs protruding from the inside surfaces of the first housing and the second housing so as to face each other, and including fitting recesses extending along a longitudinal direction of the first orifice plate and the second orifice plate , in which opposite sides of the PCB are inserted to place the PCB in the receiving area.

The first housing may include a coupling rib protruding from the inside surface of the first housing to surround an outside circumferential surface of the first orifice plate, and spaced from the outside circumferential surface of the first orifice plate to form an insertion recess into which the magnet body is inserted is to increase a coupling force between the magnetic body and the first housing.

The first perforated plate may include at least one guide rib projecting from an outer peripheral surface thereof and elongated along a longitudinal direction thereof.

The magnetic body may include a guide groove into which the at least one guide rib is inserted, in an inside circumferential surface thereof, to be inserted into the first hole plate by sliding along the guide rib.

list of figures

• 1 und 2 eine perspektivische Ansicht eines Strommessmoduls für ein Photovoltaik-Verbinderband nach einer der Ausführungsformen dieser Offenbarung;
• 3 eine perspektivische Ansicht in Explosionsdarstellung nach einer Ausführungsform dieser Offenbarung;
• 4 eine Vorderansicht von Vorrichtungen, die in einem Aufnahmebereich eines ersten Gehäuses angeordnet sind, nach einer Ausführungsform dieser Offenbarung;
• 5 eine teilweise vergrößerte Ansicht eines Teils V aus 4;
• 6 eine teilweise vergrößerte Ansicht mit der Darstellung einer ersten Lochplatte und eines Magnetkorpus nach einer anderen Ausführungsform dieser Offenbarung, und
• 7 die Darstellung, dass das Strommessmodul nach der Ausführungsform dieser Offenbarung auf einem Photovoltaik-Verbinderband bereitgestellt ist.

These and / or other features will become more apparent from the following description of the embodiment in conjunction with the accompanying drawings. Show it:

• 1 and 2 a perspective view of a current measuring module for a photovoltaic connector strip according to one embodiment of this disclosure;
• 3 an exploded perspective view of an embodiment of this disclosure;
• 4 a front view of devices which are arranged in a receiving region of a first housing, according to an embodiment of this disclosure;
• 5 a partially enlarged view of a part V from 4 ;
• 6 a partially enlarged view showing a first perforated plate and a magnetic body according to another embodiment of this disclosure, and
• 7 the illustration that the current measuring module according to the embodiment of this disclosure is provided on a photovoltaic connector tape.

DETAILED DESCRIPTION

Hereinafter, a current measuring module for a photovoltaic connector tape according to an embodiment of this disclosure will be described in detail with reference to the accompanying drawings.

1 and 2 12 is a perspective view of a photovoltaic connector tape current measuring module according to one embodiment of this disclosure. 3 shows an exploded perspective view of an embodiment of this disclosure. 4 shows a front view of devices which are arranged in a receiving region of a first housing, according to an embodiment of this disclosure, and 5 shows a partially enlarged view of a part V out 4 ,

As shown in the above drawings, the current measuring module for the photovoltaic connector tape according to an embodiment of this disclosure comprises a first housing 100a , a second housing 100b , a magnetic body 200 , a circuit board 300 and a connection terminal 302 ,

The first case 100a includes first implementation holes 101 through which a variety of wires C , in which an electric current flows, are led, and a first perforated plate 102 Defining each of the first feedthrough holes 101 and elongated along a direction of passage of each wire C ,

The first case 100a is with the second housing 100b coupled to form a receiving area, and the circuit board 300 and the magnetic body 200 can be provided in the recording area. The first case 100a may comprise a material having a predetermined strength, e.g. B. a plastic material.

The first case 100a includes coupling ribs 103 protruding in it, and the circuit board 300 is with the coupling ribs 103 coupled to be fixed in the receiving area.

The second housing 100b includes second feedthrough holes 101b through which the wires C passing through the first feedthrough holes 101 were guided, lead, and a second perforated plate 102b defining each of the second feedthrough holes 101b and arranged coaxially with the first perforated plate 102 to the first perforated plate 102 to be facing.

The second housing 100b can with the first case 100a be coupled by a screw coupling and may have a clutch hole plate (not shown), which is a screw hole N touched in the first case 100a is designed for the screw coupling. The second housing 100b is with the first case 100a coupled to form the receiving area, and protects devices that are mounted in the receiving area, from external moisture, contamination, etc.

The second housing 100b and the first case 100a According to the embodiment of this disclosure, a material having a predetermined strength and forming a square box shape when coupled together.

