JP2020004734A - Resin molding - Google Patents

Abstract

To set a metal member such as a conductive plate in a molding die, and prevent resin leakage to an unintended portion.SOLUTION: A resin molding disclosed herein includes is a terminal block 10 in which a plate-like terminal 20 and a synthetic resin housing 40 are integrally fixed and includes a bent portion 22 bent at a substantially right angle by applying a press process to the terminal 20, a mold portion 62 provided in the housing 40 so as to be embedded so as to cover the inner curved surface 30 of the bent portion 22 from diagonally lower rear, a flat portion 32 provided in a planar shape on the inner peripheral edge in a side portion 22A of the bent portion 22, and arranged adjacent to the mold portion so as to be exposed from the mold portion, and a thinned portion 34 which is thinner than the flat portion 32 at the side portion 22A.SELECTED DRAWING: Figure 1

Description

  The technology disclosed in the present specification relates to a resin molded product.

JP-A-2012-195067 discloses a terminal block formed so that a conductive plate having an L-shaped bent portion and a connector housing made of synthetic resin are integrally fixed. Are known.
When assembling the terminal block, first, a metal plate material is punched out by press working and bending is performed to form an L-shaped conductive plate. After forming the conductive plate, the conductive plate is set in a molding die, a molding resin is poured into the molding die, and a primary molded body is formed by primary molding. Then, the connector housing is formed by secondary molding using the primary molded body as a core.

JP-A-2012-195067

  By the way, in the above-mentioned terminal block, when the thickness of the conductive plate is increased, when forming the bent portion, excess side bulging outward is formed on both side surfaces in the width direction of the bent portion. For this reason, at the position of the bending portion, when the connector housing is to be molded by using up the molding resin, the excess thickness of the bending portion interferes with the molding die, so that the conductive plate cannot be set in the molding die. I will.

  However, if the width of the bent portion is formed narrow in advance in consideration of the occurrence of excess thickness, if the amount of excess thickness on the side surface of the bent portion is small, the width of the bent portion will be reduced. Since the width becomes smaller than the predetermined width, the resin cannot be cut off at the position of the bent portion, and the resin leaks.

  The present specification discloses a technique that enables a metal member such as a conductive plate to be set in a molding die and prevents resin leakage to an unintended part.

The technology disclosed in the present specification is a resin molded product in which a plate-shaped metal member and a synthetic resin part are integrally fixed, and is provided on the resin part, and the metal member has a plate thickness direction. A mold part burying a part of a side part extending along the plane part, and a plane part provided in a plane at an edge of the side part and arranged adjacent to the mold part so as to be exposed from the mold part. And a thinner portion arranged on the side portion on the opposite side of the mold portion with respect to the flat portion and having a thinner portion than the flat portion.
Further, the technology disclosed in this specification is a method of manufacturing a resin molded product in which a plate-shaped metal member and a resin portion made of a synthetic resin are integrally fixed. A flat portion processed into a flat shape is formed at the edge of the formed pressed portion, and a molding die for molding the resin portion is brought into contact with the flat portion to cut off the molding resin, thereby forming a side of the pressed portion. It is configured to restrict the occurrence of resin leakage in the part.

For example, when a metal member is subjected to press working, there is a tendency that distortion due to the press working occurs on a side portion of the metal member, so that the metal member cannot be set in a molding die for molding a resin portion. However, since a flat portion processed into a flat shape is formed on a side portion of the metal member where distortion is likely to occur, the pressed portion can be appropriately set in the molding die.
Also, since the molding resin can be surely cut off by bringing the molding die into contact with the planar surface portion, it is possible to prevent resin leakage from a planar portion arranged adjacent to the mold portion to an unintended portion. Can be prevented.

