CN111924170B - Thermos cup system of processing - Google Patents

Abstract

The invention relates to the technical field of vacuum cup processing equipment, in particular to a vacuum cup processing system which has the advantage of providing multiple processing functions when being used for processing a stainless steel vacuum cup.

Description

Thermos cup system of processing

Technical Field

The invention relates to the technical field of vacuum cup processing equipment, in particular to a vacuum cup processing system.

Background

The invention with the publication number of CN107116701A discloses a cutting machine for processing a glass vacuum cup, which comprises a bottom plate, wherein the left side of the top of the bottom plate is fixedly connected with an organism, the right side of the top of the bottom plate is fixedly connected with a box body, and the right side of the bottom of an inner cavity of the box body is fixedly connected with a fixed block. The cutting machine for processing the glass vacuum cup solves the problem that the existing cutting machine for processing the glass vacuum cup does not have the automatic clamping function, has the advantages of automatic clamping, can be conveniently used by a user, saves the time of the user and enhances the working efficiency of the cutting machine for processing the glass vacuum cup. The invention has the defect that the stainless steel vacuum cup processing machine cannot provide various processing functions when being used for processing the stainless steel vacuum cup.

Disclosure of Invention

The invention aims to provide a vacuum cup processing system which has the advantage of providing multiple processing functions when being used for processing a stainless steel vacuum cup.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a thermos cup system of processing, includes rotating clamping component, pulling subassembly, drive assembly, auxiliary assembly, struts subassembly, sideslip subassembly and multifunctional assembly, the equal fixed connection of pulling subassembly and drive assembly rotates clamping component, rotates clamping component and drive assembly meshing transmission, and auxiliary assembly fixed connection struts the subassembly and rotates to be connected on auxiliary assembly on rotating clamping component, and sideslip subassembly fixed connection auxiliary assembly is last, and multifunctional assembly rotates to be connected on the sideslip subassembly.

The clamping component rotates and includes a left fixed plate, a left annular plate, a left revolving rack, a left sliding rod, a spring, pull the frame, the cambered plate, with the axostylus axostyle, rotation tooth and locating plate, a left side annular plate fixed connection is on a left fixed plate, a left side revolving rack rotates and connects on a left annular plate, sliding connection has a plurality of left sliding rods on the frame of a left side, all be provided with the spring on the external diameter of a plurality of left sliding rods, all be provided with on a plurality of left sliding rods and pull the frame, equal fixedly connected with cambered plate on a plurality of left sliding rods, the right-hand member equipartition of left annular plate has a plurality of same axostylus axostyles, rotation tooth fixed connection is on a left revolving rack, locating plate fixed connection is on a left revolving rack.

The pulling assembly comprises a pulling frame, a pulling cylinder, a pulling rotating ring, baffles and pull rods, the pulling frame is fixedly connected to a left fixed plate, the pulling cylinder is fixedly connected to the pulling frame, the cylinder rod of the pulling cylinder is connected with the two baffles through threads, the pulling rotating ring is rotatably connected to the cylinder rod of the pulling cylinder, the pulling rotating ring is located between the two baffles, the pulling rotating ring is rotatably connected with the pull rods, and the right ends of the pull rods are rotatably connected to the pulling frames respectively.

The driving assembly comprises a driving plate, a driving motor and a driving gear, the driving plate is fixedly connected to the left fixing plate, the driving motor is fixedly connected to the driving plate, the driving gear is fixedly connected to an output shaft of the driving motor, and the driving gear and the rotating teeth are in meshing transmission.

The auxiliary assembly includes the right solid board, the right annular plate, the same axostylus axostyle in the right side, the right slide bar, the extension spring, the runner, the driven plate, the connecting rod, the expansion frame, rotation groove and spacing hole, the solid board fixed connection in the right side is on the solid board in the left side, the left side of right annular plate is provided with the same axostylus axostyle in a plurality of right sides, a plurality of right slide bars in the sliding connection right side on the annular plate in the right side, all be provided with the extension spring on the external diameter of a plurality of right slide bars, all rotate on a plurality of right slide bars and be connected with the runner, the equal fixedly connected with driven plate in the outside of a plurality of right slide bars, equal fixedly connected with connecting rod on two in the same axostylus axostyle in a plurality of right sides, fixed connection is respectively on two same axostylus axostyles that correspond in the left side of two connecting rods, expansion frame fixed connection is on the annular plate in the right side, be provided with the rotation groove on the expansion frame, it is provided with a plurality of spacing holes to rotate the inslot.

