KR20190119519A - Drain valve driving device - Google Patents

Abstract

A driving device helps to miniaturize a terminal sheet part and a terminal cover. The driving device of the present invention includes a housing, a driving source, a metal terminal and a terminal cover, wherein the housing comprises: a main body part; and a terminal sheet part manufactured of an insulation material protruding from the main body part. The driving source is installed on the main body part. The metal terminal is supported on the terminal sheet part and is electrically connected to the driving source. The terminal cover is manufactured of the insulation material, and also is detachably mounted on the terminal sheet part in a manner of clothing the metal terminal. The metal terminal includes a first terminal and a second terminal. The terminal cover has a separation partition. The separation partition separates the first terminal and the second terminal.

Description

Drain valve driving device {DRAIN VALVE DRIVING DEVICE}

The present invention relates to a drive device, and more particularly to a drive device having a drive source and two metal terminals electrically connected to the drive source.

7 and 8, the conventional driving device includes a housing 1X, a driving source, a metal terminal 2X and a terminal cover 4X, and the housing 1X includes a main body 10X and A terminal sheet portion 123X, which is an insulating material protruding from the main body portion 10X, a driving source is installed in the main body portion 10X, and a metal terminal 2X is provided in the terminal sheet portion 123X, Electrically connected, the terminal cover 4X is made of an insulating material and detachably mounted to the terminal sheet part 123X in a manner of covering the metal terminal 2X.

However, the driving device, as shown in FIG. 8, has a second terminal soldered to the first terminal 21X and a second conductor 3BX connected to the metal terminal 2X by the first conductor 3AX. And a first terminal 21X and a second terminal 22X to prevent the first terminal 21X and the second terminal 22X from being shorted to each other due to metal debris generated during soldering or the like. ) Is spaced apart by a relatively large distance, which is disadvantageous in miniaturization of the terminal sheet portion 123X and the terminal cover 4X.

(Patent Document 1) CN 104264423 B

The present invention has been completed in order to solve the above problems, and an object of the present invention is to provide a driving device that helps to miniaturize the terminal sheet portion and the terminal cover.

In order to achieve the above object, the present invention includes a housing, a driving source, a metal terminal and a terminal cover, wherein the housing includes a main body portion and a terminal sheet portion which is an insulating material protruding from the main body portion, and the driving source includes the main body portion. And the metal terminal is supported by the terminal sheet part and electrically connected to the driving source, and the terminal cover is made of an insulating material and detachably mounted to the terminal sheet part in a manner of covering the metal terminal. And a metal terminal including a first terminal and a second terminal, wherein the terminal cover includes a separation partition, and the separation partition separates the first terminal from the second terminal. .

According to the driving device of the present invention, the terminal cover has a separation partition wall, and the separation partition spaces the first terminal and the second terminal, and therefore, even if the distance between the first terminal and the second terminal is relatively small, the first The terminal and the second terminal can be prevented from being shorted to each other due to metal debris generated when soldering and solder are connected, thereby reducing the size of the terminal sheet portion and the terminal cover, further reducing the overall size of the drive device. You can.

In addition, according to the driving device of the present invention, since the separating partition wall separating the first terminal and the second terminal is provided in the terminal cover, unlike the case where the separating partition wall is provided in the terminal sheet portion, the first terminal and the second terminal It is possible to avoid limiting the soldering work by the separating partition wall when connecting the lead wires and the soldering, which helps to improve the welding work efficiency.

In the driving device of the present invention, preferably, the driving device includes a first conductive wire and a second conductive wire, one end of the first conductive wire is soldered to the first terminal, and the other end of the first conductive wire is an external power source. One end of the second lead is soldered and connected to the second terminal, the other end of the second lead is connected to an external power source, and the separation partition is positioned between the first lead and the second lead. .

According to the driving device of the present invention, since the first lead wire and the second lead wire connected to the external power supply are directly soldered to the first terminal and the second terminal, the first lead wire and the second lead wire are connected by using a connector having a metal terminal. The cost of materials can be saved as compared with the case where the lead is soldered to the first terminal and the second terminal.

In addition, in the driving apparatus of the above structure, a first fastening groove and a second fastening groove are formed in the terminal cover, the first fastening groove and the main body part sandwiching the first conductor, and the second fastening groove and the A structure in which the main body portion sandwiches the second conductive wire can be adopted.

According to the driving device having the above structure, the movement of the first lead and the second lead can be restricted by using the first fastening groove and the second fastening groove, so that the first lead, It helps to prevent the connection of the second lead, the first terminal, and the second terminal to become unstable.

In addition, in the drive device of the above structure, the housing is provided with a first position limiting portion and a second position limiting portion, the first position limiting portion is formed integrally with the main body portion, alone or together with the main body portion The first conductive line is sandwiched, and the second position limiting portion is integrally formed with the main body portion, and the structure may be further adopted to sandwich the second conductive line alone or together with the main body portion.

