JPS63296863A - Viscous fluid coating apparatus - Google Patents

Abstract

PURPOSE:To always accurately apply a definite amount of a viscous fluid, by giving the pressurizing force and pressurizing time corresponding to the residual amount of the viscous fluid in a tank at definite temp. CONSTITUTION:A definite amount of a viscous fluid 10 is applied using the tank 11 receiving the viscous fluid 10 and having an emitting nozzle 12 and the pressurizing apparatus for supplying commessed air to said tank 11. The level of the viscous fluid in the tank 11 is detected by a sensor 14 and a control part always emits a definite amount of the viscous fluid on the basis of the output of the sensor 14. That is, since the viscous fluid is emitted on the basis of the pressurizing force and pressurizing time corresponding to the amount of the viscous fluid in the tank while the temp. thereof is kept constant, a definite amount of the viscous fluid can be always applied accurately.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a viscous fluid application device that applies a fixed amount of viscous fluid to a plate material, etc., which is used in the manufacturing process of electronic circuit device parts. .

(Prior Art) Regarding the conventional viscous fluid coating device, FIGS.
This will be explained using figures.

FIG. 3 is a perspective view of a conventional viscous fluid application device ξ. The viscous fluid coating device consists of two coating heads 3 mounted on an X table 2 placed behind the bed 1, and a Y plate 4 placed in the center of the bed 1 that can be used to apply viscous fluid.
It is equipped with a table 5.

FIGS. 4 and 5 are a front sectional view and a side view of the coating head 3. FIG.

As shown in FIG. 4, the coating head 3 has a cap 7 fixed to a shaft 6 that moves up and down and rotates by a drive device (both not shown) built into the X-table 2.
And, fixed to this cap 7 with multiple bolts 8,
The tank holder 9 shown in FIG. 5 has an opening with the front surface removed, and the tank holder 9 is detachably attached to the tank holder 9 using this opening.

A translucent tank 11 made of resin with a funnel-shaped outlet 11a provided at the lower end, and a nozzle holder 1 fixed to the lower end of the tank holder 9 with a nozzle 12 protruding from its lower surface.
The gate consists of 3 and 3. Further, the cap 7 is provided with an air supply lower a into which compressed air is fed, and a sensor 14 for detecting the residual amount of the viscous fluid 10 is embedded near the lower end of the tank holder 9. Further, a heater 15 is attached between the tank holder 9 and the nozzle holder 13.

A thermistor 16 is attached to measure the temperature of the nozzle holder 13 warmed by this and to keep it constant. After the tank 11 is filled with the viscous fluid 10, a metal float 17 is placed above it. The viscous fluid 10 is uniformly pushed out by the action of the filter 17, and a sensor 14 embedded in the tank holder 9 detects that a small amount of the viscous fluid 10 remains.

A gasket 18 and a gasket 19 are installed between the upper end surface of the tank 1 and the cap 7, and between the outer peripheral surface of the tank 11 and the nozzle holder 13, respectively. The airtightness inside 11 is maintained.

The operation of the viscous fluid coating device configured as described above will be explained.

First, the tank 11 is removed, filled with viscous fluid 10, and then attached to the tank holder 9. Next, a current is applied to the heater 15, and the temperature is measured by the thermistor 16, and the temperature is raised to a required level and kept constant.

Next, after mounting the plate material 4 on the Y table 5, the viscous fluid application device is operated. When compressed air is supplied from the air supply lower a for a predetermined period of time, the compressed air pushes the float 17 downward, and a certain amount of viscous fluid IO is discharged from the nozzle 12. At the same time, the shaft 6 descends and the viscous fluid 1o is applied to the plate material 4. The amount remaining in the tank holder 1 decreases, and the float 1 reaches the position of the sensor 14 of the tank holder 9.
7 comes down, a warning lamp (not shown) for replacing the tank 11 lights up.

