JP3101636U - Eccentric mold height adjustment device for injection molding machines - Google Patents

Abstract

An object of the present invention is to overcome the difficulties of the current technology of preloading by providing a method of reinforcing while adjusting a load applied before a metal chain by an eccentric gear mechanism. I do.
A tailstock having four through holes at respective corners, four tie bars penetrating through the through holes of the tailstock, and four tie bars screwed to the tie bars, respectively. Mold height adjusting nut 5, one motor gear 8, one metal chain 4 connecting motor gear 8 and mold height adjusting nut 5, and one motor mounting frame 3 equipped with electric motor 6. The configuration is provided with. Inside the motor mounting frame 3, there is provided one pinion 7 and one eccentric dowel pin 9, one end of which is fixed to the tailstock 1 and whose shaft is formed as a rotating shaft of the electric motor 6. The metal chain 4 spans the pinion 7, the motor gear 8, and the mold height adjusting nut 5.
[Selection diagram] Fig. 5

Description

  The present invention relates to a new design of a mold height adjusting device generally applicable to an injection molding machine and applicable to other mechanisms requiring similar functions.

  The main function of the mold height adjustment device is to adjust the position of the clamping device. For this reason, the clamp unit of the injection molding machine (including the three-plate and two-plate type injection molding machines) can be applied to injection molding dies having various thicknesses. Current technology uses an electric motor (or hydraulic motor) coupled to a motor gear that rotates via a metal chain by driving a mold height adjustment nut. After the rotation operation of the nut is converted into a linear operation of the tailstock that moves along the tie bar, the height of the mold is adjusted.

  It is very important to apply a load to the metal chain in advance during the assembly process, but if the load applied in advance is too large, the chain will be increased in tension and broken. On the other hand, if the load applied in advance is too small, tooth slippage occurs between the mold height adjustment nut and the chain, or between the motor gear and the chain.

  Thus, the present invention overcomes the difficulties of the current technology of preloading by providing a method of reinforcing while adjusting the load applied before the metal chain by the eccentric gear mechanism. As an issue.

The present invention provides a tailstock having four through holes at each corner as means for solving the above-mentioned problems,
Four tie bars penetrating each through hole of the tailstock,
Four mold height adjustment nuts screwed onto the respective tie bars,
One motor gear, and
An eccentric mold height adjustment device including one metal chain that connects the motor gear and the mold height adjustment nut,
Equipped with one motor mounting frame equipped with an electric motor,
Inside the mounting frame,
While fixing one pinion,
One eccentric dowel pin, one end of which is fixed to the tailstock, the axis of which is formed as the rotation axis of the motor;
The metal chain is connected to the pinion, the motor gear, and the mold height adjusting nut.

  The mechanism also includes a set screw that secures the position of the motor mounting frame to the tailstock.

  With this configuration, the pinion can be fixed in the motor mounting frame using the eccentric dowel pin. For this reason, it is possible to assemble the entire power transmission mechanism more quickly. By using the eccentric dowel pin as the rotation axis, the distance between the motor gear and the pinion can be changed only by rotating the motor mounting frame along the rotation axis. As a result, the load applied to the metal chain in advance can be adjusted. The greater the rotation angle of the motor mounting frame, the greater the tension. After the adjustment, the motor mounting frame is positioned and fixed by the fastening screw.

  The electric motor and the motor mounting frame are fixed to the tailstock by bolts.

  The electric motor is fixed to the mounting frame by bolts.

  The amount of eccentricity of the dowel pin may be zero.

  According to the present invention, the load, that is, the tension previously applied to the metal chain is adjusted by rotating the motor mounting frame, so that the assemblability can be improved.

  Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

  1 to 5 show the structure of the eccentric height adjustment mechanism. The clamp unit of this mechanism includes one tailstock 1, four through holes formed in each corner 11, and four tie bars 2 inserted into the tailstock 1 through each through hole 11. .

  The power transmission section of the mechanism includes four mold height adjustment nuts 5 provided on each tie bar 2 and one electric motor 6 for applying a transmission force. Below the electric motor 6, there is provided a motor mounting frame 3 having one end fixed to the electric motor flange by four bolt screws 12 and the other end fixed to the tailstock 1 by a retaining screw 7. The motor mounting frame 3 includes an eccentric dowel pin 9 that penetrates the motor gear 8 and is fixed to the electric motor 6. The other end of the dowel pin 9 is fixed to the tailstock 1. A pinion is provided on one side of the dowel pin 9, and its shaft 10 is fixed to the motor mounting frame 3. The metal chain 4 is connected to a mold height adjusting nut 5, and a motor gear 8 and a pinion 7 are provided in a power transmission system.

  1 and 3 show a state before a load is applied to the mechanism in advance. In this state, the metal chain 4 is loose. At the time of assembly, it is necessary to adjust the tension of the metal chain 4. By using the eccentric dowel pin 9 as the rotation axis, the distance between the motor gear 8 and the pinion 7 can be changed only by rotating the motor mounting frame 3 along the rotation axis. As a result, the load applied to the metal chain 4 in advance can be adjusted, and the metal chain can be tightened. As the rotation angle of the motor mounting frame 3 increases, the tension increases. After the adjustment, the motor mounting frame 3 is positioned and fixed by the set screw 11, as shown in FIGS. This is a method of adjusting the tension of the metal chain 4.

  The method of using the eccentric height adjustment mechanism having the above-described configuration is not limited to the above description and range, and includes various configurations sharing the same concept and principle within the scope of the present invention.

It is an eccentric mold height adjustment mechanism showing a state before a load is applied in advance. It is an eccentric mold height adjusting mechanism showing a state after a load is applied in advance. It is an eccentric mold height adjustment mechanism showing an internal structure before a load is applied in advance. It is an eccentric mold height adjusting mechanism showing an internal structure after a load is applied in advance. It is an exploded view of an eccentric mold height adjustment mechanism.

Explanation of reference numerals

DESCRIPTION OF SYMBOLS 1 ... Tail stock 2 ... Tie bar 3 ... Motor mounting frame 4 ... Metal chain 5 ... Die height adjustment nut 6 ... Electric motor 7 ... Pinion 8 ... Motor gear 9 ... Dwell pin 10 ... Shaft 11 ... Screw 12 ... Bolt screw

Claims (4)

One tailstock with four through holes at each corner,
Four tie bars penetrating each through hole of the tailstock,
Four mold height adjustment nuts screwed onto the respective tie bars,
One motor gear, and
An eccentric mold height adjustment device including one metal chain that connects the motor gear and the mold height adjustment nut,
Equipped with one motor mounting frame equipped with an electric motor,
Inside the mounting frame,
While fixing one pinion,
One eccentric dowel pin, one end of which is fixed to the tailstock, the axis of which is formed as the rotation axis of the motor;
An eccentric mold height adjusting device, wherein the metal chain is connected to the pinion, the motor gear, and a mold height adjusting nut.   The height adjusting device for an eccentric mold according to claim 1, wherein the electric motor and the motor mounting frame are fixed to the tailstock by bolts.   The eccentric mold height adjusting device according to claim 2, wherein the electric motor is fixed to the mounting frame by bolts. 2. The eccentric mold height adjusting device according to claim 1, wherein the amount of eccentricity of the dowel pin is zero.