Here, the so-called "holding the conductor" refers to a situation in which an interval between two clamping portions that sandwich the first conductor and the second conductor in the assembled state is equal to the diameter of the conductor (that is, in the assembled state, the two clamping portions are the first conductor, Not limited to the situation in which the first conductor and the second conductor contact each other from both sides facing each other in the radial direction of the second conductor, and the gap between the two sandwiching portions sandwiching the first conductor and the second conductor is the first conductor, the second conductor. Slightly larger than the diameter of the two conductors (i.e. the spacing of the two clamping portions is no more than 1.5 times the diameter of the first and second conductors, or at least one of the two clamping portions is not in contact with the first, Case).

According to the driving device having the above structure, since the first position limiting portion and the second position limiting portion are integrally formed with the main body portion in the housing, the first lead and the second lead directly connected to the external power source are directly connected to the first terminal and the second terminal. And soldering connection, the first lead wire and the second lead wire can be clamped using the first position limiter and the second position limiter (or the first position limiter, the second position limiter and the main body). One end of the first lead and the second lead is shaken to help prevent a situation where it is not easy to perform the soldering operation.

Further, in the drive device of the above structure, the main body portion is provided with a wall portion extending along the mounting direction when the terminal cover is mounted so as to cover the terminal sheet portion, the first position limiting portion and the second position At least one of the restricting parts may include a fastening plate facing the wall part, an insertion plate provided in the terminal cover, and the insertion plate may be further adapted to be inserted between the fastening plate and the main body part.

According to the driving device of the above structure, when assembling the terminal cover to the terminal sheet portion, it is possible to guide the assembly of the terminal cover through the combination of the insertion plate, the fastening plate, and the main body portion, which helps to improve the assembly efficiency, and also fastening Even if an external force along the opposite direction of the plate and the wall portion acts on the terminal cover, the terminal cover is not easily separated from the terminal sheet portion.

In addition, in the drive device of the above structure, it is possible to further adopt a structure in which the width in the opposite direction of the fastening plate and the wall portion of the insertion plate decreases closer to the terminal sheet portion.

According to the driving apparatus of the above structure, when assembling the terminal cover to the terminal sheet portion, the insertion plate can be easily inserted between the fastening plate and the wall portion, thereby helping to improve the assembly efficiency.

In addition, in the drive device of the above structure, it is possible to further adopt a structure in which the separating partition wall extends along the mounting direction when the terminal cover is mounted so as to cover the terminal sheet portion.

In addition, in the drive device of the above structure, it may be further adopted that the insert plate is directly connected to the separation partition.

According to the drive device of the above structure, it helps to strengthen the overall strength of the terminal cover.

Further, in the drive device of the above structure, the fastening plate may further adopt a structure in contact with the insertion plate.

According to the driving apparatus of the above structure, the terminal cover can be more stably held in the terminal sheet portion.

Further, in the drive device of the above structure, the wall portion surrounds the cylindrical sidewall of the drive source, the terminal sheet portion protrudes radially outward from the cylindrical sidewall, and the first terminal and the second terminal are circumferentially of the cylindrical sidewall. Separated from, the separation partition may further adopt a structure extending along the axial direction of the cylindrical side wall.

In addition, in the drive device of the above structure, the housing further comprises a first housing and a second housing, the first housing is combined with the second housing to form a space for receiving the drive source, the first The first position limiting part and the second position limiting part are formed in the housing, and the structure in which the terminal sheet part is formed in the second housing may be further adopted.

In addition, in the driving apparatus of the above structure, a fastening fixing part is formed on one of the terminal sheet part and the terminal cover, and a fastening fixing part fastened and fixed to the fastening fixing part on the other of the terminal sheet part and the terminal cover. The structure formed can be further adopted.

According to the driving device of the above structure, the terminal cover can be easily detached from the terminal sheet portion.

In addition, in the drive device of the structure, the fastening fixing portion is a fastening ring that can be elastically deformed in a direction perpendicular to the mounting direction, the fastening portion is a fastening hook that can be inserted into the fastening ring further structure. Can be adopted.

According to the drive device of the above structure, it is possible to form the fastening fixing part and the fastening fixing part with a simple structure.

Further, in the drive device of the above structure, the drive device further includes a valve core and a power transmission assembly, the drive source is a motor, and the driving force of the motor is further transmitted to the valve core through the power transmission assembly. Can be adopted.