(Problem to be solved by the invention) However, the discharge amount of viscous fluid is determined by the pressure of compressed air,
It varies depending on the pressurization time, the temperature of the viscous fluid, and the amount remaining in the tank. Therefore, even if the previous champion was kept constant, there was a problem that if the residual amount changed, it would not be possible to accurately apply a constant amount.

The present invention solves the above problems and provides a viscous fluid application device that can accurately apply a certain amount of viscous fluid.

(Means for Solving the Problems) In order to solve the above problems, the present invention provides a sensor that detects the liquid level of viscous fluid in a tank, and a sensor that detects the level of viscous fluid in a tank. A controller is provided to control the pressure and pressurization time.

Note that the temperature adjustment function for keeping the temperature of the viscous fluid constant is provided as usual.

(Function) With the above configuration, the pressurizing force and pressurizing time corresponding to the residual amount of viscous fluid in the tank can be obtained at a constant temperature, so that an accurate coating amount can always be obtained.

(Example) An example of the present invention will be described with reference to FIGS. 1 and 2.

1 and 2 are a front cross-sectional view and a side view of a coating head 3 according to the present invention. The difference from the conventional example shown in FIGS. A plurality of sensors 14 are arranged at equal intervals so that the position of the float 17 floating on the surface of the viscous fluid 10 in the tank 11 can be continuously detected. Furthermore, a control section is provided which calculates and commands the pressurizing force and pressurizing time by compressed air from the liquid level height of the viscous fluid detected by these sensors 14.

The operation of the viscous fluid applicator configured in this way is the same as the conventional example, so its explanation will be omitted, but the pressurizing force and pressurizing time are controlled depending on the amount of the viscous fluid 10 in the tank 11. Therefore, a constant amount is always applied regardless of the amount remaining.

(Effects of the Invention) As explained above, according to the present invention, the temperature of the viscous fluid is kept constant and the fluid is discharged with the pressurizing force and pressurizing time that match the amount of the viscous fluid in the tank. A precise amount of viscous fluid can be applied.

[Brief explanation of drawings]

1 and 2 are respectively a front sectional view and a side view of a coating head of a viscous fluid coating device according to the present invention, FIG. 3 is a perspective view of a conventional viscous fluid coating device, and FIGS.
The figures are a front sectional view and a side view of a conventional coating head, respectively. DESCRIPTION OF SYMBOLS 1...Bed, 2...X table, 3...Applying head, 4...Plate material, 5...Y table, 6
...Shirt 1-1 7...Cap, 7a...
- Air supply port, 8... To port l, 9... Tank holder, 10... Viscous fluid, 11... Tank, ]1.
a...Discharge port, ■2...Nozzle, 13...Nozzle holder, 14...Sensor, 15...Heater, 16...Thermistor, 17...Float, 1
8゜19... Patsukin. Patent applicant: Matsushita Electric Industrial Co., Ltd. Figure 1: Yue f et al. = 8- Figure 3: Figure 4

Claims (5)

[Claims] (1) In a viscous fluid application device that applies a fixed amount of viscous fluid using a tank having a discharge nozzle that accommodates viscous fluid and a pressurizing device that supplies compressed air to this tank, detecting the liquid level of the viscous fluid in the tank. A viscous fluid application device characterized by having a sensor and a control section that always discharges a fixed amount based on the output of the sensor. (2) The viscous fluid application device according to claim 1, further comprising a control section that controls the pressurization time for pressurizing the viscous fluid in the tank based on the output of the sensor. (3) The viscous fluid application device according to claim 1, further comprising a control section that controls the pressure applied to the viscous fluid in the tank based on the output of the sensor. (4) The viscous fluid application device according to claim (1), further comprising a control unit that controls the pressurizing force and pressurizing time for pressurizing the viscous fluid in the tank based on the output of the sensor. . (5) The viscous fluid application device according to claim (1), further comprising a temperature adjustment section that keeps the temperature of the viscous fluid constant.