SU1346387A1 - Work loading device - Google Patents

Abstract

The invention relates to mechanical engineering, which can be used to automate interoperational transport in aggregate machines and automatic LIs. The purpose of the inventive: shadow is to ensure the reliability of the device. When moving tol-: katel 6, cutting off the next part 11, supplied from the feed channel 2, and pushing all the parts in a horizontal row of steps equal to the largest part size. The next part, displaced from the prism 5 of the previous one and pressed out of the spring-loaded bar 7, jumps over the top of the pointed protrusion 10 and ends up on the face 9 of the prism 5. prism 5 and open from the subsequent number of details. The finished part 1 1 after passing Through all the working positions is removed along the discharge channel. 3 il. O9 4Sk Od 00 00

Description

The development is related to the field of mechanical engineering and can be used to automate interoperative transport in aggregate machines and automatic lines.

The purpose of the invention is to improve the reliability of the device by ensuring the reliability of fixing the part in the machining area.

Figs, shows the boot device, a general view; in fig. 2 - the same, intermediate position, on fi1, 3 the same, the final position, subject to the submission of details of maximum diameter.

The loading device contains a stationary case 1 in which feed 2 and discharge 3 channels are made, intermediate channel 4, in which prisms 5 are installed, pusher 6 mounted clamping devices coaxially against each prism 5, pivoted in prism side prisms 8.

Each prism 5 has a face 9 made with a pointed wedge-shaped dividing protrusion 10, the top of which is separated from the axis of the strung bar 7 and a distance equal to half the stroke of the pusher51 6. The distance between the axes of the spring-loaded bars 7, as well as prisms 5 times ho.tsu pusher 6,

The device works as follows.

When the pusher 6 moves, the next part 1 cuts off 1. The feed from feed channel 2 and pushing all the parts in the horizontal row by a step equal to the largest part size. the projection 10 and is on the verge 9 of the prism 5. Next, the plank 7 under the action of the spring 8 fixes this detail in the prism 5, rolling it along the face 9 prism 5 and opening from the subsequent row of details. So, as the distance between the prisms 5 (or coaxially with them placed spring-loaded strips 7) multiple-move the pusher 6, the largest in size details exactly

are defined by working positions and are located in a horizontal row without gaps, but since the actual transmitted parts can be

,

0

0

five

less due to tolerance, they are freely placed between, prism 5 with some gaps. In this case, for the operation of the device, the total clearance is not. must exceed half the diameter of the greatest detail.

After returning the pusher 6 to its original position, the next part of feed channel 2 is installed in front of the end face of the pusher 6 in the horizontal row, 1

Similarly, the transfer of parts in all subsequent areas. Moreover, the propeller of each row of prisoners between the prisms of 5 parts is the spring-loaded Alanka 7 of the previous position.

In a beige-and-e simultaneous clamping of a sub-spring. A strip 7 of two parts adjacent to the prism 5 parts, the length of the area of the spring-loaded piece must not exceed the double diameter of the largest transmitted part or the same , double stroke of the pusher 6. And the smallest length of the platform of the spring-loaded strip 7 must be ensured that the next part jumping over the pointed protrusion 10, i.e. should not be less than the diameter of the largest transmitted part, equal to the course of the pusher 6.

The processed part I1, after passing through all the working positions, is removed by the outflow channel 3.

Claims (1)

Formula from turn-loading device containing fixed case in which, There are no supply and discharge channels, v interconnected by a promenet channel, in which working positions with clamping mechanisms and a pusher mounted with the possibility of reciprocating movement along the intermediate channel 5 are located, because, in order to obtain reliability, each The working position is equipped with a prism attached to the bottom of the intermediate channel, on the side surface of which the bevel is made from the side of the feeding tray, and the clamping mechanism is designed as spring-loaded relative to the fixed ego plank body, a parallel arrangement of the prism. FIG. Editor N. Bobkova Order 7936 Circulation 894 Subscription ZNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 4/5, Moscow, Zh-35, Raushsk nab. 113035 Provo nodstv no-publishing plant Patent, Uzhgorod, st. Gagarin, 101 Fig.Z Compiled by N. Narodna Tehred M. Morgenthal Proofreader M.Kucher va