According to the present invention, the terminal cover is provided with a separating partition wall, and the separating partition wall separates the first terminal and the second terminal, so that the first terminal and the second terminal are separated even if the distance between the first terminal and the second terminal is relatively small. It is possible to avoid the terminals from being short-circuited with each other due to metal debris generated when connecting the lead wires and the solder, thereby reducing the size of the terminal sheet portion and the terminal cover and further reducing the overall size of the driving apparatus. Further, according to the present invention, since the separating partition wall separating the first terminal and the second terminal is provided in the terminal cover, unlike the case where the separating partition wall is installed in the terminal sheet portion, the first terminal and the second terminal are soldered with the conductors. It is possible to prevent the soldering operation from being limited by the separating partition at the time of connection, which helps to improve the soldering efficiency.

1 is a three-dimensional view schematically showing a driving apparatus of the embodiment of the present invention.
FIG. 2 is another three-dimensional view schematically showing the driving apparatus of the embodiment of the present invention at an angle different from that of FIG. 1, of which the illustration of the terminal cover is omitted.
3 is a local stereoscopic view schematically showing a connection portion between a metal terminal, a first lead wire and a second lead wire of the driving apparatus of the embodiment of the present invention.
4 is a cross-sectional view schematically showing the internal structure of the driving apparatus of the embodiment of the present invention.
Fig. 5 is a local three-dimensional view schematically showing the structure near the terminal cover of the driving apparatus of the embodiment of the present invention.
6 is a three-dimensional view schematically showing the structure of the terminal cover of the driving apparatus of the embodiment of the present invention.
FIG. 7 is a local stereoscopic view schematically showing the structure of the terminal seat portion and the terminal cover vicinity of the conventional driving apparatus.
Fig. 8 is a local three-dimensional view schematically showing the structure of the vicinity of the terminal sheet portion of the conventional drive device, of which the illustration of the terminal cover is omitted.

Hereinafter, the driving apparatus of the embodiment of the present invention will be described by combining FIGS. 1 to 6, wherein FIG. 1 is a three-dimensional view schematically showing the driving apparatus of the embodiment of the present invention, and FIG. Another three-dimensional view schematically showing the driving apparatus of the embodiment of the present invention at different angles, of which the illustration of the terminal cover is omitted, Figure 3 is a metal terminal and the first conductor of the driving apparatus of the present invention, Fig. 4 is a cross sectional view schematically showing the internal structure of the drive system according to the embodiment of the present invention, and Fig. 5 is near the terminal cover of the drive system according to the embodiment of the present invention. Fig. 6 is a schematic three-dimensional view showing the structure of the terminal cover of the driving apparatus of the embodiment of the present invention.

Here, for convenience of explanation, three directions that cross each other are described as X, Y and Z directions, and one side of the X direction is set to the X1 direction, and the other side of the X direction is set to the X2 direction. One side in the Y direction is set in the Y1 direction, the other side in the Y direction is set in the Y2 direction, one side in the Z direction is set in the Z1 direction, and the other side in the Z direction is set in the Z2 direction.

1, 2 and 4, the drive device includes a housing 1, a drive source 5, a metal terminal 2 and a terminal cover 4, the housing 1 is a main body portion ( 10) and a terminal sheet portion 123 made of an insulating material protruding from the main body portion 10, the driving source 5 is installed in the main body portion 10, and the metal terminal 2 is a terminal sheet portion. It is supported by the 123 and electrically connected to the driving source 5, the terminal cover 4 is made of an insulating material, is detachably mounted to the terminal sheet portion 123 in a manner to cover the metal terminal (2). .

