CN210677716U - Endothelial removing equipment for preparation before welding of MINISAS interface - Google Patents

Abstract

The utility model discloses a remove endothelial equipment that is used for MINISAS interface to prepare before welding, it is including removing the endothelial frame, remove the endothelial subassembly, be used for the drive to remove the endothelial subassembly and open or the closed endothelial mechanism that opens and shuts that removes, be used for driving remove the endothelial mechanism that opens and shuts orientation or deviate from the endothelial lateral drive mechanism that removes of heart yearn direction motion, remove the endothelial frame including removing the endothelial box, install on removing the endothelial box and install on it controls the side remove the endothelial installation component, be used for connecting adjacent two remove the endothelial box remove endothelial lockplate and a plurality of install in removing the universal gyro wheel on the terminal surface under the endothelial box, adjacent two remove the endothelial box can dismantle the connection through removing the endothelial installation component. The inner skin removing box body can be quickly assembled and disassembled with the adjacent inner skin removing box body, the number of the inner skin removing devices which are suitable can be flexibly configured according to the requirement of processing output, and the application range is wide.

Description

Endothelial removing equipment for preparation before welding of MINISAS interface

Technical Field

The utility model relates to a remove endothelial equipment that is used for MINISAS interface to prepare before welding.

Background

Serial Attached SCSI (SAS) is a computer wiring technology, and functions mainly as data transmission for peripheral components, such as: hard disks, CD-ROMs, etc. Serial SCSI has evolved from a parallel SCSI physical storage interface, a new storage interface standard developed and maintained by the ANSI INCITS T10 technical committee (T10 committee). The serial mode can provide a faster communication transmission speed and a simpler configuration than the parallel mode.

However, the size of the SAS is still too large, and a lot of space is occupied, so that in order to reduce space occupation, according to SFF-8086 specifications set by the SFF commission, a Mini SAS is designed, the teaching of the SFF-8470 specifications is absorbed, the main structure of the Mini SAS is greatly simplified, the width is further converged, the Mini SAS is closer to a group of stacked SATA connectors, and the number of ports which can be provided is doubled (4: 2). Compared with the SFF-8484, the SFF-8086 improves the space utilization rate and better controls the cost of the connector. Therefore, the Mini SAS is widely applied, the Mini SAS is required to be produced in large batch in order to meet the huge requirements of the Mini SAS, a production line which can meet the requirement of high-speed automatic production of the Mini SAS needs to be designed, and the problem that how to flexibly configure each station in the production line and how to conveniently and quickly disassemble and assemble each station during installation is urgently needed to be solved at present.

Disclosure of Invention

The utility model aims at providing a can get rid of the endothelial rapidly simultaneously can with adjacent remove endothelial equipment realize that the preparation except that before the MINISAS interface welds that is used for of nimble dismouting removes endothelial equipment.

In order to achieve the above purpose, the utility model adopts the technical scheme that: the inner skin removing device comprises an inner skin removing rack, an inner skin removing assembly, an inner skin removing opening and closing mechanism and an inner skin removing transverse driving mechanism, wherein the inner skin removing opening and closing mechanism is used for driving the inner skin removing opening and closing mechanism to move towards or away from the core wire direction, the direction of the movement towards or away from the core wire is the front-back direction, the core wire is positioned at the front side of the inner skin removing transverse driving mechanism, the inner skin removing transverse driving mechanism is installed on the inner skin removing rack, the inner skin removing opening and closing mechanism comprises an inner skin removing opening and closing frame, an upper inner skin removing clamping block installing seat, a lower inner skin removing clamping block installing seat and an inner skin removing opening and closing driving assembly, the upper inner skin removing clamping block installing seat and the lower inner skin removing clamping block installing seat independently move up and down, the inner skin removing assembly comprises an inner skin removing clamping block, a clamping surface of which is oppositely arranged, and a clamping surface of the inner skin removing clamping block is, Install in remove endothelial clamp piece two relative terminal surfaces on have elastic endothelial gasket that removes, remove the endothelial frame including remove the endothelial box, install in remove on the endothelial box and install on it about the side remove endothelial installation component, be used for connecting adjacent two remove endothelial box remove endothelial lockplate and a plurality of install in remove the universal gyro wheel on the terminal surface under the endothelial box, adjacent two remove the endothelial box and can dismantle the connection through removing endothelial installation component.

