CN212264547U - Automatic material receiving device for tool setting machine - Google Patents

Abstract

The utility model discloses an automatic receiving device for gang tool machine, collect the box including receiving device base, coupling mechanism, metal fillings, work piece collection box and numerical control blanking storage device, metal fillings collection box fixed connection is on receiving device base, and one side that the box was collected to the metal fillings is fixed with coupling mechanism, and the box is collected for the work piece to the opposite side that the box was collected to the metal fillings, and work piece collection box fixed connection is on receiving device base, and the work piece is collected the box and is provided with the slide, installs numerical control blanking storage device in the work piece collection box, and coupling mechanism is the triangular prism, and coupling mechanism is provided with the buckle. The utility model has the advantages that the parts are automatically collected through the material receiving device, the mutual collision between high-precision parts is avoided, and the qualification rate of the production quality is improved; the metal fillings on the transmission band fall into the metal fillings along the gap between slide and the gyro wheel and collect the box to realize the categorised collection of metal fillings and work piece.

Description

Automatic material receiving device for tool setting machine

Technical Field

The utility model relates to a sword lathe technical field is arranged in the numerical control, especially relates to an automatic receiving device for arranging sword machine.

Background

The numerical control gang tool lathe, also called gang tool machine, is a high-precision, high-efficiency automatic machine tool, and is equipped with a multi-station power tool turret, and the power tool turret can implement various technological properties by switching different tools, and can machine linear cylinders, oblique line cylinders, circular arcs and various complex workpieces such as threads, grooves and worms, and also has the functions of linear interpolation, circular arc interpolation and the like, and has good economic benefits in the batch production of complex parts.

The existing tool arranging machine consists of a motor, a rotating shaft and a tool arranging frame, wherein the tool arranging frame is provided with an air cylinder, the air cylinder drives a tool to move to realize tool changing, different process requirements are usually required to be completed by a plurality of tools when one workpiece is machined, and the workpiece is required to be taken by a worker from a machining box when the workpiece is completed. However, the cutter arranging machine can generate a large amount of metal scraps when processing a workpiece, the metal scraps are mixed with the workpiece, and workers can easily cut hands and hurt the hands when taking the workpiece; secondly, a large amount of cooling and lubricating liquid is left on the workpiece, so that workers are easy to slip off when taking the workpiece, and the workpiece is damaged; and the efficiency of manually taking the workpiece is low, the working efficiency of the cutter arranging machine is directly reduced, full-automatic production is not realized, and manpower resources are wasted.

The existing tool setting machine cannot distinguish the sequence of workpiece processing after workpieces directly fall out, and if the processed workpieces have product defects, all the workpieces gathered together can only be completely inspected or scrapped, so that a large amount of time and manpower are consumed to completely distinguish qualified products from unqualified products. After parts are freely dropped and gathered together in the basket, the parts collide with each other, so that the surface of a product is damaged to cause defects, the size and the use function of the high-precision product are influenced, and the qualified rate of the production quality of the product is further influenced. Because a large amount of cooling and lubricating liquid and metal chips remain on the workpiece, workers need to clean the workpiece to remove the residues of the cooling and lubricating liquid and the metal chips when obtaining the workpiece, and then dry the workpiece, which affects the production efficiency.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an automatic receiving device for arranging sword machine has solved the problem of automatic collection work piece to prevent the mutual collision of part free blanking in the basket between the back work piece, avoid the work piece surface to bump the defect that causes, improve work piece production quality's qualification rate.

The utility model provides an automatic receiving device for gang tool machine, including the receiving device base, coupling mechanism, the box is collected to the metal fillings, box and numerical control blanking receiver are collected to the work piece, box fixed connection is collected on the receiving device base to the metal fillings, one side that the box was collected to the metal fillings is fixed with coupling mechanism, the opposite side that the box was collected to the metal fillings is the box is collected to the work piece, box fixed connection is collected on the receiving device base to the work piece, the box is collected to the work piece is provided with the slide, install numerical control blanking receiver in the box is collected to the work piece, coupling mechanism is the triangular prism, coupling mechanism is provided with.

The buckle of the automatic material receiving device connecting mechanism is matched with the clamping groove in the base of the cutter arranging machine, so that the automatic material receiving device is detachably fixed on the base of the cutter arranging machine, and cleaning and transportation are facilitated. The machined parts slide down to a sliding plate on the workpiece collecting box through a conveying belt, and the parts enter a numerical control blanking container along the sliding plate for classified placement; the metal fillings on the transmission band fall into the metal fillings along the gap between slide and the gyro wheel and collect the box to realize the categorised collection of metal fillings and part.