In addition, as shown in Figure 2, the housing 1 has a position limiting portion 113, the position limiting portion 113 is formed integrally with the main body portion 10, and the main body portion 10 and The conductive wires 3 electrically connected to the metal terminals 2 are sandwiched together. Specifically, the housing 1 includes a first position limiting portion 113A and a second position limiting portion 113B, and the first position limiting portion 113A is integrally formed with the main body portion 10. The first conductor 3A included in the conductor 3 together with the main body 10 is sandwiched, and the second position limiting portion 113B is integrally formed with the main body 10, and the main body 10 and Together, the second lead 3B included in the lead 3 is sandwiched. More specifically, the housing 1 is made entirely of resin (but not limited thereto, and the material of the housing 1 can be appropriately selected as required), and the housing 1 is the first housing 11. And a second housing 12, and the first housing 11 and the second housing 12 are assembled along the Z direction and connected together through screws (not shown) to accommodate the driving source 5. Form a space for bonding. The first housing 11 has an upper wall 111 perpendicular to the Z direction and a cylindrical sidewall 112 that stands from the edge of the upper wall 111 toward the second housing 12, and the second housing 12. It has a bottom wall 121 perpendicular to the Z direction and a cylindrical side wall 122 having a notch standing up to one side of the first housing 11 from the edge of the bottom wall 121. Also, in the first housing 11, the upper wall 111 has a through portion 1111 for inserting a screw, and the cylindrical side wall 112 has a first wall portion 1121, a second wall portion and a first wall portion ( 1121 and a connecting wall connecting the second wall part, wherein the first wall part 1121 is located on the X1 direction side while being perpendicular to the X direction, and the first wall part 1121 is disposed from the upper wall 111 to the second wall. A tube width portion 11111 extending toward the housing 12 and extending from the first portion 11211 toward the second housing 12 and having a circumferential width of the cylindrical side wall 112 smaller than the tube width portion 11211. A narrow portion 1112, having a first position limiting portion 113A and a second position limiting portion 113B, the second wall portion being parallel to the first wall portion 1121 and located on the X2 direction side; The first position limiting portion 113A and the second position limiting portion 113B have a symmetrical structure, and as shown in FIG. 3, the position limiting portion 113 has a Y-direction (that is, the position limitation of the conductive line 3). Away from the body portion 10 of the vertical portions 1131A, 1131B and the vertical portions 1131A, 1131B, which are erected from the body portion 10 in a manner opposite to each other in the radial direction of the portion sandwiched by the portion 113). The vertical parts 1131A and 1131B and the opposite parts 1132 together with the main body part 10 surround the conductive wires 3 in the circumferential direction of the conductive wires 3, including the opposite parts 1132 connected to each other. The conducting wire 3 is sandwiched by (in the illustrated example, the vertical portions 1131A and 1131B are in contact with the conducting wire 3 simultaneously from both sides in the Y direction). In addition, in the second housing 12, the cylindrical side wall 122 includes a first wall portion 1221, a second wall portion, and a connecting wall connecting the first wall portion 1221 and the second wall portion, and the first wall portion ( 1221 is located on the X1 direction side perpendicular to the X direction, and further includes a terminal sheet portion for supporting the metal terminal 2 in a manner projecting radially outward from the cylindrical side wall 112 on the first wall portion 1221 ( 123 is formed, and the notch 12212 located on the Z1 direction side of the terminal sheet part 123 is formed so that the narrow width portion 12212 is inserted, and the second wall part is in the X2 direction side in parallel with the first wall part 1221. Located in In addition, as shown in FIG. 3, the terminal sheet portion 123 includes a bottom plate portion 1231, a side wall 1232, and a protrusion 1233, among which the bottom plate portion 1231 is perpendicular to the Z direction. The side wall 1232 protrudes from the edge of the bottom plate portion 1231 (specifically, the edge of the bottom plate portion 1231 in the X1 direction side and the edge of the Y1 direction side and the Y2 direction side) toward the first housing 11 side. In addition, a stepped portion is provided at the tip of the side wall 1232, and the protrusion 1233 protrudes from the center of the bottom plate portion 1231 toward the first housing 11 to be in contact with the metal terminal 2. 1 and 2, a fixing sheet 124 is further formed in the second housing 12, and the fixing sheet 124 is for connecting with other devices.

In addition, as shown in FIG. 2, the metal terminal 2 includes a first terminal 2A and a second terminal 2B, and the first terminal 2A and the second terminal 2B have a cylindrical sidewall ( It is separated in the circumferential direction of 112 and 122, and the 1st terminal 2A and the 2nd terminal 2B have the same structure. In addition, as described above, the driving device further includes a conducting wire 3, which includes a first conducting wire 3A and a second conducting wire 3B, and includes a first conducting wire 3A and a first conducting wire. The two conductive wires 3B have the same structure, and one end of the first conductive wire 3A is soldered and connected to the metal terminal 2A, and the other end of the first conductive wire 3A is connected to an external power source (not shown). One end of the second lead 3B is soldered and connected to the metal terminal 2B, and the other end of the second lead 3B is connected to an external power source. Specifically, as shown in FIG. 3, the metal terminal 2 includes a terminal body 21 and a connection plate 22, wherein a part of the terminal body 21 is formed of the body portion 10. Inserted inward, the connection plate 22 is connected to the terminal body 21 in a bent manner with respect to the terminal body 21, and a through hole 221 through which the core line of the conductive wire 3 is opened is opened. . In addition, one end of the first conductive wire 3A protrudes from the through hole of the connecting plate of the first terminal 2A and one end of the second conductive wire 3B is from the through hole of the connecting plate of the second terminal 2B. The protruding directions are the same, here all are X1 directions.

In addition, as shown in FIG. 2, the connecting portion CP of the metal terminal 2 and the conductive line 3 extends the portion where the conductive line 3 is sandwiched by the position limiting portion 113 and the main body portion 10. Direction (here Z direction). Specifically, as shown in FIGS. 2 and 3, the conductive wire 3 penetrates between the replacement portion 1132 and the main body portion 10, from between the replacement portion 1132 and the main body portion 10. It is bent toward the connection part CP of the metal terminal 2 and the conducting wire 3 in the direction distant from the main-body part 10 (here, X1 direction).

