CN113307029A - Inner bag feeding transmission line - Google Patents

Abstract

The application relates to an inner bag feeding transmission line which at least comprises a sorting mechanism, a transferring mechanism and a material taking mechanism, wherein the sorting mechanism is connected to one end of the transferring mechanism, and the material taking mechanism is connected to the other end of the transferring mechanism; the material sorting mechanism sorts materials, and the material taking mechanism carries out feeding through the transfer mechanism. The beneficial effects are that: realize automatic material loading, effectively improve medical product's assembly efficiency.

Description

Inner bag feeding transmission line

Technical Field

The application relates to the technical field of medical product processing, in particular to an inner bag feeding transmission line.

Background

With the continuous development of industrial automation, more and more fields try to replace the traditional manual operation by automatic equipment. In the field of medical product production, processing in each link is usually carried out manually; especially, in the whole feeding process, a large amount of manpower investment is needed. Particularly, with the development of industrial automation, the yield of parts is larger and larger, the detection work of the parts is heavier and heavier, and the labor cost is higher and higher.

Content of application

For solving prior art, carry out the problem of medical product assembly through manpower processing, this application embodiment provides an inner bag material loading transmission line to promote production efficiency.

An inner bag feeding transmission line at least comprises a sorting mechanism, a transferring mechanism and a material taking mechanism, wherein the sorting mechanism is connected to one end of the transferring mechanism, and the material taking mechanism is connected to the other end of the transferring mechanism; the material sorting mechanism sorts materials, and the material taking mechanism carries out feeding through the transfer mechanism.

Optionally, the sorting mechanism comprises a hopper, a first conveying assembly, a second conveying assembly and a visual grabbing assembly, wherein the hopper is arranged at one end of the first conveying assembly, and the second conveying assembly is arranged at one side of the first conveying assembly; the visual grabbing component is arranged above the first transmission component and/or the second transmission component; the visual grabbing component identifies and grabs the materials arranged on the first conveying component and moves the materials into the placing groove of the second conveying component.

Optionally, the visual grasping assembly comprises a visual identification assembly and a machine grasping assembly which are adjacently arranged,

the visual identification assembly comprises a first support, a collection box and a camera assembly, the first support is arranged on two sides of the first transmission assembly, the collection box is fixed on the first support, and the camera assembly is arranged in the collection box and used for collecting the material position of the first transmission assembly;

the robot grabbing component comprises a second support, a parallel robot and a sucker component, the second support is arranged on the first transmission component and the second transmission component, the parallel robot is fixed on the second support, and the sucker component is arranged on the parallel robot; the sucking disc assembly comprises a fixing frame and two sucking discs arranged at two ends of the fixing frame respectively, and the upper ends of the sucking discs are connected with an air pipe.

Optionally, the first transmission assembly and the second transmission assembly each include a first transmission support, a first driving motor, a first rotating shaft, and a first belt, the two first rotating shafts are respectively disposed at the upper end of the first transmission support, the first belt is sleeved on the two first rotating shafts, and the first driving motor is connected with any one of the first rotating shafts and drives the first rotating shaft to rotate; wherein, the placing groove of the second transmission assembly is arranged on the first belt of the second transmission assembly.

Optionally, the transfer mechanism comprises a third conveying assembly and a material arranging assembly; one end of the third transmission assembly is connected with the second transmission assembly, and the material arranging assembly is connected and arranged on one side of the third transmission assembly.

Optionally, the third transmission assembly includes a second transmission bracket, a second driving motor, a second rotating shaft, a second belt and at least one slot assembly,

the two second rotating shafts are respectively arranged at the upper ends of the second transmission supports, the second belt is sleeved on the two second rotating shafts, and the second driving motor is connected with any one of the second rotating shafts and drives the second rotating shafts to rotate;

the slot assembly at least comprises a carrier and a plugboard fixed on the carrier; the carrier is fixed on the second belt, and the lower end of each inserting plate is fixed on one side of the carrier and encloses with the adjacent inserting plate to form a slot for inserting the inner bag.

