CN214353941U - Device for cutting water gap - Google Patents

Abstract

An apparatus for cutting a nozzle, comprising: the frame, the cylinder, the ultrasonic wave cutter, the transmission guide rail with block the piece, the frame includes frame plate and a plurality of frame foot, each frame foot is located same one side of frame plate, cylinder and frame fixed connection, transmission guide rail and frame fixed connection, block piece and frame fixed connection, the transmission spout has been seted up to the one side of frame dorsad to the transmission guide rail, the feed inlet has been seted up to the lateral wall of the one end of transmission spout, the discharge gate has been seted up to the lateral wall of the other end of transmission spout, the transmission spout is by the one end that is close to the feed inlet to the one end that is close to the discharge gate slope to a frame foot gradually, the cylinder is connected with the ultrasonic wave cutter drive, ultrasonic wave cutter activity is inserted and is located and is blockked between piece and the discharge gate. Plastic products slide to the discharge gate under the action of gravity, and plastic products's mouth of a river supports on stopping the piece, and the cylinder pushes ultrasonic wave cutter to the mouth of a river, downcuts the mouth of a river from plastic products, and the workman only need stand the one end of keeping away from ultrasonic wave cutter at the transmission guide rail for the workman is safer at the during operation.

Description

Device for cutting water gap

Technical Field

The utility model relates to a plastic processing technology field, in particular to device at cutting mouth of a river.

Background

At present, plastic products are used for cutting a water gap through laser, workers use hands to enable the plastic products to be close to a laser cutter to cut the water gap, but the cutting strength of the laser cutter is high, and the hands of the workers are easily accidentally injured when being close to the water gap.

SUMMERY OF THE UTILITY MODEL

Based on this, there is a need for a device for cutting a nozzle.

The utility model provides an above-mentioned technical problem's technical scheme as follows: an apparatus for cutting a nozzle, comprising: the ultrasonic cutting machine comprises a frame, a cylinder, an ultrasonic cutter, a transmission guide rail and a blocking block, wherein the frame comprises a frame plate and a plurality of frame legs, each frame leg is connected with the frame plate, each frame leg is positioned on the same side of the frame plate, the cylinder is fixedly connected with the frame, the transmission guide rail is fixedly connected with the frame, the blocking block is fixedly connected with the frame, the transmission guide rail faces away from one side of the frame, a transmission chute is formed in one side wall of one end of the transmission chute, a feeding hole is formed in the side wall of the other end of the transmission chute, a discharging hole is formed in the side wall of the other end of the transmission chute, the transmission chute is gradually inclined towards the frame legs from one end close to the feeding hole to one end close to the discharging hole, the cylinder is in driving connection with the ultrasonic cutter, and the ultrasonic cutter is movably inserted between the blocking block and the discharging hole.

In one embodiment, the material collecting device further comprises a material collecting barrel, wherein the material collecting barrel is connected with the rack, a material collecting groove is formed in the material collecting barrel, and a notch of the material collecting groove faces the material outlet.

In one embodiment, one surface of the blocking block facing the discharge hole is provided with a limiting groove.

In one embodiment, the conveying chute further comprises a rotating block and a fixing block, the rotating block is rotatably connected with the side wall of the conveying chute, the fixing block is fixedly connected with the side wall of the conveying chute, the distance between the rotating block and the discharging opening is smaller than that between the fixing block and the discharging opening, and the rotating block is movably abutted to the fixing block.

In one embodiment, one end of the rotating block, which is far away from the frame foot, is rotatably connected with the side wall of the transmission chute, the cross section of the rotating block is arc-shaped, and the middle part of the rotating block protrudes towards the fixing block.

In one embodiment, the side walls of both sides of the transfer chute are provided with a turning block and a fixing block, and the turning blocks of both sides of the transfer chute are aligned.

In one embodiment, the conveying device further comprises a pressing plate, the pressing plate is connected with the conveying guide rail, and the pressing plate is arranged on one side, facing away from the rack foot, of the conveying chute.

