JPS6217313A - Radiator shutter - Google Patents

Abstract

PURPOSE:To prevent deformation and damage by providing an opening position holding means which positions a shutter vane on the opening side at its opening time and further providing a means which releases said holding means in case an external force is applied on the shutter vane. CONSTITUTION:An arc-shaped guide hole 15 of an operational link 11 allows swiveling of pin 16d due to oscillation of a shutter vale 16 round a shaft 16c. The pin 16d is positioned below the guide hole 15 during the shutter vane 16 is opened, while it is closed by pulling the operational link 11 upward. A weight plate 17 is provided adjacently to the operational link 11 in vertically moving configuration. Said plate 17 is provided with an engaging and locking hole 18, the upper end part of which is in contact with the pin 16d during opening of the shutter vane 16. In case an external force is suddenly applied on the shutter vane 16 to cause shifting in the direction of closure, since only the force which pulls the weight plate 17 upward is operated, the operational link 11 is not influenced and the vane can be prevented from both deformation and damage.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application This invention is directed to controlling the cooling water temperature of a radiator, which is installed to reduce engine fuel consumption and extend engine life by preventing engine overcooling during winter, for example. This relates to a radiator shutter that has the function of opening and closing depending on the situation.

A conventional radiator shutter 1 for UL tags is shown in FIGS. 5 to 7 (see the instruction manual for Kaiser Radiator Shutter (trade name) for buses, manufactured by Mikuni Kogyo Co., Ltd.).

The radiator shutter 1 is attached to cover the front part of the radiator 2, and has a large number of shutter vanes 3 that can be opened and closed.
, 3... In winter, when the outside air temperature is low, it is necessary to avoid heat radiation from the radiator 2 in order to prevent overcooling during driving, and for this purpose the shutter vanes 3, 3, . . . are closed. This operation is performed by actuating the actuator 4 in response to a signal from a cooling water temperature sensing section (not shown) and pulling the actuating rod 4a upward in FIG. 7.

That is, when the first actuating rod 4a is pulled up, the actuating link 5 connected to the actuating rod 4a is also pulled upward in FIG. 7. The operating link 5 rotatably supports the base end portions of a large number of shutter vanes 3, 3...
, 3a . . . , and the shutter vanes 3° 3 .
Due to the upward movement in FIG. 7, the shutter vane 3
, 3... turn clockwise in the figure, these shutter vanes 3, 3... close, and the front surface of the radiator 2 is covered. When the coolant temperature rises or the engine stops, the actuator 4 stops operating, and the restoring force of the return spring 7 stretched between the lower end of the operating link 5 and the frame 6 causes the actuator 4 to stop operating. The operating link 5 is pulled down and the shutter vane 3.3...
The shutter vanes 3, 3, . . . are opened as shown in FIG. 7 by turning counterclockwise in the opposite direction to the above.

In the conventional radiator shutter 1 described above, if the shutter vanes 3, 3, etc. close due to wind pressure when the cooling water is hot and the vehicle is running, the cooling water cannot be properly cooled. Therefore, the return spring 7 must be strong enough to prevent the shutter vanes 3, 3, . . . from closing against the wind pressure.

Therefore, even if an unexpected external force is applied to the shutter vanes 3, 3, etc. due to a collision with the shutter vanes 3, 3, etc. by a component such as an engine part, the shutter vanes 3, 3, etc. , 3... do not move and are damaged or deformed. Then, the shutter vane 3, 3.
If... is closed, wind leakage will occur and the shutter will no longer function as a radiator shutter.

Measures to Solve the Problems In view of the above problems, this invention prevents the shutter vanes from being damaged or deformed even if an unexpected external force is applied to the shutter vanes when the shutter vanes are opened. It was completed with the purpose of providing a radiator shutter that never fails.

And for this purpose this invention is primarily.

