WO2020203442A1 - 電気機器ユニットの連結構造および電気機器 - Google Patents

電気機器ユニットの連結構造および電気機器 Download PDF

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Publication number: WO2020203442A1
Authority: WO; WIPO (PCT)
Prior art keywords: terminal block; block; electrical equipment; hole; engaging
Prior art date: 2019-03-29

Application number

PCT/JP2020/012901

Other languages

English (en)

French (fr)

Japanese (ja)

Inventor

飯田　正和

秀雄新内

Original Assignee

Idec株式会社

Priority date (The priority date 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 date listed.)

2019-03-29

Filing date

2020-03-24

Publication date

2020-10-08

2020-03-24 Application filed by Idec株式会社 filed Critical Idec株式会社

2020-03-24 Priority to CN202080018866.9A priority Critical patent/CN113597714B/zh

2020-03-24 Priority to EP20783630.5A priority patent/EP3952025A4/en

2020-10-08 Publication of WO2020203442A1 publication Critical patent/WO2020203442A1/ja

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Classifications

- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R9/00—Structural associations of a plurality of mutually-insulated electrical connecting elements, e.g. terminal strips or terminal blocks; Terminals or binding posts mounted upon a base or in a case; Bases therefor
- H01R9/22—Bases, e.g. strip, block, panel
- H01R9/24—Terminal blocks
- H01R9/2408—Modular blocks
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R9/00—Structural associations of a plurality of mutually-insulated electrical connecting elements, e.g. terminal strips or terminal blocks; Terminals or binding posts mounted upon a base or in a case; Bases therefor
- H01R9/16—Fastening of connecting parts to base or case; Insulating connecting parts from base or case