Furthermore, the metal filing collecting box is detachably connected with the material receiving device base, the material receiving device base is provided with a metal filing collecting box installation position, and the metal filing collecting box is placed on the installation position. The metal scraps can be conveniently collected manually.

Further, the workpiece collecting box is detachably connected with the material receiving device base, the material receiving device base is provided with a workpiece collecting box installation position, the workpiece collecting box is placed on the installation position, the workpiece collecting box is provided with a sliding plate, the sliding plate is provided with an inclination angle, and the sliding plate is parallel to a tangent line of the roller.

Further, the material receiving device base is provided with a cushion block, and the cushion block is a cuboid. The base is provided with the cushion and can reduce friction, makes things convenient for receiving device to remove.

Further, the numerical control blanking storage device is provided with a directional slide way and a part storage groove, the directional slide way is installed on the sliding plate, the part storage groove is installed inside the workpiece collection box, the directional slide way is a rectangular plate, and a part guide strip is installed on the directional slide way.

Furthermore, the directional slide way is fixedly connected with the part guide strips, the number of the part guide strips is two, the first part guide strip is parallel to the edge of the directional slide way, and the second part guide strip and the edge of the directional slide way form a bending angle.

Furthermore, one end of the part guide strip is positioned at the top of the directional slide way, and the other end of the part guide strip is positioned at the bottom of the slide way.

Furthermore, the first part guide strip and the second part guide strip are located at one end of the bottom of the slide way to form a blanking hole, and a part accommodating groove is arranged right in front of the blanking hole. The blanking hole faces the part accommodating groove, so that the part can accurately and unmistakably enter the part accommodating groove.

Scheme of automatic conveying device

An automatic conveying device for a knife arranging machine comprises a knife arranging machine base, a conveying belt, a support, a fixing frame, a roller, a stepping motor, a rotary platform and a cleaning device, wherein the knife arranging machine base is of a cuboid structure and comprises a bottom plate and a top plate, the fixing frame comprises a first fixing frame and a second fixing frame, the first fixing frame is fixed on the bottom plate of the knife arranging machine base, the second fixing frame is fixed on the top plate of the knife arranging machine base, the stepping motor is arranged in the fixing frame, the roller comprises a first roller and a second roller, the first fixing frame is connected with the first roller through a bearing, the second fixing frame is connected with the second roller through a bearing, the first fixing frame and the second fixing frame are fixedly connected through the support, the first roller is connected with the second roller through the conveying belt, the cleaning device is positioned above the conveying belt, the cleaning device is fixed on the top plate of the knife arranging machine base, the rotary platform is positioned above the, the rotary platform is fixedly connected with a top plate of the tool setting machine base.

After the row sword machine tooling accomplished the part, the part drops on rotary platform, and on the part fell into the conveyer belt through rotary platform, step motor drove the gyro wheel rotatory, and the gyro wheel drove the conveyer belt and removes, and when the part removed on the conveyer belt, the purger of conveyer belt top sprayed the washing to the part, then will accomplish the part conveying of processing and go out row sword machine. The parts fall into the conveyor belt through the rotating platform, so that the parts can be prevented from being damaged when falling; two mounts are fixed in bottom plate and roof respectively, can be better utilize the space to carry out the overall arrangement to the structure of gang tool lathe.

Further, the top plate of the cutter arranging machine is provided with an opening and an inclined plate, and the inclined plate is located above the first roller. The roof of row sword machine is provided with opening and swash plate, and the metal fillings that produce when conveniently processing the part fall into the conveyer belt, make things convenient for the clearance of metal fillings, reduce the human cost.

Furthermore, the conveyer belt is provided with the hole of permeating water, and the equidistance parallel distribution in the hole of permeating water is on the conveyer belt. Be provided with the hole of permeating water on the conveyer belt, can make water through the hole of permeating water when spraying the washing to the part, avoid the problem of conveyer belt ponding.

Further, the support contains metal framework, upper plate and hypoplastron, connects through metal framework between upper plate and the hypoplastron, and upper plate and hypoplastron are rectangular shaped plate. The function of the upper plate is to support the conveyor belt and the parts on the conveyor belt.

