JP2021097050A - Resin molding - Google Patents

Abstract

To prevent work efficiency of a molding operation from reducing while preventing a resin from leaking.SOLUTION: A resin molding disclosed in the specification comprises: a flexure part 22 that is a terminal board 10 on which a plate-like terminal 20 and a housing 40 made of a synthetic resin are integrally fixed and that is provided in a flexure state to the terminal 20; a terminal main body 21 and an electric wire side connection part 23 communicated with both end parts of the flexure part 22; a mold part 62 that embeds a part of the terminal main body 21 and the electric wire side connection part 23 with an inner flexure surface 30 of the flexure part 22; a main body side plane part 25 and a connection part side plane part 27 that are exposed from the mold part 62 in both side edge surfaces of the terminal main body 21 and the electric wire side connection part 23 and that are provided in a plane state so as to be adjacent to the mold part 62; and a plane part 32 that is exposed from the mold part 62 in both side surfaces 22A of the flexure part 22 and that is provided in the plane state so as to be adjacent to the mold part 62.SELECTED DRAWING: Figure 1

Description

The techniques disclosed herein relate to resin articles.

As a terminal block formed so that a conductive plate having a bent portion formed by bending in an L shape and a connector housing made of synthetic resin are integrally fixed, Japanese Patent Application Laid-Open No. 2012-195067 (Patent Document 1 below). The ones described in are known.
When assembling this terminal block, first, a metal plate material is punched out by press working and bent to form an L-shaped curved conductive plate. When the conductive plate is formed, the conductive plate is set in the molding die, the molding resin is poured into the molding die, and the primary molded body is molded by the primary molding. Then, the connector housing is molded by secondary molding using this primary molded body as a core.

Japanese Unexamined Patent Publication No. 2012-195067

By the way, when the thickness of the conductive plate is increased, the outer peripheral portion on the side surface of the bent portion is in a thinned state due to bending, and the inner peripheral portion on the side surface of the bent portion has a surplus thickness that bulges outward. , The side portion of the bent portion is distorted.
Therefore, if the resin is cut off between the side edge of the bent portion and the molding die for forming the connector housing to form the connector housing, the side edge of the bent portion and the connector housing are formed due to the influence of the surplus thickness. A gap is created between the molding die and the resin to leak at the bent portion.

Therefore, it has been studied to shape the side edge portion of the bent portion into a flat surface and to cut off the molding resin by bringing the side edge portion of the bent portion into surface contact with the molding die.
However, when the entire side edge portion or the outer peripheral edge portion of the bent portion is shaped into a plane with reference to the outer peripheral edge portion, the width dimension of the bent portion varies. Therefore, when the connector housing is molded, it is necessary to adjust the arrangement of the molding dies for each conductive plate, which reduces the efficiency of the connector housing molding work.

In the present specification, a technique for preventing a decrease in work efficiency of molding work while preventing resin leakage is disclosed.

The technique disclosed in the present specification is a resin molded product in which a plate-shaped metal member and a resin portion made of synthetic resin are integrally fixed, and a bent portion provided in a bent form on the metal member. , A part of the pair of flat plates is embedded together with a pair of flat plates extending in a flat plate shape so as to be continuous with both ends of the bent portion in the metal member and an inner surface of the bent portion. The mold portion integrally provided with the resin portion and the both side edge portions extending along the extending direction of the pair of flat plate portions are provided in a plane shape and are adjacent to the mold portion so as to be exposed from the mold portion. The flat plate portion side flat portion arranged in this way and the inner peripheral edge portions of the both side edge portions extending along the bending direction in the bent portion are provided in a flat shape so as to be flush with the flat plate portion side flat surface portion. , A flat portion arranged adjacent to the mold portion so as to be exposed from the mold portion is provided.