Definitions

the present invention relates to a connection structure for connecting electrical equipment units such as a terminal block, a breaker, a circuit protector, a relay, a relay socket, and a power supply to each other, and more particularly to an improvement of the structure.
a screwing method for connecting using screws and nuts and a press-fitting method for press-fitting a convex portion into a concave portion have been used.
a screw for inserting a through hole formed in a terminal block is prepared, and a plurality of terminal blocks are arranged side by side in each through hole of each terminal block.
the screw is inserted and a nut is attached to the tip of the screw and tightened so that the terminal blocks are connected to each other (see FIG. 13 and paragraph [0007] of the same publication).
a convex portion is provided on one side of the terminal block and a concave portion is provided on the other side, and a plurality of terminal blocks are arranged side by side to form the convex portion of one terminal block.
connection structure by the screw fastening method when the number of poles of the terminal block increases or decreases, the length of the screw used changes accordingly. Therefore, it is necessary to prepare screws having a length corresponding to the number of poles of the terminal block each time. If we try to stock screws according to the number of poles in advance, management costs will be incurred, leading to cost increase.
a dedicated jig, device, or tool is generally required in order to completely press-fit the convex portion into the concave portion. Further, in the press-fitting method, once the convex portion is press-fitted into the concave portion, it is difficult to separate each terminal block, and therefore, it is difficult to rearrange the terminal block after connection.
the present invention has been made in view of such conventional circumstances, and the problem to be solved by the present invention is to provide a connected structure of an electric device unit that can reduce costs and easily recombinate after connection. To do.
the electrical equipment unit in a connecting structure for connecting electrical equipment units to each other, has a wall portion, and one wall surface of the wall portion has an engaging portion.
the other wall surface has an engaged portion corresponding to the engaging portion, and the engaged portion of one electric device unit allows the engaging portion of the other electric device unit to enter and rotate.
the engaging portion engages with the engaged portion.
the engaging portion of one wall surface of the wall portion in one electrical equipment unit is engaged with the other wall surface of the wall portion in the other electrical equipment unit. Enter the part and rotate it. As a result, the engaging portion engages with the engaged portion, and the electrical equipment units are connected to each other.
the present invention in order to connect the electric device units to each other, it is only necessary to enter and rotate the engaging portion of one electric device unit with respect to the engaged portion of the other electric device unit. No screws or special jigs are required, and the cost can be reduced. Further, since the electric equipment can be easily assembled and separated without the need for nut tightening work or press-fitting work, each electric equipment unit can be easily rearranged.
the electrical equipment unit has a through hole that passes through the center of rotation of the engaging portion.
the electrical equipment unit has a support shaft portion on which a cylindrical surface is formed centered on the center of rotation of the engaging portion.
the cylindrical surface of the support shaft portion has a guide portion for guiding the circumferential position of the cylindrical surface when the engaging portion is engaged with the engaged portion.
the axial movement regulating means for restricting the axial movement of the engaged portion and the engaged portion to the side where they are separated from each other, and the engaging portion with respect to the engaged portion. It is equipped with a rotational movement regulating means for regulating the rotational movement to the reverse side.
the rotation movement restricting means is provided on the interference portion provided on either one side of the engaging portion or the engaged portion and on the other side of the engaging portion or the engaged portion. , It is composed of an interfered portion in which the interfering portion interferes when the engaging portion is reversed.
the electric device according to the present invention is configured by connecting a plurality of electric device units by the connection structure.
connection structure of the electrical equipment unit according to the present invention there is an effect that the cost can be reduced and the recombination after the connection can be easily performed.
FIG. 1 It is an overall perspective view which shows an example (the number of poles: 5P) of a terminal block as an electric device connected by using the connection structure by one Example of this invention.
FIG. 1 The exploded view of the terminal block (FIG. 2) shows an end block with a terminal, a terminal block (electrical equipment unit), and an end block without a terminal, which constitute the terminal block.
the number of poles is shown. Is reduced to 3P.
FIG. 3 is a view taken along the line VI-VI of FIG. 3, which is a left side view of the terminal block block (FIG. 3).
FIG. 3 is a view taken along the line VII-VII of FIG. 3, which is a right side view of the terminal block block (FIG. 3).
FIG. 3 is a view taken along the line VIII-VIII of FIG. 3, and is a right side view of the end block with terminals (FIG. 3).
It is the IX-IX line arrow view of FIG. 3, and is the left side view of the terminalless end block (FIG. 3).
It is the X arrow view of FIG. 3, and is the left side view of the end block with a terminal (FIG. 3).
FIG. 3 is the right side view of the terminalless end block (FIG. 3).
