CN211105397U - Die-cut equipment in mouth of a river - Google Patents

Abstract

The utility model provides a die-cut equipment in mouth of a river, die-cut equipment in mouth of a river includes: the device comprises a rack, wherein a processing station is arranged on the rack; the bearing table is used for bearing materials, arranged on the rack and positioned at the processing station; the cutter driving part is arranged on the rack and comprises a transmission part, a cutter is arranged on the transmission part, the cutting edge of the cutter faces the bearing table, and the transmission part drives the cutter to move on the bearing table so as to cut off a water gap on the material. The utility model discloses a die-cut equipment in mouth of a river is unanimous to the excision action of material, can guarantee the uniformity of material processing, realizes standardized operation.

Description

Die-cut equipment in mouth of a river

Technical Field

The utility model relates to an injection molding work piece processing technology field, in particular to die-cut equipment in mouth of a river.

Background

When the injection molding workpiece is used for casting a model, excess materials, also called as a water gap or a soup gap, are easily left at the joint of the mold frame and the injection molding workpiece. Among the prior art, the mouth of a river of work piece of moulding plastics is mostly through artifical manual shearing or send injection moulding product to milling machine processing shearing, and artifical shearing has increased the cost of using people of enterprise, and manual work's poor stability, and the product is cut the back uniformity not high, is difficult to realize standardized operation, high-speed rotation during milling cutter operation of milling machine, easy fish tail product influences the product yield.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a die-cut equipment in mouth of a river aims at solving among the prior art with the easy fish tail product in the die-cut mouth of a river of milling machine, influences the problem of product yield.

In order to achieve the above object, the utility model provides a die-cut equipment in mouth of a river, the die-cut equipment in mouth of a river includes:

the device comprises a rack, wherein a processing station is arranged on the rack;

the bearing table is used for bearing materials, arranged on the rack and positioned at the processing station;

the cutter driving part is arranged on the rack and comprises a transmission part, a cutter is arranged on the transmission part, the cutting edge of the cutter faces the bearing table, and the transmission part drives the cutter to move on the bearing table so as to cut off a water gap on the material.

Optionally, a containing part for containing the material is arranged on the bearing table, an opening is formed in the containing part, a water port of the material penetrates into the opening, and a cutter on the cutter driving part is located in the opening and moves in the opening.

Optionally, the die-cut equipment in mouth of a river includes two the cutter driving piece, all be equipped with on the cutter driving piece the cutter, two the cutter all is located in the opening.

Optionally, the transmission portion is provided with a mounting hole, the cutter further comprises a mounting portion connected with the cutting edge, and the mounting portion is mounted in the mounting hole.

Optionally, a fastening screw is further installed on the transmission portion, and one end of the fastening screw penetrates into the transmission portion from the direction perpendicular to the installation portion and is located in the installation hole and abutted to the installation portion.

Optionally, a mounting plate is arranged on the rack, and the cutter driving piece is fixed on the mounting plate.

Optionally, a support rod is arranged on the mounting plate to support the bearing table, and the cutter extends to the bearing table from the mounting plate to a gap between the bearing tables.

Optionally, a recycling port is arranged on the mounting plate, the recycling port corresponds to the position of the bearing platform, a recycling groove is further arranged on the rack, and the recycling groove is located in the recycling port.

Optionally, the cutter driving member is a cutter cylinder, the cutter cylinder includes a cutter cylinder housing and a cutter cylinder plunger, a position sensor is arranged on the cutter cylinder housing to detect a position of the cutter cylinder plunger, the nozzle punching device further includes a main control board, and the main control board is electrically connected with the position sensor.

Optionally, the rack is further provided with a sucker and a material taking driving piece, the sucker is arranged on the material taking driving piece, and the material taking driving piece drives the sucker to apply pressure to the bearing table.