For example, when a molding mold for molding a resin portion is brought into contact with a side portion of a bent portion that is distorted by bending a thick metal plate to cut off the molding resin, resin leakage occurs from the distorted portion. However, according to the resin molded product having the above configuration, the flat surface portion on the flat plate portion side of the pair of flat plate portions and the inner peripheral edge portion of the bent portion are provided flush with the flat surface portion on the flat plate portion side. Since the molding resin can be cut off by bringing the molding mold into contact with the flat surface portion, it is possible to prevent resin leakage from occurring at the side edge portion of the bent portion.

Further, the flat surface portion provided on the inner peripheral edge portion of the side edge portion of the bent portion and the flat plate portion side flat surface portion of the pair of flat plate portions are formed flush with each other, and the width dimension of the pair of flat plate portions and the bent portion is the same. Therefore, the metal member can be set in the molding die based on the width dimension of the flat plate portion having high dimensional stability. Therefore, for example, the entire side edge portion or the bent portion is set based on the outer peripheral edge portion of the bent portion. It is possible to prevent the work efficiency of the assembling work of the resin molded product from being lowered as compared with the case where a flat surface portion is provided on the outer peripheral edge portion of the above and the arrangement of the molding die is adjusted for each terminal.

The resin molded product disclosed by the present specification may have the following constitution.
The pair of flat plate portions may be configured to be a connecting portion that can be connected to the other conductor.
For example, if the bent portion is provided with a series of connecting portions, if a resin leak occurs at the bent portion, the molding resin adheres to the connecting surface of the connecting portion, and the connection reliability between the mating conductor and the connecting portion is established. I hate that my sexuality deteriorates.
However, according to such a configuration, the bent portion is processed into a flat surface to form a flat surface portion that is flush with the flat plate portion side flat surface portion, and the flat plate portion side flat surface portion, the flat surface portion, and the molding die are used. Since the resin can be cut off, it is very effective in preventing the resin from leaking to the connection portion.

According to the technique disclosed in the present specification, it is possible to prevent the work efficiency of the molding operation from being lowered while preventing the resin from leaking.

Perspective view of terminal block Same rear view Same plan view Same side view Cross-sectional view taken along the line AA of FIG. BB line sectional view of FIG. Cross-sectional view taken along the line CC of FIG. Perspective view of the primary molded product group Same plan view Same rear view Side view of primary molded product FIG. 9 is a cross-sectional view taken along the line DD EE line sectional view of FIG. FIG. 9 is a sectional view taken along line FF. Perspective view of terminals Same plan view Same side view Schematic diagram of the cross section of the bent part

<Embodiment>
The embodiment will be described with reference to FIGS. 1 to 18.
This embodiment illustrates 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) arranged in the case. It relays between the side terminal and the other terminal (an example of "the other conductor") provided on the terminal of the wire harness (not shown). In the following description, the left-right direction is based on the left-right direction in FIGS. 2 and 10, and the up-down direction is based on the up-down direction in FIGS. 2 and 10. Further, the front-rear 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 integrated with the three terminals (an example of a "metal member") 20 and the three terminals 20 in a state of being arranged in the left-right direction. It is configured to include 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 material having excellent conductivity by press working and bending it or the like. Further, the terminal 20 includes a flat plate-shaped terminal body (an example of a "flat plate portion") 21 extending vertically, a bent portion 22 provided at the upper end of the terminal body 21, and an electric wire extending rearward from the bent portion 22. It is configured to include a side connection portion (an example of a "flat plate portion" and a "connection portion") 23, and a flat plate-shaped device side connection portion 24 provided at the lower end portion of the terminal body 21. Of the three terminals 20, the left and right terminals 20 are bent in the left-right direction on the upper side of the terminal body 21, but the other structures are common. Therefore, the terminals 20 on the right side of the drawings in FIGS. 1 and 8 are used. I will explain as a representative.

