RU2061632C1 - Charging and orientating device for cap-tyre articles - Google Patents

Abstract

FIELD: automation of production processes; group delivery of cap-type non-metallic articles to zone of operation. SUBSTANCE: device has frame and orientation arrangement with grooves for transportation of articles and channels connected with air supply source. Device has hopper installed on frame with main and additional troughs behind the hopper. Groove are made in troughs. Channels to deliver air are made in walls of main trough and in bottom of additional trough. EFFECT: enlarged operating capabilities. 6 dwg

Description

 The invention relates to the automation of technological processes and is intended for group supply of shell products of the “cap” type from non-metallic materials to the zone of further technological operations, for example, stamping, assembly, etc.

Known vibration loading and orienting device containing a base mounted on it a tray with a vibrator, streams placed on it to move products into the hopper [1]
The known device does not allow to move the product flows with increased speeds and with increasing intervals between products, as well as their reliable and complete orientation, which limits the performance of the process of orientation of shell products.

Closest to the proposed technical solution is a vibration loading and orienting device, including a base, a base tray with streams orienting the product mounted on it on inclined springs, an additional cantilever tray with streams, a hopper and a vibration drive of the base tray [2]
A disadvantage of the known device is that it does not allow you to move the product flows at higher speeds and with increasing intervals between products, as well as their reliable and complete orientation, which limits the performance of the process of orientation of the shell products.

 The aim of the invention is to increase the productivity of the process of orientation of shell products due to the use of guiding air flows during the movement process.

 This goal is achieved by creating a vibrating loading-orienting device containing a base, a base tray with streams orienting the products mounted on it on inclined springs, an additional cantilever tray with streams, a hopper and a vibrating drive of the base tray, in which, according to the invention, the streams of the additional tray are made from separate parts of the bottom located below the bottom of the base tray and vertical walls and installed in the windows made in the additional tray, with one end of the bottom of the ball nirno mounted on the end of the base tray, and the other has an angle control device relative to the axis of transportation, and the bottom of the stream of the additional tray and the walls of the base tray are provided with channels located at an angle to the axis of transportation.

 In FIG. 1 shows a vibratory loading-orienting device, a section; in FIG. 2 is a top view of the device; in FIG. 3 section BB; in FIG. 4 is a diagram of the movement of orientation of shell products; in FIG. 5 is a view of D in FIG. 4; in FIG. 6 shell product (cap).

 The vibration-loading-orienting device comprises a fixed base 1, on which, by means of inclined springs 2, a base tray 3 is mounted, equipped with streams 4, in the walls 5 of which channels 6 are made at an angle to the transport axis and a vibration drive 7 of the base tray. A hopper 8 is mounted on the base tray to accommodate a placer of products. The axis of the channels 6 are located at the level of movement of the products in the horizontal plane at an acute angle α in the direction of flow of the products and are connected to the pneumatic line (not shown in the drawing).

 An additional console tray 9 with streams is fixed on the base tray. The number of streams of the base tray is equal to the number of streams of the optional tray. The streams of the additional tray are made of separate parts of the bottom 10, located below the bottom of the base tray and the vertical walls 11, and are installed in the windows 12 of the additional tray. One end of the bottom 10 is pivotally mounted using the axis 13 on the base tray, and the other is in contact with the angular adjustment device relative to the transport axis 14, mounted on the additional tray 9. The channels 15 are located at an angle to the transport axis.

 When adjusting the angle g of the slope of the bottom of the stream of the additional tray to the horizon, it is desirable to set the value of "B" to 1.5 2.5 mm relative to the additional tray.

The vibration-loading-orienting device operates as follows: on the base tray 3, shell products coming from the hopper 8 are placed, moved in the direction of transportation under the influence of harmonic vibrations transmitted to the base tray from the vibration drive 7 of the base tray and the inclined springs 2. Product flows coming from the hopper 8 into streams 4 of the base tray 3, reaching the scope of the jets of compressed air directed from the air ducts 6 start moving with increasing gaps P _1, P _2, P _{3, 4,} between the products in the conveying direction to an additional console tray 9. The said gaps P _1, P _2, P _3, P ₄ is necessary in order that each end to a suitable base tray product had the opportunity through burial "A" lean and fall on the bottom 10 of the additional cantilever tray 9 without affecting the next contact product. It is such a drop that is non-contact with other products that makes it possible to quickly orient the products and their subsequent movement non-contact with the bottom on jets of compressed air coming from pneumatic channels 15.

 With further movement in the streams of the additional tray, because the bottom 10 was installed with an excess of "B", strictly oriented products come into contact with the surfaces of the bottoms 17 and then move only under the action of vibration.

So, thanks to the action of air jets from the channels 15, the guaranteed movement of the shell products with increasing gaps P ₁ , P ₂ , P ₃ , P ₄ between the products is carried out, which in the further movement provides free, i.e., without the influence of other products, fast orientation under the lower center of gravity of each successive product and its movement, contactless with the bottom of the stream stream of the additional tray. The indicated processes of orientation and contactless movement of the products with the bottom 10 are ensured by the action of air jets coming from the channels 15.

 The proposed vibratory loading-orienting device is intended for the issuance of oriented products of low weight, but relatively large volume, for example, "caps" and covers made of plastic and having overall dimensions of 20 to 90 mm. YYY2 YYY4

Claims (1)

 A loading-orienting device for products of the “cap” type, comprising a frame and a device for orienting the products, including streams for transporting them and channels made therein connected to an air supply source, characterized in that it is equipped with a hopper mounted on the frame located behind it main and pivotally connected to it cantilever additional trays, consisting of bottoms and side walls, the additional tray is mounted with the possibility of angular movement relative to the horizontal plane, and its bottom is installed below the bottom of the main tray, while the streams are located in the trays, the air supply channels are made in the walls of the main tray and in the bottom of the additional tray, and the longitudinal axis of the channels are placed at an angle to the direction of transportation of the products.

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