The utility model discloses technical scheme is through setting up machining position and cutter driving piece in the frame of the die-cut equipment in mouth of a river to install the plummer on the machining position, wherein, the cutter driving piece includes transmission portion, is provided with the cutter in the transmission portion, the cutting edge orientation of cutter the plummer, transmission portion drive the cutter and are in remove the mouth of a river on the plummer in order to amputate the material, realized that the die-cut equipment in mouth of a river is unanimous to the excision action of material, can guarantee the uniformity of material processing, realize standardized operation.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic view of the construction of one embodiment of the nozzle tip cutting apparatus of the present invention;

FIG. 2 is a schematic view of the nozzle cutting apparatus of the present invention with a portion of the frame removed;

FIG. 3 is a schematic view of the installation structure of the cutter cylinder and the cutter of the nozzle punching device of the present invention;

fig. 4 is a schematic structural view of a bearing table of the nozzle punching equipment.

The reference numbers illustrate:

reference numerals	Name (R)	Reference numerals	Name (R)
				10	Rack	50	Bearing platform
11	Recovery tank	51	Opening (through hole)
				12	Support rod	60	Cutter cylinder
13	Recovery port	61	Fastening screw
				14	Discharge chute	70	Mounting plate
20	Material taking cylinder	80	Cutting knife
				21	Material taking cylinder body	90	Transfer cylinder
22	Material taking cylinder piston rod	91	Piston rod of transfer cylinder
				30	Transfer guide rod	92	Cylinder body of transfer cylinder
31	Suction cup	93	Transfer cylinder slider
				40	Mounting rack

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that all the directional indicators (such as up, down, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

To achieve the above object, as shown in fig. 1 and 2, the present invention provides a nozzle blanking apparatus, comprising: the device comprises a frame 10, wherein a processing station and a discharge port (not marked in the figure) are arranged on the frame 10; the material operation mechanism is arranged on the rack 10 and comprises an installation rack 40 and a material taking driving part, the installation rack 40 and the rack 10 can slide relatively, the sliding path of the installation rack 40 passes through the discharge hole and the processing position, the material taking driving part is installed on the installation rack 40, and a suction disc 31 is arranged on the material taking driving part; the cutter mechanism, cutter mechanism sets up in frame 10, the cutter driving piece includes plummer 50 and cutter driving piece, plummer 50 is located the station of processing, cutter driving piece facial make-up is equipped with cutter 80, the cutting edge orientation of cutter 80 plummer 50, the cutter driving piece drives cutter 80 is in the mouth of a river of removal material is removed in order to remove on the plummer 50.

In this embodiment, die-cut mouth of a river equipment has a frame 10, is equipped with discharge gate and processing position in the frame 10, and mounting bracket 40 is through transporting driving piece sliding connection in frame 10, and mounting bracket 40 slides between processing position and discharge gate, gets the material driving piece and installs and follow mounting bracket 40 and slide between processing position and discharge gate on mounting bracket 40 and realize the operation of material on die-cut mouth of a river equipment, gets material driving piece drive suction disc 31 and absorb the material or release the material. The automatic operation of the materials is realized, and the labor intensity of workers is reduced.

The suction cup 31 can be a vacuum suction cup 31, and the purpose of sucking or releasing materials is achieved by controlling the vacuum degree of the suction cup 31. The model of sucking disc 31 can be changed according to the material model of processing to the material processing of adaptation different models improves the commonality of equipment.

As shown in fig. 3 and 4, the bearing table 50 is located at a processing position of the frame 10, the bearing table 50 is fixedly connected with the frame 10 and is used for bearing materials, and the materials are processed on the bearing table 50. Be provided with cutter 80 on the cutter driving piece, the cutter driving piece can drive cutter 80 and remove in order to amputate the mouth of a river on plummer 50, and in concrete implementation, the cutter driving piece includes a transmission portion, and transmission portion carries out concertina movement under the drive of driving piece, and cutter 80 installs in the transmission portion, and the cutting edge is towards plummer 50, and consequently, the driving piece can drive cutter 80 and stretch out and draw back, and the mouth of a river of material is in on the flexible route of cutter 80, and the mouth of a river of cutter 80 on the material is amputated at flexible in-process.

Because the cutting edge of cutter 80 is towards plummer 50, the possibility of hindering the people is very little, has guaranteed operating personnel's security, and simultaneously, the route of cutter 80 is fixed, and the excision action to the material is unanimous, can guarantee the uniformity of material processing, realizes standardized operation.