As shown in FIGS. 1 and 5, all parts of the terminal body 21 except for the upper end and the lower end of the terminal body 21 are embedded in the housing 40 and extend in the vertical direction at the upper end of the terminal body 21. As shown in FIGS. 15 and 17, the side surfaces on both sides in the left-right direction are a flat main body-side flat portion (an example of a "flat plate portion-side flat portion") 25 extending straight in the vertical 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 of the terminal body 21 in the vertical direction, and the seal attachment portion 26 is provided. By attaching a sealing agent to the portion 26 and burying it in the housing 40, the interface between the seal-attached portion 26 and the housing 40 is stopped from water.

As shown in FIGS. 5, 11 and 15, the bent portion 22 is connected to the upper end of the terminal main body 21 and to the front end of the electric wire side connecting portion 23, and is connected to the rear end from the upper end of the terminal main body 21. It is formed by bending it at a substantially right angle. Therefore, as shown in FIGS. 15 and 17, the left and right side surfaces 22A extending in the bending direction of the bent portion 22 are in a state in which the outer peripheral edge portion is curved more gently than the inner peripheral edge portion as the bent portion 22 is bent. It has become.

As shown in FIGS. 15 to 17, the electric wire side connecting portion 23 has a flat plate shape, and the side surfaces of the electric wire side connecting portion 23 extending in the extending direction in the left-right direction are flat connecting portions extending in the front-rear direction. It is said to be a flat surface portion (an example of a flat surface portion on the flat plate portion side) 27. The upper surface of the electric wire side connecting portion 23 is a connecting surface 28 that is bolted to the mating terminal, and the electric wire side connecting portion 23 is provided with a bolt hole 29 that penetrates in the vertical direction, which is the plate thickness direction. A mating terminal is placed on the connecting surface 28 of the electric wire side connecting portion 23, and a bolt (not shown) is inserted into the bolt hole 29 to be bolted to the mating terminal.

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

The covering portion 41 embeds the lower half of the electric wire side connecting portion 23 except for the rear end portion 27A of the connecting portion side flat portion 27 and the inner curved surface 30 inside the bent portion 22, and also embeds the inner curved surface 30 of the terminal main body 21. It is formed in a block shape in which a portion near the upper end of the terminal body 21 excluding the upper end portion 25A of the terminal body 21 and the upper end portion on the front surface of the terminal body 21 is embedded. Further, each covering portion 41 is connected by a rib-shaped connecting portion 44 provided between adjacent covering 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 up and down, and the thickness dimension of the nut N is about twice the plate thickness dimension of the terminal 20. In other words, the plate thickness dimension of the terminal 20 is set to about half the thickness dimension of the nut N.

The nut accommodating portion 45 is formed by opening upward and rearward, and the nut N is accommodated in a press-fitted state from the rear end opening. The upper end opening of the nut accommodating portion 45 is closed by the electric wire side connecting portion 23, and when the nut N is accommodated in a regular position in the nut accommodating portion 45, as shown in FIG. The lower surface of the electric wire side connecting portion 23 and the upper surface of the nut N are in contact with each other up and down, and the bolt hole 29 of the electric wire side connecting 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 having a horizontally long and upward opening in the left-right direction and a bottom wall 46 at the lower end portion of the tubular portion 42. 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 in 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 formed on the outer periphery of the fitting portion 43. R is fitted. Inside the fitting portion 43, the lower halves of the terminal bodies 21 of the three terminals 20 are collectively embedded, and below the fitting portion 43, the device-side connecting portion 24 of the terminal 20 is a fitting portion. It is arranged so as to project downward from the lower surface of the 43.

Behind the device-side connection portion 24, a device-side nut accommodating portion 49 provided for each terminal so as to be connected to the lower end portion of the fitting portion 43 is provided to be connected to the left and right. The device-side nut accommodating portion 49 is opened downward, and the nut N is accommodated in the device-side nut accommodating portion 49 in a press-fitted state from the lower end opening.

