CN212634905U - Slicer equipment that can accurate feeding - Google Patents

Abstract

The invention relates to slicer assembling equipment capable of accurately feeding, which comprises a conveying groove seat, wherein a conveying groove is formed in the center of a bottom plate of the conveying groove seat, a feeding device is matched with the conveying groove, conveying balls are embedded in the inner sides of front and rear side plates of the conveying groove seat, the slicer seat in the conveying groove seat is in tangent fit with the conveying balls on the front and rear sides, an installation block assembling device, a slicing frame assembling device and an installation block pressing device are sequentially arranged on the conveying groove seat along the conveying direction, the feeding device comprises a support below the conveying groove seat, a feeding screw rod and a feeding motor which are matched with each other are arranged on the support, a feeding movable block is matched with the feeding screw rod, a feeding seat is arranged on the feeding movable block, a feeding lifting cylinder is arranged on the feeding seat, the feeding lifting cylinder is connected with a feeding lifting seat capable of penetrating through the conveying groove, feeding blocks matched with the slicer seat are uniformly arranged on the feeding lifting seat, a feeding inductor is arranged on one side of the feeding block matched with the slicer seat.

Description

Slicer equipment that can accurate feeding

Technical Field

The invention relates to the field of assembling equipment, in particular to slicer assembling equipment capable of feeding accurately.

Background

The slicer is a slicing tool, as shown in figure 1, the slicer is a common slicer and is mainly used for cooked eggs, radishes and the like, and comprises a slicer seat 1, wherein a material placing arc block 2 is arranged on the slicer seat 1, a mounting groove 9 is also formed in the slicer seat 1, a mounting block 4 is mounted in the mounting groove 9, a clamping arc block 5 is fixedly connected with the mounting block 4, the clamping arc block and a rotating shaft 6 of a slicing frame 7 form a rotating structure, slicing openings corresponding to the positions of the material placing arc block 2 and the clamping arc block 5 are formed in the material placing arc block 2, a slicing steel wire 8 matched with the slicing opening 3 is arranged on the slicing frame 7, when slicing is needed, the slicing steel wire 8 slices materials on the material placing arc block 2 by downwards rotating the slicing frame, the slicer seat 1 and the material placing arc block 2 are integrally formed, the mounting block and the clamping arc block 5 are also integrally formed, the slicing frame 7 and the rotating shaft 6 are also fixedly connected, and be equipped with the cutting steel wire, when assembling, need carry out the substep equipment, at first realize the preliminary assembly of installation piece and screens arc piece 5, then dock pivot and section frame 7's sub-assembly and screens arc piece 5 again, later continue to push down screens arc piece 5 and installation piece again, realize the equipment of whole section ware, under this condition, need use the feeding device, it realizes accurate feeding to ensure section ware seat 1, consequently, need to design a section ware integration equipment that can accurately realize section ware seat 1 and feed.

Disclosure of Invention

The invention aims to provide slicer assembling equipment capable of accurately feeding, which can accurately feed a slicer seat through a feeding device, further realize integrated slicer assembly and improve the assembly precision and the assembly efficiency.

In order to achieve the above purpose, the invention adopts the technical scheme that: a slicer assembling device capable of accurately feeding comprises a conveying groove seat consisting of a front side plate, a rear side plate and a bottom plate, wherein a conveying groove is formed in the center of the bottom plate of the conveying groove seat, the conveying groove is matched with a feeding device capable of enabling the slicer seat in the conveying groove seat to move, conveying balls are embedded in the inner sides of the front side plate and the rear side plate of the conveying groove seat, the slicer seat in the conveying groove seat is matched with the conveying balls on the front side and the rear side in a tangent mode, an installation block assembling device, a slicer frame assembling device and an installation block pressing device are sequentially arranged on the conveying groove seat along the conveying direction, the feeding device comprises a support below the conveying groove seat, a feeding screw rod and a feeding motor which are matched with each other are arranged on the support, a feeding movable block is matched with the feeding screw rod, a feeding seat is arranged on the feeding movable block, a feeding lifting cylinder is arranged on the feeding seat, the feeding lifting cylinder is connected with a feeding lifting seat capable of penetrating through the conveying groove, feeding blocks matched with the slicer seat are uniformly arranged on the feeding lifting seat, and a feeding inductor is arranged on one side of the feeding blocks matched with the slicer seat.