The strutting assembly comprises a strutting ring plate, a driving arc plate, a rotating handle and limiting bolts, the strutting ring plate is rotatably connected in a rotating groove, the strutting ring plate is evenly provided with a plurality of driving arc plates, the driving arc plates are fixedly connected with the rotating handle, and the strutting ring plate is provided with a plurality of limiting bolts through threaded connection.

The sideslip subassembly is including removing frame, moving motor, lead screw, guide arm, sliding plate and switching hole, and two equal fixed connections of removal frame are on the solid board of right, and moving motor fixed connection is on the removal frame on right side, and the lead screw rotates to be connected on two removal frames, and lead screw fixed connection is on moving motor's output shaft, and guide arm fixed connection is on two removal frames, and sliding plate sliding connection is provided with the switching hole on the sliding plate on the guide arm.

The multifunctional component includes the switching axle, switch the frame, the switching pole, switch the round pin, total board, including a motor, an end cap, a controller, and a cover plate, the cutting wheel, the flush coater, spray pipe and inlet pipe, the switching axle rotates to be connected on the sliding plate, switch a fixed connection on the switching axle, the equipartition has a plurality of switching poles on the switching frame, switch round pin sliding connection in switching axle and switching hole, total board fixed connection is in the left side of switching axle, the equal fixed connection of motor and flush coater is on total board, cutting wheel fixed connection is on the output shaft of motor, the equal fixed connection of spray pipe and inlet pipe is on the flush coater.

The vacuum cup processing system has the beneficial effects that: the vacuum cup processing system can fix the vacuum cup processing raw material through the pulling assembly and the rotary clamping assembly without generating clamping marks, can also spread the auxiliary assembly through the spreading assembly to perform auxiliary fixing on the vacuum cup raw material, ensures the coaxiality of the pipe, prevents the pipe from generating irregular section and wasting materials, can also drive the rotary clamping assembly to rotate through the driving assembly to realize the rotation of the pipe, can also clamp the pipe through the rotary clamping assembly and the auxiliary assembly, and ensures that the lower end of the pipe does not need to be supported, thereby make tubular product have bigger operating space, can also cut or polish thermos cup processing raw materials through multi-functional component, can also carry out spraying or cleanness to thermos cup processing raw materials through multi-functional component, can also drive multi-functional component through the sideslip subassembly and slide, realize carrying out the processing of different positions to thermos cup processing raw materials.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

In the description of the present invention, it should be noted that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "top", "bottom", "inner", "outer" and "upright", etc., indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected, directly or indirectly connected through an intermediate medium, and may be a communication between two members. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In addition, in the description of the present invention, the meaning of "a plurality", and "a plurality" is two or more unless otherwise specified.

FIG. 1 is a schematic view of the overall construction of a vacuum cup processing system of the present invention;

FIG. 2 is a schematic view of another embodiment of the vacuum cup processing system of the present invention;

FIG. 3 is a schematic view of the rotary clamp assembly of the present invention;

FIG. 4 is a schematic view of the rotary clamp assembly of the present invention in another orientation;

FIG. 5 is a schematic structural view of the pulling assembly of the present invention;

FIG. 6 is a schematic structural view of the drive assembly of the present invention;

FIG. 7 is a schematic structural view of the auxiliary assembly of the present invention;

FIG. 8 is a schematic view of another aspect of the auxiliary assembly of the present invention;

FIG. 9 is a schematic view of the distractor assembly of the present invention;

FIG. 10 is a schematic illustration of the construction of the traversing assembly of the invention;

fig. 11 is a schematic view of the structure of the multifunctional module of the present invention.