By the way, the terminal block 10 is configured by performing resin molding in two steps. Specifically, the terminal block 10 first constitutes a primary molded product 61 composed of a terminal 20 and a mold portion 62, and three primary molded products 61 are arranged in the left-right direction to form a primary molded product group 60. Then, the primary molded product group 60 is set as a core in the molding die, and the secondary molded portion 70 is molded. That is, the housing 40 is configured such that the mold portion 62 of the primary molded product 61 and the secondary molded portion 70 are integrated.

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

By the way, when the bent portion 22 is formed by bending a thick metal plate material at the terminal 20, the outer peripheral edge portion on the side surface 22A of the bent portion 22 is inside in the left-right direction as the outer curved surface 31 outside the bent portion 22 extends. It will be in a state of being thinned toward. Further, on the inner peripheral edge portion of the side surface 22A of the bent portion 22, the inner curved surface 30 of the bent portion 22 is bent and a surplus wall portion that bulges outward is generated. That is, the side surface 22A of the bent portion 22 becomes wider from the outside to the inside.
Therefore, by performing a press working or the like to process the surplus wall formed on the side surface 22A of the bent portion 22 into a flat surface, the inner peripheral edge portion on the side surface 22A of the bent portion 22 is formed as shown in the schematic view of FIG. A flat surface portion 32 having a flat shape is formed. Further, as shown in FIG. 15, the flat surface portion 32 is formed flush with the connecting portion side flat surface portion 27 and the main body side flat surface portion 25. Since the other configurations of the terminal 20 are duplicated, the description thereof will be omitted.

The molded portion 62 of the primary molded product 61 roughly constitutes the covering portion 41 of the housing 40, and has a square block shape. Further, as shown in FIGS. 8, 11 and 12, the mold portion 62 includes a connection portion covering portion 63 for embedding the lower end portion of the electric wire side connecting portion 23 and a bending portion for embedding the inner curved surface 30 of the bending 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 accommodating portion 66 integrally formed so as to be connected to these three cover portions 63, 64, 65 are provided. Has been done.

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 excluding the rear end portion 27A of the connecting portion side flat portion 27 from the side, and also covers the lower half of the connecting portion side flat portion 27 from the side. Both ends of the lower surface of the 23 in the left-right direction are covered from below. Therefore, the connecting portion covering portion 63 is configured by exposing the rear end portion 27A of the connecting portion side flat surface portion 27.

As shown in FIGS. 8 and 11 to 14, the bent portion covering portion 64 covers the left and right side edges of the inner curved surface 30 of the bent portion 22 diagonally from the lower rear to the rear end of the connecting portion covering portion 63. The bent portion covering portion 64 is formed so as to be continuous with the portions, and is configured by exposing both side surfaces 22A of the bent portion 22.

As shown in FIGS. 10 to 12, the main body covering portion 65 is connected to the lower end portion of the bent portion covering 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 to each other. It is formed so as to cover the portion of the terminal body 21 to be removed near the upper end over the entire circumference. Therefore, the main body covering portion 65 is configured by exposing the upper end portion 25A of the main body side flat portion 25.

That is, the left and right side surfaces 22A of the bent portion 22, the rear end portion 27A of the connecting portion side flat portion 27 adjacent to the bent portion 22 and the connecting portion covering portion 63, and the main body adjacent to the bent portion 22 and the main body covering portion 65. As shown in FIGS. 8, 11, 15 and 17, the upper end portion 25A of the side flat portion 25 is exposed from the mold portion 62, and is the rear end portion 27A of the connection portion side flat portion 27. The flat surface portion 32 of the bent portion 22 and the upper end portion 25A of the flat surface portion 25 on the main body side of the terminal main body 21 are formed as a resin cutting surface 33 which is lined up along the side surface of the terminal 20.