Preferably, the inner skin removing installation assembly comprises an inner skin removing guide plate arranged on the left side edge of the upper end face of the inner skin removing box body and an inner skin removing guide wheel arranged on the right side edge of the upper end face of the inner skin removing box body and protruding out of the right side face of the inner skin removing box body, and the inner skin removing guide wheels are multiple and arranged in the front-back direction.

Furthermore, an inner skin removing right side plate is arranged on the right side edge of the upper end face of the inner skin removing box body, and the inner skin removing guide wheel is arranged on the inner skin removing right side plate.

Furthermore, it is fixed in to remove endothelial deflector remove endothelial box up end left side edge and with remove forming rectangular form leading wheel fixed space between the endothelial box up end, it locates in the leading wheel fixed space to remove the endothelial leading wheel.

The optimized inner skin removing opening and closing driving assembly comprises two inner skin removing opening and closing motors fixed in an inner skin removing opening and closing framework, an inner skin removing screw rod assembly and a second inner skin removing sliding block, wherein the inner skin removing opening and closing motors are in transmission connection with the inner skin removing opening and closing motors respectively, the first inner skin removing sliding block and the second inner skin removing sliding block are in sliding connection in the inner skin removing opening and closing framework, are fixedly connected with an inner skin removing transmission nut except the inner skin removing screw rod assembly respectively, and are arranged in the front and back positions of the inner skin removing screw rod assembly The inner skin-removing first screw rod penetrates through the inner skin-removing through hole, the upper inner skin-removing clamping block mounting seat is fixedly mounted on the part, extending out of the inner skin opening and closing frame, of the inner skin-removing first slide block, and the lower inner skin-removing clamping block mounting seat is fixedly mounted on the part, extending out of the inner skin opening and closing frame, of the inner skin-removing second slide block.

Further, it includes the endothelial upper plate that opens and shuts, removes the endothelial hypoplastron and polylith and connect in to remove the endothelial curb plate that opens and shuts between the endothelial upper plate that opens and shuts and the endothelial hypoplastron that removes, be located remove the first lead screw front side of endothelial remove the endothelial curb plate that opens and shuts for the front endothelial curb plate that opens and shuts, preceding be equipped with on the endothelial curb plate that opens and shuts with remove the endothelial slide rail that opens and shuts that removes the endothelial parallel arrangement of first lead screw that presss from both sides tight piece mount pad, on remove the endothelial and press from both sides tight piece mount pad, down remove the endothelial and press from both sides tight piece mount pad sliding connection respectively in remove on the endothelial.

Preferably, the inner skin removing opening and closing frame is provided with a plurality of inner skin removing opening and closing photoelectric switch induction pieces, the inner skin removing clamping block mounting seat is arranged on the upper portion, the inner skin removing clamping block mounting seat is arranged on the lower portion, the inner skin removing opening and closing photoelectric switch trigger pieces are arranged on the inner skin removing clamping block mounting seat respectively, and the inner skin removing opening and closing photoelectric switch induction pieces are arranged on the inner skin removing opening and closing frame in a vertical position.

Preferably, the inner skin removing transverse driving mechanism comprises an inner skin removing transverse base fixed on the inner skin removing rack, an inner skin removing transverse driving sliding rail arranged on the inner skin removing transverse base and arranged along the front-back direction, an inner skin removing transverse sliding block connected to the inner skin removing transverse driving sliding rail in a sliding manner, an inner skin removing transverse bottom plate fixed on the inner skin removing transverse sliding block, and an inner skin removing transverse driving assembly arranged on the inner skin removing transverse base and used for driving the inner skin removing transverse bottom plate to move along the front-back direction, wherein the inner skin removing opening and closing mechanism is fixedly arranged on the inner skin removing transverse bottom plate.

Furthermore, the inner skin removing transverse driving assembly comprises an inner skin removing transverse driving motor fixedly installed on the inner skin removing transverse bottom plate, an inner skin removing transverse screw rod coaxially and fixedly connected with the output end of the inner skin removing transverse driving motor, and an inner skin removing transverse transmission nut in threaded connection with the inner skin removing transverse screw rod, and the inner skin removing transverse transmission nut is fixedly connected to the lower end face of the inner skin removing transverse bottom plate.

Furthermore, an inner skin removing transverse photoelectric switch trigger is arranged on the side of the inner skin removing transverse bottom plate, and an inner skin removing transverse photoelectric switch induction piece is arranged on the side of the inner skin removing transverse driving slide rail and on a stroke path of the inner skin removing transverse photoelectric switch trigger.

