CN106743189B - Automatic feeding machine for plastic sealing ring - Google Patents

Abstract

The invention relates to an automatic feeding machine for plastic sealing rings, which comprises a machine frame, wherein a first direct vibration feeder and a second direct vibration feeder which are arranged in parallel and have opposite conveying directions are fixed on the machine frame; a second track fixing seat is fixed above the second direct vibration feeder, a track is fixed above the second track fixing seat, a feeding end of the track corresponds to a discharging end of the flow channel, the first track fixing seat and the second track fixing seat are respectively communicated with the electrostatic blowing equipment, a plurality of air holes are formed in the bottom of the flow channel, the electrostatic blowing equipment blows electrostatic air flow into the flow channel from the air holes, an anti-static cover plate is further covered above the flow channel and the track, and a plurality of air outlet holes are formed in the anti-static cover plate. According to the invention, the electrostatic airflow is introduced into the flow channel to assist the direct vibration feeder to feed, and meanwhile, the static electricity of the plastic part is eliminated, so that the material clamping problem caused by electrostatic adsorption is avoided.

Description

Automatic feeding machine for plastic sealing ring

Technical Field

The invention relates to automatic feeding equipment for bulk cargo elements, in particular to an automatic feeding machine for a plastic sealing ring.

Background

As a common sealing element, the plastic sealing ring generally has bulk incoming materials, needs manual operation for installation during installation and is not beneficial to automatic production. At present, also have the automatic feed equipment of constituteing with vibration dish and straight feeder that shakes, though can realize utilizing the vibration source to remove the purpose of plastic sealing washer, the plastic product is because the electrostatic adsorption problem of itself appears folding material, the problem of card material very easily in the transportation, needs the manual work to get rid of the card material this moment, seriously influences production efficiency.

Disclosure of Invention

The invention provides an automatic feeding machine for plastic sealing rings, which aims to solve the problem of material blockage caused by electrostatic adsorption of plastic products in the conventional plastic product feeding equipment.

In order to solve the technical problem, the invention provides an automatic feeding machine for plastic sealing rings, which comprises a machine frame, wherein a first direct vibration feeder and a second direct vibration feeder which are arranged in parallel and have opposite conveying directions are fixed on the machine frame, a first rail fixing seat is fixed above the first direct vibration feeder, and a flow channel is fixed above the first rail fixing seat; the feeder top of directly shaking of second is fixed with second track fixing base, second track fixing base top is fixed with the track, orbital pan feeding end with the discharge end of runner is corresponding, first track fixing base and second track fixing base communicate with static gas blowing equipment respectively, the bottom of runner is equipped with a plurality of gas pockets, static gas blowing equipment follows in the gas pocket to blow in the static air current in the runner, runner and orbital top still are stamped prevents the static apron, prevent having seted up a plurality of ventholes on the static apron.

Preferably, the flow channel is L-shaped and is formed by sequentially splicing a first flow channel, a second flow channel and a third flow channel, the first flow channel corresponds to the long side of the L-shape, the second flow channel corresponds to the corner of the L-shape, and the third flow channel corresponds to the short side of the L-shape.

Preferably, the first, second and third flow channels and the periphery of the rail are surrounded and fixed into a whole by a surrounding workpiece.

Preferably, a sensor is arranged on the anti-static cover plate corresponding to the first flow channel, and the sensor is connected with a switch of the electrostatic blowing equipment.

Preferably, a detection device for detecting whether the discharge end has the material part is installed at the discharge end of the rail.

Preferably, the detection device is a CCD camera, and the CCD camera is suspended above the discharge end of the rail.

Preferably, a plurality of rail grooves are arranged in the rail, a strip-shaped air groove is formed in the bottom of each rail groove, and the electrostatic blowing equipment blows electrostatic airflow into the rail grooves from the strip-shaped air grooves.

Preferably, an opening is formed in a side wall of the track groove, the opening corresponds to the concave blanking groove, and the blanking groove is communicated with the flow channel through the backflow groove.

Preferably, a vacuum groove is further arranged on one side, close to the discharge end, of the bottom of the track groove, and the vacuum groove is communicated with a vacuum air pump.

Preferably, the air holes are inclined to the flowing direction of the material piece.

Compared with the prior art, the automatic feeding machine for the plastic sealing ring provided by the invention has the following advantages:

1. the invention arranges dense air holes at the bottom of the flow channel, and the upper anti-static cover plate is provided with dense air outlet holes to create a relatively closed space, then static airflow is blown in from the lower part of the flow channel to disperse the material parts on the flow channel and assist the movement of the direct vibration feeder;

2. the detection device is used for detecting whether the discharge end of the rail normally discharges materials, when the discharge end of the rail does not normally discharge materials, the electrostatic airflow is controlled to be introduced into the strip-shaped air groove in the rail, the material in the rail groove is blown off, and the problem of material blockage can be solved without manual participation;

3. the lateral wall in track groove sets up the opening, and open-ended correspondence position department is equipped with the charging chute, and when the material piece received the extrusion, the extrusion of lateral wall lacked in charging chute department can be with in the excessive material piece extrudees into the charging chute, ensures that the material piece in the track inslot is in motion state all the time to further avoid the material piece extrusion to cause the card material.