In the figure: rotating the clamping assembly 1; 1-1 of a left fixed plate; 1-2 of a left ring plate; 1-3 of a left rotating frame; 1-4 of a left slide bar; 1-5 of a spring; pulling the frame 1-6; 1-7 of arc plates; coaxial rod 1-8; 1-9 of rotating teeth; 1-10 parts of a positioning plate; the pulling assembly 2; pulling the frame 2-1; pulling the cylinder 2-2; pulling the rotating ring 2-3; 2-4 of a baffle plate; 2-5 of a pull rod; a drive assembly 3; a drive plate 3-1; a drive motor 3-2; a drive gear 3-3; an auxiliary component 4; 4-1 of a right fixed plate; 4-2 of a right ring plate; a right coaxial rod 4-3; 4-4 parts of a right sliding rod; 4-5 of a tension spring; 4-6 parts of rotating wheel; 4-7 of a driven plate; 4-8 of a connecting rod; 4-9 parts of an expansion frame; 4-10 of a rotating groove; 4-11 of a limiting hole; a spreader assembly 5; opening the ring plate 5-1; 5-2 of an active arc plate; rotating the handle 5-3; 5-4 parts of a limiting bolt; a traverse assembly 6; a movable frame 6-1; a mobile motor 6-2; 6-3 of a screw rod; 6-4 of a guide rod; a slide plate 6-5; switching holes 6-6; a multifunctional component 7; a switching shaft 7-1; a switching frame 7-2; a switch lever 7-3; a switch pin 7-4; 7-5 of a total plate; 7-6 of a motor; 7-7 of a cutting wheel; 7-8 of a sprayer; 7-9 parts of a spray pipe; and a feed pipe 7-10.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 11, and a vacuum cup processing system includes a rotating clamping assembly 1, a pulling assembly 2, a driving assembly 3, an auxiliary assembly 4, a propping assembly 5, a transverse moving assembly 6 and a multifunctional assembly 7, wherein the pulling assembly 2 and the driving assembly 3 are both fixedly connected to the rotating clamping assembly 1, the rotating clamping assembly 1 and the driving assembly 3 are meshed for transmission, the auxiliary assembly 4 is fixedly connected to the rotating clamping assembly 1, the propping assembly 5 is rotatably connected to the auxiliary assembly 4, the transverse moving assembly 6 is fixedly connected to the auxiliary assembly 4, and the multifunctional assembly 7 is rotatably connected to the transverse moving assembly 6.

The vacuum cup raw material can be fixed by the pulling component 2 and the rotating clamping component 1 without generating clamping marks, the auxiliary component 4 can be propped open by the propping component 5 to perform auxiliary fixation on the vacuum cup raw material, the coaxiality of the pipe is ensured, the irregular pipe cutting surface and the material waste are prevented, the rotating clamping component 1 can be driven to rotate by the driving component 3 to realize the rotation of the pipe, the pipe can be clamped by the rotating clamping component 1 and the auxiliary component 4, so that the lower end of the pipe does not need to be supported, thereby make tubular product have bigger operating space, can also cut or polish thermos cup processing raw materials through multifunctional component 7, can also carry out spraying or cleanness to thermos cup processing raw materials through multifunctional component 7, can also drive multifunctional component 7 through sideslip subassembly 6 and slide, realize carrying out the processing of different positions to thermos cup processing raw materials.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 11, the rotary clamping assembly 1 includes a left fixed plate 1-1, a left ring plate 1-2, a left rotating frame 1-3, a left sliding rod 1-4, a spring 1-5, a pulling frame 1-6, an arc plate 1-7, a coaxial rod 1-8, a rotating tooth 1-9 and a positioning plate 1-10, the left ring plate 1-2 is fixedly connected to the left fixed plate 1-1, the left rotating frame 1-3 is rotatably connected to the left ring plate 1-2, the left rotating frame 1-3 is slidably connected to a plurality of left sliding rods 1-4, the outer diameter of the plurality of left sliding rods 1-4 is provided with the spring 1-5, the plurality of left sliding rods 1-4 are provided with the pulling frame 1-6, the plurality of left sliding rods 1-4 are fixedly connected to the arc plate 1-7, the right end of the left annular plate 1-2 is uniformly provided with a plurality of coaxial rods 1-8, the rotating teeth 1-9 are fixedly connected to the left rotating frame 1-3, and the positioning plate 1-10 is fixedly connected to the left rotating frame 1-3.