Preferably, section frame assembly quality around setting up on the curb plate around the delivery chute seat the tight cylinder in section frame top of trend, section frame top tight cylinder be connected with and realize the tight block in section frame top that the block was tight in section frame top, the tight block in section frame top upper portion be provided with the leading-in oblique block that compresses tightly of section frame of slope outwards, the leading-in oblique block cooperation that compresses tightly of section frame have the section frame to put into the manipulator.

Preferably, a sealing base plate is embedded in a part, matched with the slicing frame assembling device, of the feeding lifting seat, a sealing opening is formed in a part, matched with the slicing frame seat, of the sealing base plate, an air channel communicated with the sealing opening is formed in the feeding lifting seat, and the air channel is communicated with an air pump arranged below the feeding lifting seat.

Preferably, the slice frame guide-in compression inclined block is not connected with the slice frame jacking block, a slice frame compression cylinder which moves forward and backward and is matched with the slice frame guide-in compression inclined block is arranged on the front side plate and the rear side plate of the conveying groove seat, and the height of the slice frame jacking block is consistent with that of the slice frame.

Preferably, the mounting block assembling device comprises an assembling movable device capable of moving back and forth and up and down, an assembling clamping device is connected below the assembling movable device, after the assembly clamping device clamps the installation block, the lower bottom surface of the assembly clamping block of the assembly clamping device is higher than the lower bottom surface of the installation block, the assembly movable device comprises an assembly vertical plate arranged on the conveying groove seat and an assembly transverse plate arranged on the assembly vertical plate, an assembling material taking cylinder which moves forwards and backwards and penetrates through the assembling vertical plate is arranged below the transverse plate, the assembling material taking cylinder is connected with an assembling material taking seat, an assembly lifting cylinder is arranged below the assembly material taking seat and is connected with an assembly lifting block, the assembling and clamping device is arranged below the assembling lifting block, and the assembling limiting block used for intercepting the assembling material taking seat and aligning the installing block clamped on the assembling and clamping device with the installing groove is arranged below the assembling transverse plate.

Preferably, the assembly vertical plate is provided with an assembly material taking guide sleeve which is in the same direction as the assembly material taking air cylinder, and the rear side of the assembly material taking seat is provided with an assembly material taking guide rod capable of penetrating through the assembly material taking guide sleeve.

Preferably, the middle part of the assembly lifting block is provided with a cylinder groove, the assembly clamping device comprises an assembly clamping cylinder arranged in the cylinder groove, two ends of the assembly clamping cylinder penetrate out of the assembly lifting block and are connected with the assembly clamping block, the upper part of the assembly lifting block is connected with an assembly opening and closing cover through a bolt, and the assembly lifting cylinder is connected with the assembly opening and closing cover.

Preferably, the conveying groove seat is located at the conveying starting end of the mounting block assembly device and is further provided with a mounting groove detection device, the mounting groove detection device comprises a detection frame arranged on the conveying groove seat, a touch sensing screen is connected to the lower portion of the detection frame through a detection spring, a detection lifting cylinder with a vertical trend is arranged below the detection frame, a cylinder head of the detection lifting cylinder is matched with a detection lifting sleeve inserting sleeve arranged on the upper surface of the touch sensing screen, a part of the touch sensing screen, which is in contact with an object, can generate a sensing signal and form a picture to be sent to a picture comparison module, and the picture comparison module is used for comparing and detecting whether the position and size of the mounting groove are accurate or not.