Furthermore, the metal framework is composed of a cross beam and a longitudinal beam, the cross beam is fixedly connected between the first fixing frame and the second fixing frame, the longitudinal beam is perpendicular to the cross beam and is fixedly connected with the cross beam, and two ends of the longitudinal beam are fixedly connected with the upper plate and the lower plate respectively. The metal framework has the functions of fixing the upper plate and the lower plate, ensuring the upper plate and the lower plate to be parallel to each other and ensuring that the upper plate has enough supporting function.

Further, step motor is located the mount, and step motor drives the gyro wheel rotation through the gear train.

Further, the purger is fixed in the roof of row sword machine base, and the purger is located the top of conveyer belt, and the purger is connected with the water pipe, and the purger embeds there is the shower. The water pipe carries water to the shower, and the shower sprays the part on the conveyer belt with water and washs.

Scheme of rotating platform

A rotary platform for an automatic conveying device of a cutter arranging machine comprises a rotary base, a rotary disk, a rotary fixing frame and a triangular guide plate; rotary disk and rotating base are the circular slab, the rotary disk is the arc structure, rotating base and rotatory mount fixed connection, the rotary disk is located the rotating base top, the center of rotary disk is connected through the pivot with rotating base's center, the triangle deflector is located the top of rotary disk, triangle deflector and rotatory mount fixed connection, rotatory mount contains the fixed strip, the fixed block, motor and drive wheel, the one end of fixed strip is passed through the pivot and is connected with the rotary disk, the other end and the fixed block fixed connection of fixed strip, motor and drive wheel are installed inside the fixed block.

When the cutter arranging machine finishes part processing, a part drops to a blanking area of the rotary disc, the motor drives the driving wheel to rotate, the driving wheel drives the rotary disc to rotate, the rotary disc carries the part to move anticlockwise, when the part touches the triangular guide plate, the part moves to the edge of the rotary disc along the triangular guide plate until the part drops to the conveying belt along the edge.

Further, the rotating disc is of an arc-shaped structure, and the center of the rotating disc is high and the edge of the rotating disc is low. The parts are converted into kinetic energy under the action of potential energy and move to the edge of the rotating disc, so that the parts are transferred onto the conveying belt.

Furthermore, rotating base, rotary disk and fixed strip are connected through the pivot, and the rotary disk is located between rotating base and the fixed strip, and the rotary disk is rotatable with the pivot and is connected. The rotating disk is positioned between the rotating base and the fixing strip, so that the rotating disk is prevented from falling off.

Furthermore, the rotary fixing frame is fixedly connected with the tool arranging machine base and the rotary base. The rotating base has the function of supporting the rotating disk.

Further, the fixed block is provided with a motor and a driving wheel in the fixed block, and the motor drives the driving wheel to rotate through a gear set.

Furthermore, the triangular guide plate is of a triangular flat plate structure and is fixedly connected with the rotary fixing frame, the triangular guide plate is positioned above the rotary disk, and a gap is formed between the triangular guide plate and the rotary disk. The triangular guide plate is not in contact with the rotating disk, so that the triangular guide plate does not influence the rotation of the rotating disk, and can intercept the part.

Scheme of numerical control blanking storage device

The utility model provides a ware is accomodate to numerical control blanking for arranging automatic receiving device of sword machine, including directional slide, accomodate ware base and numerical control and accomodate the platform, accomodate the ware base and be provided with numerical control and accomodate platform installation position, directional slide and accomodate ware base fixed connection, directional slide is provided with inclination, directional slide is rectangular shaped plate, the both sides of directional slide are provided with the part gib block, numerical control accomodates the platform installation position of numerical control on accomodating the ware base, numerical control accomodates the platform and is rectangle conveying platform, rectangle conveying platform is provided with and connects the material conveyer belt, it accomodates the groove to be provided with a plurality of parts on the material conveyer belt to connect, the part is accomodate the groove equidistance and is set up on.

On the directional slide that has inclination was fallen to the first part, the part was received the groove along the part of the gib block landing on the directional slide on connecing the material conveyer belt, and after the first part was collected in the groove was received to the part, the numerical control storage platform control connects the material conveyer belt to be the marching type motion, and empty part is received the groove and is moved to the blanking position of directional slide, and the groove is received to the part that carries with first part moves along to realize that different batches of part is put into different parts and is received the groove.