An actuating link that moves due to actuation of an actuator,
A guide hole is provided in which the base end of the shutter vane is loosely fitted and allows the shutter vane to rotate, and when the shutter vane is closed, a part of the inner peripheral surface of the guide hole comes into contact with the base end of the shutter vane. The shutter vane is closed by the movement of the operating link, and a means for holding the shutter vane in an open position is provided to keep the shutter vane on the open side when the shutter vane is opened, and an external force is applied to the shutter vane located on the open side. The invention is characterized in that the open position holding means is released when the actuation link is applied, and secondly, the open position holding means is provided with a weight plate adjacent to the operating link, and each shutter is attached to the weight plate. A locking hole is formed that engages with the base end of the vane separately, and a part of the inner peripheral surface of the locking hole is brought into contact with the base end of the shutter vane, and the weight of the weight plate causes the shutter vane to The device is configured so that it is located on the open side.

Third, the open position holding means is provided with a weight plate adjacent to the operating link, and the weight plate is formed with a locking hole that engages with the base end of each shutter vane, and the locking A part of the inner circumferential surface of the hole is brought into contact with the base end of the shutter vane, and the weight of the weight plate positions the shutter vane on the open side;
A return spring is stretched between the weight plate and the operating link, and fourthly, the open position holding means is provided with a weight plate adjacent to the operating link, and each shutter vane is attached to the weight plate. A locking hole is formed that engages with the base end separately, a part of the inner peripheral surface of the locking hole is brought into contact with the base end of the shutter vane, and the shutter vane is opened by the weight of the weight plate. A return spring is stretched between the weight plate and the operating link, and a phase pin is provided between the operating link and the weight plate.

[0033] The radiator shutter according to the present invention will be specifically explained below based on the preferred embodiment shown in FIGS. 1 to 4.

Reference numeral 11 in the figure is an operating link, which is moved in the vertical direction in the figure by an actuator 12 that is activated by a signal from a cooling water temperature sensing section (not shown). A tension coil spring 14 is stretched between the lower end of the operating link 11 and the frame 13 of the radiator shutter, and the operating link 11 always absorbs the restoring force of the tension coil spring 14 as shown in FIGS. It is biased to move downward at . The operating link 11 is provided with the same number of guide holes 15, 15, .

In the figure, 16.16... is the shutter vane, and the vane part 1
6a.

16a... and vane arm portions 16b, 16b...
The approximately central portions of the shutter vanes 16, 16, . It is supported by shafts 16C, 216c, and so on. Then, the vane arm portion 16b is inserted into the guide hole 15, 15, . . . of the operating link 11.

16b..., that is, the shutter vane 16.16.
The pins 16d, 16d, etc. protruding from the base end of the... are loosely fitted.

By the way, the guide holes 15.15... are formed by the pins 16d, 16d... by rotation about the shafts 16c, 16c... of the shutter vanes 16, 1.6...
Since it is necessary to allow for turning, it must be at least arc-shaped as shown in the figure. and,
As shown by the solid line in the diagram, the shutter vanes 16, 16...
is located on the open side, the pins 16d, 1
6d... is in a state where it is in contact with the lower inner circumferential surface of the guide hole 15° 15....

Now, 17 in FIGS. 1 and 3 indicates the shutter vane 16.
．． 16 is a weight plate serving as an open position holding means for keeping the parts 16 on the open side, and is adjacent to the operating link 11 and is movable vertically along the operating link 11 in the figure. In the figure, 18, 18... are locking holes formed in the weight plate 17, and the locking holes 1
The pins 16d, 16d, etc. of the shutter vanes 16, 16, and so on are loosely fitted into the pins 8.18, respectively. And as shown in FIGS. 1 and 3.

When the shutter vanes 16.16... are located on the open side, the upper inner peripheral surfaces of the locking holes 18.18... are brought into contact with the pins 16d, 16d... Due to the weight of the weight plate 17, the shutter vane 16
．． 16... is maintained in the open position.

19 in FIGS. 1 and 3 indicates the weight plate 17.
A tension coil spring serving as a return spring is stretched between the tension coil spring 19 and the operating link 11, and the restoring force of the tension coil spring 19 is used to urge the weight plate 17 to constantly move downward in the figure.

In FIG. 2, the weight plate 17 in FIGS. 1 and 3 is divided into separate shutter vanes 16, 16,
It is a weight plate 20.20... that corresponds to .... In addition, each weight plate 20
．． Tension coil springs 21, 21, . . ., as return springs are stretched between 20, . It is urged to move constantly.