Preferably, the mounting block pressing device comprises a mounting block pressing frame arranged on the conveying groove seat, a mounting block pressing cylinder is connected below the mounting block pressing cylinder, the front end and the rear end of the mounting block pressing block exceed the front end and the rear end of the mounting block, a mounting block pressing limiting rod is arranged below the exceeding part, and the lower end of the mounting block pressing limiting rod is connected with an elastically deformable mounting block pressing limiting block.

Preferably, the lower part of the mounting block pressing frame is provided with a mounting block pressing guide cylinder, and the mounting block pressing block is provided with a mounting block pressing guide rod matched with the mounting block pressing guide cylinder.

Drawings

FIG. 1 is a schematic structural view of a slicer;

FIG. 2 is a top view of a slicer assembly apparatus capable of precision feed;

FIG. 3 is a schematic view of the feed apparatus;

FIG. 4 is a schematic structural view of a gasket portion;

FIG. 5 is a schematic structural diagram of a conveying trough detection device;

FIG. 6 is a schematic structural view of the mounting block assembly apparatus;

FIG. 7 is a top view of the slicer frame assembly apparatus;

FIG. 8 is a single side sectional view of the slicer frame assembly apparatus;

fig. 9 is a schematic structural view of the mounting block pressing device.

The text labels shown in the figures are represented as: 1. a slicer seat; 2. discharging arc blocks; 3. slicing openings; 4. mounting blocks; 5. a clamping arc block; 6. a rotating shaft; 7. a slicing frame; 8. slicing a steel wire; 9. mounting grooves; 11. a conveying trough seat; 12. conveying the balls; 13. a conveying trough; 14. a feed device; 15. a mounting groove detection device; 16. a mounting block assembly device; 17. a slice frame assembly device; 18. mounting a block pressing device; 21. a detection frame; 22. detecting a spring; 23. a touch-sensitive screen; 24. detecting a lifting sleeve; 25. detecting a lifting cylinder; 31. assembling a vertical plate; 32. assembling a transverse plate; 33. assembling a material taking cylinder; 34. assembling a material taking seat; 35. assembling a limiting block; 36. assembling a lifting cylinder; 37. assembling a lifting block; 38. assembling a clamping cylinder; 39. assembling a clamping block; 40. assembling an opening and closing cover; 41. assembling a material taking guide rod; 42. assembling a material taking guide sleeve; 51. the slicing frame tightly pushes the cylinder; 52. a slice frame jacking block; 53. the slicing frame compresses the cylinder; 54. leading the slice frame into a compaction inclined block; 56. mounting a block pressing frame; 57. the mounting block compresses the air cylinder; 58. installing a block pressing block; 59. the mounting block compresses the guide cylinder; 60. the mounting block compresses the guide rod; 61. the mounting block compresses the limiting rod; 62. the mounting block compresses the limiting arc block; 64. a feed-in seat; 65. feeding a lifting cylinder; 66. a feed lifting seat; 67. a feed block; 68. a feed sensor; 69. sealing the base plate; 70. sealing the opening; 71. an air duct; 72. an air pump; 73. a support; 74. a feed screw rod; 75. and feeding the movable block.

Detailed Description

The following detailed description of the present invention is given for the purpose of better understanding technical solutions of the present invention by those skilled in the art, and the present description is only exemplary and explanatory and should not be construed as limiting the scope of the present invention in any way.

As shown in fig. 1 to 3, the specific structure of the present invention is: a slicer assembling device capable of accurately feeding comprises a conveying groove seat 11 consisting of a front side plate, a rear side plate and a bottom plate, a conveying groove 13 is formed in the center of the bottom plate of the conveying groove seat 11, the conveying groove 13 is matched with a feeding device 14 capable of enabling a slicer seat 1 in the conveying groove seat 11 to move, conveying balls 12 are embedded in the inner sides of the front side plate and the rear side plate of the conveying groove seat 11, the slicer seat 1 in the conveying groove seat 11 and the conveying balls 12 on the front side and the rear side are matched in a tangent mode, an installation block assembling device 16, a slicer frame assembling device 17 and an installation block pressing device 18 are sequentially arranged on the conveying groove seat 11 along the conveying direction, the feeding device 14 comprises a support 73 below the conveying groove seat 11, a feeding screw rod 74 and a feeding motor which are matched with each other are arranged on the support 73, the feeding screw rod 74 is matched with a feeding movable block 75, the feeding movable block 75 is provided with a feeding seat 64, the feeding seat 64 is provided with a feeding lifting cylinder 65, the feeding lifting cylinder 65 is connected with a feeding lifting seat 66 capable of penetrating through the conveying groove 13, the feeding lifting seat 66 is uniformly provided with feeding blocks 67 matched with the slicer seat 1, and one side of the feeding block 67 matched with the slicer seat 1 is provided with a feeding inductor 68.