Because of the application of the technical scheme, compared with the prior art, the utility model has the following advantages: the inner skin removing box body can be quickly assembled and disassembled with the adjacent inner skin removing box body, the number of the inner skin removing devices which are suitable can be flexibly configured according to the requirement of processing output, and the application range is wide.

Drawings

The attached figures 1 and 2 are the three-dimensional views of the utility model;

FIG. 3 is a top view of the second slider with the inner skin removed according to the present invention;

FIG. 4 is a perspective view of the inner skin removing opening and closing mechanism and the inner skin removing assembly of the present invention;

FIG. 5 is a perspective view of the clamping block body except the inner skin of the present invention;

FIG. 6 is a perspective view of the clamping block except the inner skin of the present invention;

fig. 7 is a three-dimensional view of the inner skin removing frame of the present invention.

Detailed Description

The invention will be further described with reference to examples of embodiments shown in the drawings.

As shown in fig. 1 to 7, the endothelium removing device for preparing before welding the mini sas interface includes an endothelium removing frame 79, an endothelium removing assembly 78, an endothelium removing opening and closing mechanism 71 for driving the endothelium removing assembly 78 to open or close, and a transverse endothelium removing driving mechanism 72 for driving the endothelium removing opening and closing mechanism 71 to move towards or away from the direction of the core wire, wherein the direction towards or away from the direction of the core wire is the front-back direction, the core wire is located at the front side of the transverse endothelium removing driving mechanism 72, and the transverse endothelium removing driving mechanism 72 is mounted on the endothelium removing frame 79.

The inner skin removing rack 79 comprises an inner skin removing box body 791, an inner skin removing mounting component 792 which is arranged on the inner skin removing box body 791 and is arranged on the left side and the right side of the inner skin removing box body 792, an inner skin removing locking plate 798 which is used for connecting two adjacent inner skin removing box bodies 791, and a plurality of universal rollers 793 and locking supporting legs 790 which are arranged on the lower end face of the inner skin removing box body 791, wherein the two adjacent inner skin removing box bodies 791 are detachably connected through the inner skin removing mounting component 792. The inner skin removing mounting assembly 792 comprises an inner skin removing guide plate 794 arranged on the left side edge of the upper end surface of the inner skin removing box 791, an inner skin removing guide wheel 795 arranged on the right side edge of the upper end surface of the inner skin removing box 791 and protruding out of the right side surface of the inner skin removing box 791, and inner skin removing connecting plates 799 fixedly arranged on the rear edge of the upper end surface of the inner skin removing box 791, wherein the inner skin removing locking plate 798 is connected between every two adjacent inner skin removing connecting plates 799 through bolt assemblies, and a plurality of inner skin removing guide wheels 795 are arranged in the front-back direction. The right side edge of the upper end surface of the inner skin removing box body 791 is provided with a right side plate 796 of the inner skin removing, and the inner skin removing guide wheel 795 is arranged on the right side plate 796 of the inner skin removing. The inner skin removing guide plate 794 is fixed on the left side edge of the upper end face of the inner skin removing box 791 and forms a long strip-shaped guide wheel fixing space 797 with the upper end face of the inner skin removing box 791, and the inner skin removing guide wheel 795 is arranged in the guide wheel fixing space 797.

The de-endothelialization assembly 78 comprises a de-endothelialization clamping block 73 with opposite clamping surfaces, and a resilient de-endothelialization shim 731 mounted on the opposite end surfaces of the de-endothelialization clamping block.