Furthermore, the directional slide way is fixedly connected with the part guide strips, the number of the part guide strips is two, the first part guide strip is parallel to the edge of the directional slide way, and the second part guide strip and the edge of the directional slide way form a bending angle.

Furthermore, one end of the part guide strip is positioned at the top of the directional slide way, and the other end of the part guide strip is positioned at the bottom of the slide way.

Furthermore, the first part guide strip and the second part guide strip are located at one end of the bottom of the slide way to form a blanking hole, and a part accommodating groove is arranged right in front of the blanking hole. The blanking hole faces the part accommodating groove, so that the part can accurately and unmistakably enter the part accommodating groove.

Furthermore, an induction weighing device is arranged in the numerical control storage platform and is positioned below the part storage groove. When the induction weighing device measures that the weight of the part accommodating groove changes, the numerical control accommodating platform controls the stepping motor to drive the material receiving conveyor belt to move in a stepping mode.

Furthermore, the inclination angle of the directional slideway is 35-50 degrees.

The utility model has the advantages that: the parts are automatically collected through the material receiving device, mutual collision between the high-precision parts is avoided, and the qualified rate of production quality is improved. The automatic material receiving device is provided with a buckle which is detachably connected to the base of the cutter arranging machine, so that the automatic material receiving device is convenient to clean and transport. The metal fillings on the transmission band fall into the metal fillings along the gap between slide and the gyro wheel and collect the box to realize the categorised collection of metal fillings and work piece.

Drawings

Fig. 1 is a schematic structural diagram of an automatic conveying device of a gang tool machine.

Fig. 2 is a schematic structural diagram of an automatic material receiving device.

Fig. 3 is a schematic structural diagram of a rotary platform.

Fig. 4 is a schematic structural diagram of a numerical control blanking receiver.

The labels in the figure are: the automatic metal chip collecting device comprises a cutter arranging machine base 1, a conveyor belt 2, a support 3, a fixing frame 4, a roller 5, a stepping motor 6, a rotating platform 7, a cleaning device 8, a material receiving device base 9, a connecting mechanism 10, a metal chip collecting box 11, a workpiece collecting box 12, a numerical control blanking storage device 13, a rotating base 14, a rotating disk 15, a rotating fixing frame 16, a triangular guide plate 17, a directional slide way 18, a storage device base 19 and a numerical control storage platform 20.

Detailed Description

Not enough to prior art exists, the utility model provides an automatic receiving device for arranging sword machine has solved the problem of automatic collection work piece to prevent the mutual collision between the back work piece of part free blanking in the basket, avoid the work surface to bump the defect that causes, improve work piece production quality's qualification rate.

In order to solve the technical problem, the utility model adopts the following technical scheme:

as an embodiment, as shown in fig. 1, an automatic conveying device for a gang tool machine comprises a gang tool machine base 1, a conveying belt 2, a support 3, a fixing frame 4, a roller 5, a stepping motor 6, a rotary platform 7 and a cleaner 8, wherein the gang tool machine base 1 is of a rectangular parallelepiped structure, the gang tool machine base 1 comprises a bottom plate and a top plate, the fixing frame 4 comprises a first fixing frame and a second fixing frame, the first fixing frame is fixed on the bottom plate of the gang tool machine base 1, the second fixing frame is fixed on the top plate of the gang tool machine base 1, the stepping motor 6 is arranged in the fixing frame 4, the roller 5 comprises a first roller and a second roller, the first fixing frame is connected with the first roller through a bearing, the second fixing frame is connected with the second roller through a bearing, the first fixing frame is fixedly connected with the second fixing frame through the support 3, the first roller is connected with the second roller through the conveying belt 2, the cleaning device 8 is located above the conveyor belt 2, the cleaning device 8 is fixed on a top plate of the knife arranging machine base 1, the rotating platform 7 is located above the first roller, and the rotating platform 7 is fixedly connected with the top plate of the knife arranging machine base 1.

After the row sword machine tooling accomplished the part, the part drops on rotary platform 7, and the part falls into conveyer belt 2 through rotary platform 7 on, and step motor 6 drives gyro wheel 5 rotatory, and gyro wheel 5 drives conveyer belt 2 and removes, and when the part moved on conveyer belt 2, the purger 8 of 2 tops of conveyer belt sprayed the washing to the part, then will accomplish the part conveying of processing and go out row sword machine. The parts fall into the conveyor belt 2 through the rotating platform 7, so that the parts can be prevented from being damaged when falling; two mounts 4 are fixed in bottom plate and roof respectively, and the space that can be better utilizes carries out the overall arrangement to the structure of gang tool lathe.

