JP2547859B2 - Injection method of silicone oil for damper - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to an instrument movement and the like used for an on-vehicle instrument and the like, and a silicone oil for a damper suitable for carrying out in the manufacturing process of the instrument movement. Injection method.

[Conventional technology]

FIG. 5 is a view showing an example of the instrument movement according to the present invention, which is an upper bobbin container.
A magnet rotor 12 is rotatably supported in a split coil bobbin 11 composed of 11A and a lower bobbin container 11B, and a cross coil 13 composed of mutually orthogonal coils wound around the coil bobbin 11 is provided. ing.

When a drive current is applied to the cross coil 13 from a drive circuit (not shown), the drive magnetic field is applied to the magnet rotor 12 in the coil bobbin 11 so that the magnet rotor 12 rotates following the direction of the drive magnetic field. A measuring amount is indicated on the dial 16 by a pointer 15 which cooperates with the magnet rotor 12 via 14.

On the other hand, silicon oil S for damper is injected into the bobbin container 11B below the coil bobbin 11, and the viscous resistance of this silicon oil S causes the magnet rotor 12 to move.
The rotational movement of the needle 15 is suppressed to prevent the pointer 15 from shaking.

FIG. 4 is a view showing a conventional method of injecting the silicone oil for damper in the manufacturing process of the movement as described above. Conventionally, the viscous fluid silicone oil S is filled in the dispenser 10 to Silicon oil S from nozzle 10b
The silicone oil S is sequentially injected into the bobbin container 11B that is intermittently moved under the dispenser 10.

[Problems to be Solved by the Invention]

However, the conventional injection method as described above causes the following problems.

That is, since this type of damper silicone oil is viscous, the silicone oil extruded from the dispenser 10 is not well cut, and a thread is drawn between the dropped portion and the tip of the nozzle 10b, for example, as shown in FIG. As shown in, the silicone oil S may overflow from the bobbin container 11B. Further, if the bobbin container 11B is sequentially fed after waiting for the silicon oil to be sufficiently cut to solve this problem, there is a problem that the process tact becomes long. Further, since the silicon oil pushed out from the nozzle 10b is cut by its own weight, there is a problem that the injection amount varies.

It is an object of the present invention to accurately inject silicon oil for a damper and eliminate variations in the injection amount in the manufacturing process of instrument movements and the like to speed up the injection process.

[Means for solving the problem]

The method for injecting silicone oil for dampers of the present invention, which has been made to solve the above-mentioned problems, is a method for injecting silicon oil for damping the rotational movement of the rotor into a bearing member that axially supports the rotor. Then, the silicon oil is cooled to a solid state, the solidified silicon oil is divided to produce a mass of silicon oil, and the mass of silicon oil is placed in the bearing member. It is characterized in that it is adapted to supply.

In addition, the method of injecting the silicone oil for damper of the present invention is a method of injecting the silicone oil for braking the rotational movement of the rotor into the bearing member that axially supports the rotor. It was measured and divided, the divided silicon oil was cooled to produce a solid silicon oil mass, and the silicon oil mass was placed in the bearing member to supply the silicon oil. Characterize.

[Work]

According to the method of injecting a silicone oil for a damper of the present invention, it is possible to control the injecting amount of the silicone oil to a constant amount in the process of manufacturing the lump of the silicone oil by dividing the cooled and solidified silicone oil. It will be easier. Since the solid is divided, the accuracy of dividing into a fixed amount is dramatically improved as compared with the dropping method, and at the same time, the speed of divided weighing is dramatically improved. Further, since the lump of silicone oil is in a solid state, it only needs to be placed in a bearing member such as a bobbin container, and the lump of silicone oil becomes fluid at room temperature after the placement. By adjusting the injection amount of the silicone oil to a constant amount, the damper effect of the silicone oil becomes uniform, and the characteristics of the device using the silicone oil become uniform.

Further, according to the method for injecting the silicone oil for damper of the present invention, the fluidized silicon oil is metered and divided by a measuring instrument such as an ice tray, and the divided silicon oil is cooled to obtain solid silicon oil. It is also possible to manufacture a lump and place the lump of silicone oil in the bearing member to supply the silicone oil, and the same effect as described above can be obtained.

〔Example〕

FIG. 1 is a diagram showing a first embodiment of the injection method of the present invention. In the figure, 1 is a dispenser in which a cylinder 1a is filled with silicone oil S, and 2 is attached around a nozzle 1b of the dispenser 1. The cooling machine 3 is a cutting machine arranged near the lower end of the nozzle 1b, 4 is a drive unit for driving the cutting machine 3, 5 is an image sensor arranged below the cutting machine 3, and 6 is an image sensor. A control unit composed of a microcomputer and a sequencer for driving and controlling the drive unit 4 based on a detection signal from 5, and a bobbin container 7 into which silicone oil is injected.

