KR101238548B1 - Solenoid valve of automatic transmission - Google Patents

Abstract

PURPOSE: A solenoid valve of an automatic transmission is provided to continuously prevent short circuits by firmly coupling a protective cap to a guide for preventing the separation between the two. CONSTITUTION: A solenoid valve of an automatic transmission comprises a control part(100), a driving unit(200), a plug(300), a pair of contact forks(400), a guide(500), and a protective cap(600). The control part controls hydraulic pressure with a spool(120) built in a holder(110). The driving part comprises a driving module which moves the spool according to the supply of current into a housing(240). The plug is electrically connected to the driving module so that a part of the plug can be exposed to the outside of the housing. The contact forks are electrically connected to the plug in order to be connected with a connector extended from the control part of a vehicle. The guide guides the connection of the connector and has an assembly access(520) in order to draw in and out a welding machine. The protective cap is coupled to the assembly access in order to separate the pair of contact forks from each other.

Description

Solenoid valve of automatic transmission {Solenoid valve of automatic transmission}

The present invention relates to a solenoid valve mounted to an automatic transmission of an automobile, and more particularly, a control unit for controlling hydraulic pressure, a drive unit provided with a drive module, and a plug exposed to the outside to supply current to the drive unit; And a guide having a contact fork welded to the plug and an assembly tool formed therein for the convenience of welding and surrounding the plug. The protection cap is coupled to the assembly to prevent electrical contact between the contact forks. It relates to a solenoid valve of a transmission.

In general, an automatic transmission controls a plurality of solenoid valves provided in a hydraulic control system by a transmission control unit (TCU) according to driving conditions such as a vehicle driving speed and an opening ratio of a throttle valve. The shift is automatically performed by controlling the hydraulic pressure supplied to a plurality of friction elements (clutch and brake) which are selectively applied at the target shift stage.

The friction element should be provided with the maximum hydraulic pressure corresponding to the torque of each friction element so that slip does not occur with respect to the maximum input torque at each shift stage. In addition, in the case of fastening or releasing the friction element at the time of shifting, precise hydraulic control should be made within an appropriate range to realize a smooth shifting feeling.

The solenoid valve used for precise hydraulic control can be turned on and off by using a phenomenon in which a magnetic field is generated when current flows, and largely provides a control module for controlling the hydraulic pressure and a driving force to control the hydraulic pressure. It consists of a drive module.

The driving module generates a magnetic force when current flows, and generates a driving force by the armature moving by the magnetic force.

However, since the space in which the solenoid valve is installed has a severe condition in which a plurality of foreign substances, dust, and high heat exist together, the operation stability of the valve is one of the most important performances of the solenoid valve.

In particular, since the solenoid valve is turned ON / OFF by the supply of current, safe supply of current is required for stable operation.

However, if there is dust or dust around the solenoid valve installed in the harsh environment, and if such dust or dust sticks to the terminals of the current flowing solenoid, a short circuit occurs between the terminals, threatening safety to the running vehicle or Cause.

As a technique for solving this problem, there is a Korean Patent Publication No. 10-2003-0078108.

The present invention has been made to solve the above problems,

The protective cap is provided to cover the assembly opening of the guide to prevent foreign matter from flowing into the guide to provide a solenoid valve of an automatic transmission to prevent a short of a pair of plugs, or a pair of contact forks.

In addition, the center of the protective cap coupled to the assembly sphere is formed between the plug and the plug and the contact fork and the contact fork to isolate each other to provide a solenoid valve of the automatic transmission more safe from the short.

In order to solve the above problems,

The present invention is a control unit for controlling the hydraulic pressure largely by the spool built in the holder, a drive unit having a drive module for moving the spool in accordance with whether the current is supplied into the housing, and electrically connected to the drive module A pair of plugs exposed to the outside of the housing, a pair of contact forks coupled to be electrically connected to the plugs and connected to a connector extending from the control unit of the vehicle, and installed to surround the contact forks outside of the connector. Guide to the connection, the guide is provided with an assembly that can open and close the welder for coupling the plug and the contact fork and the protective cap is coupled to the assembly to isolate the pair of contact forks from each other Include.

The protective cap is partitioned to protrude from the center is inserted between the pair of contact forks to prevent a shorter safer.

In addition, the protective cap further extends from the protective cap to the inside of the guide to the arm portion is formed with a locking projection at the end and further comprising a coupling groove in which the locking projection is locked in the guide to prevent the protective cap from being separated from the guide. .

Meanwhile, the pair of plugs as well as the contact fork are separated from each other by the partition of the protective cap.

By the means for solving the above problems can prevent the short circuit of the current supplied to the solenoid valve of the automatic transmission of the present invention can improve the operation stability of the valve, the effect of preventing the failure of the automatic transmission due to short while driving. There is.