FIG. 3 It is a figure for chronologically explaining the connection method at the time of assembling the terminal block (FIG. 1) by connecting the terminal block blocks (FIG. 3) to each other, and is the figure for chronologically explaining the terminal block block having an engagement hook. Is shown by a alternate long and short dash line, and a terminal block block with an engaging hole is shown by a solid line.
Is shown by a alternate long and short dash line, and a terminal block block with an engaging hole is shown by a solid line. It is a figure for chronologically explaining the connection method at the time of assembling the terminal block (FIG. 1) by connecting the terminal block blocks (FIG. 3) to each other, and is the figure for chronologically explaining the terminal block block having an engagement hook. Is shown by a alternate long and short dash line, and a terminal block block with an engaging hole is shown by a solid line. It is a figure for chronologically explaining the separation method at the time of separating the terminal block (FIG. 1), and the terminal block block having an engaging hook is connected with the alternate long and short dash line, and the terminal block block having an engaging hole. Is shown by a solid line.
FIG. 19 is a perspective view showing a state in which the distance between adjacent blocks is narrowed.
FIGS. 1 to 11 are views for explaining a configuration of the electric device unit.
12 to 20 are diagrams for explaining a procedure for connecting / separating electrical equipment units from each other.
a terminal block is taken as an example of an electric device.
a screw type terminal block is taken as an example.
the terminal block (electrical device) 1 is arranged between an end block 2 with a terminal arranged at the left end in the drawing and an end block 3 without a terminal arranged at the right end in the drawing. It is provided with the four terminal block blocks (electrical equipment units) 4 provided. All of these blocks 2, 3 and 4 are formed of an insulating resin, and the terminal block 2 and the terminal block block 4 each have a screw n for connection. 1 and 2 show an example in which the number of poles of the terminal block 1 is 5P.
terminal block block 4 The details of the terminal block block 4, the end block 2 with terminals, and the end block 3 without terminals, which constitute the terminal block 1, will be described with reference to FIGS. 3 to 11.
the number of terminal block blocks 4 is set to 2, and the number of poles of the terminal block 1 is reduced to 3P.
the terminal block block 4 has a base portion 40 and a wall portion 41 extending upward from the base portion 40. ing. Although two terminal block blocks 4 are shown in each figure, since they both have the same structure, the description of the terminal block block 4 applies to both terminal block blocks 4.
Each engaging hook 42 has a shaft portion 42a extending in a direction orthogonal to the wall surface 41A (hereinafter, referred to as "axial direction” if necessary), and a wall surface from the tip of the shaft portion 42a toward the peripheral edge portion of the wall surface 41A. It is composed of a bent portion 42b that bends in a direction parallel to 41A, and is formed in a substantially L-shape in front view.
Each bent portion 42b is formed in a substantially trapezoidal shape in this example (see FIG. 6).
a support shaft portion 43 projecting in a direction (axial direction) orthogonal to the wall surface 41A is provided at a substantially central portion of the wall surface 41A.
the outer peripheral surface of the support shaft portion 43 is formed on a cylindrical surface 43a that occupies most of the outer peripheral surface and a part of the outer peripheral surface, and is a protruding portion (guide portion) that is formed in a fan shape from the lower portion of the cylindrical surface 43a in the radial direction. ) It is composed of 43b.
the support shaft portion 43 has a through hole 43c, and the through hole 43c penetrates the entire terminal block block 4 through the support shaft portion 43.
each engaging hook 42 is arranged on the wall surface 41A along a direction (that is, radially outward) from the axial center of the support shaft portion 43 in the radial direction.
the engagement hook 42 arranged on the upper side has a different distance from the axis of the support shaft portion 43 with respect to the two engagement hooks 42 arranged on the lower side, but each engagement The hooks 42 are evenly arranged at intervals of approximately 120 ° in the circumferential direction. It should be noted that the intervals do not necessarily have to be even.
the upper engaging hook 42 is not arranged on the center line C1, and the axis of the support shaft portion 43 is drawn. Is located at a position slightly rotated counterclockwise with the center of rotation as the center of rotation.
a fitting hole 45 having a size capable of fitting the support shaft portion 43 is formed on the other wall surface 41B of the wall portion 41.
the fitting holes 45 are arranged concentrically with the through holes 43c.
the inner peripheral surface of the fitting hole 45 has substantially the same diameter as the cylindrical surface 43a of the support shaft portion 43, and the cylindrical surface 43a of the support shaft portion 43 is along the inner peripheral surface of the fitting hole 45. It can slide in the circumferential direction.
the fitting hole 45 has an overhanging hole portion 45a that projects radially outward from the lower portion of the inner peripheral surface thereof in a fan shape.
the overhanging hole portion 45a corresponds to the overhanging portion 43b of the support shaft portion 43, but is slightly longer in the circumferential direction than the overhanging portion 43b. That is, the fitting hole 45 and the overhanging hole 45a have a complementary shape to the cross-sectional shape of the support shaft portion 43, except that the length of the overhanging hole 45a in the circumferential direction is slightly longer. Therefore, when connecting the terminal block blocks 4 to each other, in order for the support shaft portion 43 of one terminal block block 4 to fit into the fitting hole 45 of the other terminal block block 4, the overhanging portion of the support shaft portion 43 is required.