Optionally, a containing portion for containing the material is disposed on the bearing table 50, an opening 51 is disposed on the containing portion, a water gap of the material penetrates through the opening 51, and the cutter 80 of the cutter driving member is located in the opening 51 and moves in the opening 51.

As an embodiment, the material is placed and is processed at the holding portion, and opening 51 in the holding portion is a through-hole 51, and this through-hole 51 runs through the upper and lower both sides face of holding portion, wherein, the upper flank is the one side towards frame 10 main part, and the downside is the one side for deviating from frame 10 main part, and the cutting edge of cutter 80 stretches into this through-hole 51 from the downside of plummer 50, and the material is placed in the upper flank of plummer 50 and is located the holding portion, and the mouth of a river on the material stretches into this through-hole 51 and is located between the cutting edge of cutter 80 and the through-hole 51 wall, and cutter 80 impels to the mouth of a river under the drive of cutter. Because the cutting edge does translational motion in the through hole 51 and is not exposed out of the bearing platform 50, the water gap is also positioned in the through hole 51, the inner wall of the through hole 51 has a limiting effect on the water gap, the water gap is prevented from bouncing off after being separated from materials, the 4S management of a processing site is further enhanced, and the safety of the production site is also ensured.

In an embodiment, the nozzle punching device includes two cutter driving members, each of the cutter driving members is provided with the cutter 80, and the two cutters 80 are located in the opening 51.

In order to increase the processing efficiency, two cutters 80 can be disposed in the through hole 51, two cutter driving members can be disposed on the frame 10, one cutter 80 is mounted on each cutter driving member, and the cutting edges of the two cutters 80 extend into the through hole 51 from the lower side surface of the bearing table 50. It can be understood that the number of the cutters 80 may be any number according to the processed material, for example, only one cutter driving member and the cutter 80 may be provided in this embodiment, and the telescopic motion of the cutter 80 may cut off a plurality of water gaps on the translation path back and forth; when the number of the nozzles is large, the number of the cutters 80 may be increased.

Optionally, the cutter driving member includes a transmission portion, a mounting hole (not marked in the figure) is formed in the transmission portion, the cutter 80 is connected in the mounting hole, a fastening screw 61 is further installed on the transmission portion, and one end of the fastening screw 61 penetrates through the transmission portion from a direction perpendicular to the cutter 80 and is located in the mounting hole to abut against the cutter 80.

The cutter 80 comprises a cutting edge and an installation part, the cutting edge and the installation part are respectively positioned at two ends of the cutter 80, the installation part is connected with a transmission part of the cutter driving part, and the cutting edge extends into the through hole 51 on the bearing table 50.

The transmission part is provided with a fastening screw 61, one end of the fastening screw 61 penetrates into the transmission part of the cutter driving part from the direction vertical to the installation part, and one end of the fastening screw 61 penetrating into the transmission part is abutted against the installation part of the cutter 80 so as to fasten the cutter 80. In a preferred embodiment, the fastening screw 61 is detachably connected to the transmission portion, for example, in a threaded manner, and the fastening screw 61 can adjust the length of penetrating into the transmission portion through the threaded connection, so as to loosen or pre-tighten the mounting portion of the cutter 80, so that the cutter 80 can adjust the height of the blade in the through hole 51, and therefore, the nozzle punching device provided by this embodiment is suitable for cutting material nozzles of various types, and has strong versatility.

The rack 10 is provided with a mounting plate 70, and the cutter driving piece is fixed on the mounting plate 70; the mounting plate 70 is provided with a support rod 12 for supporting the bearing table 50, and the cutter 80 extends from a gap between the mounting plate 70 and the bearing table 50 to the bearing table 50.

Mounting panel 70 is located the downside of plummer 50, and cutter driving piece and plummer 50 all set up on mounting panel 70, wherein, cutter driving piece and mounting panel 70 fixed connection are connected with bracing piece 12 between plummer 50 and the mounting panel 70, and bracing piece 12 has supported plummer 50 certain height for cutter 80 stretches into through-hole 51 from the downside of plummer 50, and the cutter driving piece is located between plummer 50 and the mounting panel 70 so that drive cutter 80.