In one embodiment, the bottom of the discharge hole is provided with a plurality of wheel grooves, and each wheel groove is rotatably connected with a pulley.

The utility model has the advantages that: the utility model provides a pair of device at cutting mouth of a river, the workman places plastic products at the feed inlet, plastic products slides to the discharge gate under the action of gravity, plastic products's mouth of a river supports on blockking the piece, the cylinder pushes the ultrasonic cutter to the mouth of a river, downcut the mouth of a river from plastic products, mouth of a river and plastic products drop downwards, can accomplish the cutting, this in-process workman only need stand the transmission guide rail keep away from the one end of ultrasonic cutter can, need not to be close to the ultrasonic cutter, make the workman safer at the during operation. It will be understood that the width of the transfer chute is set according to the particular plastic product, so that the plastic product keeps the orientation of the nozzle constant during the downward sliding, so that the nozzle of each plastic product can abut against the stop block.

Drawings

Fig. 1 is a schematic view showing a structure of a device for cutting a nozzle according to an embodiment.

In the drawings, 10, means for cutting the nozzle; 110. a frame plate; 120. a frame leg; 200. a cylinder; 300. an ultrasonic cutter; 400. a transport rail; 410. a transmission chute; 411. a feed inlet; 412. a discharge port; 420. Rotating the block; 430. a direction fixing block; 440. pressing a plate; 450. a pulley; 500. a blocking block; 510. a limiting groove; 600. a material receiving barrel; 610. a material receiving groove.

Detailed Description

It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict. The following will combine the drawings of the embodiments of the present invention to further describe the technical solution of the present invention, and the present invention is not limited to the following specific embodiments.

It should be understood that the same or similar reference numerals in the drawings of the embodiments correspond to the same or similar parts. In the description of the present invention, it should be understood that if there are terms such as "upper", "lower", "front", "rear", "left", "right", "top", "bottom", etc., indicating orientations or positional relationships based on the orientations or positional relationships shown in the drawings, the description is merely for convenience of description and simplicity of description, but does not indicate or imply that the equipment or components referred to must have specific orientations, be constructed in specific orientations, and be operated, and therefore, the terms describing the positional relationships in the drawings are only used for illustrative purposes and are not to be construed as limitations of the present patent, and those skilled in the art will understand the specific meanings of the terms according to specific situations.

In one embodiment, as shown in fig. 1, an apparatus 10 for cutting a nozzle comprises: the ultrasonic cutting machine comprises a rack, an air cylinder 200, an ultrasonic cutter 300, a transmission guide rail 400 and a blocking block 500, wherein the rack comprises a rack plate 110 and a plurality of rack legs 120, each rack leg 120 is connected with the rack plate 110, each rack leg 120 is positioned at the same side of the rack plate 110, the air cylinder 200 is fixedly connected with the rack, the transmission guide rail 400 is fixedly connected with the rack, the blocking block 500 is fixedly connected with the rack, one side of the transmission guide rail 400, which is back to the rack, is provided with a transmission chute 410, the side wall of one end of the transmission chute 410 is provided with a feeding hole 411, the side wall of the other end of the transmission chute 410 is provided with a discharging hole 412, the discharging hole faces the blocking block 500, the transmission chute 410 is gradually inclined towards the direction of the rack legs 120 from one end, which is close to the feeding hole 411, to one end, which is close to the discharging hole 412, and the air cylinder 200 is in driving connection with the ultrasonic cutter 300, the ultrasonic cutter 300 is movably inserted between the blocking block 500 and the discharge hole 412.

