SU971668A2 - Apparatus for stabilizing wooden chips to binder ratio - Google Patents

Description

The invention relates to the woodworking industry, in particular to equipment for the production of chipboards.

From the main author. St. No. 821200, a device is known for stabilizing the ratio of wood chips and binder, including adjustable drives of resin and chip supply mechanisms, an active power meter, an idle compensation unit, in parallel with which a filter is connected, and the outputs of the idle compensation unit and filter are connected via an averager to the input of the ratio adjuster binder-shavings (1] and 12]. To ensure the operation of the device, the signal supplied to the binder-shavings ratio adjuster and then to the adjustable drives of the mechanisms giving, unipolar.

With a unipolar signal, in the event of a failure of the sensor or intermediate signal filtering elements, the device switches to manual control.

In the event of an emergency transition from automatic to manual mode, a signal different from the working one will be sent to the input of the adjustable drive.

Consequently, in case of failure of the device elements or when switching from one mode to another with a given chip mass, the amount of binder ³ that is different from the set will be mixed, which leads to a violation of the binder-chip ratio.

Thus, in the event of failure of the elements of the device or when switching to another operating mode, for the normal operation of the device, an additional signal is required, which will allow for normal operating conditions of the device and the preservation of the binder-chip relationship under any conditions.

The purpose of the invention is the operation of the device during an emergency exit. building its elements or switching ^z to another mode of operation.

This goal is achieved by the fact that the device is equipped with an amplifier-converter of a unipolar signal into a bipolar, and the 25th input of the latter is connected to the output of the averager, and the output is connected to the input of the setter of the binder-chip ratio, and also that the amplifier-converter of a unipolar signal into a bipolar is made in in the form of series-connected vibration transducer and push-pull ¹ amplifier.

The drawing shows a diagram of the device.

The device contains an active power meter 5, the output signal of which depends on the load perceived by the electric motor 2, an idle compensation unit 3 and a filter 4 connected in parallel 10, the inputs of which are connected to the active power meter 1, and the outputs are 5 The output of the averager 5 is connected to the input of the amplifier-converter 6 of a unipolar signal 15 into a bipolar one.

The amplifier-converter b of a unipolar signal into a bipolar signal consists of a series-connected dc vibrator · τοκβ2θ into an alternating current and a push-pull alternating current amplifier with a bipolar dc output with changed input and output to match the output of the vibration converter 25 and the input of the binder-chip ratio, respectively.

The output of the amplifier-transducer 6 of a unipolar signal into a bipolar signal is connected to the input of the master bond-chip 7, which is connected to the adjustable drives of the resin feed mechanisms 8 and chips 9 placed on the mixer 10.

The device operates as follows.

The chips enter the mixer 10, where the blades distribute it along the entire length of the mixer 10, while the chips falling between the mixer body 10 and the shaft vanes create a load on the motor 2. To compensate for this signal, a filter 4 is introduced, which is connected in parallel to the no-load compensation unit 3 mixer drive 10. A signal proportional to the amount of shavings entering the mixer 10 is supplied to the input of the averager 5.

The filtered, compensated and averaged signal proportional to the average amount of chips entering the mixer 10 is fed to an amplifier-converter 6 of a unipolar signal into a bipolar signal, the output of which, depending on the ratio of a unipolar signal proportional to the chip weight and a given resin flow rate, is produced amplified bipolar signal.

From the output of the amplifier-converter 6, the signal is supplied to the binder-chip 7 ratio adjuster, where it is converted and fed to the adjustable drives of the resin feed mechanism 8 and chip 9, which provide stabilization of the resin to chip ratio. Using the proposed device will allow you to qualitatively adjust the ratio of binder-chip by ensuring the operation of the device in case of emergency failure of its elements or switching to another mode of operation without breaking (binder-chip ratio and expand the regulation range, which will make it possible to improve the quality of the plates, reduce their marriage, reduce cost overruns binder (which accounts for 25-30% of the cost of production.) and improve the operation of the device as a whole.

Claims (2)

as a series-connected vibration transducer and push-pull amplifier. The drawing shows a device diagram. The device contains an active power meter 1, the output signal of which depends on the load perceived by the electric motor 2, the idling compensation block 3 and the filter 4 turned on in parallel, the inputs of which are connected to the active power meter 1 and the output of the averager 5. The output of the averager 5 is connected to the input of a converter converter amplifier 6 of a unipolar signal into a bipolar signal. Amplifier-converter 6 of a unipolar signal to a two-pole state of a series-connected direct current-to-alternating vibration transducer and a two-stroke ac amplifier with a two-pole direct current output with a variable input and output for matching with the output of the transducer and the setpoint input binder -touch respectively. The output of the amplifier-converter 6 of the unipolar signal to the bipolar is connected to the input of the setpoint adjuster of the binder-chip 7, which is connected with adjustable drives of the feed mechanisms. Resins 8 and chips 9 placed on the mixer 10. The device operates as follows. The chip enters the mixer 10, where the blades distribute it along the entire length of the mixer 10, while the chips falling between the mixer body 10 and the shaft blades creates a load on the electric motor 2. A filter 4 is inserted to compensate for this signal, which is connected in parallel with the idle compensation unit 3 the drive of the mixer 10. The input of the averager 5 is given a signal proportional to the amount of chips entering the mixer 10. The filtered, compensated and averaged signal, proportional to the average amount of chips coming into the mixer 10, is fed to the amplifier-converter of the polar signal to the two-polar signal at the output of which is derived from the relative signal proportional to the mass of the chip, and a given flow rate Smoi produces a boosted dual signal. From the output of the amplifier-transform 6, the signal is fed to the setter of the binder-chip 7 ratio, where it is converted and fed to adjustable drives of the resin supply mechanism 8 and chips 9, which stabilize the ratio of resin and chip. The use of the proposed device will allow to qualitatively regulate the relationship between the binding environment by ensuring that the device operates during an emergency exit from its components or transition to another mode of operation without disturbing the binder-chip ratio and expanding the adjustment range, which will make it possible to improve the quality of the plates, reduce their scrap binder overspending (which is 25-30% of the cost of production.) and improve the operation of the device as a whole. Claim 1. Device for stabilizing the ratio of wood chips and a binder according to the author. St. No. 821200, characterized in that, in order to ensure the operation of the device during an emergency exit from its components or switching to another mode of operation, it is equipped with a single-pole to two-pole amplifier and converter, the latter input is connected to the output of the averager, and the output is connected to the input of the binder-chip ratio adjuster. 2. The device according to claim 1, characterized in that the amplifier transducer of the unipolar signal into a two-pole signal is designed as a series-connected vibration transducer and a push-pull amplifier. Sources of information taken into account in the examination 1. The author's certificate of the USSR 821200, cl. In 29 J 5/02, 1978. 2. Automatic devices, controllers and computing systems. Reference manual. L., Mechanical Engineering, 1976, p. 86, 325-326. ten L1 and Fig