The nut accommodating portion 66 constitutes the nut accommodating portion 45 of the housing 40, and 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 nut accommodating portion 66. It is formed so as to be connected to the lower end portion and the rear end portion of the main body covering portion 65, and is formed in a box shape having a substantially rectangular shape in side view as shown in FIG. The structure of the nut accommodating portion 66 will not be described because it overlaps with the structure of the nut accommodating portion 45 described above. Further, when the primary molded product 61 is completed, the nut N is inserted into the nut accommodating portion 66, and the secondary molded portion 70 is formed by using the primary molded product 61 in the state of accommodating the nut N as a core. ..

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

This embodiment has the above-described configuration, and subsequently, a procedure for assembling the terminal block 10 will be briefly described, and its operation and effect will be described.
In assembling the terminal block 10, a plurality of primary molded products 61 are first molded.
In the primary molded product 61, a terminal 20 is first formed by punching and bending a thick metal plate material, and the terminal 20 is set in a molding die (not shown).

Here, when the terminal 20 is set in the molding die, in the terminal 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. 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. Further, in the electric wire side connecting portion 23 of the terminal 20, the rear end portion 27A of the connecting portion side flat portion 27 and the upper half of the connecting portion side flat portion 27 are pressed by the molding die, and in the bent portion 22, in the left-right direction. The flat surface portions 32 on the side surface 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 to form the mold portion 62, and the terminal 20 and the mold portion 62 are formed. The integrally fixed 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 subjected to the press working. The resulting surplus meat remains. Then, when the terminal is set in the molding die, the residual thickness interferes with the molding die, so that the terminal cannot be set in the molding die.

Even if the terminals can be set in the molding die, when the side surface of the bent portion is pressed by the molding die, a gap may be formed between the side surface of the bent portion and the molding die. When a gap is formed, resin leaks from the gap, so that the resin adheres to the outer curved surface of the bent portion and further to the connecting surface of the electric wire side connecting 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 the covering portions 63, 64, 65 The molding resin for molding is surely cut off at the resin cutting surface 33, and the molding portion 62 is molded without the molding resin adhering to the connecting surface 28 of the electric wire side connecting portion 23 and the outer curved surface 31 of the bent portion 22. ..
Then, the mold portion 62 is cooled and cured to complete the primary molded product 61 in which the terminal 20 and the mold portion 62 are integrally fixed.

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

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 for secondary molding. The terminal block 10 can be completed by molding the molded portion 70.

By the way, when the resin is cut off on the side surface 22A of the bent portion 22, for example, a flat surface portion is provided not only on the inner peripheral edge portion on the side surface of the bent portion but also on the entire side surface portion of the bent portion or the outer peripheral edge portion on the side surface of the bent portion. A method of cutting off the resin is also conceivable.
However, when the thick metal plate is bent, the outer peripheral edge portion on the side surface of the bent portion is in a state of being thinned inward in the left-right direction as the outer curved surface on the outside of the bent portion extends, and the side surface of the bent portion is bent. In the inner peripheral edge portion of the above, the inner curved surface inside the bent portion is bent, and a surplus thickness that bulges outward is generated.

Therefore, if an attempt is made to control the width dimension of the bent portion on the entire side surface of the bent portion or the outer peripheral edge portion of the side surface, the width dimension of the bent portion of each terminal will vary. When setting such a terminal in the molding die, it is necessary to adjust the arrangement of the molding die for each terminal so that the molding die is brought 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 bulging surplus on the side surface 22A of the bent portion 22 is processed into a flat surface to form a flat surface portion 27 on the connecting portion side of the electric wire side connecting portion 23 and a flat surface portion 25 on the main body side of the terminal body 21. The flat surface portion 32 is formed so as to be flush with each other. That is, since the width dimension of the bent portion 22 in the left-right direction is aligned with the width dimension of the electric wire side connection portion 23 and the terminal body 21 in the left-right direction, the primary arrangement of the molding die is not adjusted for each terminal 20. The molded product 61 can be set in the molding mold. This makes it possible to prevent the work efficiency of the terminal block 10 assembly work from being lowered.