The magnetic body 200 either surrounds the first perforated plate 102 or the second perforated plate 102b through which each of the wires C penetrates, and includes a placement recess 201 in which a sensor 301 is housed in a certain portion of a circumferential direction thereof. In this specification, a housing is described in which the magnetic body 200 on the first perforated plate 102 of the first housing 100a is arranged.

The magnetic body 200 may comprise a permanent magnet of a loop shape and is on the first perforated plate 102 Inserted to a magnetic field in each of the wires C to create. Here the sensor detects 301 that is electrically connected to the circuit board 300 is connected, signals such as direction or strength of the magnetic field.

The magnetic body 200 is at the first perforated plate 102 inserted and placed on the first perforated plate 102 shifted and generates a magnetic field on one side of the wire C , arranged in the first perforated plate 102 so the sensor 301 the current flowing through the wire C flows, can measure without contact.

The circuit board 300 is housed in the receiving area, by the first housing 100a and the second housing 100b is formed, and is coupled with components (devices) to one from the sensor 301 transmitted signal transmitted to the outside. The circuit board 300 can also be coupled with a component, etc., that of the sensor 301 amplified detected signal.

The circuit board 300 is in inside surfaces of the first housing 100a and the second housing 100b inserted and can with the coupling ribs 105 be coupled by means of a screw coupling. In addition, the circuit board 300 with the connection terminal 302 coupled so that it is connected to an external communication cable.

The terminal 302 is on the circuit board 300 mounted and in an exposure hole 104 housed in either the first housing 100a or in the second housing 100b is trained. In this specification, a housing is described in which the exposure hole 104 in the second housing 100b is trained.

Because the terminal 302 in the exposure hole 104 in the second housing 100b is formed, is housed, the coupling of the first housing interferes 100a and the second housing 100b not with it. In addition, the terminal is located 302 about the exposure hole 104 free to the outside when the first housing 100a and the second housing 100b coupled together so that they can be connected to the external communication cable.

The terminal 302 is electrical to the circuit board 300 connected, so that from the sensor 301 detected signal by means of the external communication cable to the controller (not shown) can be transmitted. The external communications cable may include unshielded twisted pair (UTP) cable and the sensor 301 may include a Hall sensor.

According to the current measuring module for the photovoltaic connector tape according to the above-mentioned embodiment of this disclosure, the first orifice plate is defined 102 and the second perforated plate 102b of the first housing 100a and the second housing 100b each the first feedthrough holes 101 and the second feedthrough holes 101b and are facing each other, and the magnet body is provided to either the first orifice plate 102 or the second perforated plate 102b to surround, and includes the arrangement recess 201 in which the sensor is housed, wherein the components for transmitting the from the sensor 301 detected signal on the circuit board 300 are mounted and the terminal 302 about the exposure hole 104 that is either on the first case 100a or on the second housing 100b in a state of mounting on the circuit board 300 is formed, is exposed to the outside. The current flowing through the wire can thus be measured without contact for a long period of time in order to maintain the measurement accuracy and accurately and stably monitor the photovoltaic power generation state.

In addition, the current measuring module according to this embodiment also comprises a handling unit 303 The handling unit 303 is electrical to the circuit board 300 connected to generate an identification information signal in accordance with the handling of an operator, whereby the current measuring state in the provision of a plurality of current measuring modules according to the embodiment of this disclosure can be tested in each case comparatively for each of the current measuring modules.

The handling unit 303 can through an opening D that are either in the first case 100a or in the second housing 100b is formed, exposed to the outside and may have a function to turn on / off the operation of the current measuring module. Therefore, the handling unit allows 303 the operator to selectively monitor the wires that are connected to the photovoltaic power generation device.

The opening D for exposing the handling unit 303 opposite the outside can in the first case 100a be educated. This specification describes a housing in which the opening D in the first case 100a is trained.

The opening D is at a handling area 106 formed at an upper corner portion of the first housing 100a is provided so that the handling unit 303 in the handling area 106 is exposed. Here is the handling area 106 obtained by the corner part is formed as a groove, so that the operator of the handling unit 303 easy to handle with his own finger.

Moreover, the current measuring module according to the embodiment may further include a pair of fitting ribs 105 in the first case 100a and in the second housing 100b include. The pair of fats 105 stands from the inside surfaces of the first housing 100a and the second housing 100b to face each other and along the longitudinal directions of the first orifice plate 102 and the second perforated plate 102b elongated to pass wells H to form, in the opposite sides of the circuit board 300 be inserted.

The pass ribs 105 allow the opposite sides of the circuit board 300 , in the first case 100a and the second housing 100b to be inserted, and thereby the printed circuit board 300 stable with the first housing 100a and the second housing 100b can be coupled, and the occurrence of a fault can be prevented during the current measurement process.