the position of 43b must be aligned with the position of the overhanging hole 45a of the fitting hole 45, and in that sense, the overhanging portion 43b of the support shaft portion 43 guides the circumferential position of the cylindrical surface 43a of the support shaft portion 43. It functions as a guide section. Further, since the circumferential length of the overhanging hole 45a is slightly longer than the circumferential length of the overhanging portion 43b, the support shaft portion 43 is fitted into the fitting hole 45 and then the axial center of the support shaft portion 43. It is possible to rotate a small amount around (that is, the center of the through hole 43c).
the wall surface 41B corresponds to each engaging hook 42 on the wall surface 41A side, and has three engaging holes (engaged) that form a connecting structure according to the present invention in cooperation with each corresponding engaging hook 42.
a joint portion) 44 is provided.
Each engaging hole 44 is formed in a substantially rectangular cross section, and is arranged at a position facing each engaging hook 42 with the wall portion 41 interposed therebetween.
Each engaging hole 44 has a size that allows each corresponding engaging hook 42 to enter (that is, allows entry), but is wider in the circumferential direction than the circumferential width of each engaging hook 42. Is formed in.
each engagement hole 44 in the radial direction which is arranged on the side where the clockwise rotation angle is larger than the center of the through hole 43c.
the thickness of each regulating plate portion 44a is substantially equal to the gap between the bent portion 42b of each corresponding engaging hook 42 and the wall surface 41A, but is slightly larger than the gap.
each engaging hole 44 allows rotation of the corresponding engaging hook 42), and when further moved in the circumferential direction.
Each engaging hook 42 engages with the engaging hole 44 by fitting each regulating plate portion 44a into the gap between the bent portion 42b of each engaging hook 42 and the wall surface 41A without a gap in the axial direction. It has become like.
the connected terminal block blocks 4 cannot move to the side where they are separated from each other (that is, separated) in the axial direction, and no backlash in the axial direction occurs.
the restricting plate portion 44a functions as an axial movement restricting means for restricting the axial movement of the engaging hook 42 and the engaging hole 44 to the side where they are separated from each other.
each engaging hook 42 rotates around the center of the through hole 43c, and therefore penetrates.
the center of the hole 43c coincides with the center of rotation of each engaging hook 42.
the through hole 43c of the terminal block block 4 is axially different from the through hole 21a (FIGS. 8 and 10) of the end block 2 with a terminal and the through hole 31a (FIG. 9 and 11) of the end block 3 without a terminal, which will be described later.
the center lines of these through holes are represented by the reference numerals CL in FIGS. 1, 3 to 5.
an arc-shaped wall portion 46 extending in an arc shape between the lower locking hooks 42 below the support shaft portion 43 and projecting axially from the wall surface 41A is formed. It is provided.
the arc-shaped wall portion 46 is a thin-walled wall-shaped member, and its inner peripheral surface is arranged concentrically with the axial center of the support shaft portion 43.
a bulging portion 46a that bulges toward the inner peripheral side is formed at one end (left end in the drawing) of the arc-shaped wall portion 46, and a convex portion (interference portion) 46b that protrudes toward the outer peripheral side is formed in the vicinity thereof. There is.
an arc-shaped wall portion extending in an arc shape between the lower engaging holes 44 below the fitting hole 45 and projecting axially from the wall surface 41B. 47 is provided.
the arc-shaped wall portion 47 is a thin-walled wall-shaped member, and its inner outer peripheral surface is arranged concentrically with the center of the fitting hole 45.
a recess 47a corresponding to the bulging portion 46a of the wall surface 41A is formed at one end (right end in the drawing) of the outer peripheral surface of the arc-shaped wall portion 47.
an operation portion 48 is provided with an arc-shaped gap e interposed therebetween.
the gap e has a size that allows the arcuate wall portion 46 of the wall surface 41A to be slidably fitted.
a concave portion (interfered portion) 48a corresponding to the convex portion 46b of the arcuate wall portion 46 is formed on one end side (right end side in the drawing) of the operation portion 48, and a person is formed on the other end side (left end side in the drawing).
a pressing portion 48b for pressing and operating with a finger is provided, and the operating portion 48 is connected to the base 40 via the connecting portion 48c (note that in FIG. 6, the operating portion 48 on the wall surface 41B side is connected. It is visible from the side of the wall surface 41A).
the arcuate wall portion 46 on the wall surface 41A side of one terminal block block 4 is fitted into the gap e on the wall surface 41B side of the other terminal block block 4.
the bulging portion 46a of the arc-shaped wall portion 46 engages with the recess 47a of the arc-shaped wall portion 47
the convex portion 46b of the arc-shaped wall portion 46 engages with the recess 48a of the operating portion 48.
the arcuate wall portion 46 is locked in the rotational direction within the gap e, and the rotational movement of the support shaft portion 43 around the axis is restricted.
the convex portion 46b and the concave portion 48a are engaging hooks to the side where the engaging hook 42 is engaged with the engaging hole 44 and the engaged state is released (that is, the side where the engaging hook 42 is reversed). It functions as a rotational movement regulating means for regulating the rotational movement of 42.
the terminal block 2 has a base portion 20 and a wall portion 21 extending upward from the base portion 20. are doing.
the base portion 20 is formed with a notch 20a into which a mounting screw for mounting on a control panel or the like is inserted.
one wall surface 21A of the wall portion 21 is not provided with a locking hook or a support shaft portion, and the end block 2 with a terminal is provided in the axial direction.
