CN205739481U - A kind of pneumatic sending buckle structure of sending buckle machine - Google Patents

Abstract

This utility model provides the pneumatic sending buckle structure of a kind of sending buckle machine, belongs to sending buckle machine technology field.The pneumatic sending buckle structure it solving existing sending buckle machine there will be the technical problems such as the stuck situation on sending buckle plate of button.Sending buckle machine includes sending buckle plate and is arranged on the briquetting above sending buckle plate, sending buckle passage is formed between briquetting and sending buckle plate, one end of sending buckle passage is feed end, the other end of sending buckle passage is discharge end, and this pneumatic sending buckle structure includes the gas hole being opened on sending buckle plate, and gas hole is positioned at the underface of briquetting, gas hole is inclined hole, the outlet side of gas hole tilts to the discharge end of sending buckle passage, has inlet channel in sending buckle plate, and inlet channel connects with gas hole.This utility model has the advantage that from feed end, button is delivered to discharge end that can be continual and steady.

Description

A kind of pneumatic sending buckle structure of sending buckle machine

Technical field

This utility model belongs to sending buckle machine technology field, relates to the pneumatic sending buckle structure of a kind of sending buckle machine.

Background technology

Sending buckle machine coordinates seam deduction to use in use, and its effect is to be delivered to button successively stitch stitch at deduction Button.Existing sending buckle machine is provided with sending buckle plate, and the both sides of sending buckle plate are provided with limiting plate, the spacing between limiting plate and button Diameter identical, the top of sending buckle plate has briquetting, the spacing between briquetting and sending buckle plate more than or equal to the thickness of button, Sending buckle passage is formed between sending buckle plate, briquetting and limiting plate.Operationally, button is positioned at vibrating bunker, passes through vibrating bunker Being delivered to by button on the sending buckle plate of sending buckle machine successively, button moves to discharge end mainly by blowing from the feed end of sending buckle passage Mode realize.Existing structure uses and offers gas hole on briquetting, and gas hole is towards sending buckle plate and is tilted towards sending buckle passage Discharge end, blown toward in gas hole by air pump, gas is blown out obliquely, and gas acts on and makes button to giving on button The discharge end of button passage moves.Although this structure can complete sending buckle, but owing to button also suffers from the active force that gas is downward, Therefore the frictional force between button and sending buckle plate can increase so that the resistance that button advances increases, it may appear that button is stuck to be sent Situation on buckle, it is impossible to stablize lasting sending buckle.

Summary of the invention

The purpose of this utility model is to there are the problems referred to above for existing technology, it is proposed that a kind of the pneumatic of sending buckle machine is sent Buckle structure, this utility model solves the technical problem that it is continual and steady from feed end, button to be delivered to discharge end.

The purpose of this utility model can be realized by following technical proposal:

The pneumatic sending buckle structure of a kind of sending buckle machine, sending buckle machine includes sending buckle plate and is arranged on the briquetting above sending buckle plate, institute Stating formation sending buckle passage between briquetting and sending buckle plate, one end of described sending buckle passage is feed end, and the other end of sending buckle passage is Discharge end, it is characterised in that this pneumatic sending buckle structure includes the gas hole being opened on sending buckle plate, and described gas hole is positioned at briquetting Underface, described gas hole is inclined hole, discharge end from the outlet side of described gas hole to sending buckle passage tilt, described sending buckle plate Inside having inlet channel, described inlet channel connects with gas hole.

Inlet channel connects with gasing pump, and gas is filled with inlet channel by gasing pump, and the gas in inlet channel is from air blowing Hole blows out；Button enters sending buckle passage from feed end, and gas hole persistently blows out obliquely and towards the gas of discharge end, gas meeting Act on the lower end of button button is suspended on sending buckle plate and with pressing plate against, simultaneously gas can promote the button of suspension to Discharge end moves, and owing to button is suspend, therefore button can continual and steady being delivered to from feed end under the promotion of gas Discharge end.

