TWI299999B - Automatically separated machine for feathers - Google Patents

Description

1299999 IX. Description of the invention: [Technical field to which the invention belongs] - The gamma of the automatic feather separator, the locomotive of the genus (4), the reduction of the frame, the use of the weight of the briquettes (9), the cutting of the (four) plywood, the riding of the __ side The hair size of the feathers 'fixes the feathers. When the AC motor rotates to drive the shape of the feather to hold the movement, the soap is separated, and the vacuum gas is used to suck the feather to rotate; when the rotation is 18, the cutting off the real gas 'uses the weight of the feather and falls on the feather collecting plate. To achieve automatic separation function % 4

[Before technology] It is necessary to use artificial manpower to separate from the current feathers in a way that the automated machine can be separated from the current feathers. It is inefficient and labor costly. Therefore, the feathers are separated to improve the enterprise. Competitiveness. [Summary of the Invention] The feather w鹄 hair on the badminton is processed by a stamping die. Therefore, the shape and size of the brace = the end of the pile are all piled up in the 'but' but when assembled into a badminton, the hair will be sucked by the influence of the static electricity itself. Live, not easy to separate, and C is destroyed. 'So, the current use of manual separation:: can be successful =:, the manpower is quite large; if using automated machines to automatically separate the feathers: ^ to the cost of the fairy ^ big but the machine must To overcome the problem of feather characteristics, the technical problems and means to be solved by this creation are as follows: The weight of the weight of the feather must be light, and it will not move downward due to its own weight, thus causing the feather to slide down. 2. Feathers are attracted to each other by static electricity and are not easy to separate. Therefore, it is set so that a single feather can fall into the semicircular groove of the circular feather holder; at the same time, the feather is sucked by the true 5 1299999 air pressure. When the feathered feather holder rotates, it is separated from the whole pile of feathers. 3. When the circular feather holder rotates, the vacuum pressure is cut off by the vacuum gas. At this time, no vacuum pressure is absorbed and the weight of the feather falls on the collecting plate. The effect of the invention can replace the way the man feathers are separated, saving manpower costs, improving production efficiency, and increasing the competitiveness of the enterprise. [Embodiment] The first figure is the overall combination diagram of the feather automatic separating machine. The main components are: (1) feather push frame 10 and feather position positioning plate U, (2) feather shape suitable for plate 12, _ shape feather support = device' The right end is cut into four equally divided semicircular grooves 131, (4) alternating current motor 18 and helical teeth f16. Put the feathers in the pile and push the feathers to the sole 1 (), so that the _ hair position positioning plate ^ will feather the _ heavy dragon block 19 to press the feathers to the lower crane, let the feathers enter the feather shape = 5 plate = system. The vacuum gas is made by the true force input hole of the vertical slab 2 (). The egg passes through the passage inside the circular feather holder 13, and the vacuum gas flows to the semicircular hole. The AC motor 18 rotates, and the two helical gears 16 drive the circular feather turn. When the semi-circular groove 131 is in close contact with the feather shape suitable plate 12, the inside of the single sample, the two semicircles = the groove, the feather is used by vacuum suction. Adsorption in semi-circular 131 "Air pressure: 13 rotation. When rotated 180 degrees, 'cut away. Angle angle te η self-heavy in the seam 14; so, you can Jing feather splitter, ^ turn _ can her bristles rotate The angular position, when the signal is sent to the control, the motor stops at the moment the feather falls, so that the feather has enough * shape (3) slot has 3 air holes, just enough to accommodate the feather backbone; semi-circular kiss communication; that is, The round material 2 is formed by the inner gas passage 134 and the other-surface pore forming vacuum gas pipeline channel 1 = 4 connecting surface of the two gas-like circular circular groove vents 132. The vacuum gas is generated when the vacuum is generated. The vacuum gas restricting ring 21 at half pressure cuts a concave zen sill of 180 1299999 degrees in the middle of the ring. Therefore, the vacuum gas is restricted to flow in this groove 211. Combination of the feather 13 and the true __21 , round 2 pores n ji t surface has 4 symmetrical surfaces The hole 133 must have a recess 211 of the vacuum gas restricting ring 21; when the vacuum pressure enters the shaped air hole 2 and the vacuum gas flows through the surface air hole I33 to the other semi-circular air hole 133_7 feather; the circular feather holding After the device 13 is rotated to a fixed angle, the surface is interrupted. At this time, the flow of the vacuum gas is cut off, and therefore, the feathers are suspended from the feather collecting plate 14.

The above-mentioned implementation _ is the technical idea and characteristics of the _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ By the above detailed system, the person skilled in the art can understand that the purpose of this creation is to achieve the stated purpose, and to comply with the provisions of the Patent Law and to file a patent application. [Simple diagram of the diagram] Diagram of the combination of the restriction ring Figure 1 The overall combination of the feather automatic separator The second diagram The detailed structure of the circular feather holder The third diagram The hollow vacuum gas restriction ring The fourth figure round feather Holder and vacuum gas 7 1299999 [Main component symbol description] (10) Feather push frame (12) Feather shape suitable plate (131) Semi-circular groove (133) Surface air hole (14) Collecting plate (16) Helical gear ( 18) AC motor (20) Vertical support plate (21) Vacuum gas restriction ring (11) Feather position positioning plate (13) Round feather holder (132) Semi-circular groove air hole (134) Gas passage (15) Substrate ( Π) Angle dividing plate (19) Weight pressure block (201) Vacuum pressure input hole (211) groove

Claims (1)

1299999 η一"————~ 巧年$月j曰修(more) is replacing page ten, applying for patent Τ$ TM~ TM~~ 1·, plume automatic knife off-machine's structure includes: - feather The shape is suitable for the board, which is fixed under the feather pusher to adapt to the shape of the feather and the direction of the fixed feather. The weight can be used to make the hair fall into the semicircular groove; a circular feather holder, when The motor drives the part to rotate. After the angle dividing plate reaches the positioning, the vacuum gas is driven into the vacuum pressure input hole, and the vacuum gas passes through the gas passage inside the round shaft to reach the semicircular groove to absorb the feather with vacuum pressure; a vacuum gas restriction ring , fixed in the vertical support (four), _ 彡 feather _ _ assembled in the limit ring rotation 'When the vacuum gas fills the groove and coincides with the surface air hole of the circular feather holder, the vacuum gas reaches the semi-circular groove Suction the feathers. When the circular feather holder rotates 18 degrees, it will cut off the surface pores and cut off the vacuum gas. The lower feathers will automatically separate from the weight. 2. The feather automatic separating machine according to claim 1, wherein the feather shape is suitable for the shape of the board to be feathered, the tolerance is +1, too large to fix the feather, and has no effect. 3. The automatic feather separator according to claim 1, wherein the inner vacuum gas passage of the circular feather holder is drilled, and the end surface is tightly fixed to prevent air leakage.