The specific operation is as follows: firstly, the slicer seat 1 is placed in the conveying groove seat 11, then the feeding lifting cylinder 65 drives the feeding lifting seat 66 to ascend, so that the feeding block 67 penetrates out of the feeding groove 13, then the feeding motor drives the feeding lead screw 74 to rotate, so that the feeding movable block 75 is driven to move, the feeding seat 64 and all parts on the feeding seat are driven to feed together, the feeding block 67 drives the slicer seat 1 in the conveying groove seat 11 to move below the mounting block assembling device 16, then the feeding lifting cylinder is restored to the original position, then the feeding motor is reversed, the feeding movable block is driven to restore to the original position, and the accurate feeding of the slicer seat in the conveying groove seat 11 can be realized only by controlling the feeding position and the initial position of the feeding movable block; for the slicer seat fed to the mounting block assembling station, the mounting block is inserted through the mounting block assembling device, then the slicer seat 1 is driven by the feeding device 14 to continuously move to the position below the assembling frame mounting device 17 to assemble the assembling frame, then the slicer seat 1 is driven by the feeding device 14 to continuously feed to the position below the mounting block pressing device 18, the mounting block 4 is completely pressed into the mounting groove 9 through the mounting block pressing device 18, the step-by-step continuous assembly of the slicer seat is realized, and accurate feeding is ensured through the specific structural design of the feeding device.

As shown in fig. 7-8, the slice frame assembling device 17 includes a slice frame jacking cylinder 51 disposed on the front and rear side plates of the conveying chute seat 11, the slice frame jacking cylinder 51 is connected with a slice frame jacking block 52 capable of realizing jacking of the slice frame 7, the upper portion of the slice frame jacking block 52 is provided with a slice frame lead-in compression inclined block 54 inclined upwards, and the slice frame lead-in compression inclined block 54 is matched with a slice frame placing manipulator.

When the slicer seat 1 moves below the slicer frame assembling device under the action of the feeding device 14, the slicer frame is placed between the two slicer frame guide-in pressing inclined blocks 54 through the slicer frame placing mechanical arm, and then enters between the two slicer frame jacking blocks 52 along with the action of gravity, then the slicer frame jacking cylinder 51 drives the slicer frame jacking block 52 to tightly press the slicer frame 7, then the feeding device 14 drives the slicer seat 1 to continuously move, the slicer frame 7 cannot move under the action of the slicer frame jacking block 52, and then the two can generate relative movement, and the assembly of the rotating shaft 6 and the clamping arc block is realized.

As shown in fig. 3-4, a sealing pad 69 is embedded in the part of the feeding lifting seat 66 which is matched with the slicing frame assembling device 17, a sealing port 70 is formed in the part of the sealing pad 69 which is matched with the slicing frame seat 1, an air channel 71 which is communicated with the sealing port 70 is formed in the feeding lifting seat 66, and the air channel 71 is communicated with an air pump 72 which is arranged below the feeding lifting seat 66.

When the feeding device moves the slicer seat 1 to the lower part of the slicer frame assembling device 17, the slicer seat 1 at the moment is in contact with the sealing pad 69, then the air pump 72 is started, air in the sealing port 70 is pumped out through the air passage 71, and then the sealing pad 69 and the slicer seat 1 form a negative pressure adsorption effect, so that the slicer seat 1 can be ensured to move below the slicer frame to be always attached to the inner bottom surface of the conveying groove seat 11, and the accurate butt joint of the height of the slicer seat 11 and the height of the slicer frame 7 can be ensured.