The vacuum cup processing raw material is placed in the middle of the left rotating frame 1-3, the pulling assembly 2 pulls the plurality of pulling frames 1-6 to slide, the plurality of pulling frames 1-6 drive the plurality of left sliding rods 1-4 to slide, the plurality of left sliding rods 1-4 drive the plurality of arc plates 1-7 to fix the vacuum cup processing raw material, meanwhile, the plurality of springs 1-5 are compressed, clamping marks on the surface of the raw material are reduced, waste materials are prevented, the positioning plates 1-10 can prevent the raw material from sliding and are convenient to position, after the raw material processing is completed, the pulling assembly 2 loses external force applied to the plurality of pulling frames 1-6, the plurality of compressed springs 1-5 push the plurality of left sliding rods 1-4 to reset, and automatic resetting of the clamping function of the rotating clamping assembly 1 is achieved.

The third concrete implementation mode:

referring to fig. 1-11, the pulling assembly 2 comprises a pulling frame 2-1, a pulling cylinder 2-2, the device comprises pulling rotary rings 2-3, baffles 2-4 and pull rods 2-5, wherein the pulling frame 2-1 is fixedly connected to a left fixed plate 1-1, a pulling cylinder 2-2 is fixedly connected to the pulling frame 2-1, two baffles 2-4 are connected to a cylinder rod of the pulling cylinder 2-2 through threads, the pulling rotary rings 2-3 are rotatably connected to the cylinder rod of the pulling cylinder 2-2, the pulling rotary rings 2-3 are located between the two baffles 2-4, a plurality of pull rods 2-5 are rotatably connected to the pulling rotary rings 2-3, and the right ends of the pull rods 2-5 are respectively rotatably connected to the pulling frames 1-6.

And starting the pulling cylinder 2-2, driving the pulling rotary ring 2-3 to move by the pulling cylinder 2-2, driving the plurality of pull rods 2-5 to move by the pulling rotary ring 2-3, and driving the plurality of pulling frames 1-6 to move by the plurality of pull rods 2-5.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1-11, the driving assembly 3 includes a driving plate 3-1, a driving motor 3-2 and a driving gear 3-3, the driving plate 3-1 is fixedly connected to the left fixed plate 1-1, the driving motor 3-2 is fixedly connected to the driving plate 3-1, the driving gear 3-3 is fixedly connected to an output shaft of the driving motor 3-2, and the driving gear 3-3 is in meshing transmission with the rotating teeth 1-9.

The driving motor 3-2 is started, the driving motor 3-2 drives the driving gear 3-3 to rotate, the driving gear 3-3 is meshed with the driving rotating teeth 1-9 to rotate, the rotating teeth 1-9 drive the left rotating frame 1-3 to rotate, the left rotating frame 1-3 drives the left sliding rods 1-4 to rotate, and the left sliding rods 1-4 drive the raw material to rotate, so that the raw material is convenient to process.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1-11, the auxiliary assembly 4 includes a right fixing plate 4-1, a right ring plate 4-2, a right coaxial rod 4-3, a right sliding rod 4-4, a tension spring 4-5, a rotating wheel 4-6, a driven plate 4-7, a connecting rod 4-8, an expansion frame 4-9, a rotating groove 4-10 and a limiting hole 4-11, the right fixing plate 4-1 is fixedly connected to the left fixing plate 1-1, the right ring plate 4-2 is fixedly connected to the right fixing plate 4-1, the left side of the right ring plate 4-2 is provided with a plurality of right coaxial rods 4-3, the right ring plate 4-2 is slidably connected to a plurality of right sliding rods 4-4, the outer diameter of the plurality of right sliding rods 4-4 is provided with a tension spring 4-5, the plurality of right sliding rods 4-4 are rotatably connected to a rotating wheel 4-6, the outer sides of the right slide bars 4-4 are fixedly connected with driven plates 4-7, two of the right coaxial bars 4-3 are fixedly connected with connecting rods 4-8, the left sides of the two connecting rods 4-8 are fixedly connected to the corresponding two coaxial bars 1-8 respectively, the expansion frame 4-9 is fixedly connected to the right ring plate 4-2, the expansion frame 4-9 is provided with a rotating groove 4-10, and a plurality of limiting holes 4-11 are arranged in the rotating groove 4-10.

