JPH0811998B2 - Distribution valve - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a distribution valve for intermittently supplying a fixed amount of oil from an oil supply device through an oil supply pipe to a bearing portion of a drive shaft.

[0002]

2. Description of the Related Art For example, a distribution valve is used for intermittently supplying a fixed amount of lubricating oil to a bearing portion of a roll drive shaft. When the pressurized grease is fed into the distribution valve automatically or manually, the spool operates and the amount of the stroke volume of the spool is increased.
It is designed to send oil to bearings.

It is necessary that the distributor valve is always operating properly, and if an abnormality such as a blockage occurs in the pipe line and proper lubrication is not performed, seizure or the like occurs on the bearing. , Normal operation becomes impossible. Therefore, conventionally, a worker constantly monitors the operating state of the spool of the distribution valve and visually checks whether or not it is operating a predetermined number of times within a fixed time.

[0004]

The above-mentioned conventional visual monitoring of the distribution valve by the worker is not easy because of the large number of distribution valves and is inaccurate, which results in labor cost. It is bulky and consumes grease and electricity more than necessary.

In order to solve such a problem, for example, in Japanese Utility Model Laid-Open No. 62-106100, when the spool is raised, the protrusion of the power meter is pressed at its upper end, and the number of times the spool is operated is displayed by the power meter. An apparatus adapted to do so is disclosed.

According to the above-mentioned device, since the number of times the spool has been operated is displayed on the frequency meter, it is easier to monitor than in the past. However, the amount of refueling
When adjusting, adjust the moving amount of the spool with screws etc.
Need to be, but the spool directly on the prong meter
Due to the structure that presses, there is a limit to the amount of spool movement.
Therefore, it is difficult to adjust the amount of fuel and count the frequency at the same time.
It's difficult .

SUMMARY OF THE INVENTION Therefore, an object of the present invention is to solve the above-mentioned problems and to easily and surely monitor the refueling state even when intermittent refueling is performed from each of a plurality of refueling ports, and to check this. It is to provide a distribution valve that can be adjusted and can adjust the amount of refueling for each refueling port.

The present inventors have conducted intensive studies to solve the above-mentioned problems. As a result, the distribution valve has a plurality of spools that move up and down at each intermittent refueling from each of the plurality of refueling ports, a plurality of frequency display mechanisms that automatically display the operation of the spools, and the spools. By providing a plurality of lubrication amount control mechanisms to control the vertical movement width of each and control the lubrication amount, even if intermittent lubrication is performed from each of the plurality of lubrication ports, the lubrication state can be simplified. It was also found that the check can be performed reliably and that the amount of refueling can be adjusted for each refueling port.

The present invention has been made based on the above findings, and the distribution valve of the present invention has a spool at the upper end that moves up and down each time intermittent lubrication from each of the plurality of fuel filler ports.
A plurality of spools each having a spool receiver, a plurality of frequency display mechanisms for automatically displaying the number of times of operation of each of the spools when the spools move up and down, and a vertical movement width of each of the spools to control the amount of refueling. From multiple refueling amount adjustment mechanisms for
The frequency display mechanism displays the frequency on the peripheral surface.
Disk and the pinion to which the disk is attached
And a pinion claw that engages with the pinion is attached.
A rotor having a notch of a predetermined width on its peripheral surface, and
In order to limit the rotation of the rotor within the notch width,
The stopper that engages with the notch, the spool receiver, and the
Has become a spring for connecting the rotor, the
As the spool rises, attach it to the spool receiver.
Spring and a pinion attached to the rotor
With an on-claw, one pin of the disk is pulled through the pinion.
Rotation of the spool to raise the spool.
It is characterized in that it counts regardless of changes in trokes .

Next, the present invention will be described with reference to the drawings. FIG. 1 is a schematic overall perspective view showing one embodiment of the present invention, and FIG. 2 is a partial schematic perspective view showing one spool portion thereof. As shown in FIG. 1, distribution valves A1, A
2, A3 are provided in series in the pipe line 1, and the distribution valves A1, A2,
A plurality of oil supply pipes 2 are attached to each A3.

