SU566637A1 - Bottle checkup apparatus - Google Patents

Description

One shoulder of the angular lever 3 is provided with a flap 14, and the other with interchangeable cones: an outer 15 for measuring the opening in the bottle and an inner 16 for measuring the diameter of the bottle rim.

A probe 17, designed to register the position of the shutter 18 and the rocker arm 8, is housed in the housing 13, which is mounted for translational motion in the fixed guide frame 2. In the housing 13 of the probe 17, spring-loaded needles 9 and a microswitch 11 are also installed. Isolated surfaces of all the dampers and the needles of the probes are connected to the electrical network to trigger the counter on the control panel (not shown in the drawings).

A sprocket 19 is freely rotating above the bottle conveyor. The inferior bridge 20 has a notch closed by a false bottom 21 connected by an lever 22 with an electromagnet 23. A prism 24 and an anchor 25 are fixedly fixed under the asterisk 19, the copier 26 is rotatably mounted, equipped with a rim 27 and is driven by the actuator 28. The guide axis 29 is mounted with the possibility of translational movement under the action of the spring 30 and the electromagnet 31. On the axis 29, the four shoulders lever 32 is fixedly fixed. Peer 26, the second - moves the body 13 of the probes 10 and 17, the third - the pads 25 and the fourth - tells the translational movement up and down the slider 1.

Conveyor 33 serves to feed the bottles under the measuring cone, and microswitch 34 to provide a signal to the copier. The lever 32 is connected by means of a spring and a copier to a dog 35 and a ratchet 36. A spring-loaded plate 37 equipped with a valve 38 is hinged on the lever of the pillow 25. The plate 37, in contact with the bottle being measured, determines whether its diameter corresponds to the diameter of the standard or the presence of ovality in the cylindrical part the bottle.

The device for controlling bottles works as follows.

Measurements of the displacement of the axis of the bottle neck and the diameter of the hole are made using a probe 10 on the slider 1.

When measuring the displacement of the axis of the bottle throat (Fig. 1, 2), the slider 1 is lowered and the measuring cone enters the opening of the bottle. If the axis of the throat is not displaced, then the angular lever 3 is not rotated, the lever arm remains vertical, and the shutter 14 is mounted coaxially with the probe 10, which enters the hole. When the throat axis is displaced, the measuring cone, entering the bottle, turns lever 8, as a result, the opening of the flap 14 takes a position on the side or on top of the probe 10. In this case, the probe rests on the flap and closes the contact of the electromagnet 23 through the microswitch 11. The electromagnet 23 pulls out the false bottom 21 of the bottle, and the bottle falls into the receiver. Upon contact of the probe 10 and the valve 14, the electrical contact of the corresponding electric pulse counter closes, registering the nature of the marriage and its quantity. Since the horizontal arm of the lever 3 is larger than the vertical, the shear readings increase, increasing the measurement accuracy, which also depends on the size of the hole in the flap 14. The gap between the diameters of the probe 10 and the hole in the flap 14. The gap between the diameters of the probe 10 and the hole in the flap 14 is the field the tolerance for the bottle throat shift (1 1.5%), stipulated by GOST.

When measuring the diameter of the throat opening, a reference bottle is installed under the device, and the slider is lowered until the cone stops in the bottle. The position of the rocker arm 7 is adjusted so that the hole in the valve arm is coaxial with the probe 10.

When the device is in operation, the measuring cone is lowered into the bottle neck. If the diameter of the hole does not exceed the limits set by the State Standard, then the flap 14 is set so that the needle of the probe 10 can easily penetrate the hole of the flap. If the opening in the bottle is more or less than the allowable one, the cone is positioned higher or lower, cap 6, abutting against the edge of the bottle, remains in the same place, and with it the left end of the rocker arm. Together with the cone, the axis of the rocker arm 7 is set at an appropriate height, while the free end of the arm is set at a position corresponding to the amount of cone displacement. The measurement accuracy in this case can be improved by increasing the gear ratio of the rocker arm and reducing the hole in the valve.

The height of the bottle and the diameter of its body are measured with the help of the chong 17.

In order to control the height of the bottle, the position of the rocker arm 8 is adjusted so that the hole in the valve arm is coaxial to the probe 17. When the height of the bottle deviates from the set size, this coaxiality is disturbed, and the probe 17 moves forward and locks into the valve. As a result, through the microswitch 11, the electromagnet 23 is turned on, which drops the unusable bottle into the receiver. (A bottle can be dropped by one or more reject rates).

The diameter of the bottle body is controlled by the valve 38 of the plate 37 in contact with the cylinder of the bottle when it is fixed by the cushion 25. The opening of the valve 38 is displaced relative to the probe 17 if the diameter of the cylindrical part of the bottle differs from the standard diameter or if there is ovality.

The measuring cone, detecting deviations in the diameter of the opening of the throat and in the diameter of the corolla, also records the presence of ovality in the opening and in the corolla, rejects of the bottle in the presence of ovality in smaller diameters in the opening and in large diameters in the corona.

Thus, the proposed device simultaneously monitors eight of the following bottle parameters in one move of the slide: diameter and ovality of the throat openings; the displacement of the throat relative to the axis of the bottle; diameter and ovality of the body; corolla ovality and its diameter; height.

Claims (1)

Invention Formula A device for controlling bottles, containing; its mechanism for supplying bottles to a working position, installed so as to Vertical mixing measuring gauge and control unit, distinguished by the fact that, in order to expand the technological capabilities of the control, it is equipped with a locking cap connected by means of a spring-loaded rocker arm and probe to the control unit, and the measuring gauge is made in the form of a cone, kinematically connected by a spatial transmission mechanism consisting of an angular lever, a slider installed with the possibility of vertical movement, and a second probe with a control unit, while fixing th cap cantilever placed on measuring cone. ACPUS nineteen