SU1690237A1 - Compound batchmeter - Google Patents

Description

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(21) 4725640/21 (22) 07.31.89 (46) 07.11.91. Bul №41

(71) Central Design Bureau of Technology and Mechanical Engineering Sealant

(72) V.I. Gundarev, V.A. Moskvinev and E.V. Gundarev

(53) 621.396 (088.8)

(56) USSR Author's Certificate No. 365872, cl. H 05 K 13/02. 1989.

(54) DEVICE FOR DOSING FILLING WITH COMPOUND

(57) The invention relates to the manufacture of products sealed with a compound, in particular, products of the electronics industry, such as diodes, capacitors, high-voltage rectifying columns. The purpose of the invention is to expand technological capabilities and simplify the design. The device comprises a container 1 for the compound, a casting mold 2, a drive mechanism 3 with a cam shaft 4, and a mechanism for metering the compound with a rotary shaft (PV) 5 installed in the cavity of the container. Plungers 9 are mounted in diametrical holes PV, which are moved by pushers 10. PV is connected to the drive mechanism with the possibility of periodic rotation by half a turn. The casting mold is mounted on the two shoulders of the lever 21, interacting with the drive mechanism. 1 hp ff, 7 ill.

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ABOUT

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The invention relates to the manufacture of products sealed with a compound, in particular, products of the electronics industry, for example, capacitors, high-voltage rectifying columns.

The purpose of the invention is to expand technological capabilities and simplify the design of the device.

Fig, 1 shows the device in the working position; figure 2 shows the device, vi, d from above; on fig.Z - the mechanism of dosage, incision; 4 and 5 are diagrams of the operation of the dosage mechanism; figure 6 - diagram of the drive of the rotary shaft; figure 7 - ratchet, cut.

The device contains a container 1 for the compound, a casting mold 2 in the form of separate cells, a drive mechanism with a gearbox, on both sides of which there is a camshaft cam 4, a mechanism for metering the compound in the form of a rotary shaft 5, and a heater 6.

The rotary shaft 5 (FIGS. 3-5) is located in the cylindrical cavity of the container 1, which has an opened longitudinal groove 7. The shaft 5 is equipped with through diametral holes 8 in accordance with the number and location of the cells in the mold 2. Plungers are installed in the holes 8 9, providing the dose of the compound through the interaction with the pushers 10, fixed in the bracket 11, interconnected with a single-arm swivel lever 12. The lever 12 by means of a spring-loaded rod 13 and an adjusting nut 14 provides kinematic connection roller 15, located on the other one-arm lever 16, with the cam 17 of the shaft 4 of the drive mechanism. On the other side of the gearbox 3, a crank 18 is attached to the shaft 4, with which the belt 19 is connected, which is in kinematic communication with the rotary shaft 5 by means of the ratchet mechanism 20.

To translate the swinging movement of the lever 12 into the translational movement of the plunger 9, when the pusher 10 acts on it, the axis of the plunger 9 and the normal, drawn through the upper end of the plunger and the center of rotation of the single-arm lever 12, form an angle of 90 ° between each other. In this way, with small movements, a plane-parallel movement of the plunger 9 is provided with the swinging movement of the lever 12 with the bracket 11, in which the pushers 10 are fixed, which simplifies the design of the device and increases the metering accuracy.

Casting mold 2 is located on the double-shouldered lever 21, one end of which

by means of the pull 22, the mold 2 swings, i.e. approaching or moving away from the exit nozzle 23, the dosing mechanism by the lever 24, kinematically

connected with crank 18.

Power unit 22 has the ability to interact with microswitch 25 of the control circuit.

The rotary shaft 5 is on both sides

mechanical seals (FIG. 3), on the one hand, in the form of a cup 26, the bottom of which is made in the form of an elastic membrane, in which there is a projection 27 in the center. The protrusion 27 has the ability to interact with the spring-loaded stem 28, which is rigidly located in the glass 29 with a guaranteed clearance In relation to its outer wall. On the other side of the shaft 5, on the drive side, a rigid seal is installed in the form of a sleeve 30, to which a constant preload of the shaft 5 is provided.