In addition, the first housing 100a a coupling rib 107 include. The coupling rib 107 can either be in the first case 100a or in the second housing 100b be provided, and in this specification, a housing is described in which the coupling rib 107 in the first case 100a is included.

The coupling rib 107 stands from the inside surface of the first housing 100a out, with which the first perforated plate 102 is connected to an outer circumferential surface of the first perforated plate 102 to surround, and at the same time from the outer circumferential surface of the first perforated plate 102 spaced to an insertion well S to form, in which the magnetic body 200 is used. The coupling rib 107 may be formed as a loop, which is the first perforated plate 102 surrounds, and can with the other coupling ribs 107 be connected.

The coupling rib 107 ensures that the magnet body 200 is inserted into the insertion recess S, so that a coupling force between the magnet body 200 and the first housing 100a is improved and the magnetic body 200 stable can generate the magnetic field and the measurement accuracy during the long-term measurement of the current is improved accordingly.

According to this embodiment and the above description, the handling unit generates 303 the identification information signal of the current measuring module and lies opposite the handling area 106 of the first housing 100a free, with the fitting ribs 105 into the circuit board 300 is inserted in the first housing 100a and in the second housing 100b are provided and the magnetic body 200 in the insertion recess S of the coupling rib 107 is inserted, which is the first perforated plate 102 surrounds. Therefore, if a plurality of current measuring modules are provided, the current measuring state of each current measuring module can be identified, and the position fixing force and the coupling force of the devices included in the housing can be improved to increase the durability and stability in measuring the current, and thus the occurrence of current flow To avoid mistakes.

The current measuring module for the photovoltaic connector tape according to the embodiment of this disclosure has been described above. A current measuring module for a photovoltaic connector tape according to another embodiment of this disclosure will be described below with reference to FIG 6 ,

6 shows a partially enlarged view showing a first perforated plate and a magnetic body according to another embodiment of this disclosure.

As shown in 6 For example, the current measuring module according to this embodiment has a similar structure to that in the previous embodiment except for the configurations of the first orifice plate 102 and the magnetic body 200 ,

The first perforated plate 102 Namely, according to this embodiment, a guide rib G include. The leadership rib G is formed as a rod, which from the outer circumferential surface of the first perforated plate 102 protrudes and along the longitudinal direction of the first perforated plate 102 extends. A variety of guide ribs G may be on the outer circumferential surface of the first perforated plate 102 be provided and spaced from each other to form a gap therebetween.

The magnetic body 200 can be a leadership deepening 202 in an inside circumferential surface thereof, contacting the first orifice plate 102 so the leadership rib G into the management deepening 202 is inserted. The leadership deepening 202 can along the guide rib G slide when the magnet body 200 in the first perforated plate 102 is inserted, thereby avoiding that the magnetic body 200 around the first perforated plate 102 rotates, so that the magnetic field between the wires C can be generated stably.

An arrangement of the current measuring modules according to the embodiments of this disclosure on a photovoltaic connector tape will be described below with reference to FIG 7 ,

7 5 illustrates that the current measurement module according to the embodiment of this disclosure is provided on a photovoltaic connector tape.

As shown in 7 For example, the current measuring module for the photovoltaic connector tape according to the embodiments of this disclosure includes a hinge rib 400 and a screw recess 402 at lower portions of the first housing 100a and the second housing 100b connected to the photovoltaic connector tape 10 are in contact (see 1 and 7 ).

The current measuring module for the photovoltaic connector tape according to the embodiments of this disclosure is on the photovoltaic connector tape 10 by means of the articulation rib 400 and the screw recess 402 fixed. The joint rib 400 is from the lower section of either the first housing 100a or the second housing 100b and includes a joint depression 401 , which is designed as an elongated hole.

The screw recess 402 is at the lower portions of the first housing 100a and the second housing 100b formed, and so can the first case 100a and the second housing 100b with the photovoltaic connector tape 10 over the coupling element 20 , For example, a screw to be coupled.

According to the current measuring module for the photovoltaic connector tape according to the above-mentioned embodiment of this disclosure, the first and second perforated plates of the first housing and the second housing define the first penetrating hole and the second penetrating hole, respectively, and face each other, and the magnet body is provided surround either the first orifice plate or the second orifice plate, and includes the placement recess in which the sensor is housed, wherein the components for communicating the signal sensed by the sensor are mounted on the circuit board, and the terminal is mounted over the exposure hole, either on the first housing or is formed on the second housing in a state of mounting on the circuit board, is exposed to the outside. The current flowing through the wire can thus be measured without contact for a long period of time in order to maintain the measurement accuracy and accurately and stably monitor the photovoltaic power generation state.