Preferably, the top plate of the cutter arranging machine is provided with an opening and an inclined plate, and the inclined plate is positioned above the first roller. The roof of row sword machine is provided with opening and swash plate, and the metal fillings that produce when conveniently processing the part fall into conveyer belt 2, make things convenient for the clearance of metal fillings, reduce the human cost.

Preferably, be provided with the hole of permeating water on the conveyer belt 2, the equidistance parallel distribution in the hole of permeating water is on conveyer belt 2. Be provided with the hole of permeating water on conveyer belt 2, can make water through the hole of permeating water when spraying the washing to the part, avoid the problem of 2 ponding of conveyer belt.

Preferably, support 3 contains metal framework, upper plate and hypoplastron, connects through metal framework between upper plate and the hypoplastron, and upper plate and hypoplastron are rectangular shaped plate. The function of the upper plate is that of a support for the conveyor belt 2 and the parts on the conveyor belt 2.

Preferably, the metal framework is composed of a cross beam and a longitudinal beam, the cross beam is fixedly connected between the first fixing frame and the second fixing frame, the longitudinal beam is perpendicular to the cross beam and is fixedly connected with the cross beam, and two ends of the longitudinal beam are fixedly connected with the upper plate and the lower plate respectively. The metal framework has the functions of fixing the upper plate and the lower plate, ensuring the upper plate and the lower plate to be parallel to each other and ensuring that the upper plate has enough supporting function.

Preferably, the stepping motor 6 is positioned on the fixing frame 4, and the stepping motor 6 drives the roller 5 to rotate through the gear set.

Preferably, the cleaner 8 is fixed on the top plate of the base 1 of the knife arranging machine, the cleaner 8 is positioned above the conveyor belt 2, the cleaner 8 is connected with a water pipe, and a spray pipe is arranged in the cleaner 8. The water pipe carries water to the shower, and the shower sprays water to the part on the conveyer belt 2 and washs.

As an embodiment, as shown in fig. 2, an automatic receiving device for a knife arranging machine includes a receiving device base 9, a connecting mechanism 10, a metal chip collecting box 11, a workpiece collecting box 12 and a numerical control blanking receiver 13, where the metal chip collecting box 11 is fixedly connected to the receiving device base 9, the connecting mechanism 10 is fixed to one side of the metal chip collecting box 11, the other side of the metal chip collecting box 11 is the workpiece collecting box 12, the workpiece collecting box 12 is fixedly connected to the receiving device base 9, the workpiece collecting box 12 is provided with a slide plate, the numerical control blanking receiver 13 is installed in the workpiece collecting box 12, the connecting mechanism 10 is a triangular prism, and the connecting mechanism 10 is provided with a buckle.

The buckle of the automatic material receiving device connecting mechanism 10 is matched with the clamping groove on the base 1 of the cutter arranging machine, so that the automatic material receiving device is detachably fixed on the base of the cutter arranging machine, and the automatic material receiving device is convenient to clean and transport. The processed parts slide down to a sliding plate on the workpiece collecting box 12 through the conveyor belt 2, and the parts enter the numerical control blanking container 13 along the sliding plate for classified placement; the metal chips on the transmission belt fall into the metal chip collecting box 11 along the gap between the sliding plate and the roller 5, so that the classified collection of the metal chips and the parts is realized.

Preferably, the metal filing collecting box 11 is detachably connected with the material receiving device base 9, the material receiving device base 9 is provided with a metal filing collecting box 11 installation position, and the metal filing collecting box 11 is placed on the installation position. The metal scraps can be conveniently collected manually.

Preferably, the workpiece collecting box 12 is detachably connected with the material receiving device base 9, the material receiving device base 9 is provided with an installation position of the workpiece collecting box 12, the workpiece collecting box 12 is placed on the installation position, the workpiece collecting box 12 is provided with a sliding plate, the sliding plate is provided with an inclination angle, and the sliding plate is parallel to a tangent line of the roller 5.

Preferably, the material receiving device base 9 is provided with a cushion block, and the cushion block is a cuboid. The base is provided with the cushion and can reduce friction, makes things convenient for receiving device to remove.