The resin molded product disclosed in the present specification may have the following configuration.
The flat part is provided on a side part of a bent part provided in a form bent to the metal member, and the mold part embeds an inner curved surface inside the bent part, and the flat part Is provided on an inner peripheral edge of an edge extending along the bending direction of the bent portion, and the thinned portion is provided on an outer peripheral edge of the edge extending along the bending direction of the bent portion. It may be.
According to such a configuration, when the resin portion is molded, the resin can be cut off by bringing the molding die into contact with the flat portion provided on the inner peripheral edge portion on both side edges of the bent portion, so that the mold is removed. The resin forming the portion can be prevented from leaking from the inner surface of the bent portion to the thinned portion or the outer surface of the bent portion.

The metal member includes a plate-shaped connecting portion provided so as to be connectable to a counterpart conductor in a form connected to one end of the bent portion, and a plate-shaped main portion provided connected to the other end of the bent portion. The conductor may be provided, and the bent portion may be configured to be bent so that an angle between the connection portion and the main body portion becomes a right angle.
When a connection portion is provided at one end of the bent portion, if resin leakage occurs in the bent portion, molding resin adheres to the connection surface of the connection portion, and the connection reliability between the mating conductor and the connection portion decreases. There is a possibility that it will end up.

  However, according to the configuration described above, the bent portion is bent at a substantially right angle, so that even if excess thickness is formed at the side edge of the bent portion, a flat portion is formed at the side edge of the bent portion, The resin can be prevented from leaking at the bending portion by cutting off the resin between the flat surface portion and the molding die, and the molding resin can be prevented from adhering to the connection portion. Therefore, the bending portion is bent by pressing. This is very effective when distortion occurs in the bent portion.

  According to the technology disclosed in the present specification, it is possible to set a metal plate material in a molding die and to prevent resin leakage to an unintended portion.

Perspective view of terminal block Rear view Plan view Side view AA line sectional view of FIG. FIG. 3 is a sectional view taken along line BB of FIG. 3. FIG. 3 is a sectional view taken along line CC of FIG. 3. Perspective view of primary molded product group Plan view Rear view Side view of primary molded product FIG. 9 is a sectional view taken along line DD FIG. 9 is a sectional view taken along line EE of FIG. 9. 9 is a sectional view taken along line FF of FIG. 9. Terminal perspective view Plan view Side view Schematic diagram of the cross section of the bent part

<Embodiment>
An embodiment will be described with reference to FIGS.
The present embodiment exemplifies a terminal block (an example of a “resin molded product”) 10 attached to a case (not shown) of a device mounted on a vehicle, and the terminal block 10 is a device (not shown) disposed in the case. It relays between the side terminal and a counterpart terminal (not shown) provided at the terminal of the wire harness (an example of “counterpart conductor”). In the following description, the horizontal direction is based on the horizontal direction in FIGS. 2 and 10, and the vertical direction is based on the vertical direction in FIGS. 2 and 10. The front-back direction will be described with reference to the left-right direction in FIGS. 5, 11, and 17, with the left side in the drawing as the front and the right side in the drawing as the rear.

  As shown in FIGS. 1 to 7, the terminal block 10 is integrally formed with three terminals (an example of a “metal member”) 20 and the three terminals 20 in a state where the three terminals 20 are arranged in the left-right direction. And a fixed synthetic resin housing (an example of a “resin portion”) 40.

  As shown in FIGS. 15 to 17, each terminal 20 is formed in a vertically long strip shape by punching a thick metal plate having excellent conductivity by press working and performing bending. The terminal 20 includes a flat terminal body (an example of a “main body”) 21 extending vertically, a bent portion (an example of a “pressed portion”) 22 provided at an upper end of the terminal body 21, and a bent portion. It is configured to include a wire-side connecting portion (an example of a “connecting portion”) 23 extending rearward from 22 and a flat device-side connecting portion 24 provided at a lower end portion of the terminal main body 21. Although the left and right terminals 20 of the three terminals 20 are bent in the left and right direction above the terminal body 21, the other structures are common, so the right terminal 20 in FIGS. It will be described as a representative.