As described above, according to the present embodiment, even if the bent portion 22 is bent at a substantially right angle when the primary molded product 61 is molded, and a surplus thickness is generated on the inner peripheral edge portion on the side surface 22A of the bent portion 22. A flat surface portion 32 is formed on the side surface 22A of the bent portion 22 distorted by the pressing process, a resin cutting surface 33 is provided on the side surface of the terminal 20, and the molding resin is eaten between the resin cutting surface 33 and the molding die. Since it can be cut, it is possible to prevent the molding resin from adhering to the outer curved surface 31 of the bent portion 22 and the connecting surface 28 of the electric wire side connecting portion 23 through the side surface 22A of the bent portion 22. That is, it is possible to prevent the connection reliability between the electric wire side connecting portion 23 and the mating terminal from being lowered due to the resin adhering to the connecting surface 28 of the electric wire side connecting portion 23.

That is, according to the present embodiment, only the inner peripheral edge portion on the side surface of the bent portion 22 is subjected to flat processing, and the primary molded product 61 is molded into a molding die while preventing resin leakage in the primary molded product 61. Since it can be set inside, it is very effective when the pressed portion is distorted due to an increase in the thickness of the metal plate material.

Further, according to the present embodiment, a flat surface portion 32 is formed on the inner peripheral edge portion of the side surface 22A of the bent portion 22, and the width dimension of the bent portion 22 in the left-right direction is set to the width of the electric wire side connecting portion 23 and the terminal body 21 in the left-right direction. Since the dimensions are aligned, it is easier to manage the width dimension of the entire terminal 20 than, for example, when setting the width dimension of the bent portion based on the entire side surface of the bent portion or the outer peripheral edge portion on the side surface of the bent portion. Can be. As a result, 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 it is possible to prevent the work efficiency of the assembly work of the terminal block 10 from being lowered. be able to.

<Other Embodiments>
The techniques disclosed herein are not limited to the embodiments described above and in the drawings, and include, for example, various aspects such as:
(1) In the above embodiment, the terminal block 10 in which the flat surface portion 32 is formed on the bent portion 22 of the terminal 20 is shown as an example. However, the present invention is not limited to this, and the technique disclosed in the present specification may be applied when a metal bracket, a metal plate, or the like is insert-molded into a resin portion made of synthetic resin to form a resin molded product.
(2) In the above embodiment, the flat surface portion 32 is formed in the bent portion 22 bent at a substantially right angle. However, the present invention is not limited to this, and a flat surface portion may be formed in a bent portion bent at an obtuse angle or an acute angle.

10: Terminal block (resin molded product)
20: Terminal (metal member)
21: Terminal body (flat plate)
22: Bent part 23: Wire side connection part (flat plate part, connection part)
25: Main body side flat part (flat plate side flat part)
27: Connection part side flat part (flat plate part side flat part)
30: Inner curved surface (inner surface of bent part)
32: Flat surface portion 40: Housing (resin portion)
62: Mold part

Claims (2)

It is a resin molded product in which a plate-shaped metal member and a resin portion made of synthetic resin are integrally fixed.
A bent portion provided in a bent form on the metal member,
A pair of flat plate portions extending in a flat plate shape so as to be continuous with both ends of the bent portion in the metal member.
A mold portion integrally provided with the resin portion so as to embed a part of the pair of flat plate portions together with the inner surface of the bent portion.
In the pair of flat plate portions, a flat plate portion side flat portion provided flat on both side edges extending along the extending direction and arranged so as to be adjacent to the mold portion so as to be exposed from the mold portion.
The inner peripheral edges of both side edges extending along the bending direction in the bent portion are provided in a flat shape so as to be flush with the flat surface portion on the flat plate portion side, and the molded portion is exposed so as to be exposed from the mold portion. A resin molded product having flat surfaces arranged next to each other. The resin molded product according to claim 1, wherein the pair of flat plate portions are connection portions that can be connected to the other conductor.

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