The endothelium-removing opening and closing mechanism 71 comprises an endothelium-removing opening and closing frame 711, an upper endothelium-removing clamping block mounting seat 712 moving up and down along the endothelium-removing opening and closing frame 711, a lower endothelium-removing clamping block mounting seat 713, and an endothelium-removing opening and closing driving assembly 714 driving the upper endothelium-removing clamping block mounting seat 712 and the lower endothelium-removing clamping block mounting seat 713 to independently move up and down. The endothelium-removing opening and closing driving assembly 714 comprises two endothelium-removing opening and closing motors 7141 fixed in an endothelium-removing opening and closing frame 711, an endothelium-removing screw rod assembly respectively in transmission connection with the endothelium-removing opening and closing motors 7141, a first endothelium-removing sliding block 7142 and a second endothelium-removing sliding block 7143 which are slidably connected in the endothelium-removing opening and closing frame 711 and respectively in fixed connection with an endothelium-removing transmission nut of the endothelium-removing screw rod assembly, the two endothelium-removing screw rod assemblies are arranged in front and back positions, the first endothelium-removing sliding block 7142 is positioned above the second endothelium-removing sliding block 7143, the screw rod of the endothelium-removing screw rod assembly positioned at the front side is a first endothelium-removing screw rod 7144, the first endothelium-removing transmission nut is a first endothelium-removing transmission nut 7146, the other screw rod of the endothelium-removing screw rod assembly is a second endothelium-removing screw rod 7145, the endothelium-removing transmission nut is a second endothelium-removing transmission nut 7147, the first endothelium-removing sliding block 7142 and the endothelium-removing second sliding block 7143 are respectively fixed on the first endothelium-removing, except that the inner skin second sliding block 7143 is provided with an inner skin through hole 7148, except that the inner skin first screw rod 7144 penetrates through the inner skin through hole 7148, the upper inner skin clamping block mounting seat 712 is fixedly mounted on the part except the inner skin first sliding block 7142 extending out of the inner skin opening and closing frame 711, and the lower inner skin clamping block mounting seat 713 is fixedly mounted on the part except the inner skin second sliding block 7143 extending out of the inner skin opening and closing frame 711. The inner skin removing opening and closing frame 711 comprises an inner skin removing opening and closing upper plate 7111, an inner skin removing opening and closing lower plate 7112 and a plurality of inner skin removing opening and closing side plates connected between the inner skin removing opening and closing upper plate 7111 and the inner skin removing opening and closing lower plate 7112, the inner skin removing opening and closing side plates positioned on the front side of the inner skin removing first screw rod 7144 are front inner skin removing opening and closing side plates 7113, the inner skin removing opening and closing side plates positioned on the left side and the right side of the inner skin removing first screw rod 7144 are left and right side inner skin removing opening and closing side plates 7117, an inner skin removing opening and closing sliding rail 7114 arranged in parallel with the inner skin removing first screw rod 7144 is arranged on the front inner skin removing opening and closing side plates 7113, and the upper inner skin. The inner skin removing opening and closing frame 711 is provided with a plurality of inner skin removing opening and closing photoelectric switch induction pieces 7115, the upper inner skin removing clamping block mounting seat 712 and the lower inner skin removing clamping block mounting seat 713 are respectively provided with an inner skin removing opening and closing photoelectric switch trigger piece 7116, and the upper part and the lower part of the inner skin removing opening and closing photoelectric switch induction pieces 7115 are arranged on the inner skin removing opening and closing frame 711. The two internal-skin-removing clamping blocks 73 are respectively and fixedly arranged on the upper internal-skin-removing clamping block mounting seat 712 and the lower internal-skin-removing clamping block mounting seat 713.

The endothelium removing transverse driving mechanism 72 comprises an endothelium removing transverse base 721 fixed on the endothelium removing rack 79, an endothelium removing transverse driving slide rail 722 arranged on the endothelium removing transverse base 721 and arranged along the front-back direction, an endothelium removing transverse slide block 723 connected to the endothelium removing transverse driving slide rail 722 in a sliding manner, an endothelium removing transverse bottom plate 724 fixed on the endothelium removing transverse slide block 723, and an endothelium removing transverse driving component arranged on the endothelium removing transverse base 721 and used for driving the endothelium removing transverse bottom plate 724 to move along the front-back direction, wherein the endothelium removing opening and closing mechanism 71 is fixedly arranged on the endothelium removing transverse bottom plate 724. The endothelium removing transverse driving assembly comprises an endothelium removing transverse driving motor 725 fixedly installed on the endothelium removing transverse bottom plate 724, an endothelium removing transverse screw rod 726 coaxially and fixedly connected with the output end of the endothelium removing transverse driving motor 725, and an endothelium removing transverse driving nut 727 in threaded connection with the endothelium removing transverse screw rod 726, wherein the endothelium removing transverse driving nut 727 is fixedly connected to the lower end face of the endothelium removing transverse bottom plate 724. An endothelium-removing transverse photoelectric switch trigger 728 is arranged on the side of the endothelium-removing transverse bottom plate 724, and an endothelium-removing transverse photoelectric switch induction part 729 is arranged on the side of the endothelium-removing transverse driving sliding rail 722 and on the stroke path of the endothelium-removing transverse photoelectric switch trigger 728.