  As shown in FIGS. 1 and 5, the terminal main body 21 has all parts except the upper end and the lower end of the terminal main body 21 buried in the housing 40, and extends vertically at the upper end of the terminal main body 21. As shown in FIGS. 15 and 17, the side surfaces on both sides in the left-right direction are flat main body-side flat portions 25 extending straight in the up-down direction. As shown in FIGS. 8, 10, and 15, a seal attachment portion 26 for attaching a sealant (not shown) is provided at a substantially central portion in the vertical direction of the terminal main body 21. By attaching the sealant to the portion 26 and burying the sealant in the housing 40, the interface between the seal attachment portion 26 and the housing 40 is stopped.

  As shown in FIGS. 5, 11, and 15, the bent portion 22 is configured to be continuous with the upper end of the terminal main body 21 and continuous with the front end of the wire-side connection portion 23, and to extend rearward from the upper end of the terminal main body 21. It is in the form of being bent at a substantially right angle toward. Therefore, as shown in FIGS. 15 and 17, the outer peripheral edge of the left and right side portions 22 </ b> A of the bent portion 22 extending in the bending direction curved more gradually than the inner peripheral edge with the bending of the bent portion 22. It is in a state.

  As shown in FIGS. 15 to 17, the electric wire side connection portion 23 has a flat plate shape, and the side surfaces on both right and left sides extending in the extending direction in the electric wire side connection portion 23 are flat connection side portions extending in the front-rear direction. The flat portion 27 is provided. The upper surface of the electric wire side connection portion 23 is a connection surface 28 to be bolt-connected to the counterpart terminal, and the electric wire side connection portion 23 is provided with a bolt hole 29 penetrating in the vertical direction which is the plate thickness direction. In the electric wire side connection portion 23, a mating terminal is placed on the connecting surface 28, and a bolt (not shown) is inserted through a bolt hole 29 so as to be bolted to the mating terminal.

The device-side connection portion 24 is provided at a lower end portion of the terminal body 21 in a form offset slightly forward from the terminal body 21, and can be connected to the device-side terminal by a bolt.
As shown in FIGS. 1, 3 and 5, the housing 40 covers the upper end of each terminal 20 from front, rear, left and right, and surrounds the cover 41 together with the upper end of each terminal 20 over the entire circumference. It comprises a cylindrical portion 42 and a fitting portion 43 fitted into a mounting hole (not shown) provided in the case.

  The cover portion 41 embeds the lower half of the electric wire side connection portion 23 except for the rear end portion 27A of the connection portion side flat portion 27 and the inner curved surface 30 inside the bent portion 22 and the main body side flat portion 25 of the terminal main body 21. Of the terminal main body 21 except for the upper end 25A of the terminal main body 21 and the upper end of the front surface of the terminal main body 21. Further, the respective cover portions 41 are connected by a rib-shaped connection portion 44 provided between the adjacent cover portions 41.

  As shown in FIG. 5, a nut accommodating portion 45 for accommodating the nut N is provided inside each covering portion 41. The nut N is a square nut having a fastening hole N1 that opens vertically, and the thickness of the nut N is about twice the plate thickness of the terminal 20. In other words, the thickness of the terminal 20 is set to about half the thickness of the nut N.

  The nut accommodating portion 45 is formed so as to open upward and rearward, and the nut N is accommodated in a press-fit state from a rear end opening. The upper end opening of the nut housing portion 45 is closed by the electric wire side connection portion 23, and when the nut N is housed at a regular position in the nut housing portion 45, as shown in FIG. The lower surface of the electric wire side connection portion 23 and the upper surface of the nut N come into vertical contact with each other, and the bolt hole 29 of the electric wire side connection portion 23 and the fastening hole N1 of the nut N are set to be coaxial. .

  As shown in FIGS. 1 and 3, the tubular portion 42 is formed in a bottomed tubular shape that is horizontally long in the left-right direction, opens upward, and has a bottom wall 46 at the lower end. The bottom wall 46 and the electric wire side connection portion 23 of the terminal 20 face upward from the upper end opening. The bottom wall 46 has an oval shape that is horizontally long in the left-right direction, and three covering portions 41 arranged in the left-right direction are arranged at the center of the bottom wall 46 so as to be integrated with the bottom wall 46.