Further, the material operation mechanism still includes transports the driving piece, transport the driving piece including transporting cylinder 90 and transporting guide bar 30, it fixes to transport guide bar 30 in the frame, the cylinder body 92 of transporting the cylinder is in transport guide bar 30 is last to slide, mounting bracket 40 sets up on the cylinder body 92 of transporting the cylinder.

Transport guide bar 30 and frame 10 fixed connection, mounting bracket 40 sliding connection is on transporting guide bar 30, transports the last sliding connection of guide bar 30 has the cylinder body 92 of transporting the cylinder, transports cylinder 90 drive and transports cylinder body 92 edge it slides to transport guide bar 30, mounting bracket 40 and the cylinder body 92 fixed connection who transports the cylinder, and the cylinder body 92 who follows the cylinder of transporting slides between processing position and discharge gate, gets the material driving piece and installs and follow mounting bracket 40 and slide between processing position and discharge gate on mounting bracket 40 and realize the operation of material on die-cut mouth of a river equipment, gets material driving piece drive sucking disc 31 and absorb the material or release the material. The automatic operation of the materials is realized, and the labor intensity of workers is reduced.

In a preferred embodiment, two transfer guide rods 30 are disposed on the frame 10, the two transfer guide rods 30 are respectively slidably connected with cylinder bodies 92 of the transfer cylinders, and both ends of the mounting frame 40 are fixedly connected with the cylinder bodies 92 of the two transfer cylinders to ensure the stability of the transfer. The material taking driving piece not only operates the material between the processing position and the discharge hole, but also applies pretightening force to the material on the processing position to tightly press the material on the processing position.

Optionally, the transfer cylinder 90 includes the cylinder body 92 of the transfer cylinder, the transfer cylinder piston rod 91, two transfer cylinder sliders 93, the cylinder body 92 sliding connection of the transfer cylinder is in transfer cylinder piston rod 91 and transfer guide bar 30, two transfer cylinder sliders 93 are fixed in frame 10 and located at the two ends of transfer guide bar 30, transfer cylinder piston rod 91 with transfer guide bar 30 all with two rotation cylinder sliders 93 fixed connection.

The cylinder body 92 of the transfer cylinder is provided with an air nozzle, the air nozzle is connected with an electromagnetic valve (not shown) and an air pump (not shown) through an air pipe, and the air pump provides air pressure to drive the cylinder body 92 of the transfer cylinder to slide along the transfer guide rod 30.

The cylinder body 92 of the transfer cylinder is arranged between the mounting frame 40 and the transfer guide rod 30, one end of the cylinder body 92 of the transfer cylinder is connected with the transfer guide rod 30 in a sliding mode, the other end of the cylinder body 92 of the transfer cylinder is fixedly connected with the mounting frame 40, the air pump provides air pressure for driving the cylinder body 92 of the transfer cylinder to slide along the transfer guide rod 30, and therefore the material taking cylinder 20 can slide between a processing position and a discharge hole along the mounting frame 40.

In one embodiment, the transfer cylinder 90 is a double acting cylinder with the cylinder body 92 acting as the power take off.

It is specific, get material driving piece for getting material cylinder 20, get material cylinder 20 including getting material cylinder body 21 and getting material cylinder piston rod 22, get material cylinder body 21 and fix on the mounting bracket 40, just it is provided with position sensor on the material cylinder body 21 to get, be corresponding to in the frame 10 the cylinder body 92 stroke initiating position and the termination position of transit cylinder are provided with position sensor (not marking in the figure), position sensor with main control board (not marking in the figure) electricity on the frame 10 is connected.

A main control board is arranged on the frame 10, and is electrically connected to a position sensor, and the position sensor detects the position of the cylinder body 92 of the transfer cylinder to determine the current position of the mounting frame 40. If the main control board judges that the material taking driving piece is currently positioned at the machining position, the material taking driving piece is controlled to absorb materials or apply pretightening force to the materials; when the main control board judges that the material taking driving part is currently located at the discharge port, the material taking driving part is controlled to release the material, and then the transfer cylinder 90 is controlled to drive the cylinder body 92 of the transfer cylinder to move.

It will be appreciated that a plurality of position sensors may be provided on the take-off drive member to ensure accuracy in the position detection of the take-off cylinder piston rod 22.