The principle of the utility model is as follows: guiding the inner skin removing guide wheel to be arranged in the guide wheel fixing space by utilizing a guide wheel fixing space formed between the inner skin removing guide plate and the inner skin removing box body, then realizing the fixed connection of two adjacent inner skin removing devices by utilizing an inner skin removing locking plate, and completing the assembly of the inner skin removing devices after falling down locking supporting legs, then starting an inner skin removing device in an initial state that an inner skin removing transverse driving mechanism withdraws the inner skin removing opening and closing mechanism and then backwards, meanwhile, an upper inner skin removing clamping block mounting seat and a lower inner skin removing clamping block mounting seat are in an opening state, namely, the inner skin removing clamping blocks with opposite knife edges are in a far away state, starting an inner skin removing transverse driving assembly, sending the inner skin removing opening and closing mechanism to an inner skin removing station, conveying a core wire 0 to be conveyed to the position between the inner skin removing clamping blocks by a conveying device (not the key point of the utility model, and no repeated description is needed), and then driving a first, and the inner skin removing second sliding block moves upwards until the inner skin removing pads clamp the aluminum foil cut off on each core wire through the upper cutting process, and then the inner skin removing transverse driving mechanism retracts the inner skin removing opening and closing mechanism to enable the cut inner skin to fall off from the core wires.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable people skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims (10)

1. The utility model provides a remove endothelial equipment for preparation before MINISAS interface welds, its includes except that endothelial frame, remove the endothelial subassembly, be used for driving remove the endothelial subassembly open and shut the mechanism, be used for driving remove the endothelial lateral drive mechanism that removes that endothelial opening and shutting mechanism orientation or deviating from the movement of heart yearn direction, the orientation or deviate from the direction of heart yearn movement is fore-and-aft direction, the heart yearn is located remove the front side of endothelial lateral drive mechanism, remove endothelial lateral drive mechanism install in remove the endothelial frame, its characterized in that: the inner skin removing opening and closing mechanism comprises an inner skin removing opening and closing frame, an upper inner skin removing clamping block mounting seat, a lower inner skin removing clamping block mounting seat and an inner skin removing opening and closing driving component, wherein the upper inner skin removing clamping block mounting seat moves up and down along the inner skin removing opening and closing frame, the inner skin removing opening and closing driving component drives the upper inner skin removing clamping block mounting seat and the lower inner skin removing clamping block mounting seat to independently move up and down, the endothelium removing component comprises an endothelium removing clamping block with opposite clamping surfaces, and an elastic endothelium removing gasket arranged on two opposite end surfaces of the endothelium removing clamping block, remove the endothelial frame including removing the endothelial box, install in remove on the endothelial box and install on it and control the side remove endothelial installation component, be used for connecting two adjacent remove the endothelial box remove endothelial lockplate and a plurality of install in remove the universal gyro wheel on the terminal surface under the endothelial box, adjacent two remove the endothelial box and can dismantle the connection through removing endothelial installation component.

2. The de-endothelialization apparatus for pre-weld preparation of a MINISAS interface of claim 1, wherein: the inner skin removing installation assembly comprises an inner skin removing guide plate arranged on the left side edge of the upper end face of the inner skin removing box body and an inner skin removing guide wheel arranged on the right side edge of the upper end face of the inner skin removing box body and protruding out of the right side face of the inner skin removing box body, and the inner skin removing guide wheels are multiple and arranged in the front-back direction.

3. The de-endothelialization apparatus for pre-weld preparation of a MINISAS interface of claim 2, wherein: the inner skin removing guide wheel is arranged on the inner skin removing right side plate.

4. The de-endothelialization apparatus for pre-weld preparation of a MINISAS interface of claim 2, wherein: except that the endothelial deflector is fixed in except that endothelial box up end left side edge and with except that forming rectangular form leading wheel fixed space between the endothelial box up end, except that the endothelial leading wheel locates in the leading wheel fixed space.