And it is also effective to continuously prevent the short by combining the protective cap so as not to be separated from the guide.

1 is a perspective view showing a solenoid valve of an automatic transformer according to the present invention.
2 shows a cross section of a solenoid valve;
Figure 3 shows a solenoid valve equipped with a protective cap.
4 is a plan view showing a protective cap according to the present invention.
Figure 5 is a view showing the side of the protective cap.
Figure 6 is a plan view showing a guide equipped with a protective cap.
7 is a cross-sectional view taken along the line AA ′ of FIG. 6.
8 is a cross-sectional view taken along line BB ′ of FIG. 6.

Hereinafter, the solenoid valve of the automatic transmission according to the present invention will be described with reference to FIGS. 1 to 8 as follows.

1 is a perspective view showing a solenoid valve of an automatic transformer according to the present invention, Figure 2 is a view showing a cross-sectional view of the solenoid valve, Figure 3 is a view showing a solenoid valve equipped with a protective cap, Figure 4 Top view of the protective cap according to the invention.

Figure 5 is a view showing the side of the protective cap, Figure 6 is a plan view showing a guide equipped with a protective cap, Figure 7 is a view showing a cross-section AA 'of Figure 6, Figure 8 is a BB of Figure 6 'Is a view showing a cross section.

1 to 3, the solenoid valve of the automatic transmission includes a control unit 100 for controlling hydraulic pressure by a spool 120 embedded in the holder 110, and whether current is supplied to the inside of the housing 240. According to the driving unit 200 is provided with a drive module for moving the spool 120, a pair of plugs 300 that are electrically connected to the drive module is exposed to the outside of the housing 240, the plug ( A pair of contact forks 400 coupled to the electrical connection 300 and extending from a transmission control unit (TCU) of the vehicle and connected to the outside of the contact fork 400 are installed to connect the connectors. Guide to the guide 500 and the assembly hole 520 is provided with an assembling unit 520 through which one side is open to the welding machine for coupling the plug 300 and the contact fork 400 can be entered. The pair of contact forks 4 00) a protective cap 600 to isolate each other.

The controller 100 controls the hydraulic pressure as the spool 120 embedded in the holder 110 is moved up and down to supply the hydraulic pressure to the clutch and the brake of the vehicle.

The control unit 100 will be described in more detail as follows.

The hollow 111 is formed in the holder 110, and the first hole 112, the second hole 113, and the third hole are formed to extend from the hollow 111 to the outer circumferential surface of the holder 110. 114 and the fourth hole 115 are formed at intervals from each other.

The first hole 112 is formed below the holder 110 and feeds back the controlled hydraulic pressure supplied from the third hole 114 to the controller 100 to form a more stable control hydraulic pressure.

The second hole 113 is formed at a distance from the first hole 112 at the upper portion of the first hole 112, is connected to a hydraulic pump (not shown), the hollow 111 of the holder 110 To provide hydraulic pressure.

The third hole 114 is formed at an upper portion of the second hole 113 at intervals from the second hole 113, and the spool of the control unit 100 controls the hydraulic pressure flowing into the second hole 113. The control hydraulic pressure controlled by the driving of 120 is provided to the brake and the transmission.

The fourth hole 115 is formed at intervals above the third hole 114 to control the hydraulic pressure and discharge the remaining oil.

The first hole 112, the second hole 113 and the third hole 114 is further provided with a ring filter 116 to prevent the mixing of foreign matter.

The spool 120 is installed in the hollow 111 of the holder 110 is guided to the inner wall of the hollow 111 to move up and down. And a special shape recess is formed on the outer peripheral surface to control the hydraulic pressure.

And the lower portion of the hollow 111 is provided with a return spring 130 for pushing the spool 120 upward.

The driver 200 generates a magnetic force in the core 210 when a current is supplied to provide the driving force to move up and down the spool 120.

The driving unit 200 will be described in more detail as follows.

The core 210 is coupled to the upper portion of the holder 110, the through-hole 211 is formed in the center that the upper portion of the spool 120 can enter.

The coil 220 is installed outside the core 210 to surround the core 210 so that the core 210 can be magnetized when a current is supplied.

The upper portion of the core 210 is provided with an armature 230 for reciprocating up and down by the magnetic force generated in the core 210, the lower end of the armature 230 is a spool (received through the through hole 211 ( The upper portion of the 120 is in contact with the spool 120 in accordance with the reciprocating motion of the armature 230 is reciprocating up and down.

The core 210, the coil 220, and the armature 230 are covered by the housing 240 so as not to be exposed to the outside.