  As shown in FIGS. 1, 2, 4 and 5, the fitting portion 43 has a form extending downward from the lower surface of the tubular portion 42, and a seal ring is provided on the outer periphery of the fitting portion 43. R is fitted. The lower half of the terminal body 21 of the three terminals 20 is buried in the fitting part 43 at a time, and the device-side connection part 24 of the terminal 20 is provided below the fitting part 43. 43 is provided so as to protrude downward from the lower surface.

  Behind the device-side connection portion 24, a device-side nut housing portion 49 provided for each terminal so as to be continuous with the lower end portion of the fitting portion 43 is provided so as to be connected to the left and right. The device-side nut housing 49 is open downward, and the nut N is housed in the device-side nut housing 49 in a press-fit state from a lower end opening.

  The terminal block 10 is formed by performing resin molding twice. More specifically, the terminal block 10 first forms a primary molded product 61 including the terminal 20 and the molded portion 62, and three primary molded products 61 are arranged in the left-right direction to form a primary molded product group 60. The primary molded product group 60 is formed as a core in a molding die, and the secondary molded portion 70 is molded. That is, the housing 40 is configured such that the mold part 62 of the primary molded product 61 and the secondary molded part 70 are integrated.

Hereinafter, the primary molded product 61 and the secondary molded portion 70 will be described.
As described above, the terminal 20 in the primary molded product 61 is a terminal 20 having a bent portion 22 formed by punching out a thick metal plate by press working and performing bending.

By the way, in the terminal 20, when the bent portion 22 is formed by bending a thick metal plate material, the outer peripheral edge of the side portion 22 </ b> A extending along the plate thickness direction of the bent portion 22 is located outside the bent portion 22. As the outer curved surface 31 extends, the thinned portion 34 is reduced in thickness inward in the left-right direction. In addition, at the inner peripheral edge of the side portion 22A of the bent portion 22, the inner curved surface 30 of the bent portion 22 bends, so that there is excess space that bulges outward. That is, the side portion 22A of the bent portion 22 becomes wider from the outside to the inside.
Therefore, by performing press working or the like for processing the excess thickness generated on the side portion 22A of the bent portion 22 into a planar shape, the inner peripheral edge of the side portion 22A of the bent portion 22 is formed as shown in the schematic diagram of FIG. Then, a planar portion 32 having a planar shape is formed. As shown in FIG. 15, the flat portion 32 is formed flush with the connecting portion-side flat portion 27 and the main body-side flat portion 25. That is, the side portion 22A of the bent portion 22 has the flat surface portion 32 at the inner peripheral edge thereof, and the thinned portion 34 of the form thinner and narrower than the flat surface portion 32 at the outer peripheral edge thereof. It has become. Note that the other configuration of the terminal 20 is redundant, and thus the description is omitted.

  The molded portion 62 of the primary molded product 61 roughly constitutes the cover portion 41 of the housing 40 and has a rectangular block shape. As shown in FIGS. 8, 11, and 12, the molded portion 62 includes a connection portion covering portion 63 that embeds a lower end portion of the wire-side connection portion 23 and a bent portion that embeds the inner curved surface 30 of the bent portion 22. A cover portion 64; a main body cover portion 65 for embedding a portion near the upper end of the terminal main body 21; and a nut housing portion 66 integrally formed so as to be continuous with the three cover portions 63, 64, 65. Have been.

  As shown in FIGS. 10 to 13, the connecting portion covering portion 63 covers the lower half of the connecting portion side flat portion 27 except the rear end portion 27 </ b> A of the connecting portion side flat portion 27 from the side, and also connects the electric wire side connecting portion. The left and right ends of the lower surface of the 23 are covered from below. Therefore, the connection portion covering portion 63 is configured by exposing the rear end portion 27A of the connection portion side flat portion 27.

  As shown in FIGS. 8, 11 to 14, the bent portion covering portion 64 covers both side edges in the left-right direction of the inner curved surface 30 of the bent portion 22 from diagonally lower rear and the rear end of the connecting portion covering portion 63. The bent portion covering portion 64 is formed by exposing both side portions 22 </ b> A of the bent portion 22.