As shown in fig. 8, the slice frame guiding-in pressing inclined block 54 and the slice frame pushing block 52 are not connected, and the front and rear side plates of the conveying chute base 11 are provided with slice frame pressing cylinders 53 which run forward and backward and are matched with the slice frame guiding-in pressing inclined block 54, and the height of the slice frame pushing block 52 is consistent with the height of the slice frame 7.

The slice frame guiding and pressing inclined block 54 is connected with the slice frame pressing air cylinder 53, when the slice frame pressing block 52 finishes pressing the slice frame 7, the slice frame pressing air cylinder 53 can drive the slice frame guiding and pressing inclined block 54 to move towards the middle, so that the upper part of the slice frame 7 can be pressed, and the rotating shaft 6 of the slice frame 7 can accurately enter the arc-shaped part of the clamping arc block 5.

As shown in fig. 6, the mounting block assembling device 16 includes an assembling movable device capable of moving back and forth and up and down, an assembling clamping device is connected below the assembling movable device, and after the assembling clamping device clamps the mounting block 4, the lower bottom surface of an assembling clamping block 39 of the assembling clamping device is higher than the lower bottom surface of the mounting block 4, the assembling movable device includes an assembling vertical plate 31 arranged on the conveying trough seat 11 and an assembling transverse plate 32 on the assembling vertical plate 31, an assembling material taking cylinder 33 moving back and forth and penetrating through the assembling vertical plate 31 is arranged below the transverse plate 32, the assembling material taking cylinder 33 is connected with an assembling material taking seat 34, an assembling lifting cylinder 36 is arranged below the assembling material taking seat 34, the assembling lifting cylinder 36 is connected with an assembling lifting block 37, the assembling clamping device is arranged below the assembling lifting block 37, and an assembly limiting block 35 for intercepting the assembly material taking seat 34 and aligning the mounting block 4 clamped on the assembly clamping device with the mounting groove 9 is arranged below the assembly transverse plate 32.

The specific assembly of the mounting block is as follows: the assembling and clamping device is driven by the assembling and moving device to move to the storage position of the mounting block 4, the mounting block 4 is clamped by the assembling and clamping device, then the assembling and clamping device is driven by the assembling and moving device to move to the upper part of the slicer seat 1, then the assembling and clamping device is driven by the assembling and moving device to descend, so that the mounting block 4 is inserted into the mounting groove 9, the mounting block 4 can not be completely inserted into the mounting groove 9 due to the height difference between the assembling and clamping block 39 and the lower bottom surface of the clamped mounting block 4, the assembling of the mounting block 4 and the clamping arc block 5 is completed, the assembling and taking device drives the assembling and taking seat 34 to move forwards and backwards through the assembling and taking air cylinder 33, then the assembling and lifting block 37 is driven by the assembling and lifting air cylinder 36 to lift, and thus the forward and backward movement, namely the lifting of the assembling and clamping, simultaneously can also get the material seat 34 through the equipment stopper 35 to the equipment spacing, and then can ensure that equipment clamping device carries out accurate position butt joint with the installation piece and the mounting groove 9 of centre gripping.

As shown in fig. 6, the assembly vertical plate 31 is provided with an assembly material taking guide sleeve 42 which is in the same direction as the assembly material taking cylinder 33, and the rear side of the assembly material taking seat 34 is provided with an assembly material taking guide rod 41 which can penetrate through the assembly material taking guide sleeve 42.

The assembly material taking guide sleeve 42 and the assembly material taking guide rod 41 are designed in a matched mode, and therefore the assembly material taking seat 34 can be guaranteed to run stably.