Optionally, the slot assembly is rotated cyclically on the third transmission assembly by the second belt; when the slot assembly is arranged at the material taking end of the second transmission assembly, the slot of the slot assembly is arranged opposite to the placing groove which is moved to the second transmission assembly, and the material is inserted into the slot under the pressure of the guide plate which is arranged on the second transmission assembly.

Optionally, the material arranging assembly comprises a material arranging platform and at least one stacking assembly arranged on the material arranging platform;

the material sorting platform is characterized in that a material sorting channel and a material taking position connected with the material discharging end of the material sorting channel are arranged on the upper surface of the material sorting platform, the material feeding end of the material sorting channel is connected with the third transmission assembly, and the material taking position is adjacent to the material taking mechanism;

the stacking assembly comprises a stacking support, a first traversing assembly, a fixing plate, a stacking cylinder, a pressing plate and a pushing plate, the stacking support is arranged on the material arranging platform, the first traversing assembly is fixed at the upper end of the stacking support, and the fixing plate is arranged on the first traversing assembly and moves transversely along the first traversing assembly; at least one pile up the cylinder and fix on the fixed plate, the push pedal is in along vertical direction connection setting pile up the cylinder lower extreme, the clamp plate sets up along the horizontal direction pile up the cylinder lower extreme.

Optionally, the clamp plate the push pedal setting is in third transmission component or reason material passageway or get the material position top, the clamp plate will set up third transmission component pressfitting, through the push pedal is followed the material is transported to and is got the material level in reason material passageway.

Optionally, the material taking mechanism comprises a material taking bracket, a second traverse component, a lifting component and a material taking component;

the material taking support is adjacently arranged at one end of the material arranging platform along the material taking position, the second transverse moving assembly is arranged at the upper end of the material taking support, and the lifting assembly is arranged on the second transverse moving assembly; get the material subassembly and set up the lifting unit lower extreme, just get the material subassembly and keep away from or stretch into get the material level setting.

The material taking assembly at least comprises a bottom plate, a supporting plate, a clamping plate, a supporting plate cylinder and a clamping plate cylinder; the bottom plate is connected with the lifting assembly, the supporting plate air cylinder and the clamping plate air cylinder are arranged on the upper surface of the bottom plate, the two supporting plates are oppositely arranged on two sides of the bottom plate and are connected with the supporting plate air cylinder, the clamping plates are arranged on the other two sides of the bottom plate and are adjacent to the supporting plates, and the clamping plates are connected with the clamping plate air cylinder; the supporting plate, the clamping plate and the material taking position are arranged in a matched mode.

The embodiment of the application discloses inner bag loading attachment based on visual detection. The beneficial effects are that: this application is through sorting mechanism with the neat orderly removal of material to the transport mechanism in, the transport mechanism is through piling up the arrangement with the material of a certain quantity, removes to get the material in the extracting mechanism. Realize automatic material loading, effectively improve medical product's assembly efficiency.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a transmission line provided in an embodiment of the present application.

Fig. 2 is a partial schematic view 1 of a sorting mechanism provided in an embodiment of the present application.

Fig. 3 is a partial schematic view 2 of a sorting mechanism provided in an embodiment of the present application.

Fig. 4 is a partial schematic view 1 of a transfer mechanism provided in an embodiment of the present application.

Fig. 5 is a partial schematic view 2 of a transfer mechanism provided in an embodiment of the present application.

Fig. 6 is a partial schematic view 3 of a transfer mechanism provided in an embodiment of the present application.

Fig. 7 is a schematic view of a material taking mechanism provided in an embodiment of the present application.

Detailed Description

Referring to the drawings, wherein like reference numbers refer to like elements, the principles of the present application are illustrated as being implemented in a suitable computing environment. The following description is based on illustrated embodiments of the application and should not be taken as limiting the application with respect to other embodiments that are not detailed herein.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

Referring to fig. 1 to 7, the embodiment of the present application provides an inner bag feeding transmission line, the transmission line at least includes a sorting mechanism 100, a transferring mechanism 200, and a material taking mechanism 300, the sorting mechanism 100 is connected to one end of the transferring mechanism 200, and the material taking mechanism 300 is connected to the other end of the transferring mechanism 200; the material 500 sorted by the sorting mechanism 100 is conveyed to the material taking mechanism 300 by the transfer mechanism 200 for loading. In this embodiment, this application is through sorting mechanism 100 with material 500 in the orderly removal to transport mechanism 200, transport mechanism 200 is through piling up the arrangement with material 500 of a certain quantity, removes to get in the extracting mechanism 300 and expects. Realize automatic material loading, effectively improve medical product's assembly efficiency.