In the dispenser 1, when the piston 1c is pushed down, the silicone oil S inside the cylinder 1a is sent out to the nozzle 1b. Further, the cooler 2 uses the liquefied nitrogen or the like for the nozzle 1b.
Of the nozzle 1b is cooled to a temperature below the pour point (about -60 ° C) to a solid state.

That is, the silicone oil S in the cylinder 1a is sent out into the nozzle 1b in a fluid state, and the silicone oil S in the solid state is extruded in the form of a rod from the nozzle 1b.

The cutting machine 3 is arranged so as to sandwich and cut the rod-shaped silicone oil S pushed out from the nozzle 1b from both sides, and the image sensor 5 detects the outer shape of the rod-shaped silicone oil S pushed out from the nozzle 1b, and the control unit Reference numeral 6 detects the length from the cutting position P of the cutting machine 3 to the tip of the silicone oil S based on the detection signal of the image sensor 5.

Then, when the length of the silicone oil S from the cutting position P reaches a preset constant length, the control unit 6 controls the driving unit 4 to cut the silicone oil S by the cutting machine 3, and the cutting is performed. The silicone oil mass S ′ is dropped into the bobbin container 7 that is sequentially moved below the dispenser 1. The lump S ′ of silicone oil dropped in the bobbin container 7 is easily made to flow at room temperature.

In this way, the silicon oil S is cooled and once made into a solid state, and by cutting it, a lump S ′ of a certain amount of silicon oil is formed, so that the silicon oil draws a thread and the like. Is eliminated, and there is no problem that silicone oil squeezes out into unnecessary portions, and the process takt time can be further shortened to speed up the injection process.

In the above embodiment, the fluidized silicone oil is cooled to a solid state once, and the solid state silicone oil is cut to generate a fixed amount of the silicone oil mass S ′. As shown in FIG. 2, a coagulation tray 8 divided into a number of small chambers with a fixed volume, such as an ice tray, is filled with fluidized silicone oil, and this is filled with liquefied nitrogen to a temperature below the pour point. It may be cooled to form a solid state oil mass S ′. In this case, the lump S ′ of silicon oil formed on the coagulation dish 8 may be picked up with tweezers or the like as shown in the drawing and carried into the bobbin container.

In the case of this embodiment, since the silicon oil is divided into fixed amounts in the coagulation dish 8 and cooled to form a lump S ′ of silicon oil, a fixed amount is used in the pouring process. It is possible to always prepare the lump S ′ of the silicone oil, and there is no problem that the silicone oil squeezes out to unnecessary portions, and the process takt time can be further shortened to speed up the injection process.

〔The invention's effect〕

As described above, according to the method for injecting the silicone oil for damper of the present invention, the method for injecting the silicone oil for braking the rotational movement of the rotor into the bearing member that axially supports the rotor, The silicon oil was cooled to produce a solid silicon oil mass, and this silicon oil mass was placed in the bearing member to supply the silicon oil. To eliminate the variation of the injection amount,
The injection process can be speeded up.

[Brief description of drawings]

FIG. 1 is a diagram showing a first embodiment of the injection method of the present invention, FIG. 2 is a diagram showing a second embodiment of the injection method of the present invention, and FIG. 3 is a diagram showing conventional problems, FIG. 4 is a diagram showing an example of a conventional injection method, and FIG. 5 is a diagram showing an example of an instrument movement according to the present invention. 1 ... Dispenser, 2 ... Cooling machine, 3 ... Cutting machine, 7
...... Bobbin container, 8 ... Coagulating dish, S ... Silicon oil, S '... Silicon oil mass.

Claims (2)

(57) [Claims] 1. A method for injecting silicon oil for damping rotational movement of a rotor into a bearing member that axially supports the rotor, the silicon oil being cooled to a solid state, Injecting silicone oil for a damper, characterized in that the produced silicone oil is divided to produce a silicone oil mass, and the silicone oil mass is placed in the bearing member to supply the silicone oil. Method. 2. A method for injecting silicon oil for damping rotational movement of a rotor into a bearing member that axially supports the rotor, which comprises dividing and dividing a fluidized silicone oil, and dividing the divided silicon oil. Injection of silicon oil for a damper, characterized in that the oil is cooled to produce a solid lump of silicon oil, and the lump of silicon oil is placed in the bearing member to supply the silicon oil. Method.