Ratchet mechanism 20 (Fig.6 and 7) made in the form of a spiral spring 31,

one end of which is rigidly connected to the base of the device, and the other to the drum 32. The drum 32 is interconnected with the belt 19, which is connected to the other end by means of the rod 33 through the rotary roller 34 seconds

a crank 18 fixed on the output shaft 35 of the gearbox 3. The drum 32, in turn, is interconnected with the coupling half 36 by means of a spring-loaded pawl 37, which has the ability to influence

alternately on the stops 38, located on the half coupling 36, is rotated by 180 °, thus ensuring rotation of the shaft 5 by 180 °. In order to ensure that the mold 2 swings when the crank 18 rotates

the two shoulders of the lever 24 has a roller 39, which has the ability to interact with the crank 18.

The device works as follows.

When the drive is turned on, the cam shaft 4 of the gearbox 3 begins to rotate. The rotational movement from the crank 18 and the belt 19 is transmitted to the shaft 5 by means of

ratchet mechanism 20. Compound located in bore 8 above plunger space moves with shaft 5 (Fig. 5). When shaft 5 rotates 180 °, during shaft stand 5, cam 17 is moved by means of roller 15, rod 13 and lever 12 move pushers 10 (Figures 1 and 3), moving plungers 9 and pushing the compound dose through nozzles 23 into the mold 2, and at the end of the stroke of the lever 21, moving down, as if moving away from the nozzle

23. A drop of the compound drops and at the same time the control circuit of the microswitch 25 is opened when it is subjected to the rod 22 with simultaneous exit of the pushers 10 from the hole 8 of the shaft 5, to which the compound again flows (Fig. 4). The regulation of the dosa value is ensured with great precision by means of a nut 14 by changing the outreach of the rod 13. The dose equalization between the individual cells of the filling mold 2 is achieved by adjusting by moving the pushers 10 in the bracket 11.

The device provides a simplified design due to the direct use of the plunger in the rotary shaft, as well as the kinematic links of the shaft by means of a connecting rod, tape and ratchet mechanism, as well as links of the pushers through a spring-loaded bar with single-arm levers with a fist mounted on the output shaft of the gearbox drive. The presence of a face seal in the form of a sleeve with a membrane bottom and a spring-loaded stem, ensuring a constant one-sided preloading of the rotary shaft to the stationary seal, prevents the compound from entering the face gaps, eliminates the solidification of the compound in them, and ensures quick disassembly of the structure for flushing after work .

The device can operate at any number of cycles of a simultaneous dose supplied, limited to the above-plunger space.

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Invention Formula

Claims (2)

1. A device for dosed casting with a compound, containing a container for the compound, a casting mold, a drive mechanism with a camshaft, a metering mechanism for the compound in the form of a rotary shaft, placed in the cylindrical cavity for the compound and kinematically connected with the drive mechanism, characterized in that in order to expand technological capabilities and simplify the design, the compound dosing mechanism is equipped with plungers installed in through-diametrical holes made in the rotary shaft and pushed mounted with the ability to interact with the plungers, and the drive mechanism is equipped with a swivel lever, a bracket mounted on it to install the pushers of the compound dosing mechanism and a double-arm lever, on one arm of which a casting mold is installed, with the swivel and two shoulders levers kinematically connected to the camshaft . 2. The device according to claim 1, that is, so that the rotary shaft of the compound dosing mechanism is provided with a mechanical seal in the form of a glass with a bottom in the form of an elastic membrane, in the center of which a ledge is made, and a spring-loaded stem installed inside the glass with the ability to interact with the protrusion of the elastic membrane. 18 13 FIG. 2 at 7 Phage. c -T-1 Z7 2829 25 Fig s 7 10 AT FIG. five 36 J / FIG. 6 FIG L