In some embodiments, sorting mechanism 100 comprises a hopper 5, a first transport assembly 1, a second transport assembly 2, a visual grasping assembly, wherein hopper 5 is disposed at one end of first transport assembly 1, and second transport assembly 2 is disposed at one side of first transport assembly 1; the visual grabbing component is arranged above the first transmission component 1 and/or the second transmission component 2; the visual grasping assembly recognizes and grasps the material 500 disposed at the first transferring assembly 1 and moves into the placing groove 21 of the second transferring assembly 2. In this embodiment, hopper 5 can be provided with the belt and rotate the material 500 with hopper 5 through the belt and move to first transmission assembly 1 on, the material 500 that sets up at first transmission assembly 1 snatchs the subassembly through the vision and discern and evenly grab respectively to get second transmission assembly 2 to the inner bag, realizes automatic material loading, effectively improves medical product's assembly efficiency. Wherein the first transfer unit 1 is not provided with one end of the hopper 5 or the placing frame 400 is provided with the material 500 which is not grabbed by the visual grabbing unit.

In some embodiments, the visual grasping assembly comprises a visual identification assembly 3 and a machine grasping assembly 4 which are adjacently arranged, the visual identification assembly 3 comprises a first bracket 31, a collecting box 32 and a camera assembly 33, the bracket 31 is arranged at two sides of the first transmission assembly 1, the collecting box 32 is arranged on the first bracket 31, and the camera assembly 33 is arranged in the collecting box 32 and is used for collecting the material 500 position of the first transmission assembly 1; in the embodiment, the collection box 32 is arranged with a downward opening, and the camera assembly 33 obtains 500 pictures of the material conveyed by the first conveying assembly 1 through the collection box; the camera assembly 33 can be arranged in the middle of the collection box 32 and fixed at the upper end of the collection box 32 through a multi-axis fixing support; the camera assembly 33 is connected with an external processing terminal through a communication line, and the camera assembly 33 acquires images of the material 500 passing through a visual acquisition area of the first transmission assembly 1; and transmits the image to the processing terminal. The processing terminal is provided with an image processing program, determines the center and the direction of the material 500 by detecting four corner points of the material 500, and sends a corresponding instruction to the machine grabbing component 4 for processing.

The machine grabbing component 4 comprises a second bracket 41, a parallel robot 42 and a sucker component 43, the second bracket 41 is arranged on the first transmission component 1 and the second transmission component 2, the parallel robot 42 is fixed on the second bracket 41, and the sucker component 43 is arranged on the parallel robot 42; wherein, the sucking disc subassembly 43 includes the mount, sets up two sucking discs at the mount both ends separately, and the sucking disc upper end is connected with the trachea. In this embodiment, parallel robot is connected with processing terminal, acquires the displacement instruction and makes the sucking disc subassembly move to the material top through adjusting the multiaxis position to absorb the material through sucking disc suction, then move the material to the second transport mechanism on. Wherein, the subassembly 4 is grabbed with the vision to the machine snatchs the subassembly adjacent setting, and the machine snatchs the subassembly 4 and snatchs the subassembly rear at the vision along material moving direction setting.

In some embodiments, each of the first transmission assembly 1 and the second transmission assembly 2 includes a first transmission bracket, a first driving motor, first rotating shafts, and a first belt, the two first rotating shafts are respectively disposed at the upper ends of the first transmission bracket, the first belt is sleeved on the two first rotating shafts, and the first driving motor is connected with any one of the first rotating shafts and drives the first rotating shaft to rotate; wherein the placement groove 21 of the second transferring unit 2 is arranged on the first belt of the second transferring unit 2. In this embodiment, the first transmission assembly 1 of this application makes first belt rotate through the drive of first driving motor, moves the material from hopper 5 to the vision snatchs the subassembly below. The first conveying assembly 1 is driven by a first driving motor to enable a first belt to rotate, and the materials are moved to the transfer mechanism 200 from one end adjacent to the first conveying assembly 1.