As shown in fig. 6, a cylinder groove is formed in the middle of the assembling lifting block 37, the assembling clamping device includes an assembling clamping cylinder 38 disposed in the cylinder groove, two ends of the assembling clamping cylinder 38 penetrate through the assembling lifting block 37 and are connected to an assembling clamping block 39, an assembling opening and closing cover 40 is connected to the upper portion of the assembling lifting block 37 through a bolt, and the assembling lifting cylinder 36 is connected to the assembling opening and closing cover 40.

The concrete operation of equipment clamping device is, put into the cylinder inslot with equipment centre gripping cylinder 38 earlier, and make two cylinder heads wear out equipment elevating block 37 and connect equipment grip block 39, later be connected equipment switching lid 40 through bolt and equipment elevating block 37, so accomplish equipment clamping device's installation, drive the centre gripping that equipment grip block 39 can be accomplished to equipment centre gripping cylinder 38 when needing the centre gripping, mounting structure's design, can conveniently dismantle and install, and then can be convenient for maintain.

As shown in fig. 5, the conveying chute base 1 is further provided with a mounting groove detection device 15 at the conveying start end of the mounting block assembly device 16, the mounting groove detection device 15 includes a detection frame 21 disposed on the conveying chute base 11, a touch sensing screen 23 is connected below the detection frame 21 through a detection spring 22, the detection frame 21 is further provided with a detection lifting cylinder 25 having a vertical direction below the detection frame 21, a cylinder head of the detection lifting cylinder 25 is in sleeve fit with a detection lifting sleeve 24 disposed on the upper surface of the touch sensing screen 23, a part of the touch sensing screen 23 contacting an object generates a sensing signal, forms a picture and sends the picture to a picture comparison module, and the picture comparison module compares the position and size of the detection mounting groove to determine whether the position and size of the mounting groove are accurate.

The mounting groove detection device is specifically operated in such a way that when the feeding device 14 conveys the conveying groove seat 11 to the lower part thereof, the cylinder head of the lifting cylinder 25 is detected to downwards push the touch sensing screen 23, so that the touch sensing screen 23 can descend, so that the touch sensing screen 23 and the slicer seat 1 can generate contact sensing signals, and the part provided with the mounting groove 9 can not generate contact sensing signals, so that a sensing area picture can be formed through the area of the sensing signals, the part without the sensing signals in the picture is the corresponding part of the mounting groove 9, and through comparing the picture with a standard picture, whether the length and the width of the mounting groove 9 are qualified or not can be detected, and whether the front and back positions of the mounting groove 9 on the slicer seat 1 are qualified or not can also be detected, so that the subsequent mounting blocks can be inserted into the mounting groove 9, after the detection is completed, through detecting the back that contracts of lift cylinder 25, detect spring 22 and can drive touch-sensitive screen 23 and rise the answer normal position, detect the design of lift cover 24 at this in-process, the cylinder push rod that the cooperation detected lift cylinder 25 can play the guide effect to the lift of touch-sensitive screen 23.

As shown in fig. 9, the mounting block pressing device 18 includes a mounting block pressing frame 56 disposed on the conveying trough base 11, a mounting block pressing block 58 is connected below the mounting block pressing cylinder 57, the front and rear ends of the mounting block pressing block 58 exceed the front and rear ends of the mounting block 4, a mounting block pressing limiting rod 61 is disposed below the exceeding portion, and the lower end of the mounting block pressing limiting rod 61 is connected with an elastically deformable mounting block pressing limiting block 62.

The lower part of the mounting block pressing frame 56 is provided with a mounting block pressing guide cylinder 59, and the mounting block pressing block 58 is provided with a mounting block pressing guide rod 60 matched with the mounting block pressing guide cylinder 59.