  As shown in FIGS. 10 to 12, the main body cover portion 65 is connected to the lower end portion of the bent portion cover portion 64 so that the upper end portion of the front surface 21A of the terminal main body 21 and the upper end portion 25A of the main body side flat portion 25 are connected. The terminal body 21 is formed so as to cover a portion near the upper end of the terminal body 21 except for the entire circumference. Therefore, the main body cover portion 65 is configured by exposing the upper end portion 25A of the main body side flat portion 25.

  That is, the right and left side portions 22A of the bent portion 22, the rear end portion 27A of the connection portion side flat portion 27 adjacent to the bent portion 22 and the connection portion cover portion 63, and adjacent to the bent portion 22 and the main body cover portion 65 The upper end portion 25A of the main body side flat portion 25 is exposed from the mold portion 62 as shown in FIGS. 8, 11, 15, and 17, and the rear end portion 27A of the connection portion side flat portion 27. The flat portion 32 of the bent portion 22 and the upper end portion 25 </ b> A of the main body side flat portion 25 of the terminal main body 21 form a resin cutting surface 33 that is continuous along the side surface of the terminal 20.

  The nut accommodating portion 66 constitutes the nut accommodating portion 45 of the housing 40. As shown in FIGS. 12 and 13, the lower end portion of the connecting portion covering portion 63, the rear end portion of the bent portion covering portion 64, and The lower end portion is formed so as to be continuous with the rear end portion of the main body cover portion 65, and as shown in FIG. 11, is formed in a box shape having a substantially rectangular shape in a side view. Note that the structure of the nut housing portion 66 is the same as the structure of the nut housing portion 45 described above, and a description thereof will be omitted. Further, when the primary molded product 61 is completed in the nut housing portion 66, the nut N is inserted, and the secondary molded portion 70 is formed using the primary molded product 61 in a state where the nut N is accommodated as a core. .

  The secondary molded portion 70 roughly constitutes the cylindrical portion 42, the fitting portion 43, and the device-side nut accommodating portion 49 of the housing 40, and the bottom wall 46 of the cylindrical portion 42 is primarily molded. By being formed continuously with the lower end of the molded portion 62 of the product 61, the primary molded product 61 and the secondary molded portion 70 are integrally fixed, and the terminal block 10 is configured.

The present embodiment is configured as described above. Next, a procedure for assembling the terminal block 10 will be briefly described, and its operation and effects will be described.
In assembling the terminal block 10, first, a plurality of primary molded products 61 are molded.
The primary molded product 61 is formed by forming a terminal 20 by stamping and bending a thick metal plate material, and setting the terminal 20 in a molding die (not shown).

  Here, when the terminal 20 is set in the molding die, in the terminal main body 21 of the terminal 20, the position slightly above the seal attachment portion 26 is pressed by the molding die over the entire circumference, and The upper end portion 25A of the main body side flat portion 25 and the upper end portion of the front surface 21A of the terminal main body 21 are pressed by the molding die. In the electric wire side connection portion 23 of the terminal 20, the rear end portion 27 </ b> A of the connection portion side flat portion 27 and the upper half of the connection portion side flat portion 27 are pressed by a molding die, and The flat portions 32 in the side portions 22A on both sides are in a pressed state. That is, on both side surfaces of the terminal 20, the resin cutting surface 33 is pressed by the molding die.

  In this state, when the molding resin is injected into the molding die, the resin is cut off at the portion where the terminal 20 and the molding die are in contact with each other, and the molded portion 62 is molded. The integrally molded primary molded product 61 is completed.

  By the way, for example, when a terminal having a bent portion is formed by pressing a thick metal plate material, but a flat portion is not formed on the side surface of the bent portion, the side surface of the bent portion is formed by pressing. The surplus that has been produced remains. Then, when the terminal is set in the molding die, the excess thickness interferes with the molding die, so that the terminal cannot be set in the molding die.