In some embodiments, the transfer mechanism 200 includes a third transport assembly 6, a material handling assembly; one end of the third transmission component 6 is connected with the second transmission component 2, and the material arranging component is connected and arranged on one side of the third transmission component 6. In an implementation manner of the above embodiment, the third transmission assembly 6 includes a second transmission bracket 61, a second driving motor 62, a second rotating shaft 63, a second belt 64 and at least one slot assembly 65, the two second rotating shafts 63 are respectively disposed at the upper end of the second transmission bracket 61, the second belt 64 is sleeved on the two second rotating shafts 63, and the second driving motor 62 is connected with any one of the second rotating shafts 63 and drives the second rotating shaft 63 to rotate; the socket assembly 65 at least comprises a carrier and a plug board fixed on the carrier; the carrier is fixed on the second belt 64, and the lower end of the insert plate is fixed on one side of the carrier and forms a slot for inserting the inner bag with the adjacent insert plate.

In this embodiment, the slot assembly 65 is used for receiving the material from the second conveying assembly 2 and moving the material to the material handling assembly through the second belt 64 for handling the material, and the slot assembly 65 rotates on the third conveying assembly 6 circularly through the second belt 64; when slot subassembly 65 sets up the material end of getting at second transmission assembly 2, slot subassembly 65's slot sets up with removing the standing groove 21 on second transmission assembly 2 relatively, and the material is under the deflector 22 pressure of locating second transmission assembly 2, inserts and establish in the slot, wherein, can be provided with a material in every slot, and third transmission assembly 6 is through moving the slot subassembly 65 that will be equipped with the material to reason material passageway pan feeding end, piles up the transportation through reason material subassembly.

In one embodiment of the above implementation, the material arranging assembly includes a material arranging platform 71, at least one stacking assembly disposed on the material arranging platform 71; the upper surface of the material arranging platform 71 is provided with a material arranging channel 72 and a material taking position 73 connected with the discharging end of the material arranging channel 72, the feeding end of the material arranging channel 72 is connected with the third transmission assembly 6, and the material taking position 73 is arranged adjacent to the material taking mechanism 300; the stacking assembly comprises a stacking support 74, a first traverse assembly 75, a fixing plate 76, a stacking cylinder 77, a pressing plate 79 and a pushing plate 78, wherein the stacking support 74 is arranged on the material arranging platform 71, the first traverse assembly 75 is fixed at the upper end of the stacking support 74, and the fixing plate 76 is arranged on the first traverse assembly 75 and moves transversely along the first traverse assembly 75; at least one stacking cylinder 77 is fixed on the fixing plate 76, a push plate 78 is connected to the lower end of the stacking cylinder 77 in the vertical direction, and a press plate 79 is arranged at the lower end of the stacking cylinder 77 in the horizontal direction. In this embodiment, the first traverse unit 75 includes a traverse carriage, a traverse table, and a traverse motor, which are fixed to the upper end of the stacking rack 74, and the traverse table is slidably connected to the traverse carriage and is driven by the traverse carriage to move laterally. The pressing plate 79 and the pushing plate 78 are arranged above the third conveying assembly 6 or the material arranging channel 72 or the material taking position 73, the pressing plate 79 is arranged on the third conveying assembly 6 to be pressed, and the materials are transferred to the material taking position 73 along the material arranging channel 72 through the pushing plate 78.