1, 4, and 5, the terminal cover 4 is detachably assembled to the terminal sheet part 123 in a manner surrounding the metal terminal accommodating space together with the housing 1. In addition, a fastening fastening part is formed on one side of the terminal sheet part 123 and the terminal cover 4, and a fastening fastening part which is inserted into and fastened to the fastening fastening part on the other side of the terminal sheet part 123 and the terminal cover 4 is formed. do. In addition, at least one side of the position limiting portion 113 and the main body portion 10 constitutes a fastening portion, and the terminal cover 4 has a fastened portion to be fitted with the fastening portion. In addition, a fastening groove 411 is formed in the terminal cover 4 so that the conductive wire 3 passes through the fastening groove 411 to be drawn out from the metal terminal accommodating space to the outside. Specifically, as shown in FIG. 5, the terminal cover 4 includes an upper plate portion 41 and a side wall 42, among which the upper plate portion 41 is perpendicular to the Z direction and has side walls 42. ) Projects from the edge of the upper plate portion 41 (specifically, the edge of the X1 direction side and the edge of the Y1 direction side and the Y2 direction side of the upper plate portion 41) to the terminal sheet portion 123 side, and the side wall 42 of the side wall 42. The tip has a stepped portion that engages with the stepped portion of the sidewall 1232 tip to implement positioning and sealing. In addition, the fastening groove 411 is formed in the upper plate portion 41, and includes a first fastening groove 411A and a second fastening groove 411B, and the first fastening groove 411A and the second fastening groove 411B. Has the same structure, the first conductive wire 3A penetrates the first fastening groove 411A and is drawn out from the metal terminal accommodation space, and the second conductive wire 3B penetrates the second fastening groove 411B. It is drawn out from the metal terminal storage space. In addition, as shown in Figure 3, the side wall 1232 of the terminal sheet portion 123 is formed with a fastening hook (HK) as a fastening fixing portion protruding outward in the Y direction on the side walls located on both sides of the Y direction, As shown in FIG. 5, the sidewalls 42 of the terminal cover 4 have fastening rings LP for inserting the fastening hooks HK as fastened parts to sidewalls located at both sides in the Y-direction. The fastening ring LP may be elastically deformed in a direction perpendicular to the mounting direction (ie, Z direction) when the terminal cover 4 is mounted to cover the terminal sheet part 123. 3, the position limiting portion 113 includes a fastening plate 1133 (wherein, the first position limiting portion 113A and the second position limiting portion 113B are both fastening plates 1133). And the fastening plate 1133 is erected from one of the vertical parts 1131A and 1131B in a manner opposite to the main body part 10, but not limited thereto), and the fastening plate 1133 is the main body. Together with the portion 10 constitutes a fastening portion. As shown in FIG. 6, the terminal cover 4 includes an insertion plate 431 as a part to be fastened, and the insertion plate 431 has the terminal cover 4 from the upper plate part 41 with the terminal sheet part 123. ) Extends along the mounting direction (i.e., Z direction, axial directions of the cylindrical sidewall 112 and the cylindrical sidewall 122) when being mounted so as to be covered to the side, and is inserted between the fastening plate 1133 and the main body portion 10. In addition, the width of the insertion plate 431 in the relative direction (ie, X direction) of the fastening plate 1133 and the cylindrical side wall 112 (specifically, the first wall portion 1121) is the terminal sheet portion 123. ) Decreases as it approaches, and the fastening plate 1133 is in contact with the insertion plate 431 with the terminal cover 4 mounted on the terminal sheet portion 123. 4 and 6, the terminal cover 4 includes a separating partition wall 432, and the separating partition wall 432 has a terminal sheet part 4 formed from an upper plate part 41. Extends along the mounting direction (ie, Z direction, axial directions of the cylindrical sidewall 112 and the cylindrical sidewall 122) when mounted so as to be covered toward the 123, and is directly connected to the insertion plate 431, and furthermore, the terminal With the cover 4 mounted on the terminal sheet portion 123, the separation partition 432 separates the first terminal 2A from the second terminal 2B, and the first conductive line 3A and the second conductive line. Between 3B and between the fastening plate 1133 of the first position limiting portion 113A and the fastening plate 1133 of the second position restriction portion 113B. In addition, as shown in FIG. 6, a chamfer is formed at the front end of the insertion plate 431 (in this case, specifically, both edges of the Y-direction of the front end of the insertion plate 431), and the front end of the separation partition 432. In this case, a chamfer is formed on the edges of both sides of the separation partition 432 in the Y direction, and thus, the insertion plate 431 may be more easily inserted between the fastening plate 1133 and the main body 10. The separation partition 432 may be inserted between the fastening plate 1133 of the first position limiting portion 113A and the fastening plate 1133 of the second position limitation portion 113B.