  Even if the terminal can be set in the molding die, when the side surface of the bending portion is pressed by the molding die, a gap may be formed between the side surface of the bending portion and the molding die, When the gap is formed, the resin leaks from the gap, so that the resin adheres to the outer curved surface of the bent portion and further to the connection surface of the electric wire side connection portion.

However, according to the present embodiment, when the terminal 20 is set in the molding die, the resin cutting surface 33 is pressed by the molding die on the side surface of the terminal 20, so that each of the cover portions 63, 64, 65 is formed. The molding resin for molding is securely cut off at the resin cutting surface 33, and is formed on the thinning portion 34 and the connecting surface 28 of the electric wire side connecting portion 23 which are arranged on the opposite side of the mold portion 62 from the flat portion 32. The mold part 62 is formed without the resin being attached.
Then, the molded part 62 is cooled and hardened, thereby completing the primary molded product 61 in which the terminal 20 and the molded part 62 are integrally fixed.

  That is, according to the present embodiment, the flat portion 32 is provided on the inner peripheral edge of the side portion 22A of the bent portion 22 that has been distorted by the press working, and the flat portion 32, the molding die, and the upper end portion 25A of the main body side flat portion 25 are provided. Since the molding resin can be cut off between the rear end portion 27A of the connecting portion side flat portion 27 and the molding die, that is, the resin cutting surface 33, the molding can be performed through the side portion 22A of the bent portion 22. It is possible to prevent the resin from adhering to the thinned portion 34 and the outer curved surface 31 of the bent portion 22 and the connection surface 28 of the electric wire side connection portion 23. Accordingly, it is possible to prevent the connection reliability between the electric wire side connection portion 23 and the counterpart terminal from being reduced.

  When a plurality of primary molded products 61 are completed in this way, three primary molded products 61 are arranged in the left-right direction to form a primary molded product group 60, and the primary molded product group 60 is used as a core to form a secondary molded product. By molding the molded portion 70, the terminal block 10 can be completed.

By the way, when the resin is cut off at the side portion 22A of the bent portion 22, for example, not only the inner peripheral edge portion on the side surface of the bent portion, but also a flat portion is provided on the entire side surface of the bent portion or the outer peripheral edge portion on the side surface of the bent portion. A method of eroding the molding resin is also conceivable.
However, when the thick metal plate is bent, the outer peripheral edge on the side surface of the bent portion is reduced inward in the left-right direction with the extension of the outer curved surface outside the bent portion, and the side surface of the bent portion is formed. In the inner peripheral edge portion, the inner curved surface inside the bent portion is bent, and the extra wall swells outward.

  Therefore, if it is attempted to control the width of the bent portion on the entire side surface of the bent portion or on the outer peripheral edge of the side surface, the width of the bent portion of each terminal varies. When setting such a terminal in a molding die, it is necessary to adjust the arrangement of the molding die for each terminal and bring the molding die into contact with the side surface of the bent portion. The work efficiency of the assembly work is reduced.

  However, according to the present embodiment, the excess bulge at the side portion 22A of the bent portion 22 is processed into a flat shape, and the connection portion side flat portion 27 of the wire side connection portion 23 and the main body side flat portion of the terminal body 21 are processed. The flat portion 32 is formed so as to be flush with 25. In other words, since the width of the bent portion 22 in the left-right direction is made equal to the width of the wire-side connection portion 23 and the terminal body 21 in the left-right direction, the primary mold is not adjusted for each terminal 20 without adjusting the arrangement of the molding die. The molded product 61 can be set in a molding die. Thus, it is possible to prevent the work efficiency of the assembling work of the terminal block 10 from being reduced.