In the pneumatic sending buckle structure of above-mentioned sending buckle machine, described gas hole relative to the angle of inclination in sending buckle plate plate face is 30 °～60 °.This structure makes button to be made to be suspended in sending buckle plate from the gas of gas hole blowout and the shifting of energy Forward stability Dynamic.

In the pneumatic sending buckle structure of above-mentioned sending buckle machine, described gas hole has several, some described gas hole edges The length direction sending buckle passage is arranged in a linear, and described inlet channel all connects with some gas holes.This structure makes button Can persistently be pushed to the discharge end of sending buckle passage during advancing, the speed that button advances can be accelerated, improve sending buckle efficiency.

In the pneumatic sending buckle structure of above-mentioned sending buckle machine, the plate face of described sending buckle plate has inducing QI groove, described in lead Gas groove is elongated, and described inducing QI groove is distributed along the length direction of sending buckle passage, and described inducing QI groove is near discharge end Sending buckle plate is run through in one end, and the outlet side of described gas hole is respectively positioned in inducing QI groove.Gas can be from sending buckle after gas hole blows out Effusion in passage, inducing QI groove makes a part of gas flow along inducing QI groove, and the gas being positioned at inducing QI groove can be from leading Gas groove flows to the other end at feed end so that being positioned at the gas flow below button is all the feed end from sending buckle passage Flow to discharge end, hence in so that button can persistently by the thrust of discharge end so that button stablize lasting movement to Discharge end.

In the pneumatic sending buckle structure of above-mentioned sending buckle machine, it is defeated that described inlet channel includes being positioned at immediately below inducing QI groove Gas section and the air inlet section of vertical gas transfer section, the two ends of described gas transmission section are all closed.The inlet channel of this structure makes the gas entered Body can only blow out from gas hole, it is ensured that gas hole puff away physical ability promote button.

Compared with prior art, the pneumatic sending buckle structure of this sending buckle machine has during sending buckle button is suspended, and Make the advantage being delivered to discharge end from feed end that button can be continual and steady under the promotion of gas.

Accompanying drawing explanation

Fig. 1 is the perspective view of sending buckle machine.

Fig. 2 is the perspective view of sending buckle plate.

Fig. 3 is the sectional structure schematic diagram of sending buckle plate.

In figure, 1, sending buckle plate；11, gas hole；12, inlet channel；121, gas transmission section；122, air inlet section；13, inducing QI is recessed Groove；2, briquetting；3, sending buckle passage；31, feed end；32, discharge end；4, cover plate.

Detailed description of the invention

The following is specific embodiment of the utility model and combine accompanying drawing, the technical solution of the utility model is made further Description, but this utility model is not limited to these embodiments.

As it is shown in figure 1, sending buckle machine includes sending buckle plate 1 and is arranged on the briquetting 2 above sending buckle plate 1, briquetting 2 and sending buckle plate 1 Between formed sending buckle passage 3, one end of sending buckle passage 3 is feed end 31, and the other end of sending buckle passage 3 is discharge end 32.

As shown in Figure 1 to Figure 3, this pneumatic sending buckle structure includes the some gas holes 11 being opened on sending buckle plate 1, this enforcement In example, gas hole 11 has three, and three gas holes 11 are arranged in a linear along the length direction of sending buckle passage 3, gas hole 11 In the underface of briquetting 2, gas hole 11 is inclined hole, and the angle of inclination in the relative sending buckle plate 1 plate face of gas hole 11 is 30 °～60 °, blows The outlet side of pore 11 tilts to the discharge end 32 of sending buckle passage 3, as preferably, and inclining of the relative sending buckle plate 1 plate face of gas hole 11 Oblique angle is 30 °, 45 ° or 60 °；Having inlet channel 12 in sending buckle plate 1, inlet channel 12 includes being positioned at immediately below inducing QI groove 13 Gas transmission section 121 and the air inlet section 122 of vertical gas transfer section 121, the two ends of gas transmission section 121 all close, inlet channel 12 and three Gas hole 11 connects, and the inlet end of inlet channel 12 connects with gasing pump, and gas is filled with inlet channel 12 by gasing pump, and air inlet is led to Gas in road 12 blows out from gas hole 11, and the gas transmission section 121 wherein one end being positioned on sending buckle plate 1 in reality is processed is logical Hole, is closed through hole by securing cover plate 4 on sending buckle plate 1.