Specifically, during the use, the workman places plastic products at feed inlet 411, plastic products slide to discharge gate 412 under the action of gravity, plastic products's mouth of a river supports on blockking block 500, cylinder 200 pushes away ultrasonic wave cutter 300 to the mouth of a river, downcuts the mouth of a river from plastic products, mouth of a river and plastic products drop downwards, can accomplish the cutting, this in-process workman only need stand in transmission guide rail 400 keep away from the one end of ultrasonic wave cutter 300 can, need not to be close to ultrasonic wave cutter 300, make the workman safer at the during operation. It will be appreciated that the width of the transfer chute 410 is set according to the specific plastic product, so that the plastic product keeps the orientation of the nozzle during the downward sliding process, so that the nozzle of each plastic product can abut against the stop block 500; and the distance between the blocking block 500 and the discharge hole 412 is set according to the cutting position of the nozzle, and the relative position of the plastic product and the ultrasonic cutter 300 is adjusted by changing the distance between the blocking block 500 and the transmission guide rail 400. Wherein, the ultrasonic wave cutter adopts prior art to realize, fixes the handle of a knife of ultrasonic wave cutter on the output of cylinder, thereby drives the handle of a knife drive ultrasonic wave cutter through the cylinder.

In order to collect the cut plastic products, as shown in fig. 1, in one embodiment, the plastic product collecting device further includes a receiving bucket 600, the receiving bucket 600 is connected to the rack, the receiving bucket 600 is provided with a receiving trough 610, and a notch of the receiving trough 610 faces the discharging hole 412. After the ultrasonic wave cutter 300 cuts the water gap, the water gap and the plastic product are separated, and the water gap and the plastic product fall from the discharge hole 412 to the material receiving groove 610.

In order to improve the cutting effect, as shown in fig. 1, in one embodiment, a limiting groove 510 is formed on a surface of the blocking block 500 facing the discharge hole 412. When the mouth of a river of plastic products slided downwards and supported in spacing groove 510, the lateral wall of spacing groove 510 will support the mouth of a river, avoids the mouth of a river to skid on stopping block 500 for plastic products more firm fixes in discharge gate 412, makes the cutting mouth of a river that ultrasonic wave cutter 300 can be better.

In order to better fix the plastic product, as shown in fig. 1, in one embodiment, the plastic product further includes a rotating block 420 and a fixing block 430, the rotating block 420 is rotatably connected with a sidewall of the conveying chute 410, the fixing block 430 is fixedly connected with a sidewall of the conveying chute 410, a distance between the rotating block 420 and the discharging opening 412 is smaller than a distance between the fixing block 430 and the discharging opening 412, and the rotating block 420 movably abuts against the fixing block 430. When the plastic product slides downwards, the rotating block 420 is pushed to rotate towards one side of the discharge hole 412, and after the plastic product passes through the rotating block 420, the rotating block 420 abuts against one side of the plastic product, which is back to the discharge hole 412, so that the plastic product is prevented from moving upwards, and the plastic product is more stably fixed between the blocking block 500 and the transmission guide rail 400. The distance between the rotating block 420 and the discharge hole 412 is set according to a specific plastic product, so that a water gap at one end of the plastic product to be cut abuts against the blocking block 500, and the other end of the plastic product abuts against the rotating block 420, thereby clamping the rotating block 420. The fixed block 430 is used for limiting the rotation direction of the rotating block 420, and the fixed block 430 near the side of the feed opening 411 can block the rotating block 420 from rotating towards the feed opening 411, so that the rotating block 420 can only rotate towards the side of the feed opening 412, and the plastic product can be fixed by controlling the rotation direction of the rotating block 420.

In order to make the rotating block 420 better abut against, as shown in fig. 1, in one embodiment, one end of the rotating block 420, which is far away from the frame leg 120, is rotatably connected to the side wall of the transmission chute 410, the cross section of the rotating block 420 is arc-shaped, and the middle of the rotating block 420 protrudes towards the fixing block 430. When the plastic product slides downwards, the outward convex curved surface of the rotating block 420 slides on the plastic product, the friction force is small, and when the nozzle is abutted against the blocking block 500, the rotating block 420 bends towards the nozzle and pushes the plastic product to one side of the blocking block 500, so that the plastic product is fixed.