As an embodiment, the material taking driving component is a material taking cylinder 20, the material taking cylinder 20 comprises a material taking cylinder body 21 and a material taking cylinder piston rod 22, the material taking cylinder body 21 is provided with the position sensor, and the position sensor on the material taking cylinder body 21 detects the position of the material taking cylinder piston rod 22.

In this embodiment, get and correspond to on material cylinder 20 and the frame 10 all install position sensor on cylinder body 92 stroke initiating position and the termination position of transporting the cylinder, position sensor and the main control board electricity are connected, wherein, get the position sensor on the material cylinder 20 and be used for judging the current position of sucking disc 31, correspond to on the frame 10 the cylinder body 92 stroke initiating position of transporting the cylinder and the position sensor on the termination position are used for judging the current position of transporting the cylinder body 92 of cylinder. Because the cylinder body 92 of the transfer cylinder is fixedly connected with the mounting frame 40, the material taking cylinder 20 is fixed on the mounting frame 40, and therefore the current position of the material taking cylinder 20 can be known by the position information of the cylinder body 92 of the transfer cylinder. Meanwhile, the suction cup 31 is fixedly connected with the material taking cylinder piston rod 22, so that the current position of the suction cup 31 can be known by acquiring the position information of the material taking cylinder piston rod. A plurality of position sensors can be arranged on the material taking cylinder 20 and the frame 10 to ensure the accuracy of detection.

Optionally, the position sensor is a magnetron, and a magnetic ring is disposed on a piston (not shown in the figure) inside the material taking cylinder 20.

In a specific implementation, the position sensor may be a travel switch or a magnetron, for example, the magnetron is installed on a cylinder body 21 (inside or outside) of the material taking cylinder, a magnetic ring is disposed on a piston inside the material taking cylinder 20, and when the magnetic ring passes through the magnetron, a circuit on the magnetron is conducted to send an electrical signal to the main control board. In the preferred embodiment, the magnetic ring on the piston inside the take-off cylinder 20 is disposed at the end near the exit of the take-off cylinder body.

Get material cylinder piston rod 22 and connect sucking disc 31, the cylinder body 92 of transfer cylinder connects mounting panel 40.

Sucking disc 31 is installed on getting material cylinder piston rod 22, gets material cylinder 20 drive sucking disc 31 and absorbs the material or compress tightly the material, transports cylinder slider 93 fixed connection in frame 10, transports cylinder body 92 that cylinder 90 drive was transported in the drive and moves on transporting guide bar 30 to make mounting bracket 40, get material cylinder 20, sucking disc 31 remove between discharge gate and processing position, make get material cylinder 20 transport the material to the discharge gate from the processing position.

As an embodiment, the two position sensors are disposed on the frame 10 at the beginning and the end of the stroke of the cylinder body 92 of the material taking cylinder 21 and the transfer cylinder.

Take all to be provided with two position sensor on getting material cylinder body 21 frame 10 as an example, the position sensor that is close to discharge gate one end on frame 10 is sensor 1, the position sensor that is close to processing position one end on frame 10 is sensor 2, get the position sensor that is close to mounting bracket 40 one end on material cylinder body 21 and be sensor 3, get the position sensor that is kept away from mounting bracket 40 one end on material cylinder body 21 and be sensor 4, get the initial position as operation material cycle when material cylinder 20 is located the discharge gate. When the mounting frame 40 drives the material taking cylinder 20 to move from the discharge port to the processing position, the cylinder body 92 of the transfer cylinder touches the sensor 2, the sensor 2 sends a signal to the main control board, the main control board controls the material taking cylinder 20 to drive the material taking cylinder piston rod 22 to extend towards the processing position so as to compress or absorb the material, when the suction cup 31 touches the material, the sensor 3 senses a magnetic ring on the material taking cylinder 20, the sensor 3 sends a signal for cutting a water gap to the main control board, the main control board detects that the material on the processing position is cut by the water gap, then controls the material taking cylinder 20 to retract the material taking cylinder piston rod 22, when retraction is completed, the sensor 4 senses the magnetic ring on the material taking cylinder 20, the sensor 4 sends a signal to the main control board, the main control board controls the transfer cylinder 90 to drive the cylinder body 92 of the transfer cylinder to slide on the transfer guide, the sensor 1 sends a signal to the main control board which controls the suction cup 31 to release the material.