5. The de-endothelialization apparatus for pre-weld preparation of a MINISAS interface of claim 1, wherein: remove endothelial drive assembly that opens and shuts including being fixed in remove endothelial in the endothelial open and shut frame two remove endothelial open and shut motor, respectively with remove endothelial lead screw subassembly, sliding connection in remove endothelial open and shut in the frame and respectively with remove endothelial drive nut looks fixed connection except that endothelial first slider of endothelial and remove endothelial second slider, two remove endothelial lead screw subassembly front and back position setting, it is located to remove endothelial first slider it is in to remove endothelial second slider's top, be located the front side the lead screw that removes endothelial lead screw subassembly is for removing endothelial first lead screw, and it removes endothelial drive nut for removing endothelial first drive nut, another remove the lead screw of endothelial lead screw subassembly for removing endothelial second lead screw, it removes endothelial drive nut for removing endothelial second drive nut, remove endothelial first slider with remove endothelial second slider and be fixed in respectively remove endothelial first drive nut with remove endothelial first drive nut and remove endothelial first drive nut And on the two transmission nuts, except for the inner skin through holes, the inner skin first screw rod penetrates through the inner skin through holes, the upper inner skin clamping block mounting seat is fixedly mounted on the part, except for the inner skin first slide block, extending out of the inner skin opening and closing frame, and the lower inner skin clamping block mounting seat is fixedly mounted on the part, except for the inner skin second slide block, extending out of the inner skin opening and closing frame.

6. The de-endothelialization apparatus for pre-weld preparation of a MINISAS interface of claim 5, wherein: remove the endothelial frame that opens and shuts including removing the endothelial upper plate that opens and shuts, remove the endothelial hypoplastron and polylith connect in remove the endothelial curb plate that opens and shuts between the endothelial upper plate that opens and shuts and removing the endothelial, be located remove the first lead screw front side of endothelial remove the endothelial curb plate that opens and shuts for the front-porch that removes the endothelial curb plate that opens and shuts, preceding remove be equipped with on the endothelial curb plate that opens and shuts with remove the endothelial slide rail that opens and shuts that removes the endothelial parallel arrangement that removes, on remove the endothelial clamp block mount pad, down remove the endothelial clamp block mount pad respectively sliding connection in remove on the endothelial slide rail that opens and shuts.

7. The de-endothelialization apparatus for pre-weld preparation of a MINISAS interface of claim 1, wherein: the device is characterized in that a plurality of inner skin removing opening and closing photoelectric switch induction pieces are arranged on the inner skin removing opening and closing frame, the inner skin removing clamping block mounting seat is arranged on the upper portion, the inner skin removing clamping block mounting seat is arranged on the lower portion, the inner skin removing opening and closing photoelectric switch trigger pieces are respectively arranged on the inner skin removing clamping block mounting seat, and the inner skin removing opening and closing photoelectric switch induction pieces are arranged on the inner skin removing opening and closing frame in a vertical position.

8. The de-endothelialization apparatus for pre-weld preparation of a MINISAS interface of claim 1, wherein: the inner skin removing transverse driving mechanism comprises an inner skin removing transverse base fixed on the inner skin removing rack, an inner skin removing transverse driving sliding rail arranged on the inner skin removing transverse base and arranged along the front-back direction, an inner skin removing transverse sliding block connected to the inner skin removing transverse driving sliding rail in a sliding mode, an inner skin removing transverse bottom plate fixed on the inner skin removing transverse sliding block, and an inner skin removing transverse driving assembly arranged on the inner skin removing transverse base and used for driving the inner skin removing transverse bottom plate to move along the front-back direction, wherein the inner skin removing opening and closing mechanism is fixedly arranged on the inner skin removing transverse bottom plate.

9. The de-endothelialization apparatus for pre-weld preparation of a MINISAS interface of claim 8, wherein: the inner skin removing transverse driving assembly comprises an inner skin removing transverse driving motor fixedly installed on the inner skin removing transverse bottom plate, an inner skin removing transverse screw rod coaxially and fixedly connected with the output end of the inner skin removing transverse driving motor, and an inner skin removing transverse transmission nut in threaded connection with the inner skin removing transverse screw rod, and the inner skin removing transverse transmission nut is fixedly connected to the lower end face of the inner skin removing transverse bottom plate.

10. The de-endothelialization apparatus for pre-weld preparation of a MINISAS interface of claim 9, wherein: the lateral side of the inner skin removing transverse bottom plate is provided with an inner skin removing transverse photoelectric switch trigger, and the lateral side of the inner skin removing transverse driving slide rail is provided with an inner skin removing transverse photoelectric switch induction piece on a stroke path of the inner skin removing transverse photoelectric switch trigger.

Images