a through hole 21a is formed to penetrate.
a fitting hole 25 is formed in the other wall surface 21B of the wall portion 21 as shown in FIG. 8 (arrow view taken along the line VIII-VIII of FIG. 3).
the fitting hole 25 has the same structure as the fitting hole 45 of the terminal block block 4, is arranged concentrically with the through hole 21a, and has substantially the same inner diameter as the cylindrical surface 43a of the support shaft portion 43. Have.
the fitting hole 25 has an overhanging hole portion 25a that projects outward in a radial direction in a fan shape, and the overhanging hole portion 25a is slightly longer in the circumferential direction than the overhanging portion 43b of the support shaft portion 43. There is.
each engaging hole 24 has the same configuration as each engaging hole 44 of the terminal block block 4, is formed in a substantially rectangular cross section, and each corresponding engaging hook 42 of the terminal block block 4 is provided. Although it has a size that allows it to enter, it is formed to be wider in the circumferential direction than the width in the circumferential direction of each engaging hook 42.
a regulation plate portion 24a is provided at the outer corner of each engagement hole 24 in the radial direction. By the regulation plate 24a, each engaging hook 42 enters the corresponding engaging hole 24 (at this time, the support shaft portion 43 is also fitted into the fitting hole 25), and then the shaft of the support shaft portion 43.
each engaging hook 42 engages with the engaging hole 24.
the connected end block 2 with terminals and the terminal block block 4 cannot move to the side where they are separated (separated) from each other in the axial direction, and no play occurs in the axial direction.
an arc-shaped wall portion 27 that extends in an arc shape below the fitting hole 25 and projects axially from the wall surface 21B is provided.
the arc-shaped wall portion 27 has the same configuration as the arc-shaped wall portion 47 of the terminal block block 4, and is a thin-walled wall-shaped member, and the inner outer peripheral surface thereof is concentric with the center of the fitting hole 25. It is arranged.
a recess 27a At one end (right end in the drawing) of the outer peripheral surface of the arc-shaped wall portion 27, a recess 27a corresponding to the bulging portion 46a of the arc-shaped wall portion 46 on the side of the terminal block block 4 is formed.
An elastic plate portion 28 is provided below the arc-shaped wall portion 27 with a gap e interposed therebetween.
the gap e has a size that allows the arcuate wall portion 46 of the terminal block block 4 to be slidably fitted.
the elastic plate portion 28 has a configuration similar to that of the operation portion 48 of the terminal block block 4, and a concave portion 28a corresponding to the convex portion 46b of the arcuate wall portion 46 is formed on one end side (right end side in the drawing).
the other end (left end in the figure) is elastically supported by the base 20 via the connecting portion 28c, but the other end side (left end side in the figure) is provided with a pressing portion for a person to perform a pressing operation with a finger. Absent.
the structure may be such that a person can press it.
the arcuate wall portion 46 on the wall surface 41A side of the terminal block block 4 is fitted in the gap e on the wall surface 21B side of the terminal block 2 with terminals.
the bulging portion 46a of the arc-shaped wall portion 46 engages with the recess 27a of the arc-shaped wall portion 27, and the convex portion 46b of the arc-shaped wall portion 46 engages with the recess 28a of the elastic plate portion 28. It has become.
the arcuate wall portion 46 is locked in the rotational direction within the gap e, and the rotational movement of the support shaft portion 43 around the axis is restricted.
the terminalless end block 3 has a base portion 30 and a wall portion 31 extending upward from the base portion 30. are doing.
the base portion 30 is formed with a notch 30a into which a mounting screw for mounting on a control panel or the like is inserted.
one wall surface 31A of the wall portion 31 is provided with three engaging hooks 32 protruding from the wall surface 31A.
Each engaging hook 32 has the same configuration as each engaging hook 42 of the terminal block block 4, and has a shaft portion 32a extending in the axial direction and the tip of the shaft portion 32a toward the peripheral edge portion of the wall surface 31A. It is composed of a bent portion 32b that bends in a direction parallel to the wall surface 31A, and is formed in a substantially L-shape in front view.
a support shaft portion 33 projecting in the axial direction is provided at a substantially central portion of the wall surface 31A.
the support shaft portion 33 has the same configuration as the support shaft portion 43 of the terminal block block 4, and its outer peripheral surface is formed on a cylindrical surface 33a that occupies most of the outer peripheral surface and a part of the outer peripheral surface. It is composed of an overhanging portion 33b that extends outward in a radial direction from the lower portion of the cylindrical surface 33a in a fan shape.
the support shaft portion 33 has a through hole 31a, and the through hole 31a penetrates the entire terminal block block 3 through the support shaft portion 33. The center of the through hole 31a coincides with the axial center of the support shaft portion 33.
an arc-shaped wall portion 36 having the same configuration as the arc-shaped wall portion 46 of the terminal block block 4 is provided below the wall surface 31A.
a bulging portion 36a is formed at one end of the arc-shaped wall portion 36, and a convex portion 36b is formed in the vicinity thereof.
the other wall surface 31B of the wall portion 31 is not provided with a locking hook or a support shaft portion, and the terminalless end block 3 is provided in the axial direction.
a through hole 31a is formed to penetrate.
FIGS. 12 to 17 show a procedure for connecting / separating the terminal block blocks 4, and FIGS. 18 to 20 show the procedure for connecting the terminal block 2 with terminals, the terminal block 4 and the end block 3 without terminals.
