CN205274477U - Vibration feed arrangement of slotting machine - Google Patents

Abstract

Vibration feed arrangement of slotting machine, including motor and feed bin, the feed bin lower part is located to the motor, the feed bin is equipped with helical coiled passage, blend stop and discharge gate, the bottom surface of feed bin is the horizontal plane, helical coiled passage locates feed bin lateral wall and initiating terminal and is connected with the feed bin bottom surface, the terminal of helical coiled passage is connected with the discharge gate of locating the lateral wall top. Autoloading has been realized to this device, has reduced artifical human cost and the time cost of placing the raw materials one by one, has improved processing incision in -process operating personnel's factor of safety, has eliminated the potential safety hazard.

Description

The vibrating feed device of slotting machine

Technical field

The utility model belongs to clasp processing units field, mainly refers to a kind of vibrating feed device playing feeding in journey of making a slip of the tongue for clasp.

Background technology

The processing of a kind of conventional oval clasp is the raw material (as shown in Figure 4) adopting and being provided with breach, the both ends length of raw material breach differs, it is placed into one by one below cutting knife by hand, then operation interrupts otch one by one, the segment clipping longer side, end is to be processed into the bigger oval ring finished product (as shown in Figure 5) of breach, this course of processing needs operator to keep operation on slotting machine limit always, the speed of charging is slow, efficiency is low, there is potential safety hazard in manual raw material of placing, as slotting machine may cut to finger, and the position possibility manually throwing in its otch is nonstandard, raw material will be wasted after such otch, bring deterioration also can to the cutting knife of slotting machine, the material needed, artificial and time cost is all bigger.

Summary of the invention

The utility model provides the vibrating feed device of a kind of slotting machine, it is achieved that the automatic feed of oval clasp slotting machine.

The technical solution of the utility model: the vibrating feed device of slotting machine, comprises motor and feed bin, and feed bin bottom is located at by described motor, it is characterised in that: described feed bin is provided with helical channel, blend stop and discharge port, and the bottom surface of described feed bin is horizontal plane; Described helical channel is located at feed bin sidewall and initiating terminal is connected with feed bin bottom surface, and the end of described helical channel is connected with the discharge port being located at top side wall. Adopting vibration motor to be the propulsion source of charging, raw material is delivered to discharge outlet along helical channel by Vibration Storage bin automatically, and horizontal plane is beneficial to feed bin vibrations and raw material is served helical channel.

Preferably, the sidewall of the upper end of described helical channel is provided with the blend stop parallel with described helical channel. Blend stop is arranged so that raw material can one by one by the position between this blend stop and helical channel so that overlapping in disorder multiple raw materials are blocked to fall back in feed bin by this blend stop.

Preferably, the width of described blend stop is the 1/2 of helical channel width. The raw material that this width is beneficial between blend stop and helical channel passes through in order.

Preferably, a breeze way also it is provided with between described end and discharge port, the upper surface of described breeze way welds with the lower surface of end, and the feed bin sidewall above described breeze way is provided with gear sheet, the bottom of described gear sheet near discharge port side lower than away from discharge port side. Discharging channel position, lower than the upper gear sheet arranged of end and its, provided a surge time before raw material is from helical channel to discharge port, also for be about to enter this raw material of next process and other also the differentiation of the raw material on helical channel come.

Preferably, described welding place is provided with a pillar stiffener vertical with sidewall. This pillar stiffener improves the firmness that end is connected with discharging section.

Preferably, the height of described discharge port is less than the height of sidewall. Raw material in vibrations process is avoided to drop to hopper from discharge port.

The beneficial effects of the utility model: adopt motor oscillating to achieve the self-feeding of oval clasp processing, decrease human cost and the time cost of manually placing raw material one by one, improve the safety coefficient of operator in processing otch process, eliminate potential safety hazard.

Accompanying drawing explanation

Fig. 1 is schematic top plan view of the present utility model.

Fig. 2 is side schematic view of the present utility model.

Fig. 3 is the partial enlargement figure of side structure.

Fig. 4 is the raw material schematic diagram of clasp.

Fig. 5 is the schematic diagram of finished product clasp after processing.

In figure, 1 motor, 2 feed bins, 21 sidewalls, 3 helical channels, 31 initiating terminals, 32 ends, 4 blend stops, 5 discharge ports, 6 breeze ways, 7 pillar stiffeners, 8 gear sheets, 9 raw materials, the width of L1 blend stop, L2 helical channel width, H1 discharge port height.

Embodiment

As shown in the figure, making mouth machine feeding unit to comprise feed bin 2 and be located at the motor 1 of feed bin bottom, feed bin 2 bottom surface is horizontal plane, and feed bin sidewall is provided with helical channel 3, bottom helical channel, 31 are connected with feed bin bottom surface, and helical channel end 32 is connected with the discharge port 5 being located at feed bin sidewall.

The sidewall 21 of the upper end of described helical channel is provided with a blend stop 4, and described blend stop is parallel with helical channel. The width L1 of blend stop is the 1/2 better of helical channel width L2. Discharge port height H 1 is less than the height of sidewall.

Also being provided with a breeze way 6 between the end of helical channel 3 and discharge port, the upper surface of breeze way welds with the lower surface of end, the feed bin sidewall above described breeze way be provided with gear sheet 8, the bottom of described gear sheet near discharge port side lower than away from discharge port side. Welding place is established and can be established a pillar stiffener 7 vertical with sidewall.

The sidewall of upper end is provided with the blend stop 4 parallel with described helical channel, and blend stop and helical channel slant range, slightly larger than the thickness of raw pieces, can be blocked when two or more raw material overlap delivers to blend stop position like this and drop back in feed bin.

These are only preferred implementation, and it is not used in and limits protection domain of the present utility model.

Claims (6)

1. the vibrating feed device of slotting machine, comprises motor and feed bin, and feed bin bottom is located at by described motor, it is characterised in that: described feed bin is provided with helical channel, blend stop and discharge port, and the bottom surface of described feed bin is horizontal plane; Described helical channel is located at feed bin sidewall and initiating terminal is connected with feed bin bottom surface, and the end of described helical channel is connected with the discharge port being located at top side wall.

2. the vibrating feed device of slotting machine according to claim 1, it is characterised in that: the sidewall of the upper end of described helical channel is provided with the blend stop parallel with described helical channel.

3. the vibrating feed device of slotting machine according to claim 1, it is characterised in that: the width of described blend stop is the 1/2 of helical channel width.

4. the vibrating feed device of slotting machine according to claim 1, it is characterized in that: between described end and discharge port, be also provided with a breeze way, the upper surface of described breeze way welds with the lower surface of end, feed bin sidewall above described breeze way is provided with gear sheet, the bottom of described gear sheet near discharge port side lower than away from discharge port side.

5. the vibrating feed device of slotting machine according to claim 4, it is characterised in that: the upper surface of breeze way is provided with a pillar stiffener vertical with sidewall with the lower surface place of welding of end.

6. the vibrating feed device of slotting machine according to claim 1, it is characterised in that: the height of described discharge port is less than the height of sidewall.