1 and 2, the drive device includes a valve core 8 and a wire rod 7 connected to the valve core 8 so that the driving force of the drive source 5 can be controlled by the valve core 8. The drive source 5 is a motor having a stator 51 and a rotor 52. The metal terminal 2 is connected to a coil wire wound on a bobbin of the motor. The driving force of the motor is transmitted to the valve core 8 through the power transmission assembly.

Hereinafter, an example of the drive assembly method of the embodiment of the present invention will be described.

First, assembling the first housing 11 and the second housing 12, for example, first assembling the drive source 5, the valve core 8 and the power transmission assembly in the second housing 12, After supporting the metal terminal 2 using the protrusions 1233 of the terminal sheet part 123, the first housing 11 is covered with the second housing 12, and the first housing 11 is fastened with a screw. To the second housing 12 together.

Thereafter, one end of the conductive wire 3 is penetrated through the position limiting portion 113 (in this case, a through-shaped space surrounded by the position limiting portion 113 and the main body portion 10) from the Z1 direction to the Z2 direction, and the conductive wire 3 ) Is bent in the X1 direction so that the core line at one end of the conductive wire 3 passes through the through hole 221 of the connecting plate 22 of the metal terminal 2.

Thereafter, the conductive wire 3 and the connecting plate 22 are soldered.

Finally, in a state in which the terminal cover 4 and the terminal sheet portion 123 are firmly stacked in the Z direction, the conductor wire 3 is inserted into the fastening groove 411, and the fastening ring LP is fastened by elastic deformation. The assembly of the driving device is completed by moving the terminal cover 4 from the Z1 direction side to the Z2 direction side until it is fastened and fixed with the fastening hook HK beyond the hook HK.

According to the driving apparatus of the present embodiment, the separating partition wall 432 is provided in the terminal cover 4, and the separating partition wall 432 separates the first terminal 2A and the second terminal 2B. Although the distance between the terminal 2A and the second terminal 2B is relatively small, the first terminal 2A and the second terminal 2B are short-circuited with each other due to metal debris generated when soldering the conductive wire 3 and the like. It can be avoided, thereby reducing the size of the terminal sheet portion 123 and the terminal cover 4, and can further reduce the overall size of the drive device.

In addition, according to the driving apparatus of the present embodiment, since the separating partition wall 432 separating the first terminal 2A and the second terminal 2B is provided in the terminal cover 4, the separating partition wall is provided in the terminal sheet portion. Unlike the situation in which the first terminal 2A and the second terminal 2B are connected to the conductive wire 3 with the solder, the soldering work can be prevented from being limited by the separating partition, which helps to improve the soldering work efficiency. .

According to the driving apparatus of the present embodiment, the first and second conductive wires 3A and 3B connected to the external power supply are directly connected to the first terminal 2A and the second terminal 2B, so that the metal terminals are soldered. The cost of the material can be reduced compared to the case where the first and second conductive wires are soldered and connected to the first and second terminals using the provided connector.

In addition, according to the driving device of the present embodiment, the movement of the first conductive wire 3A and the second conductive wire 3B can be restricted by using the first fastening groove 411A and the second fastening groove 411B. Movement of the first conductive wire 3A and the second conductive wire 3B prevents unstable connection of the first conductive wire 3A, the second conductive wire 3B, the first terminal 2A, and the second terminal 2B. It helps to

In addition, according to the driving apparatus of the present embodiment, since the first position limiting portion 113A and the second position limiting portion 113B are integrally formed with the main body portion 10 in the housing 1, The first position limiting portion 113A and the second position limiting portion 113B when the first conductive wire 3A and the second conductive wire 3B are directly soldered to the first terminal 2A and the second terminal 2B. (Or the first conductive line 3A and the second conductive line 3B can be sandwiched through the first position limiting portion, the second position limiting portion, and the main body portion), so that the first conductive line 3A and the second conductive line 3B are interposed. It is helpful to prevent the situation where soldering of one end of the coil does not facilitate the soldering operation.

In addition, according to the driving apparatus of the present embodiment, when assembling the terminal cover 4 to the terminal sheet portion 123, the terminal cover (4) through the coupling of the insertion plate 431, the fastening plate 1133, the body portion 10 ( 4) can guide the assembly, thereby improving the assembly efficiency, and, even if an external force along the relative direction between the fastening plate 1133 and the cylindrical side wall 112 acts on the terminal cover 4, the terminal cover ( 4) is not easily detached from the terminal sheet portion 123, and also helps to prevent the fastening ring LP and the fastening hook HK from being damaged by the external force.

