CN211614521U - Piston grooving equipment for refrigerator compressor - Google Patents

Abstract

The utility model relates to a piston grooving device for a refrigerator compressor, which is provided with a frame; an output main shaft is arranged on the machine frame, and a pneumatic chuck is arranged on the output main shaft; a first pneumatic ejector rod is arranged in the pneumatic chuck; the machine frame is also provided with a movable platform and a vibrating disc which can move by oneself, and a discharge hole of the vibrating disc is communicated with a feed hole of the feed channel; the movable platform is fixedly provided with a cutting knife for grooving under the movement of the first movable platform, a feeding groove which can be butted with the discharge hole of the feeding channel and the pneumatic chuck, a baffle plate which blocks the discharge hole of the feeding channel when the feeding groove is not butted with the discharge hole of the feeding channel, a second pneumatic ejector rod for ejecting a workpiece in the feeding groove into the pneumatic chuck and a discharge channel which can be butted with the pneumatic chuck. The utility model discloses can realize automatic feeding, automatic processing and automatic unloading.

Description

Piston grooving equipment for refrigerator compressor

Technical Field

The utility model relates to a piston grooving equipment for refrigerator compressor.

Background

The quality of a compressor, which is a core component of a refrigerator, directly affects the performance of the refrigerator, and a piston, which is a key component of the refrigerator compressor, often needs to perform multiple processes in machining. The traditional piston processing mode is that the outer circle is grooved, then the outer circle is chamfered, and then hole honing, rough grinding and accurate grinding are carried out. And each procedure needs special equipment, and because each special equipment is designed and developed independently, the production line is difficult to realize, the working strength is reduced, and the production efficiency is improved.

Meanwhile, when grooving is carried out on the piston, manual feeding is needed, and due to the fact that grooving time is short, the frequency of workpiece replacement is very high. And the size of the workpiece is small, and the working strength of an operator is high during operation.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a piston grooving device for a refrigerator compressor with high automation degree, which can effectively solve the problems of automatic feeding, automatic processing and automatic discharging; and can be connected with the equipment of the next procedure, thus realizing the production line.

Realize the utility model discloses the technical scheme of purpose is: the utility model is provided with a frame; an output main shaft is arranged on the machine frame, and a pneumatic chuck is arranged on the output main shaft; a first pneumatic ejector rod for ejecting a workpiece in the pneumatic chuck is arranged in the pneumatic chuck; the frame is also provided with a movable platform capable of moving automatically; the frame is also provided with a vibrating disk; the discharge hole of the vibrating disc is communicated with the feed inlet of the feed channel; the movable platform is fixedly provided with a cutting knife, a feeding groove, a material baffle plate, a second pneumatic ejector rod and a discharging channel; the cutting knife is used for cutting the groove under the movement of the movable platform; the feeding trough can be butted with a discharge hole of the feeding channel and the pneumatic chuck under the movement of the movable platform; the material blocking plate blocks the discharge hole of the feeding channel when the feeding groove is not butted with the discharge hole of the feeding channel; the second pneumatic ejector rod is used for ejecting the workpiece in the feeding groove into the pneumatic chuck; the feed inlet of the discharge channel can be butted with the pneumatic chuck under the movement of the movable platform.

The feed channel comprises an inclined channel and a vertical channel; the feed inlet of the inclined channel is connected with the discharge outlet of the vibrating disc, the discharge outlet of the inclined channel is connected with the feed inlet of the vertical channel, and the discharge outlet of the vertical channel is the discharge outlet of the feed channel.

The striker plate is a plate body which is horizontally arranged; the plate body is correspondingly matched with the lower end of the vertical channel.

The section of the discharge channel is V-shaped.

A material collecting disc is arranged on the frame; the discharge hole of the discharge channel corresponds to the material collecting disc.

A guide groove is arranged between the material collecting disc and the discharge hole of the discharge channel; the guide groove is opposite to the first pneumatic ejector rod; the discharging channel is positioned between the guide groove and the first pneumatic ejector rod; the discharging channel can be simultaneously butted with the pneumatic chuck and the feeding hole of the guide groove under the movement of the movable platform; the discharge port of the guide groove corresponds to the material collecting disc.