In order to better push and hold the plastic products, as shown in fig. 1, in one embodiment, the side walls of both sides of the transfer chute 410 are respectively provided with a rotating block 420 and a fixing block 430, and the rotating blocks 420 of both sides of the transfer chute 410 are aligned. By providing the rotating block 420 and the fixing block 430 together on both sides of the transfer chute 410, the plastic is pushed and abutted from both sides thereof.

In order to prevent the plastic products from falling over, as shown in fig. 1, in one embodiment, the plastic products further include a pressing plate 440, the pressing plate 440 is connected to the conveying guide rail 400, and the pressing plate 440 is disposed on a side of the conveying chute 410 facing away from the frame foot 120. By providing the pressure plate 440 above the transfer chute 410, the plastic product is prevented from sliding too quickly outward and downward on the transfer chute 410.

In order to improve the processing efficiency, as shown in fig. 1, in one embodiment, a plurality of grooves are formed at the bottom of the discharging hole 412, and a pulley 450 is rotatably connected in each groove. After the water gap of the plastic product placed at the discharge port 412 is cut, the friction force between the plastic product and the transmission chute 410 is reduced through the rolling friction between the plastic product and the pulley 450, so that the plastic product drops faster, and the rest of the plastic products on the transmission chute 410 can also slide to the stop block 500 for processing, thereby improving the processing efficiency.

It is obvious that the above embodiments of the present invention are only examples for clearly illustrating the present invention, and are not limitations to the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (8)

1. A device for cutting a nozzle, comprising: the ultrasonic cutting machine comprises a frame, a cylinder, an ultrasonic cutter, a transmission guide rail and a blocking block, wherein the frame comprises a frame plate and a plurality of frame legs, each frame leg is connected with the frame plate, each frame leg is positioned on the same side of the frame plate, the cylinder is fixedly connected with the frame, the transmission guide rail is fixedly connected with the frame, the blocking block is fixedly connected with the frame, the transmission guide rail faces away from one side of the frame, a transmission chute is formed in one side wall of one end of the transmission chute, a feeding hole is formed in the side wall of the other end of the transmission chute, a discharging hole is formed in the side wall of the other end of the transmission chute, the transmission chute is gradually inclined towards the frame legs from one end close to the feeding hole to one end close to the discharging hole, the cylinder is in driving connection with the ultrasonic cutter, and the ultrasonic cutter is movably inserted between the blocking block and the discharging hole.

2. The device for cutting the nozzle as claimed in claim 1, further comprising a receiving barrel connected to the frame, wherein the receiving barrel is provided with a receiving slot, and a notch of the receiving slot faces the discharge hole.

3. The device for cutting a nozzle as claimed in claim 1, wherein a side of the blocking block facing the discharge port is formed with a limiting groove.

4. The device for cutting a nozzle as claimed in claim 1, further comprising a rotating block and a fixing block, wherein the rotating block is rotatably connected with the side wall of the conveying chute, the fixing block is fixedly connected with the side wall of the conveying chute, the distance between the rotating block and the discharge port is smaller than the distance between the fixing block and the discharge port, and the rotating block is movably abutted against the fixing block.

5. The apparatus for cutting a nozzle as claimed in claim 4, wherein an end of the rotating block remote from the frame leg is rotatably connected to a sidewall of the transfer chute, the rotating block has an arc-shaped cross section, and a middle portion of the rotating block protrudes toward the fixed block.

6. A device for cutting a nozzle as claimed in claim 4, wherein the side walls of the transfer chute on either side are provided with a turning block and a retaining block, the turning blocks on either side of the transfer chute being aligned.

7. The apparatus for cutting a nozzle as claimed in claim 1, further comprising a pressure plate coupled to the transfer rail, the pressure plate being disposed on a side of the transfer chute facing away from the frame leg.

8. The device for cutting a nozzle as claimed in claim 1, wherein a plurality of grooves are formed at the bottom of the discharge port, and a pulley is rotatably connected to each groove.

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