the procedure is shown.
the two terminal block blocks to be connected are referred to by reference numerals 4 and 4'.
the other terminal block block 4'connected to the wall surface 41B is viewed from the wall surface 41B side.
the positions of the engaging hook 42, the support shaft portion 43, and the arc-shaped wall portion 46 at the time of the operation are shown (see the alternate long and short dash line).
terminal block blocks 4 and 4' When connecting the terminal block blocks 4 and 4', as shown in FIG. 12, connect the other terminal block block (dotted chain line) 4'to one terminal block block 4 (solid line) counterclockwise as shown.
the terminal block blocks 4 and 4' are brought close to each other from the axial direction while being rotated by a slight amount.
the overhanging portion 43b is fitted in the overhanging hole portion 45a with a gap formed on the left side of the drawing with respect to the overhanging hole portion 45a, and each engaging hook 42 is in each engaging hole 44. It has entered the side where the regulation plate portion 44a is not formed (that is, the left side in the drawing of the regulation plate portion 44a). Further, the bulging portion 46a of the arc-shaped wall portion 46 is not engaged with the concave portion 47a of the arc-shaped wall portion 47, and the convex portion 46b of the arc-shaped wall portion 46 is engaged with the concave portion 48a of the operating portion 48. I haven't. In the state shown in FIG.
the terminal block blocks 4 and 4' are in contact with each other without a gap in the axial direction and are united, but when they are moved in the directions away from each other in the axial direction, they are separated from each other and separated from each other.
the child stand blocks 4 and 4 are in a temporarily assembled state.
the overhanging portion 43b guides the circumferential position of the cylindrical surface 43a of the support shaft portion 43 at the time of connection by cooperating with the overhanging hole portion 45a, that is, the terminal block block 4'is used as the terminal block block 4.
it can be said that it functions as a guide unit that guides to an appropriate rotation position.
the bulging portion 46a of the arc-shaped wall portion 46 is in a state of being substantially engaged with the concave portion 47a of the arc-shaped wall portion 47, but the convex portion 46b of the arc-shaped wall portion 46 is engaged with the concave portion 48a of the operating portion 48.
the right end of the operation unit 48 (shown) is pushed down, and the right end of the operation part 48 is flexed downward and elastically deformed.
each engaging hook 42 has each engaging hole. It further rotates clockwise within the 44 to abut the side walls in each engagement hole 44. Further, the bulging portion 46a of the arc-shaped wall portion 46 is completely engaged with the recess 47a of the arc-shaped wall portion 47. Further, the convex portion 46b of the arcuate wall portion 46 gets over the right end shown in the operation portion 48, and as a result, the operation portion 48 returns to the state before elastic deformation, and the convex portion 46b becomes the concave portion 48a of the operation portion 48. Fully engaged.
each regulation plate portion 44a is engaged between each bending portion 42b of each engagement hook 42 and the wall surface 41A, and each engagement hook 42 has each engagement hole.
the terminal block block 4' cannot be pulled out from the inside of the 44 in the axial direction, and the terminal block block 4'is locked in the axial direction with respect to the terminal block block 4.
the convex portion 46b of the arc-shaped wall portion 46 is engaged with the concave portion 48a of the operating portion 48, so that the arc-shaped wall portion 46 cannot rotate counterclockwise as shown, and the terminal block block 4' Is locked in the rotation direction with respect to the terminal block block 4. Therefore, in the state shown in FIG.
both terminal block blocks 4 and 4' are connected, that is, assembled.
the bulging portion 46a of the arc-shaped wall portion 46 is engaged with the recess 47a of the arc-shaped wall portion 47, which makes it possible to prevent rattling in the rotation direction. ..
the convex portion 46b of the arcuate wall portion 46 is the operating portion 48. It shows a state in which the terminal block block 4'does not rotate due to interference with the recess 48a of the above.
the overhanging portion 43b moves in the overhanging hole portion 45a to the right side in the drawing, and the overhanging portion 43b forms a gap in the overhanging hole portion 45a on the left side in the drawing.
FIGS. 12 to 17 the case where the terminal block blocks 4 and 4'are connected / separated from each other has been described, but the case where the end block 2 with a terminal is connected / separated from the terminal block block 4 and the case where the terminal block 2 is connected / separated are described.
the same procedure can be used for connecting / separating the terminalless end block 3 to the block 4'.
the elastic plate portion 28 of the end block 2 with terminals is not provided with a portion corresponding to the pressing portion 48b of the operation portion 48, but both blocks are used when separating the end block 2 with terminals and the terminal block block 4 after connection.
the elastic plate portion 28 of the end block 2 with a terminal receives a pressing force from the convex portion 46b of the arcuate wall portion 46 of the terminal block block 4 and elastically deforms to form an arc shape.
the convex portion 46b of the wall portion 46 comes off from the concave portion 28a of the elastic plate portion 28.
the elastic plate portion 28 of the end block 2 with terminals may have a structure that can be pressed by a person.
the pin PN is a long round bar, which is slightly smaller than the inner diameters of the through holes 21a of the end block 2 with terminals, the through holes 31a of the end block 3 without terminals, and the through holes 43c of each terminal block block 4. It has an outer diameter.