The specific operation of the mounting block pressing device 18 is that the mounting block pressing cylinder 57 drives the mounting block pressing block 58 to descend, so that the mounting block pressing block 58 contacts the mounting block 4 on the slicer seat 1, then the mounting block 4 can be completely pressed into the mounting groove 9 along with continuous pressing, in the pressing process, the mounting block pressing guide cylinder 59 is matched with the mounting block pressing guide rod 60, the vertical movement of the mounting block pressing block 58 can be ensured, meanwhile, the descending amplitude of the mounting block pressing block 58 can be limited by the mounting block pressing limiting rod 61 and the mounting block pressing limiting block 62, the mounting block 4 can be completely pressed, meanwhile, the mounting block cannot be greatly pressed, and a part of pressing force can be borne through elastic deformation of the mounting block pressing limiting block 62.

When the method is specifically used, all driving parts can be controlled by matching with a special control system, and parts of the driving parts can also be matched with the control system, and departments can operate by manual buttons.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The principle and embodiments of the present invention have been described herein by way of specific examples, which are provided only to help understand the method and the core idea of the present invention, and the above is only a preferred embodiment of the present invention, and it should be noted that there are objectively infinite specific structures due to the limited character expressions, and it will be apparent to those skilled in the art that a plurality of modifications, decorations or changes can be made without departing from the principle of the present invention, and the above technical features can also be combined in a suitable manner; such modifications, variations, combinations, or adaptations of the invention using its spirit and scope, as defined by the claims, may be directed to other uses and embodiments.

Claims (10)

1. A slicer assembling device capable of accurately feeding comprises a conveying groove seat (11) consisting of a front side plate, a rear side plate and a bottom plate, and is characterized in that a conveying groove (13) is formed in the center of the bottom plate of the conveying groove seat (11), the conveying groove (13) is matched with a feeding device (14) capable of enabling a slicer seat (1) in the conveying groove seat (11) to move, conveying balls (12) are embedded into the inner sides of the front side plate and the rear side plate of the conveying groove seat (11), the slicer seat (1) in the conveying groove seat (11) and the conveying balls (12) on the front side and the rear side are in tangent fit, an installation block assembling device (16), a slicer frame assembling device (17) and an installation block pressing device (18) are sequentially arranged on the conveying groove seat (11) along the conveying direction, the feeding device (14) comprises a support (73) below the conveying groove seat (11), the feeding device is characterized in that a feeding screw rod (74) and a feeding motor which are matched with each other are arranged on the support (73), the feeding screw rod (74) is matched with a feeding movable block (75), a feeding seat (64) is arranged on the feeding movable block (75), a feeding lifting cylinder (65) is arranged on the feeding seat (64), the feeding lifting cylinder (65) is connected with a feeding lifting seat (66) capable of penetrating through the conveying groove (13), feeding blocks (67) matched with the slicer seat (1) are uniformly arranged on the feeding lifting seat (66), and a feeding inductor (68) is arranged on one side, matched with the slicer seat (1), of each feeding block (67).

2. The slicer assembling device capable of accurately feeding according to claim 1, wherein the slicer frame assembling device (17) comprises a slicer frame jacking cylinder (51) arranged on front and rear side plates of the conveying chute seat (11) and moving back and forth, the slicer frame jacking cylinder (51) is connected with a slicer frame jacking block (52) capable of realizing jacking of the slicer frame (7), the upper part of the slicer frame jacking block (52) is provided with a slicer frame lead-in pressing inclined block (54) inclining outwards, and the slicer frame lead-in pressing inclined block (54) is matched with a slicer frame putting-in manipulator.

3. The slicer assembling device capable of feeding accurately according to claim 2, wherein a sealing pad (69) is embedded in a part of the feeding lifting seat (66) matched with the slicing frame assembling device (17), a sealing port (70) is formed in a part of the sealing pad (69) matched with the slicer seat (1), an air channel (71) communicated with the sealing port (70) is formed in the feeding lifting seat (66), and the air channel (71) is communicated with an air pump (72) arranged below the feeding lifting seat (66).

4. The slicer assembling device capable of feeding accurately as claimed in claim 3, wherein the slicer frame lead-in pressing inclined block (54) and the slicer frame pressing block (52) are not connected, a slicer frame pressing cylinder (53) which runs forward and backward and is matched with the slicer frame lead-in pressing inclined block (54) is arranged on the front side plate and the rear side plate of the conveying chute seat (11), and the height of the slicer frame pressing block (52) is consistent with that of the slicer frame (7).