The rotating and opening component 5 drives the plurality of driven plates 4-7 to move, the plurality of driven plates 4-7 drive the plurality of right sliding rods 4-4 to slide, the plurality of right sliding rods 4-4 drive the plurality of tension springs 4-5 to stretch, the plurality of right sliding rods 4-4 drive the plurality of rotating wheels 4-6 to open, the vacuum cup processing raw material is placed in the right annular plate 4-2, the opening component 5 is rotated again, the opening component 5 loses the expansion of the plurality of driven plates 4-7, the plurality of stretched tension springs 4-5 drive the plurality of right sliding rods 4-4 to slide, the plurality of right sliding rods 4-4 drive the plurality of rotating wheels 4-6 to slide, the plurality of rotating wheels 4-6 clamp the vacuum cup processing raw material, when the vacuum cup processing raw material rotates, the plurality of rotating wheels 4-6 can rotate along with the rotation of the vacuum cup processing raw material, the raw material surface is prevented from being scratched, the two connecting rods 4-8 can ensure that the coaxiality of the two ends of the raw material is ensured when the auxiliary assembly 4 and the rotary clamping assembly 1 fix the raw material, the cross section dislocation is prevented from occurring during processing, the cross section of the processed material is prevented from being not vertical to the axis, the material is required to be subjected to secondary processing, and the processing efficiency of the vacuum cup is reduced.

The sixth specific implementation mode:

the embodiment is described below with reference to fig. 1 to 11, the expanding assembly 5 includes an expanding ring plate 5-1, a driving arc plate 5-2, a rotating handle 5-3 and a limit bolt 5-4, the expanding ring plate 5-1 is rotatably connected in a rotating groove 4-10, a plurality of driving arc plates 5-2 are uniformly distributed on the expanding ring plate 5-1, the rotating handles 5-3 are fixedly connected to the plurality of driving arc plates 5-2, and the plurality of limit bolts 5-4 are connected to the expanding ring plate 5-1 through threads.

The rotating handle 5-3 is rotated, the plurality of rotating handles 5-3 drive the expanding ring plate 5-1 to rotate, the expanding ring plate 5-1 drives the plurality of driving arc plates 5-2 to rotate, the plurality of driving arc plates 5-2 expand the plurality of driven plates 4-7, the plurality of limiting bolts 5-4 are rotated into the corresponding plurality of limiting holes 4-11, the raw materials are placed conveniently, the plurality of limiting bolts 5-4 are loosened after the placement, and the raw materials are clamped.

The seventh embodiment:

the embodiment is described below with reference to fig. 1-11, the traverse assembly 6 includes a moving frame 6-1, a moving motor 6-2, a screw 6-3, a guide rod 6-4, a sliding plate 6-5 and a switching hole 6-6, both moving frames 6-1 are fixedly connected to a right fixed plate 4-1, the moving motor 6-2 is fixedly connected to the moving frame 6-1 on the right side, the screw 6-3 is rotatably connected to the two moving frames 6-1, the screw 6-3 is fixedly connected to an output shaft of the moving motor 6-2, the guide rod 6-4 is fixedly connected to the two moving frames 6-1, the sliding plate 6-5 is slidably connected to the guide rod 6-4, and the sliding plate 6-5 is provided with the switching hole 6-6.

The moving motor 6-2 is started, the moving motor 6-2 drives the screw rod 6-3 to rotate, the screw rod 6-3 is driven by threads, and the sliding plate 6-5 slides on the guide rod 6-4.

The specific implementation mode is eight:

the present embodiment is described below with reference to fig. 1 to 11, the multifunctional assembly 7 includes a switching shaft 7-1, a switching frame 7-2, a switching rod 7-3, a switching pin 7-4, a main plate 7-5, a motor 7-6, a cutting wheel 7-7, a sprayer 7-8, a spraying pipe 7-9 and a feeding pipe 7-10, the switching shaft 7-1 is rotatably connected to a sliding plate 6-5, the switching frame 7-2 is fixedly connected to the switching shaft 7-1, the switching frame 7-2 is uniformly provided with a plurality of switching rods 7-3, the switching pin 7-4 is slidably connected to the switching shaft 7-1 and a switching hole 6-6, the main plate 7-5 is fixedly connected to the left side of the switching shaft 7-1, the motor 7-6 and the sprayer 7-8 are fixedly connected to the main plate 7-5, the cutting wheel 7-7 is fixedly connected to an output shaft of the motor 7-6, and the spraying pipe 7-9 and the feeding pipe 7-10 are fixedly connected to the sprayer 7-8.