  As described above, according to the present embodiment, when forming the primary molded product 61, it is assumed that the bent portion 22 is bent at a substantially right angle, and that the inner peripheral edge of the side portion 22A of the bent portion 22 has excess thickness. Also, a flat portion 32 is formed on the side portion 22A of the bent portion 22 that is distorted by the press working, and a resin cut surface 33 is provided on the side surface of the terminal 20, and a molding resin is formed between the resin cut surface 33 and the molding die. Therefore, it is possible to prevent the molding resin from adhering to the outer curved surface 31 of the bent portion 22 and the connection surface 28 of the electric wire side connection portion 23 through the side portion 22A of the bent portion 22. That is, it is possible to prevent a decrease in connection reliability between the electric wire side connection portion 23 and the counterpart terminal due to the resin adhering to the connection surface 28 of the electric wire side connection portion 23.

  That is, according to the present embodiment, the primary molded product 61 is formed into a molding die while preventing the resin leakage in the primary molded product 61 only by performing the planar processing only on the inner peripheral edge on the side surface of the bent portion 22. Since it can be set inside, when the thickness of the metal plate material increases and a distortion occurs in the pressed portion, it is very effective.

  Further, according to the present embodiment, the flat portion 32 is formed on the inner peripheral edge of the side portion 22 </ b> A of the bent portion 22, and the width of the bent portion 22 in the left-right direction is adjusted in the left-right direction of the electric wire side connection portion 23 and the terminal body 21. Since the width dimensions are aligned, for example, compared to the case where the width dimension of the bent part is set based on the entire side surface of the bent part or the outer peripheral edge part on the side surface of the bent part, the dimensional management of the width dimension of the entire terminal 20 is performed. Can be easier. Thereby, the primary molded product 61 can be set in the molding die without adjusting the arrangement of the molding die for each terminal 20, and the work efficiency of assembling the terminal block 10 is prevented from being reduced. be able to.

<Other embodiments>
The technology disclosed in the present specification is not limited to the embodiments described above and illustrated in the drawings, and includes, for example, the following various aspects.
(1) In the above embodiment, the terminal block 10 in which the flat portion 32 is formed in the bent portion 22 of the terminal 20 has been described as an example. However, the present invention is not limited to this, and the technique disclosed in this specification may be applied when a metal molded product is formed by insert-molding a metal bracket, a metal plate, or the like on a synthetic resin portion.

(2) In the above embodiment, the flat portion 32 is formed in the bent portion 22 that is bent at a substantially right angle. However, the present invention is not limited to this, and a flat portion may be formed at a bent portion bent at an obtuse angle or an acute angle, or a flat portion may be formed at a portion where a plate material is perforated by press working.
(3) In the above-described embodiment, the flat portion 32 is formed by pressing the excess thickness formed in the bent portion 22. However, the present invention is not limited to this, and the guides may be arranged on both side surfaces of the terminal, and when forming the bent portion, the flat portions may be formed on both side surfaces of the bent portion by the guide.

10: Terminal block (resin molded product)
20: Terminal (metal member)
21: Terminal body (body part)
22: Bending part (press processing part)
22A: Bend side 23: Wire side connection (connection)
30: inner curved surface 32: flat portion 34: thinned portion 40: housing (resin portion)
62: Mold part

Claims (2)

A plate-shaped metal member, and a resin portion made of synthetic resin,
The metal member has a bent portion,
The resin portion has a mold portion that covers a part of the bent portion,
The bending portion,
An inner curved surface facing the mold portion and covered by the mold portion,
An outer curved surface arranged on the opposite side to the inner curved surface in the thickness direction of the metal member,
A pair of side portions that respectively connect both end portions of the inner curved surface and the outer curved surface,
The pair of side portions,
An inner peripheral edge arranged on the side of the inner curved surface in the thickness direction,
An outer peripheral edge disposed on the opposite side to the inner peripheral edge,
The inner peripheral portion has a flat portion formed in a flat shape,
A resin molded product in which a dimension between the outer peripheral edge portions disposed on the pair of side portions is smaller than a dimension between the flat portions formed on the pair of side portions. The metal member,
A connecting portion connected to one end of the bent portion and connectable to a counterpart conductor,
A main body connected to the other end of the bending portion,
The resin molded product according to claim 1, wherein the bent portion is bent such that an angle between the connection portion and the main body portion is a right angle.

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