As an embodiment, as shown in fig. 3, a rotary platform 7 for an automatic conveyor of a row knife machine comprises a rotary base 14, a rotary disk 15, a rotary fixing frame 16 and a triangular guide plate 17; rotary disk 15 and rotating base 14 are the circular slab, rotary disk 15 is the arc structure, rotating base 14 and 16 fixed connection of rotatory mount, rotary disk 15 is located rotating base 14 top, the center of rotary disk 15 is connected through the pivot with rotating base 14's center, triangle deflector 17 is located the top of rotary disk 15, triangle deflector 17 and 16 fixed connection of rotatory mount, rotatory mount 16 contains the fixed strip, the fixed block, motor and drive wheel, the one end of fixed strip is connected with rotary disk 15 through the pivot, the other end and the fixed block fixed connection of fixed strip, motor and drive wheel are installed inside the fixed block.

When the cutter arranging machine finishes part processing, a part falls into a blanking area of the rotating disc 15, the motor drives the driving wheel to rotate, the driving wheel drives the rotating disc 15 to rotate, the rotating disc 15 carries the part to move anticlockwise, when the part touches the triangular guide plate 17, the part moves towards the edge of the rotating disc 15 along the triangular guide plate 17 until the part falls onto the conveyor belt 2 along the edge.

Preferably, the rotating disc 15 has a high center and a low edge in an arc structure. The parts are converted into kinetic energy by the potential energy to move towards the edge of the rotating disc 15, thus effecting the transfer of the parts onto the conveyor belt 2.

Preferably, the rotating base 14, the rotating disc 15 and the fixed strip are connected through a rotating shaft, the rotating disc 15 is located between the rotating base 14 and the fixed strip, and the rotating disc 15 is rotatably connected with the rotating shaft. The rotary plate 15 is located between the rotary base 14 and the fixing bar, thereby preventing the rotary plate 15 from falling off.

Preferably, the rotary fixing frame 16 is fixedly connected with the tool changer base 1 and the rotary base 14. The rotating base 14 has a function of supporting the rotating disk 15.

Preferably, the fixed block is provided with a motor and a driving wheel in the fixed block, and the motor drives the driving wheel to rotate through a gear set.

Preferably, the triangular guide plate 17 is a triangular flat plate structure, the triangular guide plate 17 is fixedly connected with the rotary fixing frame 16, the triangular guide plate 17 is positioned above the rotary disk 15, and a gap is formed between the triangular guide plate 17 and the rotary disk 15. The triangular guide plate 17 is not in contact with the rotating disk 15, so that the triangular guide plate 17 does not influence the rotation of the rotating disk 15 and can intercept the action of parts.

As an embodiment, as shown in fig. 4, a numerical control blanking storage device 13 for an automatic receiving device of a knife arranging machine includes a directional slideway 18, a storage device base 19 and a numerical control storage platform 20, where the storage device base 19 is provided with a mounting position of the numerical control storage platform 20, the directional slideway 18 is fixedly connected with the storage device base 19, the directional slideway 18 is provided with an inclination angle, the directional slideway 18 is a rectangular plate, two sides of the directional slideway 18 are provided with part guide strips, the numerical control storage platform 20 is mounted on the mounting position of the numerical control storage platform 20 on the storage device base 19, the numerical control storage platform 20 is a rectangular conveying platform, the rectangular conveying platform is provided with a receiving conveying belt, the receiving conveying belt is provided with a plurality of part receiving grooves, and the part receiving grooves are equidistantly arranged on the receiving conveying belt.

On directional slide 18 that has inclination falls to first batch part, the part is along the guide bar landing on directional slide 18 to connect the part on the material conveyer belt to accomodate the groove, and after first batch part was collected in the groove is accomodate to the part, numerical control storage platform 20 control connects the material conveyer belt to be step-by-step motion, and empty part is accomodate the groove and is moved the material level that falls of directional slide 18, and the groove that accomodates of the part that carries with first batch part moves forward to realize that different batches of part is put into different part and is accomodate the groove.

Preferably, the directional slideway 18 is fixedly connected with two part guide strips, the first part guide strip is parallel to the edge of the directional slideway 18, and the second part guide strip forms a bending angle with the edge of the directional slideway 18.

Preferably, one end of the parts guide bar is located at the top of the orientation slide 18 and the other end of the parts guide bar is located at the bottom of the slide.

Preferably, the first part guide strip and the second part guide strip are located at one end of the bottom of the slide way to form a blanking hole, and the part accommodating groove is arranged right ahead of the blanking hole. The blanking hole faces the part accommodating groove, so that the part can accurately and unmistakably enter the part accommodating groove.