When the raw material is to be cut, the switching pin 7-4 is pulled out, the switching rod 7-3 is rotated, the switching rod 7-3 drives the switching frame 7-2 to rotate, the switching frame 7-2 drives the switching shaft 7-1 to rotate until the cutting wheel 7-7 faces upwards, the switching pin 7-4 is inserted into the switching shaft 7-1 and the switching hole 6-6, the motor 7-6 is started, the motor 7-6 drives the cutting wheel 7-7 to rotate, the cutting wheel 7-7 cuts the raw material, the cutting wheel 7-7 can be replaced by a polishing wheel to polish the raw material, the switching frame 7-2 can be rotated until the spraying pipe 7-9 faces upwards, the switching frame 7-2 can be connected into the spraying raw material through the feeding pipe 7-10, the spraying pipe 7-9 sprays the raw material, and the feeding pipe 7-10 can be connected to the water tank, the raw material is cleaned by the spray pipes 7-9.

The invention relates to a vacuum cup processing system, which has the use principle that: rotating a rotating handle 5-3, driving a plurality of expanding ring plates 5-1 to rotate by a plurality of rotating handles 5-3, driving a plurality of driving arc plates 5-2 to rotate by a plurality of driving arc plates 5-2, expanding a plurality of driven plates 4-7 by a plurality of driving arc plates 5-2, rotating a plurality of limiting bolts 5-4 into a plurality of corresponding limiting holes 4-11, facilitating the placement of raw materials, loosening a plurality of limiting bolts 5-4 after placement, clamping the raw materials, driving a plurality of right sliding rods 4-4 to slide by a plurality of driven plates 4-7, driving a plurality of tension springs 4-5 to stretch by a plurality of right sliding rods 4-4, driving a plurality of rotating wheels 4-6 to expand by a plurality of right sliding rods 4-4, placing the processing raw materials of the vacuum cup into a right ring plate 4-2, rotating the expanding component 5 again to make the expanding component 5 lose the expansion of driven plates 4-7, the plurality of stretching tension springs 4-5 pull the plurality of right slide bars 4-4 to slide, the plurality of right slide bars 4-4 drive the plurality of rotating wheels 4-6 to slide, the plurality of rotating wheels 4-6 clamp the processing raw materials of the vacuum cup, when the processing raw materials of the vacuum cup rotate, the plurality of rotating wheels 4-6 can rotate along with the rotation of the processing raw materials of the vacuum cup, so as to prevent scratches from appearing on the surface of the raw materials, the two connecting rods 4-8 can ensure that the coaxiality of two ends of the raw materials is ensured when the auxiliary component 4 and the rotating clamping component 1 fix the raw materials, so as to prevent the occurrence of cross section dislocation during processing, prevent the cross section of the processed materials from being not vertical to the axis, so that the materials also need to be processed for the second time, so as to cause the reduction of the processing efficiency of the vacuum cup, the processing raw materials of the vacuum cup are placed in the middle of the left rotating frame 1-3, and the pulling cylinder 2-2 is started, the pulling cylinder 2-2 drives the pulling rotary ring 2-3 to move, the pulling rotary ring 2-3 drives the pull rods 2-5 to move, the pull rods 2-5 pulls the pull frames 1-6 to move, the pull frames 1-6 drive the left slide rods 1-4 to slide, the left slide rods 1-4 drive the arc plates 1-7 to fix the raw materials processed by the vacuum cup, meanwhile, the springs 1-5 compress to reduce clamping marks on the surface of the raw materials and prevent the waste of the materials, the positioning plates 1-10 can prevent the raw materials from sliding and facilitate positioning, after the raw materials are processed, the pulling assembly 2 loses external force applied to the pull frames 1-6, the compressed springs 1-5 push the left slide rods 1-4 to reset, and automatic resetting of the clamping function of the rotating clamping assembly 1 is realized, starting a driving motor 3-2, driving the driving motor 3-2 to drive a driving gear 3-3 to rotate, driving the driving gear 3-3 to mesh with and drive a rotating gear 1-9 to rotate, driving a left rotating frame 1-3 to rotate by the rotating gear 1-9, driving a plurality of left sliding rods 1-4 to rotate by the left rotating frame 1-3, driving a plurality of left sliding rods 1-4 to rotate raw materials to facilitate processing of the raw materials, pulling out a switching pin 7-4 when the raw materials are to be cut, rotating a switching rod 7-3, driving a switching frame 7-2 to rotate by the switching frame 7-2 when the switching shaft 7-1 is driven by the switching frame 7-2 to rotate a cutting wheel 7-7 upwards, inserting the switching pin 7-4 into a switching shaft 7-1 and a switching hole 6-6, starting the motor 7-6, the motor 7-6 drives the cutting wheel 7-7 to rotate, the cutting wheel 7-7 cuts raw materials, the cutting wheel 7-7 can be replaced by a polishing wheel to polish the raw materials, the switching frame 7-2 can be rotated until the spraying pipe 7-9 faces upwards, the switching frame can be connected into paint spraying raw materials through the feeding pipe 7-10, the raw materials can be sprayed through the spraying pipe 7-9, the feeding pipe 7-10 can be connected to a water tank, the raw materials are cleaned through the spraying pipe 7-9, the moving motor 6-2 is started, the moving motor 6-2 drives the screw rod 6-3 to rotate, the screw rod 6-3 is driven by threads, the sliding plate 6-5 slides on the guide rod 6-4, and the multifunctional component 7 is used for processing different positions of the vacuum cup processing raw materials.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (4)