6 to 8, the plug 300 is electrically connected to the driving module as described above, and a part thereof is installed to be exposed to the outside of the housing 240. In more detail, the plug 300 is positioned above the housing 240, the lower end of which is inserted into the housing 240 to be connected to the coil 220, and the upper end of the plug 300 protrudes above the housing 240. do.

In order to allow current to flow in the coil 220, the plug 300 is provided in pairs because a positive wire and a ground (−) must be connected to each other.

The plug 300 should be connected to a connector (not shown) connected to the TCU of the vehicle. The plug 300 may be connected due to the design of the coil 220 installed inside the housing 240 and the limited area of the upper portion of the housing 240. It is not possible to directly connect the connector to 300).

Therefore, the upper portion of the housing 240 is coupled to the electrical connection with the plug 300, a pair of contact forks 400 is installed in a shape corresponding to the connector.

The guide 500 is installed to surround the contact fork 400 so that the contact fork 400 connected to the plug 300 is not exposed to the outside, to guide the connection of the connector connected to the contact fork 400 Is formed. And the upper surface of the guide 500 is provided with a connector 510 for inserting a terminal (not shown) of the connector to be connected to the contact fork 400.

One side of the guide 500 is provided with an assembly tool 520, which is open to allow the welder to enter and exit the plug 300 and the contact fork 400 so that welding may be performed to secure the coupling thereof.

Preferably, the contact port is installed in the guide 500, by providing the guide 500 in a detachable form on the upper portion of the housing 240 provides a convenience in the solenoid manufacturing process.

The protective cap 600 shown in FIGS. 4 and 5 is coupled to the assembly opening 520 of the guide 500 to isolate the pair of contact forks 400 from each other.

In addition, the foreign matter is prevented from entering the guide 500 through the assembly opening 520.

In addition, the protective cap 600 is a partition wall 610 formed to protrude from the center to isolate the pair of contact forks 400 from each other. That is, the partition 610 is inserted between the contact fork 400 and the contact fork 400 to prevent the short.

In addition, the partition wall 610 bisects the guide 500 to isolate the pair of plugs 300 connected to each contact fork 400 from each other.

The protective cap 600 is provided with an arm portion 620 extending into the guide 500 to form a locking protrusion 621 at an end thereof, and the locking protrusion 621 is locked to the inside of the guide 500. The coupling groove 530 is further provided to prevent the protective cap 600 from being separated from the guide 500.

The solenoid valve of the automatic transmission according to the present invention is installed in the vehicle by the above-described configuration, and controls the hydraulic pressure by receiving a current supplied in a place where a large amount of foreign matter, such as dust, the assembly opening 520 of the guide 500 Due to the protective cap 600 coupled to the current blocking the contact fork 400 and the plug 300 flowing current from the outside, foreign matter does not flow into the guide 500, according to the short caused by the foreign matter It is effective to prevent it.

In addition, the barrier rib 610 may be provided to provide a solenoid valve having excellent operation stability by preventing a short due to a foreign material as well as a short of the contact fork or the plug 300.

It will be understood by those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined by the appended claims. It is self-evident.

100 control unit 110 holder
111 hollow 112 first hole
113: second hall 114: third hall
115: fourth hole 116: ring filter
120: spool 130: return spring
200: drive unit 210: core
211: through hole 220: coil
230: Amateur 240: Housing
300: plug 400: contact fork
500: guide 510: connection port
520: assembly 530: coupling groove
600: protective cap 610: bulkhead
620: arm 621: jamming projection

Claims (4)

In the solenoid valve of the automatic transmission,
A control unit for controlling the hydraulic pressure by the spool built in the holder;
A driving unit provided with a driving module for moving the spool according to whether a current is supplied into a housing;
A pair of plugs electrically connected to the driving module and partially exposed to the outside of the housing;
A pair of contact forks coupled to the plugs electrically connected to the connectors extending from the control unit of the vehicle;
A guide installed to surround the contact fork to guide the connection of the connector and having an assembly opening to which a welder entering and exiting the one side is coupled to the plug and the contact fork; And
A solenoid valve of an automatic transmission, comprising: a protective cap coupled to the assembly to isolate the pair of contact forks from each other. The method according to claim 1,
The protective cap,
A solenoid valve of an automatic transmission, wherein a partition wall protruding from the center is inserted between the pair of contact forks. The method according to claim 1,
An arm portion extending from the protective cap to the inside of the guide to form a locking protrusion at an end thereof; And
Solenoid valve of the automatic transmission, characterized in that it further comprises; a coupling groove in which the locking projection is locked inside the guide. The method of claim 1,
Solenoid valve of the automatic transmission, characterized in that the pair of plugs are isolated from each other by the protective cap.

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