the other end of the pin PN (for example, the right end in FIG. 18) fixed to the jig, the other end of the pin PN (the left end in the same figure) is inserted into the through hole 31a of the terminalless end block 3 and the four terminal block blocks 4. It is inserted into each through hole 43c and the through hole 21a of the end block 2 with a terminal in order.
the wall surfaces 21B, 31B, and 41B of the blocks 2, 3, and 4 are arranged on one end side of the pin PN.
the wall surface 21B of the end block 2 with terminals faces the wall surface 41A of the terminal block block 4, and the terminal block block
the wall surface 41B of 4 faces the wall surface 41A of the terminal block block 4
the wall surface 31A of the end block 3 without terminals faces the wall surface 41B of the terminal block block 4.
the terminalless ends are brought close to each other and the engaging hooks of one block are inserted into the corresponding engaging holes of the other block.
the terminal block block 4 and the terminal block 2 By rotating each terminal block block 4 and the terminal block 2 with terminals at once with respect to the block 3, all the blocks 2, 3 and 4 can be connected at once (see FIG. 1).
the terminal blocks 4 having a large number of poles can be efficiently and easily assembled by using the through holes 21a, 31a, and 43c formed in the blocks 2, 3, and 4.
the engaging hook 42 of one terminal block block 4 is inserted into the engaging hole 44 of the other terminal block block 4. Since it is only necessary to rotate it, screws for connection and special jigs are not required, and the cost can be reduced. Furthermore, the terminal block blocks can be easily assembled without the need for nut tightening work or press-fitting work for uneven parts, and separation is easy, so each terminal block block can be rearranged (for example, to increase or decrease the number of poles). Addition / reduction and replacement, reassembly in case of incorrect assembly, etc.) can be easily performed.
the engaging hooks 42 of the terminal block block 4 are provided at three places on the wall surface 41A is shown, but the engaging hooks 42 may be provided at one place, two places, or four or more places.
the bent portion 42b of the engaging hook 42 extends outward in the radial direction from the tip of the shaft portion 42a, but the bent portion 42b extends inward in the radial direction from the shaft portion 42a. May be good.
the regulation plate portion 44a provided in the engaging hole 44 is arranged at the inner corner in the radial direction in the engaging hole 44.
the rotation direction of the terminal block blocks 4 when connecting the terminal block blocks 4 to each other may be opposite to the direction shown in the above embodiment, or if the rotation directions of the terminal block blocks 4 are alternately different. You may let it.
the terminal block block 4 is provided with the support shaft portion 43 having the through hole 43c, but either the through hole 43c or the support shaft portion 43 may be omitted. If the through hole 43c is omitted, the pin PN cannot be used when assembling the terminal block 4, but even in that case, the support shaft portion 43 rotates and slides in the fitting hole 45, so that each engaging hook 42 Can rotate around the axis of the support shaft portion 43 in each engaging hole 44. Further, when the support shaft portion 43 is omitted, by inserting the pin PN into the through hole 43c, each engaging hook 42 can rotate in each engaging hole 44 around the axis of the pin PN. is there.
an overhanging portion 43b is provided on the support shaft portion 43 and an overhanging hole portion 45a is formed in the fitting hole 45, but the overhanging portion 43b and the overhanging hole portion 45a may be omitted.
the engaging hooks 42 can be connected. It can be entered into each corresponding engaging hole 44.
an overhanging portion 43b is provided as a guide portion for guiding the circumferential position of the supporting shaft portion 43 so as to project outward in a radial direction from a part of the outer peripheral surface of the supporting shaft portion 43.
the guide portion may be a recess that is recessed inward in the radial direction from a part of the outer peripheral surface of the support shaft portion 43.
the arc-shaped wall portion 46 is provided on the side of the wall surface 41A provided with the engaging hook 42, and the gap in which the arc-shaped wall portion 46 is fitted on the side of the wall surface 41B provided with the fitting hole 45.
e is provided, the application of the present invention is not limited to this.
the arcuate wall portion 46 may be provided on the side of the wall surface 41B, and the gap e may be provided on the side of the wall surface 41A.
the bulging portion 46a is formed on the inner peripheral side and the convex portion 46b is formed on the outer peripheral side. On the contrary, the bulging portion 46a is shown. May be formed on the outer peripheral side, and the convex portion 46b may be formed on the inner peripheral side.
connection structure of the electric equipment unit according to the present invention is applied to the screw type terminal block, but the present invention can be similarly applied to the screwless type terminal block without a screw.
a terminal block having 3P or 5P poles is taken as an example, but it goes without saying that the present invention can be applied to a terminal block having a number of poles other than these.
the application of the present invention is not limited to the terminal block, and the present invention can be similarly applied to other electrical equipment units such as breakers, circuit protectors, relays, relay sockets, and power supplies.
the present invention is useful for the connecting structure of the electrical equipment unit, and is particularly suitable for the connecting structure that is easy to assemble and separate.
Terminal block (electrical equipment) 4 Terminal block block (electrical equipment unit) 41: Wall part 41A, 41B: Wall surface 42: Engagement hook (engagement part) 43: Support shaft part 43a: Cylindrical surface 43b: Overhanging part (guide part) 43c: Through hole 44: Engagement hole (engaged part) 44a: Regulatory plate (axial movement regulating means) 46b: Convex part (interference part) (rotational movement regulating means) 48a: Recess (interfered part) (rotational movement regulating means)

