JPH0412932A - Part feed device - Google Patents

Abstract

PURPOSE:To apply air pressure to parts more effectively by receiving parts in the receiving recessed part of a transfer member, and surely sending out the parts together with the transfer member while simultaneously attracting and holding the parts with a magnet. CONSTITUTION:When parts are 3 traveling in a part feed pipe 10 are sent near to an inlet port 5, the parts 3 are attracted by a magnet 7 to a receiving recessed part 4 and brought in contacted with the inner wall of the receiving recessed part 4 and held there. Next, by advancing of a transfer member 2 with an air cylinder 8, the parts 3 are positioned just over a plunger 12 and pushed to an outlet port 16 while sliding through the inner face of the receiving recessed part 4 by advancing of the plunger 12 in this condition, and stopped at the position a little passing through a nozzle 19. Hereafter, the parts are fed by the pressure of blow-out air.

Description

DETAILED DESCRIPTION OF THE INVENTION B) Industrial Application Field The present invention relates to a parts delivery device, which is installed at a location where eleven parts are delivered one by one in a line.

(b) Conventional technology When parts are pushed out by a certain amount with a tube plunger that comes in an outer box, they are exposed to compressed air pressure. There is a known type in which the next part is placed inside the outer box when the machine is restored.

(c) The labor problem that the invention aims to solve With the above-mentioned conventional technology, the positioning of the parts within the outer box is not ensured, so the transport of the parts does not faithfully follow the displacement of the plunger. There are times when the compressed air pressure is not accurately applied to the parts.

Elaborate Means for Solving the Four Problems and Their Functions The present invention is provided to solve the above-mentioned problem in one point. : Insert the component into the transfer member, form the storage recess provided in the transfer member at a location that matches the entrance hole of the outer box, place a magnet for locking the component in the storage recess, and place the component in the transfer member by a predetermined amount. The outer tank is characterized by having an outlet hole in a part of the outer tank that communicates with the storage recess at the nine-level position, and holds the component in a semi-restricted state in the storage recess of the transfer member. - An example of using the suction force of a magnet to forcibly send out the parts transferred in this way from the outer box First, the examples shown in Figures 1 to 4 To explain this, a 2 ftL reciprocating transfer member is constructed in the outer box 10 with a rectangular cross section, and the accommodation recess 4 of the component 6 provided in the member 2 is aligned with the entrance hole 5 formed in the outer box 1. be. The shape of the transfer member 2 is clearly shown in FIG.
A slope 6 is provided to prevent interference with the surface. Part 6
There are many different shapes, but here it is cylindrical. A magnet (
A permanent magnet) 7 is fitted. The parts are made of iron and 1) In order to apply the attractive magnetic force to the appropriate value, it is suitable that the outer part 1, the transfer member 2, etc. are made of stainless steel, which is a non-magnetic material.

An air cylinder 8 is connected to four parts of the outer ia1, and its piston rod 9 is fixed to the transfer member 2, so that the member 2 is moved forward and backward. A rectangular cross-section part supply g10 is welded to the outer box 1 and is continuous with the inlet hole 5 and has a rectangular shape.

1 and 3 in Fig. 1) (3) Cross-sectional view Explaining according to Fig. 6, a through hole 11 is bored at the bottom of the outer box 1, and a plunger 12 for extruding parts is inserted into the through hole 11, and a bracket 13t- A piston rod 15 of the air cylinder 4 is connected to the plunger 12, and the piston rod 15 is disposed on the outside 41 through the piston rod 15. - An outlet hole 16 is provided on the upper side of the outer box 1 on the same axis as the through hole 11, and an outlet pipe 17 is welded to the outer box 1 in a continuous manner with the outlet hole 16, and a hose 18 made of synthetic resin is connected to the outlet hole 16. It is connected. A nozzle 19 is opened in the outlet pipe 17, and the parts 6 are force-fed by the air ejected from the nozzle 19. A joint pipe 20 is welded to the spout 19, an air hose 21 is connected thereto, a through hole 11, and a housing recess 4.
The relative positions of the outlet holes 16 are set so that they are aligned one above the other when the transfer member 2 moves forward.

The operation will be explained. S product supply pipe 10t - When the moving component 5 comes close to the inlet hole 50, the component 6 is attracted into the accommodation recess 4 by the magnet 7, and the component 6 comes into close contact with the accommodation recess 40 to hold the component. will be done. Then,
By moving the air cylinder, especially the transfer member 2, forward, the component 6 is located directly above the plunger 12. When the plunger 12 is selected in this state, the component 5 slides into the accommodation recess 4 and slides into the outlet. It is pushed out to the hole 16,
The part 6 stops at a position slightly past the nozzle 19t (as shown in the diagram), and after that, the part 6 is force-fed by the ejected air.

The embodiments shown in FIGS. 5 and 6 are constructed such that the magnet 7 is spaced four distances from the transfer member 2, and the outer box 1 has a nozzle opening.

A small air cylinder 22 is fixed to the side surface of the transfer member 2 via a bracket 23, and a magnet 7 is coupled to its piston rod 24. A long hole 25 is bored in the outer box 1 so that the magnet 7 and the bracket 26 can be moved. The bottom KFi nozzle 19 of the outside [1] is open, and the outlet hole 16 and outlet pipe 17 are located coaxially with it.
is the provision.

The operation will be explained. When the component 6 that has entered the accommodation recess 4 is moved to the position shown in FIG. 6 by the transfer member 2, the magnet 7 is transferred to the multi-feed member 2 by the air cylinder
Since the suction force r on the part 6 is substantially eliminated, at the same time, air is ejected from the nozzle 19 and the part 6 is sent out through the outlet hole 16. According to the invention, the parts are accommodated in the accommodation recess of the transfer member, and at the same time the parts are pulled and restrained by the magnet, so that the parts are reliably displaced together with the transfer member toward the exit hole. , reliable transmission is achieved. Since the part 5 is pushed out from the accommodation recess to the outlet hole, various pushing means 1 such as a plunger or blowing air are used to
It can be used ubiquitously and is convenient for practical use. Furthermore, since air is ejected with the transfer member blocking the inlet hole, air does not escape from the inlet hole, and air pressure can be applied more effectively to the parts.

[Brief explanation of the drawing]

Figure 1 is a cross-sectional plan view, Figure 2 is <2) - (2
) cross-sectional view, Figure 6 is a cross-sectional view of Figure 1 O(3)-(3),
FIG. 4 is a three-dimensional view, FIG. 5 is a cross-sectional plan view, and FIG. 6 is a sectional view taken along line (6)-(6) in FIG. 1... Outer box, 2... Transfer member, 4... Accommodation recess,
5... Entrance hole, 3... Parts, 7... Magnet,
16...Exit hole.

Claims (1)

[Claims] A reciprocating transfer member is inserted into the outer box, a component storage recess provided in the transfer member is formed at a location that matches the entrance hole of the outer box, and a magnet is used to temporarily lock the components in the storage recess. 1. A parts delivery device, characterized in that a part of the outer box is provided with an outlet hole that communicates with the storage recess at a location where the transfer member has made a predetermined stroke.