Further, reference numeral 22 in FIGS. 3 and 4 is a phase pin, which is provided to pass through the operating link 11 and the weight plate 17, and will break if the weight plate 17 is attempted to be moved by a force exceeding a specified value. That's how it is.

The operation of the embodiment of the radiator shutter according to the present invention constructed as described above will be described below.

In FIGS. 1 to 3, shutter vanes 16, 16...
The solid line indicates the state where the gate is open. When the shutter vanes 16, 16... are opened, the actuator 12
is not operating, and the operating link 11 is at the lower end position in the figure due to the restoring force of the tension coil spring 14.

The weight plate 17 has moved to the lower end position due to its weight, and the weight of the weight plate 17 has caused the pin 1 at the base end of each of the shutter vanes 16, 16...
6d, 16d... Therefore, the shutter vanes IS, 16, . . . are in an open state as shown by the solid lines in the figure. Furthermore, when the tension coil spring 19 is stretched between the actuating link 11 and the weight plate 17, when the actuating link 11 is at the lower end position in the figure, the weight plate 17 also follows the actuating link 11. Since it is located at the lower end position, it is possible to ensure that the shutter vanes 16, 16, .

When the shutter vanes 16, 16... are in the open state, parts such as engine parts
When an unexpected external force is applied, such as when the vehicle collides with the vehicle or is caught between the radiator shutter and the vehicle body, the shutter vane 16 to which the external force is applied is closed. That is, the external force applied to the shutter vane 16 resists the weight of the weight plate 17 and tries to pull the weight plate 17 upward in the figure. On the other hand, since the pin 16d at the base end of the shutter vane 16 is located at the lower end of the guide hole 15 formed in the actuating link 11, the pin 16d is allowed to pivot upward. Therefore, upward movement of the weight plate 17 is allowed, and the shutter vane 16 to which an external force is applied rotates clockwise in the figure and is closed as shown by the two-dot chain line in the figure. Note that since the shutter vanes 16, 16, etc. other than those to which the external force is applied remain in an open state, the function of the radiator is not lost. Then, when the external force is removed, the weight plate 17
Since the shutter vane 16 falls due to its weight, the shutter vane 16 becomes open again.

Furthermore, when the tension coil spring 19 is stretched between the actuating link 11 and the weight plate 17, the weight plate 17 is pulled up against the restoring force of the tension coil spring 19 due to the external force. When the external force is removed, the weight plate 17 is positioned to open the shutter vane 16 due to the restoring force of the tension coil spring 19.

The shutter vanes 16, 16, . . . are closed to prevent overcooling by actuating the actuator 12 in response to a signal from a cooling water temperature sensing section (not shown). When the actuating link 11 is pulled up by the operation of the actuator 12, the guide hole 1 of the actuating link 11 is pulled up.
5.15...Shutter vane 1 located at the lower end
Since the pins 16d, 16d... of 6.16... are pulled up, the shutter vanes 16.16...
The shutter vanes 16, 16, . . . are closed by rotating clockwise from the position shown by the solid line in the figure to the position shown by the two-dot chain line.

In the embodiment shown in FIG. 1, a large number of locking holes 18, 18, etc. are formed in one weight plate 17. Therefore, an unexpected external force may be applied to one of the shutter vanes 16, causing the weight to be damaged. When the plate 17 is pulled up, there is no means to keep the other shutter vanes 16, 16... in the open position, and the other shutter vanes 16, 16...
There is a possibility that the taverns 16, 16... may close. To do this, pin 1 of the shutter vane 16, 16...
6d.

16d... is provided with a balance weight, and the balance weight, A1. ．． ．． □1o yo V, ya 2□-716, 16-#
, 1. It is conceivable to secure the open position.

However, using only balance weights may lack reliability. Therefore, as in the embodiment shown in FIG. 2, if weight plates 20, 20, . . . corresponding to the respective shutter vanes 16, 16, . It is possible to reliably secure the open position of -. Note that the operation is similar to that described above.

Although FIG. 3 shows a phase pin 22 that passes through the first operating link 11 and the weight plate 17,
This means that even if an unexpected external force is applied to the shutter vanes 16, 16..., the external force will not affect the shutter vanes 16, 15...
If the force does not damage or deform the weight plate 17, the phase pin 22 will be cut off if an external force that would damage or deform the shutter vane 16, 16, etc. is applied without moving the weight plate 17.・
This eliminates unnecessary movement of the weight plate 17.