In addition, according to the driving apparatus of the present embodiment, the width of the insertion plate 431 in the relative direction between the fastening plate 1133 and the cylindrical side wall 112 decreases closer to the terminal sheet portion 123, so that the terminal cover ( When assembling 4) to the terminal sheet portion 123, the insertion plate 431 can be more easily inserted between the fastening plate 1133 and the cylindrical side wall 112, which helps to improve the assembly efficiency.

In addition, according to the driving device of the present embodiment, since the insertion plate 431 is directly connected to the separation partition 432, it helps to strengthen the overall strength of the terminal cover (4).

In addition, according to the driving device of the present embodiment, since the fastening plate 1133 is in contact with the insertion plate 431, the terminal cover 4 can be more stably held in the terminal sheet part 123.

In addition, according to the driving apparatus of the present embodiment, a fastening fixing part is formed on one side of the terminal sheet part 123 and the terminal cover 4, and a fastening fixing part is formed on the other side of the terminal sheet part 123 and the terminal cover 4. Since the part to be fastened and fastened is formed, the terminal cover can be easily detached from the terminal sheet part.

In addition, according to the driving apparatus of the present embodiment, the fastening fixing part is a fastening ring LP which is elastically deformed in a direction perpendicular to the mounting direction when the terminal cover 4 is mounted to be covered toward the terminal sheet part 123. The fastening hook (HK) is a fastening hook (HK) that can be inserted into the fastening ring (LP), and thus can form a fastening fastening hook and the fastening fastener with a simple structure.

In addition, according to the driving apparatus of the present embodiment, the connecting portion CP of the metal terminal 2 and the conducting wire 3 is formed at the portion where the conducting wire 3 is sandwiched by the position limiting portion 113 and the main body 10. Compared to the situation in which the connection portion of the metal terminal and the lead wire is sandwiched by the position limiting portion of the lead wire or the extension direction of the portion (the pinched portion) sandwiched by the position limiting portion and the main body portion, because it is out of the extension direction, It is helpful to increase the distance between the connecting portion and the clamped portion in the situation of not increasing the size of the driving direction in the extension direction, and therefore, even if the position limiting portion 113 is made of resin, the position due to the thermal energy during soldering It is easy to prevent the restriction from melting.

In addition, according to the driving apparatus of the present embodiment, the position limiting portion 113 includes a replacement portion 1132 symmetrical with the main body portion 10, so that the conducting wire 3 is replaced with the replacement portion 1132 and the main body portion ( Since it is bent in the direction away from the main body portion 10 toward the connecting portion CP of the metal terminal 2 and the conductive wire 3 from between 10), in a situation where the size in the extension direction of the drive device is not increased, Not only helps to increase the distance between the connecting portion (CP) and the pinned portion, it is also possible to prevent the conductor 3 from being separated from the position limiting portion 113 due to the bending by using the replacement portion 1132. Therefore, the soldering operation can be performed more easily.

In addition, according to the driving apparatus of the present embodiment, the direction in which one end of the first conductive wire 3A protrudes from the through hole of the connecting plate of the first terminal 2A and the one end of the second conductive wire 3B are connected to the second terminal ( Since the direction which protrudes from the through-hole of the connection plate of 2B is the same, the 1st terminal 2A, the 2nd terminal 2B, the 1st conductor wire 3A in one direction (for example, X1 direction in FIG. 1), The soldering connection of the second lead 3B can be easily performed, which helps to improve the manufacturing efficiency.

The accompanying drawings have been described for the purpose of illustrating the present invention by way of example, it is obvious that the implementation of the present invention is not limited by the above embodiment.

For example, in the above embodiment, the vertical portions 1131A and 1131B of the position limiting portion 113 are in contact with the lead 3 simultaneously from both sides in the Y direction (that is, the vertical portion 1131A of the position limiting portion 113). , The distance between 1131B is equal to the diameter of the conductive wire 3), but not limited thereto, and the interval between the vertical portions 1131A and 1131B of the position limiting portion 113 is slightly larger than the diameter of the conductive wire 3. It may be.

In addition, in the above-described embodiment, the position limiting portion 113 is integrally formed with the main body portion 10 to sandwich the conductive wire 3 together with the main body portion 10, but is not limited thereto. The lead may be clamped. For example, the position limiter itself may be formed in an annular shape, or the position limiter itself may be formed in a C shape or the like opened toward the X1 direction (or Y1 direction, Y2 direction or other direction). .

Further, in the above embodiment, the drive source is a motor, but is not limited thereto.