The utility model discloses has positive effect: (1) the utility model discloses a vibration dish can realize automatic feeding, under the effect of striker plate, can realize orderly material loading.

(2) The utility model discloses a feed channel relies on weight to realize automatic packing, and is high-efficient and stable.

(3) The utility model discloses well striker plate design benefit utilizes feed channel rather than clearance fit, realizes the locking and the release of work piece.

(4) The utility model discloses a guiding groove can be convenient for collect the work piece to the guide of collecting tray.

(5) The utility model discloses can effectively link up with the equipment of subsequent handling, provide the possibility of production line ization.

Drawings

In order that the present invention may be more readily and clearly understood, the following detailed description of the present invention is given in conjunction with the accompanying drawings, in which

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view showing the assembly of the components on the frame of the present invention;

FIG. 3 is a schematic structural view of the movable platform of the present invention;

fig. 4 is a schematic structural diagram of the feeding channel of the present invention.

Detailed Description

Referring to fig. 1 to 4, the present invention has a frame 1; an output main shaft is arranged on the frame 1, and a pneumatic chuck 2 is arranged on the output main shaft; a first pneumatic ejector rod for ejecting a workpiece in the pneumatic chuck 2 is arranged in the pneumatic chuck 2; the frame 1 is also provided with a movable platform 3 which can move automatically; the frame 1 is also provided with a vibrating disk 4; the discharge hole of the vibrating disc 4 is communicated with the feed inlet of the feed channel 5; a cutting knife 6, a feeding groove 7, a material baffle plate 8, a second pneumatic ejector rod 9 and a discharging channel 10 are fixedly arranged on the movable platform 3; the cutting knife 6 is used for cutting grooves under the movement of the movable platform 3; the feeding trough 7 can be butted with a discharge hole of the feeding channel 5 and the pneumatic chuck 2 under the movement of the movable platform 3; the material baffle plate 8 blocks the discharge hole of the feeding channel 5 when the feeding chute 7 is not butted with the discharge hole of the feeding channel 5; the second pneumatic ejector rod 9 is used for ejecting the workpiece in the feeding groove 7 into the pneumatic chuck 2; the feed inlet of the discharge channel 10 can be butted with the pneumatic chuck 2 under the movement of the movable platform 3.

The feed channel 5 comprises an inclined channel 51 and a vertical channel 52; the feed inlet of the inclined channel 51 is connected with the discharge outlet of the vibrating disk 4, the discharge outlet of the inclined channel 51 is connected with the feed inlet of the vertical channel 52, and the discharge outlet of the vertical channel 52 is the discharge outlet of the feed channel 5.

The striker plate 8 is a plate body which is horizontally arranged; which is correspondingly fitted to the lower end of the vertical channel 52.

The cross section of the discharging channel 10 is V-shaped.

A material collecting disc is arranged on the frame 1; a guide groove is arranged between the material collecting disc and the discharge hole of the discharge channel 10; the guide groove is opposite to the first pneumatic ejector rod; the discharging channel 10 is positioned between the guide groove and the first pneumatic ejector rod; the discharging channel 10 can be simultaneously butted with the air chuck 2 and the feeding hole of the guide groove under the movement of the movable platform 3; the discharge port of the guide groove corresponds to the material collecting disc.

The working process of the utility model is as follows:

firstly, adding a workpiece into a vibrating disk 4, and feeding the workpiece to a feeding channel 5 under the action of the vibrating disk 4; the workpiece will enter the vertical channel 52 along the inclined channel 51 under the action of gravity, and the discharge hole of the feeding channel 5 is blocked under the action of the striker plate 8.

Under computer program control, movable platform 3 moves, and earlier go up silo 7 and 5 discharge gate butt joint of feedstock channel, the work piece is in for falling into silo 7 under the action of gravity, because it is filled up to go up silo 7, when movable platform 3 moved, only had a work piece to be located silo 7, and other work pieces continue to stay in feedstock channel 15 under the effect of striker plate 8.