Although not shown, the shutter vane 16°16.
Spring means are provided between the respective pins 16d, 16d... and the actuating link 11, so that the shutter vane 1
It is also possible to use an open position holding means of 6°16.... That is, the operating link 11 in this case is provided with guide holes 15, 15, . It gives a boost to Then, in order to prevent overcooling, the shutter vanes 16, 16, etc. are closed by the movement of the operating link 11, and the shutter vanes 16, 16, etc. are closed against unexpected external forces by resisting the restoring force of the spring means. .16... are closed separately. Then, when the external force is removed, the shutter vanes 16, 16, . . . return to the open position due to the restoring force of the spring means.

As described above, the radiator shutter according to the present invention is provided with a guide hole in which the proximal end of the shutter vane is loosely fitted into the operating link that moves in response to the actuation of the actuator to allow the shutter vane to rotate. When the shutter vane is closed, a part of the inner peripheral surface of the guide hole comes into contact with the base end of the shutter vane, and the shutter vane is closed by the movement of the operating link, and when the shutter vane is opened, the shutter vane is moved to the open side. Since the shutter vane is provided with an open position holding means for the shutter vane located on the open side, and the open position holding means is released when an external force is applied to the shutter vane located on the open side, the following effects can be achieved. have

Even if an unexpected external force is applied to one of the shutter vanes, such as when an engine part or other ground component collides with it, the open position holding means is released and the shutter vane to which the external force is applied closes. will not be damaged or deformed.

Therefore, when the shutter vane is closed, no air leakage occurs and the function of the radiator shutter is not impaired. Moreover, since it has a simple structure, it can be provided at low cost and has the advantage of being extremely practical.

[Brief explanation of the drawing]

1 to 4 show a preferred embodiment of a radiator shutter according to the present invention. Figure 1 is a side view of the radiator shutter showing the main parts.
The illustration is shown with some parts omitted. FIG. 2 is a side view of a radiator shutter showing another embodiment, with some parts omitted. FIG. 3 is a side view of a radiator shutter showing still another embodiment, with some parts omitted. FIG. 4 is a sectional view taken along the line rV-rV in FIG. 3. Figures 5 to 7 show conventional radiator shutters, with Figure 5 being a perspective view, Figure 6 being an exploded perspective view showing the relationship with the radiator, and Figure 7 being a side view of the radiator shutter. . 11... Operating link 12... Actuator 13... Frame 14... Tension coil springs 15, 15... Guide hole 16.16... Shutter vane 16d, 16d... Pin 17...
Weight plate 18, 18...Latching hole 19.
...Tension coil springs 20, 20...Weight plates 21, 21...Tension coil springs 22...Phase pin 13...Frame 14...51 Fill L
f11215.15-51i inner bill 16.16・=
Shutter vane 16d, 16d...Bin 17...
・Weight plate 18j8...locking hole 19-
= J51 Spiral spring 21.21...Tension coil bone Figure 3 Figure 4 Figure 5

Claims (4)

[Claims] (1) A guide hole is provided in the actuating link that moves when the actuator is operated, into which the base end of the shutter vane is loosely fitted and allows the shutter vane to rotate. A shutter vane open position holding means that closes the shutter vane by the movement of the operating link when a part of the inner peripheral surface of the guide hole comes into contact with the guide hole, and positions the shutter vane on the open side when the shutter vane is opened. 1. A radiator shutter, characterized in that the opening position holding means is released when an external force is applied to the shutter vane located on the opening side. (2) A weight plate is provided adjacent to the operating link,
A locking hole that engages with the base end of each shutter vane is formed in the weight plate, a part of the inner circumferential surface of the locking hole is brought into contact with the base end of the shutter vane, and the weight is inserted into the weight plate. 2. The radiator shutter according to claim 1, wherein the open position holding means is configured to keep the shutter vane on the open side due to the weight of the plate. (3) The radiator shutter according to claim 2, characterized in that a return spring is stretched between the weight plate and the operating link. (4) Claim 3, characterized in that a phase pin is provided between the operating link and the weight plate.
Radiator shutter as described in section.