Further, in the above embodiment, the terminal cover 4 has an insertion plate 431, the width of the insertion plate 431 in the relative direction of the fastening plate 1133 and the cylindrical side wall 112 is the terminal sheet portion ( It decreases as it approaches 123, and is directly connected to the separation partition 432, but is not limited thereto, the specific shape of the insertion plate 431 can be set as needed, for example, the insertion plate 431 is separated It may not be connected to the partition wall 432, the insertion plate 431 may be omitted depending on the situation.

1: housing 2: metal terminal
2A: first terminal 2B: second terminal
3: conductor 3A: first conductor
3B: Second conductor 4: terminal cover
5: driving source 7: wire rod
8: valve core 10: main body
11: first housing 12: second housing
21: terminal body 22: connecting plate
41: upper plate 42: side wall
51: stator 52: rotor
111: upper wall 112: cylindrical sidewall
121: bottom wall 122: cylindrical sidewall
113: Position limiter 113A: First position limiter
113B: second position limiting portion 123: terminal sheet portion
124: fixing sheet 411: fastening groove
431: insertion plate 432: separation partition
1111: through hole 1121: first wall portion
1221: first wall portion 1131A: vertical portion
1131B: vertical part 1132: replacement part
1133: fastening plate 1231: bottom plate
1232: side wall 1233: protrusion
CP: Connecting part HK: Tightening hook
LP: fastener

Claims (14)

And a housing, a driving source, a metal terminal, and a terminal cover, wherein the housing includes a main body portion and a terminal sheet portion which is an insulating material protruding from the main body portion, the driving source is installed in the main body portion, and the metal terminal is the terminal. In the driving device is supported on the seat portion and electrically connected to the drive source, the terminal cover is made of an insulating material, and is detachably mounted to the terminal sheet portion in a manner to cover the metal terminal,
The metal terminal includes a first terminal and a second terminal,
The terminal cover has a separating partition wall,
The separation barrier is a driving device, characterized in that for separating the first terminal and the second terminal. The method of claim 1,
The driving device includes a first lead and a second lead,
One end of the first lead is soldered to the first terminal, and the other end of the first lead is connected to an external power source.
One end of the second lead is soldered to the second terminal, and the other end of the second lead is connected to an external power source.
The separation barrier is a driving device, characterized in that located between the first conductive wire and the second conductive wire. The method of claim 2,
A first fastening groove and a second fastening groove are formed in the terminal cover;
The first fastening groove and the main body portion sandwich the first conductive wire,
And the second fastening groove and the main body portion sandwich the second conductive wire. The method of claim 2,
The housing has a first position limiting portion and a second position limiting portion,
The first position limiting portion is integrally formed with the main body portion, and sandwiches the first conductive wire alone or together with the main body portion.
And the second position limiting portion is integrally formed with the main body portion, and clamps the second conductor alone or together with the main body portion. The method of claim 4, wherein
The main body portion is provided with a wall portion, wherein the wall portion extends along the mounting direction when the terminal cover is mounted so as to cover the terminal sheet portion,
At least one of the first position limiting portion and the second position limiting portion is provided with a fastening plate facing the wall portion,
An insertion plate is provided in the terminal cover, and the insertion plate is inserted between the fastening plate and the main body portion. The method of claim 5,
And a width in a direction opposite to the fastening plate of the insertion plate and the wall portion decreases closer to the terminal sheet portion. The method of claim 5,
And the separating partition wall extends in a mounting direction when the terminal cover is mounted to cover the terminal sheet. The method according to any one of claims 5 to 7,
And the insertion plate is directly connected to the separation partition. The method according to any one of claims 5 to 7,
And the fastening plate is in contact with the insertion plate. The method according to any one of claims 5 to 7,
The wall portion surrounds a cylindrical sidewall of the drive source,
The terminal sheet portion protrudes radially outward from the cylindrical sidewall,
The first terminal and the second terminal are separated in the circumferential direction of the cylindrical sidewall,
And the separating partition wall extends along an axial direction of the cylindrical side wall. The method according to any one of claims 5 to 7,
The housing includes a first housing and a second housing,
The first housing is combined with the second housing to form a space for receiving the drive source,
The first position limiting portion and the second position limiting portion are formed in the first housing,
And the terminal sheet part is formed in the second housing. The method according to any one of claims 5 to 7,
A fastening fixing part is formed on one of the terminal sheet part and the terminal cover,
And a to-be-fixed fixing part which is fastened and fixed to the fastening fixing part on the other one of the terminal sheet part and the terminal cover. The method of claim 12,
The fastening fixing portion is a fastening ring that can be elastically deformed in a direction perpendicular to the mounting direction,
The fastening part is a drive device, characterized in that the fastening hook that can be inserted into the fastening ring. The method of claim 1,
The drive device further comprises a valve core and a power transmission assembly,
And the driving source is a motor, and the driving force of the motor is transmitted to the valve core via the power transmission assembly.

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