1. The utility model provides a thermos cup system of processing, includes rotation clamping component (1), pulling subassembly (2), drive assembly (3), auxiliary assembly (4), struts subassembly (5), sideslip subassembly (6) and multi-functional component (7), its characterized in that: the pulling assembly (2) and the driving assembly (3) are fixedly connected to the rotating clamping assembly (1), the rotating clamping assembly (1) and the driving assembly (3) are in meshing transmission, the auxiliary assembly (4) is fixedly connected to the rotating clamping assembly (1), the spreading assembly (5) is rotatably connected to the auxiliary assembly (4), the transverse moving assembly (6) is fixedly connected to the auxiliary assembly (4), the multifunctional assembly (7) is rotatably connected to the transverse moving assembly (6), the rotating clamping assembly (1) comprises a left fixed plate (1-1), a left annular plate (1-2), a left rotating frame (1-3), a left sliding rod (1-4), a spring (1-5), a pulling frame I (1-6), an arc plate (1-7), a same shaft lever (1-8), rotating teeth (1-9) and a positioning plate (1-10), the left annular plate (1-2) is fixedly connected to the left fixed plate (1-1), the left rotating frame (1-3) is rotatably connected to the left annular plate (1-2), the left rotating frame (1-3) is connected with a plurality of left sliding rods (1-4) in a sliding mode, springs (1-5) are arranged on the outer diameters of the left sliding rods (1-4), pulling frames I (1-6) are arranged on the left sliding rods (1-4), arc plates (1-7) are fixedly connected to the left sliding rods (1-4), a plurality of same shaft rods (1-8) are uniformly distributed at the right end of the left annular plate (1-2), rotating teeth (1-9) are fixedly connected to the left rotating frame (1-3), positioning plates (1-10) are fixedly connected to the left rotating frame (1-3), and the pulling assembly (2) comprises a pulling frame II (2-1), The device comprises a pulling cylinder (2-2), a pulling rotating ring (2-3), baffle plates (2-4) and pull rods (2-5), wherein the pulling frame II (2-1) is fixedly connected to a left fixed plate (1-1), the pulling cylinder (2-2) is fixedly connected to the pulling frame II (2-1), two baffle plates (2-4) are connected to a cylinder rod of the pulling cylinder (2-2) through threads, the pulling rotating ring (2-3) is rotatably connected to the cylinder rod of the pulling cylinder (2-2), the pulling rotating ring (2-3) is positioned between the two baffle plates (2-4), a plurality of pull rods (2-5) are rotatably connected to the pulling rotating ring (2-3), and the right ends of the pull rods (2-5) are respectively rotatably connected to the pulling frames I (1-6), the driving assembly (3) comprises a driving plate (3-1), a driving motor (3-2) and a driving gear (3-3), the driving plate (3-1) is fixedly connected to a left fixed plate (1-1), the driving motor (3-2) is fixedly connected to the driving plate (3-1), the driving gear (3-3) is fixedly connected to an output shaft of the driving motor (3-2), the driving gear (3-3) and the rotating teeth (1-9) are in meshed transmission, the auxiliary assembly (4) comprises a right fixed plate (4-1), a right annular plate (4-2), a right coaxial rod (4-3), a right sliding rod (4-4), a tension spring (4-5), a rotating wheel (4-6), a driven plate (4-7), a connecting rod (4-8), An expansion frame (4-9), a rotating groove (4-10) and a limiting hole (4-11), wherein a right fixed plate (4-1) is fixedly connected to a left fixed plate (1-1), a right annular plate (4-2) is fixedly connected to the right fixed plate (4-1), the left side of the right annular plate (4-2) is provided with a plurality of right coaxial rods (4-3), the right annular plate (4-2) is slidably connected with a plurality of right sliding rods (4-4), the outer diameters of the right sliding rods (4-4) are respectively provided with a tension spring (4-5), the right sliding rods (4-4) are respectively rotatably connected with a rotating wheel (4-6), the outer sides of the right sliding rods (4-4) are respectively and fixedly connected with a driven plate (4-7), two of the right coaxial rods (4-3) are respectively and fixedly connected with a connecting rod (4-8), the left sides of the two connecting rods (4-8) are respectively fixedly connected to the corresponding two coaxial rods (1-8), the expansion frame (4-9) is fixedly connected to the right ring plate (4-2), the expansion frame (4-9) is provided with a rotating groove (4-10), and a plurality of limiting holes (4-11) are formed in the rotating groove (4-10).