FIG. 2 is a partial schematic perspective view showing a spool 3 portion to which one oil supply pipe 2 of one distribution valve A1 is attached. As shown in FIG. 2, a second cylinder 6 connected by a conduit 5 is provided adjacent to the first cylinder 4 to which the oil supply pipe 2 is attached. A piston 7 is provided in the first cylinder 4, and a spool 3 is provided in the second cylinder 6. On the upper part of the spool 3, there is a frequency display mechanism 8 for automatically displaying the number of times the spool 3 moves up and down, and a refueling amount adjustment for controlling the refueling amount by adjusting the up and down moving width of the spool 3. Mechanism 9 and are provided.

FIG. 3 is an assembled perspective view of the frequency display mechanism and the oil supply amount adjustment mechanism. As shown in Figure 3, frequency table
The indicating mechanism 8 includes a pinion 11 having ten teeth and a second disc 12 having a tenth position, to which a first disc 10 having a ones place is attached.
A gear 13 having 20 teeth attached thereto, an intermediate pinion 14 having 8 teeth meshing with the second disc 12, and a first
A rotor 1 having a pinion claw 15 that engages with a pinion 11 of a disk 10 and having a notch of a predetermined width formed on its peripheral surface.
6, a plate 17 to which the rotor 16 is attached, and a guide tube 19 into which the spool 3 having a spool receiver 18 at the upper end is inserted, which is provided at one end of the plate 17
And a handle 20 for zero point adjustment and a claw 21 for preventing pinion reverse rotation. In addition, the refueling amount adjustment mechanism 9
Is composed of a spring 22 arranged above the spool receiver 18 in the guide tube 19 and a flow rate adjusting screw 23 attached to the upper part of the spring 22.

As shown in FIG. 4 (a), the rotor 16 is adapted to rotate the pinion 11 by one tooth thereof by one operation of the spool 3. 24 is a stopper, and 25 is a spring connecting the spool receiver 18 and the rotor 16.

As shown in FIG. 4B, as the spool 3 rises, the spring 25 attached to the spool receiver 18 causes the pinion claw 15 attached to the rotor 16 to move one tooth (36 °) of the pinion 11 (36 °). ) Only rotate. The amount of rotation of the pinion claw 15 depends on the rotation of the rotor 16.
This is the angle that allows for the width of the notch . As a result, the pinion 11
The first disk 10 attached to the disk rotates by one number. The rotor 16 rotates up to the stopper 24, but
Further rotation is prevented by the stopper 24. However
However, the spool receiver 18 and the rotor 16 are
Since it is connected by the stopper 25, the stopper 24
Even if the rotation of the rotor 16 is hindered, the spring 25
By extending, the spool receiver 18 and the spool 3
Can still continue to rise. Spool receiver 18
When it hits the flow rate adjusting screw 23,
And the spool 3 stops rising . Then , as shown in FIG. 4C, the spool receiver 18 descends together with the spool 3, and the rotor 16 has the spring 2 attached thereto.
The reaction force of 5 returns to the position of the stopper 24.

[0015] Figure 5 is a side view showing the first disk 10 a meshing engagement state between the second disc 12 and the intermediate pinion 14. As is apparent from FIGS. 3 and 5, the intermediate pinion 14
Has four long teeth 14a and four short teeth 14b alternately, the long teeth 14a engage with the groove 10a provided on the side surface of the first disk 10, and the short teeth 14b , Second pinion 1
It meshes with the second gear 13.