Landscapes

Connections Arranged To Contact A Plurality Of Conductors (AREA)

PCT/JP2020/012901 2019-03-29 2020-03-24 電気機器ユニットの連結構造および電気機器 WO2020203442A1 (ja)

Priority Applications (2)

Application Number	Priority Date	Filing Date	Title
CN202080018866.9A CN113597714B (zh)	2019-03-29	2020-03-24	电气设备单元的连结结构以及电气设备
EP20783630.5A EP3952025A4 (en)	2019-03-29	2020-03-24	CONNECTION STRUCTURE FOR AN ELECTRICAL DEVICE AND ELECTRICAL DEVICE

Applications Claiming Priority (2)

Application Number	Priority Date	Filing Date	Title
JP2019065862A JP7236907B2 (ja)	2019-03-29	2019-03-29	電気機器ユニットの連結構造および電気機器
JP2019-065862		2019-03-29

Publications (1)

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WO2020203442A1 true WO2020203442A1 (ja)	2020-10-08

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EP (1)	EP3952025A4 (zh)
JP (2)	JP7236907B2 (zh)
CN (1)	CN113597714B (zh)
WO (1)	WO2020203442A1 (zh)

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JP7133180B1 (ja)	2022-03-04	2022-09-08	フジコン株式会社	単位端子台、及び単位端子台が複数連結した連結端子台

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2019
- 2019-03-29 JP JP2019065862A patent/JP7236907B2/ja active Active
2020
- 2020-03-24 CN CN202080018866.9A patent/CN113597714B/zh active Active
- 2020-03-24 EP EP20783630.5A patent/EP3952025A4/en active Pending
- 2020-03-24 WO PCT/JP2020/012901 patent/WO2020203442A1/ja unknown
2023
- 2023-02-14 JP JP2023021102A patent/JP7465049B2/ja active Active

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JP2005340142A (ja)	2004-05-31	2005-12-08	Kasuga Electric Works Ltd	端子台組立装置

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Publication number	Publication date
CN113597714A (zh)	2021-11-02
JP2023053314A (ja)	2023-04-12
JP7465049B2 (ja)	2024-04-10
EP3952025A4 (en)	2022-12-21
CN113597714B (zh)	2023-09-08
EP3952025A1 (en)	2022-02-09
JP2020167017A (ja)	2020-10-08
JP7236907B2 (ja)	2023-03-10

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