2. A vacuum cup processing system according to claim 1, wherein: the opening assembly (5) comprises an opening ring plate (5-1), driving arc plates (5-2), a rotating handle (5-3) and limiting bolts (5-4), the opening ring plate (5-1) is rotatably connected in a rotating groove (4-10), a plurality of driving arc plates (5-2) are uniformly distributed on the opening ring plate (5-1), the rotating handles (5-3) are fixedly connected to the driving arc plates (5-2), and the opening ring plate (5-1) is connected with the limiting bolts (5-4) through threads.

3. A vacuum cup processing system according to claim 2, wherein: the transverse moving component (6) comprises a moving frame (6-1), a moving motor (6-2), a screw rod (6-3), a guide rod (6-4), a sliding plate (6-5) and a switching hole (6-6), the two movable frames (6-1) are fixedly connected to the right fixed plate (4-1), the movable motor (6-2) is fixedly connected to the movable frame (6-1) on the right side, the screw rod (6-3) is rotatably connected to the two movable frames (6-1), the screw rod (6-3) is fixedly connected to an output shaft of the movable motor (6-2), the guide rod (6-4) is fixedly connected to the two movable frames (6-1), the sliding plate (6-5) is slidably connected to the guide rod (6-4), and the sliding plate (6-5) is provided with a switching hole (6-6).

4. A vacuum cup processing system according to claim 3, wherein: the multifunctional component (7) comprises a switching shaft (7-1), a switching frame (7-2), a switching rod (7-3), a switching pin (7-4), a total plate (7-5), a motor (7-6), a cutting wheel (7-7), a sprayer (7-8), a spraying pipe (7-9) and a feeding pipe (7-10), the switching shaft (7-1) is rotatably connected to a sliding plate (6-5), the switching frame (7-2) is fixedly connected to the switching shaft (7-1), a plurality of switching rods (7-3) are uniformly distributed on the switching frame (7-2), the switching pin (7-4) is slidably connected in the switching shaft (7-1) and the switching hole (6-6), the total plate (7-5) is fixedly connected to the left side of the switching shaft (7-1), the motor (7-6) and the sprayer (7-8) are both fixedly connected to the general plate (7-5), the cutting wheel (7-7) is fixedly connected to an output shaft of the motor (7-6), and the spraying pipe (7-9) and the feeding pipe (7-10) are both fixedly connected to the sprayer (7-8).

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