The movable platform 3 continues to move, the feeding groove 7 is in butt joint with the pneumatic chuck 2, a workpiece in the feeding groove 7 is pushed into the pneumatic chuck 2 under the action of the second pneumatic ejector rod 9, and the pneumatic chuck 2 clamps the workpiece.

The movable platform 3 continues to move, the cutting blade 6 moves towards the air chuck 2, and the air chuck 2 rotates under the driving of the output spindle, so that grooving is carried out.

After grooving is finished, the movable platform 3 continues to move, so that the discharge channel 10 is butted with the pneumatic chuck 2; the pneumatic chuck 2 loosens the workpiece, and the first pneumatic ejector rod pushes the workpiece in the pneumatic chuck 2 into the discharging channel 10. The workpieces enter the guide groove from the discharge channel 10 and finally enter the material collecting tray.

If the discharge channel 10 can also be connected to other process equipment.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above-mentioned embodiments are only specific embodiments of the present invention, and are not intended to limit the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (6)

1. The piston grooving device for the refrigerator compressor is provided with a rack (1); an output main shaft is arranged on the frame (1), and a pneumatic chuck (2) is arranged on the output main shaft; a first pneumatic ejector rod for ejecting a workpiece in the pneumatic chuck (2) is arranged in the pneumatic chuck (2); the frame (1) is also provided with a movable platform (3) capable of moving automatically; the method is characterized in that: the frame (1) is also provided with a vibrating disc (4); the discharge hole of the vibrating disc (4) is communicated with the feed hole of the feed channel (5); a cutting knife (6), a feeding groove (7), a material baffle plate (8), a second pneumatic ejector rod (9) and a discharging channel (10) are fixedly arranged on the movable platform (3); the cutting knife (6) is used for cutting grooves under the movement of the movable platform (3); the feeding groove (7) can be butted with a discharge hole of the feeding channel (5) and the pneumatic chuck (2) under the movement of the movable platform (3); the material baffle plate (8) blocks the discharge hole of the feeding channel (5) when the feeding groove (7) is not butted with the discharge hole of the feeding channel (5); the second pneumatic ejector rod (9) is used for ejecting the workpiece in the feeding groove (7) into the pneumatic chuck (2); the feed inlet of the discharge channel (10) can be butted with the pneumatic chuck (2) under the movement of the movable platform (3).

2. The piston grooving apparatus for a refrigerator compressor according to claim 1, wherein: the feed channel (5) comprises an inclined channel (51) and a vertical channel (52); the feed inlet of the inclined channel (51) is connected with the discharge outlet of the vibrating disc (4), the discharge outlet of the inclined channel (51) is connected with the feed inlet of the vertical channel (52), and the discharge outlet of the vertical channel (52) is the discharge outlet of the feed channel (5).

3. The piston grooving apparatus for a refrigerator compressor according to claim 1, wherein: the striker plate (8) is a plate body which is horizontally arranged; the plate body is correspondingly matched with the lower end of the vertical channel (52).

4. The piston grooving apparatus for a compressor of a refrigerator according to claim 1, 2 or 3, wherein: the section of the discharging channel (10) is V-shaped.

5. The piston grooving apparatus for a refrigerator compressor according to claim 4, wherein: the rack (1) is provided with a material collecting disc; the discharge hole of the discharge channel (10) corresponds to the material collecting disc.

6. The piston grooving apparatus for a refrigerator compressor according to claim 5, wherein: a guide groove is arranged between the material collecting disc and the discharge hole of the discharge channel (10); the guide groove is opposite to the first pneumatic ejector rod; the discharging channel (10) is positioned between the guide groove and the first pneumatic ejector rod; the discharging channel (10) can be simultaneously butted with the pneumatic chuck (2) and the feeding hole of the guide groove under the movement of the movable platform (3); the discharge port of the guide groove corresponds to the material collecting disc.

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