Drawings

Fig. 1 is a schematic perspective view of an automatic feeding machine for plastic sealing rings according to an embodiment of the present invention;

fig. 2 is an exploded view of an automatic feeding machine for plastic sealing rings according to an embodiment of the present invention;

FIG. 3 is a top view of an automatic feeding machine for plastic sealing rings (without an anti-static cover plate) according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of a track groove and a strip-shaped air groove according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of the blanking tank and the vacuum tank according to an embodiment of the present invention.

In the figure: 10-a machine frame, 20-a first direct vibration feeder, 30-a second direct vibration feeder, 40-a first rail fixing seat, 50-a second rail fixing seat, 61-a first flow channel, 62-a second flow channel, 63-a third flow channel, 64-air holes, 70-rails, 71-rail grooves, 72-long strip-shaped air grooves, 73-blanking grooves, 74-reflux grooves, 75-vacuum grooves, 80-an anti-static cover plate, 81-air holes, 82-enclosing a workpiece, 90-a detection device and 01-a material.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. It is to be noted that the drawings are in simplified form and are not to precise scale, which is provided for the purpose of facilitating and distinctly claiming the embodiments of the present invention.

The automatic feeding machine for the plastic sealing rings, disclosed by the invention, comprises a machine frame 10, wherein a first straight vibrating feeder 20 and a second straight vibrating feeder 30 which are arranged in parallel and have opposite conveying directions are fixed on the machine frame 10, a first track fixing seat 40 is fixed above the first straight vibrating feeder 20, and a flow channel is fixed above the first track fixing seat 40; second directly shake feeder 30 top and be fixed with second track fixing base 50, second track fixing base 50 top is fixed with track 70, the pan feeding end of track 70 with the discharge end of runner is corresponding, first track fixing base 40 and second track fixing base 50 communicate with static gas blowing equipment (not shown) respectively, the bottom of runner is equipped with a plurality of gas pockets 64, static gas blowing equipment follows in the gas pocket 64 to blow in the static air current in the runner, the top of runner and track 70 still is covered with antistatic cover board 80, in this embodiment antistatic cover board 80 adopts antistatic acrylic plate, antistatic cover board 80 is last to have seted up a plurality of ventholes 81. According to the invention, the electrostatic airflow is introduced into the flow channel to assist the direct vibration feeder to feed, and meanwhile, the static electricity of the plastic part is eliminated, so that the material clamping problem caused by electrostatic adsorption is avoided.

Preferably, please refer to fig. 3, the flow channel is L-shaped, and is formed by sequentially splicing a first flow channel 61, a second flow channel 62, and a third flow channel 63, wherein the first flow channel 61 is corresponding to a long side of the L-shape and can be used for adding a material part 01, the second flow channel 62 is corresponding to a corner of the L-shape, and the third flow channel 63 is corresponding to a short side of the L-shape, specifically, the first, second, third flow channels 61, 62, and 63 and the periphery of the rail 70 are surrounded by a workpiece 82 to form a whole. In this way, the added material part 01 can move in the flow channel, the relative closed space formed by the enclosing workpiece 82 and the anti-static cover plate 80, and then the static airflow is blown in from the lower part of the flow channel to disperse the material part 01 on the flow channel and eliminate static electricity. In this embodiment, the air holes 64 are inclined toward the flowing direction of the material 01, so that the material 01 can be moved in the flowing direction in a targeted manner, thereby realizing the auxiliary feeding.

Preferably, a sensor (not shown) is arranged on the anti-static cover plate 80 corresponding to the first flow channel 61, and the sensor is connected to a switch of the electrostatic blowing device, specifically, the sensor is used for detecting the on-off state of the anti-static cover plate 80, and because the first flow channel 61 is used for adding the material part 01, if the sensor detects that the anti-static cover plate 80 is opened, the electrostatic blowing device is directly controlled to be closed, so that the material part 01 is prevented from being blown out in the filling process, and the machine does not need to be shut down, and the working efficiency of the feeding machine is not affected.

Preferably, with continued reference to fig. 1-3, a detection device 90 for detecting whether the material part 01 exists at the discharge end is installed at the discharge end of the rail 70, specifically, the detection device 90 is a CCD camera, and the CCD camera is suspended above the discharge end of the rail 70.

Preferably, referring to fig. 3 and 4, a plurality of rail slots 71 are arranged in the rail 70, and each rail slot 71 transports a row of material parts 01 to the outlet end; the bottom of the track groove 71 is provided with a strip-shaped air groove 72, and the electrostatic blowing equipment can blow electrostatic airflow into the track groove 71 from the strip-shaped air groove 72. Rectangular shape gas tank 72 can with detection device 90 cooperates, and automatic arrangement when realizing the card material, specific process is: firstly, setting that the CCD camera does not detect the material part 01 in the track groove 71 within N seconds (selection is carried out according to actual conditions), and regarding the material part as a material blocking condition; if the material is blocked, electrostatic air flow is blown into the strip-shaped air groove 72 by using electrostatic air blowing equipment to clean the track groove 71, so that manual intervention is reduced.