Preferably, an induction weighing device is arranged in the numerical control storage platform 20, and the induction weighing device is located below the part storage groove. When the induction weighing device measures that the weight of the part accommodating groove changes, the numerical control accommodating platform 20 controls the stepping motor to drive the material receiving conveyor belt to move in a stepping mode.

Preferably, the angle of inclination of the directional ramp 18 is between 35 ° and 50 °.

The utility model has the advantages that: the parts are automatically collected through the material receiving device, mutual collision between the high-precision parts is avoided, and the qualified rate of production quality is improved. The automatic material receiving device is provided with a buckle which is detachably connected to the base of the cutter arranging machine, so that the automatic material receiving device is convenient to clean and transport. The metal fillings on the transmission band fall into the metal fillings along the gap between slide and the gyro wheel and collect the box to realize the categorised collection of metal fillings and work piece.

All patents and publications mentioned in the specification of the invention are indicative of the state of the art to which this invention pertains and of the technology disclosed herein as being applicable. All patents and publications cited herein are hereby incorporated by reference to the same extent as if each individual publication was specifically and individually indicated to be incorporated by reference. The invention described herein may be practiced in the absence of any element or elements, limitation or limitations, which limitation is not specifically disclosed herein. For example, in each of the examples herein the terms "comprising", "consisting essentially of", and "consisting of" may be substituted for the remaining 2 terms of either. The terms and expressions which have been employed herein are used as terms of description and not of limitation, and there is no intention in the use of such terms and expressions of excluding any equivalents of the features shown and described, but it is recognized that various modifications and changes may be made within the scope of the invention and the claims which follow. It is to be understood that the embodiments described herein are preferred embodiments and features and that modifications and variations may be made by one skilled in the art in light of the teachings of the present disclosure, and are to be considered within the purview of this disclosure and scope of the invention as defined by the appended claims and the independent claims.

Claims (8)

1. The utility model provides an automatic receiving device for arranging sword machine which characterized in that includes: receiving device base, coupling mechanism, metal fillings collection box, work piece collection box and numerical control blanking storage device, metal fillings collection box fixed connection is on the receiving device base, one side that the box was collected to the metal fillings is fixed with coupling mechanism, the opposite side that the box was collected to the metal fillings is the work piece collection box, work piece collection box fixed connection is on the receiving device base, the work piece collection box is provided with the slide, install numerical control blanking storage device in the work piece collection box, coupling mechanism is the triangular prism, coupling mechanism is provided with the buckle.

2. The automatic receiving device for the gang tool machine as claimed in claim 1, wherein the metal filing collecting box is detachably connected to the receiving device base, the receiving device base is provided with a metal filing collecting box mounting position, and the metal filing collecting box is placed on the mounting position.

3. The automatic material receiving device for the gang tool machine is characterized in that the workpiece collecting box is detachably connected with the material receiving device base, the material receiving device base is provided with a workpiece collecting box installation position, the workpiece collecting box is placed on the installation position, the workpiece collecting box is provided with a sliding plate, the sliding plate is provided with an inclination angle, and the sliding plate is parallel to a tangent line of the roller.

4. The automatic receiving device for the gang tool machine as claimed in claim 1, wherein the receiving device base is provided with a cushion block, and the cushion block is a cuboid.

5. The automatic receiving device for the knife arranging machine according to claim 1, wherein the numerical control blanking receiver is provided with a directional slide way and a part receiving groove, the directional slide way is installed on the sliding plate, the part receiving groove is installed inside the workpiece collecting box, the directional slide way is a rectangular plate, and a part guide strip is installed on the directional slide way.

6. The automatic receiving device for the knife arranging machine according to claim 5, characterized in that the directional slide is fixedly connected with two part guide strips, the first part guide strip is parallel to the edge of the directional slide, and the second part guide strip forms a bending angle with the edge of the directional slide.

7. The automatic receiving device for the knife arranging machine according to claim 6, wherein a blanking hole is formed at one end of the first part guide strip and one end of the second part guide strip, which are located at the bottom of the slide way, and a part receiving groove is arranged right in front of the blanking hole.

8. The automatic receiving device for the knife arranging machine according to claim 5, wherein one end of the part guide strip is positioned at the top of the directional slide way, and the other end of the part guide strip is positioned at the bottom of the slide way.

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