5. The slicer assembling device capable of feeding precisely as claimed in claim 1, wherein the mounting block assembling device (16) comprises an assembling movable device capable of moving forward and backward and up and down, an assembling clamping device is connected below the assembling movable device, and after the assembling clamping device clamps the mounting block (4), the lower bottom surface of an assembling clamping block (39) of the assembling clamping device is higher than the lower bottom surface of the mounting block (4), the assembling movable device comprises an assembling vertical plate (31) arranged on the conveying groove seat (11) and an assembling transverse plate (32) arranged on the assembling vertical plate (31), an assembling material taking cylinder (33) moving forward and backward and penetrating through the assembling vertical plate (31) is arranged below the transverse plate (32), the assembling material taking cylinder (33) is connected with an assembling material taking seat (34), an assembling up and down cylinder (36) is arranged below the assembling material taking seat (34), equipment lift cylinder (36) be connected with equipment elevator (37), equipment clamping device set up in equipment elevator (37) below, equipment diaphragm (32) below be provided with and be used for intercepting the equipment and get material seat (34) and make equipment clamping device go up installation piece (4) of centre gripping and installation groove (9) position alignment's equipment stopper (35).

6. The slicer assembling device capable of feeding precisely as claimed in claim 5, wherein the assembling vertical plate (31) is provided with an assembling material taking guide sleeve (42) which is in the same direction as the assembling material taking cylinder (33), and the rear side of the assembling material taking seat (34) is provided with an assembling material taking guide rod (41) capable of passing through the assembling material taking guide sleeve (42).

7. The slicer assembling device capable of feeding accurately according to claim 5, wherein a cylinder groove is formed in the middle of the assembling lifting block (37), the assembling clamping device comprises an assembling clamping cylinder (38) arranged in the cylinder groove, two ends of the assembling clamping cylinder (38) penetrate through the assembling lifting block (37) and are connected with an assembling clamping block (39), an assembling opening and closing cover (40) is connected to the upper portion of the assembling lifting block (37) through bolts, and the assembling lifting cylinder (36) is connected with the assembling opening and closing cover (40).

8. The slicer assembling device capable of feeding accurately according to claim 1, wherein the conveying chute seat (11) is further provided with a mounting groove detection device (15) at the conveying starting end of the mounting block assembling device (16), the mounting groove detection device (15) comprises a detection frame (21) arranged on the conveying chute seat (11), a touch sensing screen (23) is connected below the detection frame (21) through a detection spring (22), the detection lifting cylinder (25) with a vertical direction is arranged below the detection frame (21), the cylinder head of the detection lifting cylinder (25) is in inserting fit with a detection lifting sleeve (24) arranged on the upper surface of the touch sensing screen (23), and a part of the touch sensing screen (23) contacting an object can generate a sensing signal and form a picture to be sent to the picture comparison module, and the image comparison module is used for comparing and detecting whether the position and the size of the mounting groove are accurate or not.

9. The slicer assembling device capable of feeding accurately as claimed in claim 1, wherein the mounting block pressing device (18) comprises a mounting block pressing frame (56) arranged on the conveying chute seat (11), a mounting block pressing block (58) is connected below the mounting block pressing cylinder (57), the front end and the rear end of the mounting block pressing block (58) exceed the front end and the rear end of the mounting block (4), a mounting block pressing limiting rod (61) is arranged below the exceeding part, and the lower end of the mounting block pressing limiting rod (61) is connected with an elastically deformable mounting block pressing limiting block (62).

10. The slicer assembling apparatus capable of precise feeding according to claim 9, wherein a mounting block pressing guide cylinder (59) is provided at a lower portion of the mounting block pressing frame (56), and a mounting block pressing guide rod (60) engaged with the mounting block pressing guide cylinder (59) is provided on the mounting block pressing block (58).

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