FIGS. 6 (a) to 6 (c) are explanatory views showing the operating state of the first disc, and FIGS. 7 (a) to 7 (c) are explanatory diagrams showing the operating state of the second disc. In Fig. 6 (a), the spool 3 moves up,
The pinion claw 15 shows a state in which the pinion 11 of the first disc 10 has started to rotate. FIG. 6B shows a state in which the pinion 11 is rotating. FIG. 6C shows a state in which the rotation of the pinion 11 is stopped. When the long tooth of the intermediate pinion is disengaged from the 1's place, the rotation of the 10's place stops,
One number will be sent. On the other hand, the second disk 12 is shown in FIG.
From the position of the stop state of Fig. 7 through the state of Fig. 7 (b),
(c) is stopped, and the tens digit is rotated by one in synchronization with the rotation of the intermediate pinion 14.

The frequency display mechanism 8 and the oil supply amount adjusting mechanism 9 described above are provided in each of the distribution valves A1, A2, A3 shown in FIG. 1, and the spool 3 is provided for each oil supply pipe 2 of each distribution valve. The frequency display and the amount of refueling are adjusted.

Since the present invention is constructed as described above, when the spool 3 is raised every time a fixed amount of oil intermittently flows, the spool receiver 18 is pushed up by the upper end of the spool 3 so that the first disc 10 and the first disc 10 The number of times the spool has been operated is displayed on the disc 2. Therefore, even when intermittent refueling is performed from each of the plurality of refueling ports, it is possible to easily and surely check the refueling state in a short time. Further, by adjusting the flow rate adjusting screw 23 attached to the upper part of the spring 22 arranged on the upper part of the spool receiver 18 in the guide tube 19, the amount of oil supply can be adjusted for each oil supply port. Further, since the first disk and the second disk have a zero-point adjusting mechanism, the adjustment is easy.

As described above, according to the present invention, it is possible to easily and surely check the lubrication state even when intermittent lubrication is performed from each of the plurality of lubrication ports, and the lubrication port can be checked. Each time, the industrially useful effect is brought about, such as the amount of oil supply can be easily adjusted.

[Brief description of drawings]

FIG. 1 is a schematic overall perspective view showing an embodiment of the present invention.

FIG. 2 is a partial schematic perspective view showing a spool portion to which one oil supply pipe is attached in one distribution valve.

FIG. 3 is an assembled perspective view of a frequency display mechanism and an oil supply amount adjustment mechanism.

FIG. 4 is an operation explanatory view of a spool and a rotor.

5 is a side view showing a meshing engagement state between the first disc and the second disc and the intermediate pinions.

FIG. 6 is an explanatory diagram showing an operating state of a first disc.

FIG. 7 is an explanatory diagram showing an operating state of a second disc.

[Explanation of symbols]

A Distribution valve 1 Pipe line 2 Oil supply pipe 3 Spool 4 First cylinder 5 Conduit 6 Second cylinder 7 Piston 8 Frequency display mechanism 9 Refueling amount adjustment mechanism 10 First disc 11 Pinion 12 Second disc 13 Gear 14 Intermediate pinion 15 Pinion claw 16 rotor 17 plate 18 spool receiving 19 the guide tube 20 handle 21 pawl 22 spring 23 flow adjustment screw 24 strikes Tsu path 25 spring

Claims (1)

[Claims] 1. A plurality of spools having a spool receiver at the upper end that moves up and down each time intermittent refueling from each of a plurality of refueling ports, and the number of times of operation of each of the spools is automatically adjusted when the spool moves up and down. and consists of a plurality of power display mechanism for displaying a plurality of oil supply amount adjusting mechanism for controlling the fuel supply amount by adjusting the vertical movement width of each of said spool, said power display mechanism, power to the peripheral surface The disc on which is displayed
And a pinion to which the disc is attached, and the pinion
Pinion claw that engages with the
Rotating the rotor with a notch with a predetermined width
Engage with the notch to limit it within the notch width
Connecting the stopper, the spool receiver and the rotor
It is composed of a spring and is attached to the spool receiver as the spool rises.
Mounted springs and attached to the rotor
With the pinion claw, through the pinion, the disk 1
Pitch rotation to raise the spool,
To count regardless of the change in stroke
Distributing valve characterized by that.