According to the embodiment of this disclosure, the manipulating unit further generates the identification information signal of the current measuring module and is exposed to the handling area of the first housing, wherein the fitting ribs into which the circuit board is inserted are provided in the first housing and the second housing and the magnet body is inserted into the insertion recess of the first housing Coupling rib is used, which surrounds the first perforated plate. Therefore, if a plurality of current measuring modules are provided, the current measuring state of each current measuring module can be identified, and the position fixing force and the coupling force of the devices included in the housing can be improved to increase the durability and stability in measuring the current, and thus the occurrence of current flow To avoid mistakes.

This disclosure is not limited to the aforementioned effects, and therefore, other effects of this disclosure will become apparent from the following description and will be apparent from the embodiments of this disclosure.

The embodiments described herein are for description only and are not limiting. Descriptions of features or aspects relating to each embodiment also refer to similar features or aspects in other embodiments.

While one or more embodiments have been described with reference to the drawings, it will be apparent to those skilled in the art that various changes in form and details are included without departing from the inventive concept and scope of the invention as defined in the following claims departing.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• KR 20120038067 [0007]

Claims (5)

Current measuring module for a photovoltaic connector strip (10), wherein the current measuring module comprises: a first casing (100a) comprising first feedthrough holes (101a) through which a plurality of wires (C) in which electric current flows are guided, and a first orifice plate (102a) defining each of the first feedthrough holes (101a ) and elongated along a penetrating direction of each wire (C) of the plurality of wires (C); a second housing (100b) comprising second feedthrough holes (101b) through which the wires (C) passed through the first feedthrough holes (101a) pass, and a second perforated plate (102b) defining each of the second feedthrough holes (101b) 101b) and arranged coaxially with the first perforated plate (102a) of the first housing (100a) to face each other and coupled to the first housing (100a) to form a receiving area with the first housing (100a); a magnetic body (200) configured to surround either the first orifice plate (102a) or the second orifice plate (102b) through which each of the wires (C) penetrates to generate a magnetic field in each wire (C) and comprising a placement recess (201) in which a sensor is housed in a certain portion in a circumferential direction thereof; a circuit board (300) accommodated in the accommodating portion formed by the first housing (100a) and the second housing (100b), and having components for transmitting a signal detected by the sensor (301) mounted thereon to the outside, and a terminal (302) mounted on the circuit board (300) housed in an exposure hole (104) formed in either the first housing (100a) or the second housing (100b) so as not to interfere with the coupling between the first housing (100a) and the second housing (100b) the first housing (100a) and the second housing (100b), and exposed to the outside via the exposure hole (104) in a state in which the first housing (100a) and the second housing (100b) are coupled to each other external communication cable to be connected. Current measuring module after Claim 1 , further comprising: a handling unit electrically connected to the circuit board (300) and configured to generate an identification information signal such that a current measuring state of the current measuring module is detected for each current measuring module when a plurality of current measuring modules are provided, wherein either the first housing (100a) or the second housing (100b) includes a handle portion (106) formed as a recess at an upper corner portion thereof where the exposure hole (104) is formed for handling by a finger, and an opening (D) to expose the handling unit from the handling area (106). Current measuring module after Claim 1 or 2 wherein the first housing (100a) and the second housing (100b) include a pair of fitting ribs (105) protruding from the inside surfaces of the first housing (100a) and the second housing (100b) so as to face each other, and comprising fitting recesses (H) extending along a longitudinal direction of the first perforated plate (102a) and the second perforated plate (102b) are inserted into opposite sides of the printed circuit board (300) to place the printed circuit board (300) in the accommodating region. Current measuring module after Claim 1 . 2 or 3 wherein the first housing (100a) includes a coupling rib (107) protruding from the inside surface of the first housing (100a) to surround an outside circumferential surface of the first orifice plate (102a), and the outside peripheral surface of the first orifice plate (102) 102a) to form an insertion recess (S) into which the magnetic body (200) is inserted to increase a coupling force between the magnetic body (200) and the first housing (100a). Current measuring module after Claim 1 . 2 . 3 or 4 wherein the first perforated plate (102a) comprises at least one guide rib (G) projecting from an outer peripheral surface thereof and elongated along a longitudinal direction thereof, the magnetic body (200) including a guide groove (202) into which the at least one guide rib (G) is inserted in an inside circumferential surface thereof to be inserted into the first orifice plate (102a) by sliding along the guide rib (G).

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