Preferably, referring to fig. 5 in combination with fig. 2, an opening is formed in a side wall of the track groove 71, the opening corresponds to a concave blanking groove 73, and the blanking groove 73 is communicated with the flow channel through a return groove 74. In this application, material part 01 is O type sealing washer, because plastic product elasticity itself is great, so arrange material part 01 in track groove 71 if receive rear material part 01's pressurization, can produce certain deflection, influence the material of getting of discharge end, silo 73's effect is: when the material 01 is extruded, the limitation of the side wall is lacked at the opening, the redundant material 01 can be extruded and fall into the backflow groove 74, and the backflow groove 74 transfers the backflow channel, so that the material blocking is further avoided.

Preferably, with reference to fig. 5, a vacuum tank 75 is further disposed at a side of the bottom of the rail groove 71 near the discharge end, and the vacuum tank 75 is communicated with a vacuum pump (not shown). Generally, the discharge end of the track groove 71 corresponds to a material taking device for picking up the arranged material pieces 01, and for better matching of the two, the vacuum air pump can adsorb the material pieces 01 located at the vacuum groove 75, so that the material pieces are prevented from being extruded to directly drop the material, and the stability of the feeding machine is improved.

In summary, the automatic feeding machine for plastic sealing rings provided by the present invention includes a machine frame 10, wherein a first and a second direct vibration feeders 20, 30 arranged in parallel and having opposite conveying directions are fixed on the machine frame 10, a first rail fixing seat 40 is fixed above the first direct vibration feeder 20, and a flow channel is fixed above the first rail fixing seat 40; the feeder 30 top of directly shaking of second is fixed with second track fixing base 50, second track fixing base 50 top is fixed with track 70, the pan feeding end of track 70 with the discharge end of runner is corresponding, first track fixing base 40 and second track fixing base 50 communicate with static gas blowing equipment respectively, the bottom of runner is equipped with a plurality of gas pockets 64, static gas blowing equipment follows in the gas pocket 64 to blow in the static air current in the runner, the top of runner and track 70 has still been covered and has been prevented static apron 80, a plurality of ventholes 81 have been seted up on the static apron 80. According to the invention, the electrostatic airflow is introduced into the flow channel to assist the direct vibration feeder to feed, and meanwhile, the static electricity of the plastic part is eliminated, so that the material clamping problem caused by electrostatic adsorption is avoided.

It will be apparent to those skilled in the art that various changes and modifications may be made in the invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (8)

1. The automatic feeding machine for the plastic sealing rings is characterized by comprising a machine frame, wherein a first direct vibration feeder and a second direct vibration feeder which are arranged in parallel and have opposite conveying directions are fixed on the machine frame, a first rail fixing seat is fixed above the first direct vibration feeder, and a flow channel is fixed above the first rail fixing seat; a second rail fixing seat is fixed above the second direct vibration feeder, a rail is fixed above the second rail fixing seat, a feeding end of the rail corresponds to a discharging end of the flow channel, the first rail fixing seat and the second rail fixing seat are respectively communicated with an electrostatic blowing device, a plurality of air holes are formed in the bottom of the flow channel, the electrostatic blowing device blows electrostatic airflow into the flow channel from the air holes, an anti-static cover plate is covered above the flow channel and the rail, and a plurality of air outlet holes are formed in the anti-static cover plate; a plurality of rail grooves are arranged in the rail, a strip-shaped air groove is formed in the bottom of each rail groove, and the electrostatic blowing equipment blows electrostatic airflow into the rail grooves from the strip-shaped air grooves; the side wall of the track groove is provided with an opening, the opening corresponds to the concave blanking groove, and the blanking groove is communicated with the flow channel through the backflow groove.

2. The automatic feeding machine for plastic sealing rings as claimed in claim 1, wherein the flow channel is L-shaped and is formed by sequentially splicing a first flow channel, a second flow channel and a third flow channel, the first flow channel corresponds to the long side of the L-shape, the second flow channel corresponds to the corner of the L-shape, and the third flow channel corresponds to the short side of the L-shape.

3. The automatic feeding machine for plastic sealing rings according to claim 2, wherein the first, second and third flow channels and the periphery of the rail are integrally formed by a surrounding workpiece.

4. The automatic feeding machine for plastic sealing rings according to claim 2, wherein a sensor is disposed on the anti-static cover plate corresponding to the first flow channel, and the sensor is connected to a switch of the electrostatic blowing device.

5. The automatic feeding machine for plastic sealing rings according to claim 1, wherein a detection device for detecting whether a material piece exists at the discharge end is installed at the discharge end of the rail.

6. The automatic feeding machine for plastic sealing rings according to claim 5, wherein the detecting device is a CCD camera, and the CCD camera is suspended above the discharge end of the rail.

7. The automatic feeding machine for plastic sealing rings according to claim 1, wherein a vacuum groove is further provided at a bottom of the track groove near the discharge end, and the vacuum groove is communicated with a vacuum pump.

8. The automatic feeding machine for plastic sealing rings according to claim 1, wherein the air holes are inclined toward the flowing direction of the material.

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