Furthermore, a relay is arranged on a connecting circuit of the position sensor and the main control board, and the relay is positioned between the main control board and the position sensor.

The relay is positioned between the main control board and the position sensor and used for protecting the circuit.

In an embodiment, the cutter driving member is a cutter cylinder 60, the cutter cylinder 60 includes a cutter cylinder body and a cutter cylinder piston rod, a position sensor is disposed on the cutter cylinder body to detect a position of the cutter cylinder piston rod, and a main control board on the rack 10 is electrically connected to the position sensor.

After the material is placed in the containing part on the bearing table 50, the main control board controls the material running mechanism to start to operate until the material taking cylinder 20 drives the suction cup 31 to move downwards to press the material, the main control board controls the cutter cylinder 60 to drive the cutter cylinder piston rod to move towards the water gap to cut off the water gap, and the position sensor on the cutter cylinder body is used for judging whether the cutter 80 connected to the cutter cylinder piston rod moves to the position of the water gap to cut off the water gap.

Specifically, a material sensor is arranged on the bearing table 50, and the material sensor is electrically connected with the main control board.

The material sensor is located plummer 50 for whether the material has been placed on detecting plummer 50, send out the signal to the main control board when the material sensor detects to have the material on the plummer 50.

The cutter cylinder 60 can be provided with a plurality of position sensors to ensure accuracy and meet detection requirements, and taking the example of two position sensors arranged on the cutter cylinder 60, the two position sensors are respectively positioned at two ends of the cutter cylinder 60, wherein the position sensor close to the cutter 80 on the cutter cylinder 60 is a sensor 5, the position sensor far away from the cutter 80 on the cutter cylinder 60 is a sensor 6, and the material sensor is a sensor 7.

The processing flow of the material is as follows: sensor 7 sends a signal to the main control board when detecting that there is the material on plummer 50, whole device begins to function, main control board control is transported cylinder 90 drive and is transported the cylinder body 92 removal of cylinder, when mounting bracket 40 drives and gets material cylinder 20 and move to the processing position from the discharge gate, sensor 2 sends a signal to the main control board, main control board control is got material cylinder 20 drive and is got material cylinder piston rod 22 and stretch out to the processing position, sucking disc 31 pushes down compresses tightly the material, sensor 3 senses the magnetic ring on getting material cylinder 20, sensor 3 sends a signal to the main control board, the cutter cylinder piston rod of main control board control cutter cylinder 60 drives cutter 80 and stretches out to the mouth of a river and removes, the acquiescence has already cut off the mouth of a river when the cutter. The sensor 5 senses a magnetic ring on the cutter cylinder 60, the sensor 5 sends a signal to the main control board, the main control board controls a cutter cylinder piston rod of the cutter cylinder 60 to drive the cutter 80 to retract, when the cutter cylinder piston rod retracts to the limit position, the sensor 6 senses the magnetic ring on the cutter cylinder 60, the sensor 6 sends a signal to the main control board, the main control board controls the air pump to pump out air in the suction cup 31 to enable the suction cup 31 to suck materials, the main control board controls the material taking cylinder 20 to retract the material taking cylinder piston rod 22, when retraction is completed, the sensor 4 senses the magnetic ring on the material taking cylinder 20, the sensor 4 sends a signal to the main control board, the main control board controls the transfer cylinder 90 to drive a cylinder body 92 of the transfer cylinder to slide on the transfer guide rod 30 to move the mounting frame 40 to the discharge port, when the cylinder body 92 of the transfer cylinder slides to the, the main control board controls the suction cup 31 to release the material.

The material sensor may be a photoelectric sensor.

Optionally, the material operation mechanism of the die-cut nozzle device further includes an air pump (not labeled in the figure), the suction cup 31 is provided with an air port, and the air port is communicated with the air pump.

The vacuum degree of the suction cup 31 is controlled by an air pump, in this embodiment, the air pump is electrically connected to the main control board, and the main control board controls the air pump to open and close. The suction cup 31 is provided with an air port, and the air pump is communicated with the air port to pump or fill air into the suction cup 31.