In some embodiments, the take-off mechanism 300 includes a take-off rack 81, a second traverse assembly 82, a lift assembly 83, and a take-off assembly 84; the material taking bracket 81 is arranged at one end of the material arranging platform 71 adjacently along the material taking position, the second traversing component 82 is arranged at the upper end of the material taking bracket 81, and the lifting component 83 is arranged on the second traversing component 82; the take-off assembly 84 is disposed at a lower end of the lift assembly 83, and the take-off assembly 84 is disposed away from or extends into the take-off location 73. Wherein, the material taking assembly 84 at least comprises a bottom plate 85, a supporting plate 86, a clamping plate 87, a supporting plate cylinder and a clamping plate cylinder; the bottom plate 85 is connected with the lifting assembly 83, the supporting plate air cylinder and the clamping plate air cylinder are arranged on the upper surface of the bottom plate 85, the two supporting plates 86 are oppositely arranged on two sides of the bottom plate 85 and are connected with the supporting plate air cylinder, the clamping plates 87 are arranged on the other two sides of the bottom plate 85 and are adjacent to the supporting plates, and the clamping plates 87 are connected with the clamping plate air cylinder; the supporting plate 86 and the clamping plate 87 are matched with the material taking position 73. In the present embodiment, the pallet 86 is clamped or opened by the pallet cylinder, and the clamp plate 87 is clamped or opened by the clamp plate cylinder. The supporting plate 86 and the clamping plate 87 are matched with the material taking position 73. When material is taken, the material taking mechanism extends into the material taking position 73, the supporting plate cylinder works, the clamping plate cylinder works, the two supporting plates are opened, and the two clamping plates are opened; the splint stretch into along getting the silo and get material level 73, afterwards, layer board cylinder, splint cylinder reset rapidly, and the centre gripping is at a plurality of materials four sides respectively, through lifting unit 83, second sideslip subassembly 82, moves next station.

The use of the terms "a" and "an" and "the" and similar referents in the context of describing the concepts of the application (especially in the context of the following claims) are to be construed to cover both the singular and the plural. Moreover, unless otherwise indicated herein, recitation of ranges of values herein is merely intended to serve as a shorthand method of referring individually to each separate value falling within the range, unless otherwise indicated herein, and each separate value is incorporated into the specification as if it were individually recited herein. In addition, the steps of all methods described herein can be performed in any suitable order unless otherwise indicated herein or otherwise clearly contradicted by context. The variations of the present application are not limited to the described order of the steps. The use of any and all examples, or exemplary language (e.g., "such as") provided herein, is intended merely to better illuminate the concepts of the application and does not pose a limitation on the scope of the concepts of the application unless otherwise claimed. Various modifications and adaptations will be apparent to those skilled in the art without departing from the spirit and scope.

The electronic device control method, apparatus, storage medium, and electronic device provided in the embodiments of the present application are described in detail above, and a specific example is applied in the present application to explain the principle and the implementation of the present application, and the description of the above embodiments is only used to help understand the method and the core idea of the present application; meanwhile, for those skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (10)

1. The inner bag feeding transmission line is characterized by at least comprising a sorting mechanism, a transferring mechanism and a material taking mechanism, wherein the sorting mechanism is connected to one end of the transferring mechanism, and the material taking mechanism is connected to the other end of the transferring mechanism; the material sorting mechanism sorts materials, and the material taking mechanism carries out feeding through the transfer mechanism.

2. The inner bag feeding transmission line according to claim 1, wherein the sorting mechanism comprises a hopper, a first transmission assembly, a second transmission assembly and a visual grasping assembly, the hopper is arranged at one end of the first transmission assembly, and the second transmission assembly is arranged at one side of the first transmission assembly; the visual grabbing component is arranged above the first transmission component and/or the second transmission component; the visual grabbing component identifies and grabs the materials arranged on the first conveying component and moves the materials into the placing groove of the second conveying component.

3. The inner bag feeding transmission line according to claim 2, wherein the visual grasping assembly comprises a visual identification assembly and a machine grasping assembly which are adjacently arranged,

the visual identification assembly comprises a first support, a collection box and a camera assembly, the first support is arranged on two sides of the first transmission assembly, the collection box is fixed on the first support, and the camera assembly is arranged in the collection box and used for collecting the material position of the first transmission assembly;

the robot grabbing component comprises a second support, a parallel robot and a sucker component, the second support is arranged on the first transmission component and the second transmission component, the parallel robot is fixed on the second support, and the sucker component is arranged on the parallel robot; the sucking disc assembly comprises a fixing frame and two sucking discs arranged at two ends of the fixing frame respectively, and the upper ends of the sucking discs are connected with an air pipe.