As depicted in figs. 1 and 2, the plate face of sending buckle plate 1 having inducing QI groove 13, inducing QI groove 13 is elongated, inducing QI Groove 13 is distributed along the length direction of sending buckle passage 3, and inducing QI groove 13 runs through sending buckle plate 1 near one end of discharge end 32, three The outlet side of gas hole 11 is respectively positioned in inducing QI groove 13.Gas can flow out after gas hole 11 blows out in sending buckle passage 3 again, Inducing QI groove 13 makes a part of gas flow along inducing QI groove 13, and the gas being positioned at inducing QI groove 13 can be from inducing QI groove 13 flow to the other end at feed end 31 so that being positioned at the gas flow below button is all the feed end from sending buckle passage 3 31 flow to discharge end 32.

Button enters sending buckle passage 3 from feed end 31, and gas hole 11 persistently blows out obliquely and towards the gas of discharge end 32 Body, gas can act on the lower end of button button is suspended on sending buckle plate 1 and with pressing plate against, gas can promote outstanding simultaneously Floating button moves to discharge end 32, owing to button is suspend, therefore button can under the promotion of gas continual and steady from Feed end 31 is delivered to discharge end 32.

Specific embodiment described herein is only to this utility model spirit explanation for example.This utility model institute Belong to those skilled in the art described specific embodiment to make various amendment or supplement or use similar Mode substitute, but without departing from spirit of the present utility model or surmount scope defined in appended claims.

Claims (5)

1. a pneumatic sending buckle structure for sending buckle machine, sending buckle machine includes sending buckle plate (1) and is arranged on the briquetting of sending buckle plate (1) top (2), forming sending buckle passage (3) between described briquetting (2) and sending buckle plate (1), one end of described sending buckle passage (3) is feed end (31), the other end of sending buckle passage (3) is discharge end (32), it is characterised in that this pneumatic sending buckle structure includes being opened in sending buckle Gas hole (11) on plate (1), described gas hole (11) is positioned at the underface of briquetting (2), and described gas hole (11) is inclined hole, institute State the outlet side of gas hole (11) discharge end (32) to sending buckle passage (3) to tilt, in described sending buckle plate (1), have inlet channel (12), described inlet channel (12) connects with gas hole (11).

The pneumatic sending buckle structure of sending buckle machine the most according to claim 1, it is characterised in that described gas hole (11) send relatively The angle of inclination in buckle (1) plate face is 30 °～60 °.

The pneumatic sending buckle structure of sending buckle machine the most according to claim 1 and 2, it is characterised in that described gas hole (11) has Having several, some described gas holes (11) are arranged in a linear along the length direction of sending buckle passage (3), described inlet channel (12) all connect with some gas holes (11).

The pneumatic sending buckle structure of sending buckle machine the most according to claim 3, it is characterised in that the plate face of described sending buckle plate (1) On have inducing QI groove (13), described inducing QI groove (13) is elongated, and described inducing QI groove (13) is along the length of sending buckle passage (3) Spending directional spreding, described inducing QI groove (13) runs through sending buckle plate (1) near one end of discharge end (32), described gas hole (11) Outlet side is respectively positioned in inducing QI groove (13).

The pneumatic sending buckle structure of sending buckle machine the most according to claim 4, it is characterised in that described inlet channel (12) includes It is positioned at the gas transmission section (121) immediately below inducing QI groove (13) and the air inlet section (122) of vertical gas transfer section (121), described gas transmission section (121) two ends are all closed.