In a preferred embodiment, the main control board is electrically connected to the circuits of the transferring driving member, the material taking driving member or the air pump, and the main control board controls the working state of the electronic valve to change the air inlet and outlet directions of the transferring driving member, the material taking driving member or the suction cup, so as to control the movement state of the transferring driving member, the material taking driving member or the suction cup.

A discharge chute 14 and a recovery chute 11 are mounted on a frame 10 of the die-cutting nozzle device, the discharge chute 14 is connected with a discharge port formed in the frame 10, and the recovery chute 11 is connected with a recovery port 13 formed in the frame 10.

The recovery tank 11 is used for receiving the water gap separated from the material and recovering the water gap, and the water gap is separated from the material and then enters the recovery tank 11 through the recovery port 13. The blown down tank 14 is used for retrieving the material that has amputated the mouth of a river, and blown down tank 14 connects on the discharge gate, and sucking disc 31 enters into blown down tank 14 from the discharge gate after releasing the material.

In a preferred embodiment, two bearing platforms 50 are installed on the frame 10, two material taking cylinders 20 are installed on the installation plate 70, the two material taking cylinders 20 are respectively arranged corresponding to the two bearing platforms 50, two materials can be processed simultaneously, correspondingly, the discharge chute 14 connected to the discharge port can have two discharge channels, the two discharge channels respectively correspond to the two material taking cylinders 20, the processing efficiency of the equipment is improved, and when the types of the materials processed on the two bearing platforms 50 are different, the discharge chute 14 with the two discharge channels can separate the materials with different types, so that the mixing condition is avoided.

The above description is only an alternative embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A nozzle tip cutting apparatus, comprising:

the device comprises a rack, wherein a processing station is arranged on the rack;

the bearing table is used for bearing materials, arranged on the rack and positioned at the processing station;

the cutter driving part is arranged on the rack and comprises a transmission part, a cutter is arranged on the transmission part, the cutting edge of the cutter faces the bearing table, and the transmission part drives the cutter to move on the bearing table so as to cut off a water gap on the material.

2. The nozzle blanking apparatus of claim 1, wherein the carrier has a receptacle for receiving the material, the receptacle having an opening through which the nozzle of the material is inserted, and the cutter of the cutter driving member is located in the opening and moves within the opening.

3. A nozzle tip cutting apparatus as claimed in claim 2, wherein the nozzle tip cutting apparatus includes two said cutter driving members, each of said cutters being provided on said cutter driving members, both of said cutters being located within said opening.

4. The nozzle blanking apparatus of claim 1, wherein the transmission portion has a mounting hole, and the cutter further comprises a mounting portion connected to the blade, the mounting portion being mounted in the mounting hole.

5. The nozzle blanking device of claim 4, wherein a fastening screw is further mounted on the transmission part, and one end of the fastening screw penetrates into the transmission part from a direction perpendicular to the mounting part and is positioned in the mounting hole to abut against the mounting part.

6. A nozzle blanking apparatus as claimed in claim 1 wherein a mounting plate is provided on the frame, the cutter drive member being secured to the mounting plate.

7. A nozzle blanking apparatus according to claim 6, wherein a support bar is provided on the mounting plate to support the carrier table, the cutter extending from a gap between the mounting plate and the carrier table towards the carrier table.

8. The nozzle punching equipment according to claim 6, wherein a recovery opening is arranged on the mounting plate, the recovery opening corresponds to the bearing platform, and a recovery groove is arranged on the frame and is positioned at the recovery opening.

9. The nozzle punching device according to claim 1, wherein the cutter driving member is a cutter cylinder, the cutter cylinder comprises a cutter cylinder housing and a cutter cylinder plunger, a position sensor is arranged on the cutter cylinder housing to detect the position of the cutter cylinder plunger, and the nozzle punching device further comprises a main control board electrically connected with the position sensor.

10. The nozzle blanking device of claim 1, wherein the frame further comprises a suction cup and a material taking driving member, the suction cup is mounted on the material taking driving member, and the material taking driving member drives the suction cup to apply pressure to the bearing table.

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