4. The inner bag feeding transmission line according to claim 2, wherein each of the first transmission assembly and the second transmission assembly comprises a first transmission bracket, a first driving motor, first rotating shafts and a first belt, the two first rotating shafts are respectively arranged at the upper end of the first transmission bracket, the first belt is sleeved on the two first rotating shafts, and the first driving motor is connected with any one of the first rotating shafts and drives the first rotating shaft to rotate; wherein, the placing groove of the second transmission assembly is arranged on the first belt of the second transmission assembly.

5. The inner bag feeding conveying line according to claim 2, wherein the transfer mechanism comprises a third conveying assembly and a material arranging assembly; one end of the third transmission assembly is connected with the second transmission assembly, and the material arranging assembly is connected and arranged on one side of the third transmission assembly.

6. The inner bag feeding transmission line according to claim 5, wherein the third transmission assembly comprises a second transmission bracket, a second driving motor, a second rotating shaft, a second belt and at least one slot assembly,

the two second rotating shafts are respectively arranged at the upper ends of the second transmission supports, the second belt is sleeved on the two second rotating shafts, and the second driving motor is connected with any one of the second rotating shafts and drives the second rotating shafts to rotate;

the slot assembly at least comprises a carrier and a plugboard fixed on the carrier; the carrier is fixed on the second belt, and the lower end of each inserting plate is fixed on one side of the carrier and encloses with the adjacent inserting plate to form a slot for inserting the inner bag.

7. The bag-in-bag feeding line of claim 6, wherein the slot assembly is rotated cyclically on the third conveying assembly by the second belt; when the slot assembly is arranged at the material taking end of the second transmission assembly, the slot of the slot assembly is arranged opposite to the placing groove which is moved to the second transmission assembly, and the material is inserted into the slot under the pressure of the guide plate which is arranged on the second transmission assembly.

8. The inner bag feeding transmission line according to claim 6, wherein the material arranging assembly comprises a material arranging platform, at least one stacking assembly arranged on the material arranging platform;

the material sorting platform is characterized in that a material sorting channel and a material taking position connected with the material discharging end of the material sorting channel are arranged on the upper surface of the material sorting platform, the material feeding end of the material sorting channel is connected with the third transmission assembly, and the material taking position is adjacent to the material taking mechanism;

the stacking assembly comprises a stacking support, a first traversing assembly, a fixing plate, a stacking cylinder, a pressing plate and a pushing plate, the stacking support is arranged on the material arranging platform, the first traversing assembly is fixed at the upper end of the stacking support, and the fixing plate is arranged on the first traversing assembly and moves transversely along the first traversing assembly; at least one pile up the cylinder and fix on the fixed plate, the push pedal is in along vertical direction connection setting pile up the cylinder lower extreme, the clamp plate sets up along the horizontal direction pile up the cylinder lower extreme.

9. The inner bag feeding transmission line of claim 8, wherein the pressing plate and the pushing plate are arranged above the third transmission assembly or the material arranging channel or the material taking position, the pressing plate is arranged on the third transmission assembly in a pressing mode, and materials are transported to the material taking position along the material arranging channel through the pushing plate.

10. The inner bag feeding conveying line as claimed in claim 8, wherein the material taking mechanism comprises a material taking bracket, a second traverse moving assembly, a lifting assembly and a material taking assembly;

the material taking support is adjacently arranged at one end of the material arranging platform along the material taking position, the second transverse moving assembly is arranged at the upper end of the material taking support, and the lifting assembly is arranged on the second transverse moving assembly; the material taking assembly is arranged at the lower end of the lifting assembly, and the material taking assembly is far away from or extends into the material taking position;

the material taking assembly at least comprises a bottom plate, a supporting plate, a clamping plate, a supporting plate cylinder and a clamping plate cylinder; the bottom plate is connected with the lifting assembly, the supporting plate air cylinder and the clamping plate air cylinder are arranged on the upper surface of the bottom plate, the two supporting plates are oppositely arranged on two sides of the bottom plate and are connected with the supporting plate air cylinder, the clamping plates are arranged on the other two sides of the bottom plate and are adjacent to the supporting plates, and the clamping plates are connected with the clamping plate air cylinder; the supporting plate, the clamping plate and the material taking position are arranged in a matched mode.

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