CN202668238U - Chip collecting device and forming machine comprising the same - Google Patents

Abstract

The utility model discloses a chip collecting device. The chip collecting device comprises a chip containing device, and the chip containing device comprises a lifting frame and a chip containing groove, wherein the lifting frame is used to elevate or lower the chip containing groove, and the chip containing groove comprises an opening part, a shielding part and a chip containing part. The shielding part is located between the opening part and the chip containing part and used to surround a to-be-processed workpiece, and the chip containing part is used for containing chips. According to a forming machine provided by the utility model, due to the fact that in the processing process, the chip containing groove can be elevated to completely surround the to-be-machined workpiece, the chips which splash around can be collected in the chip containing groove, and collection of the chips is facilitated. Meanwhile, when a jig is replaced or moved, the chip containing groove can be lowered, and therefore the jig can be conveniently replaced. In addition, the utility model further provides the forming machine comprising the chip collecting device.

Description

Chip collecting device and have the forming machine of this chip collecting device

Technical field

The utility model relates to manufacture field, relates in particular to a kind of chip collecting device and has the forming machine of this chip collecting device.

Background technology

In the processing of some metals because smear metal is expensive, so the recovery that smear metal need to be tried one's best.And the smear metal of existing machining tool processing is collected the smear metal of dispersing everywhere normally after processing again.But this smear metal distribution is wider, easily loss, and inconvenience is collected.

The utility model content

The utility model embodiment technical problem to be solved is, a kind of chip collecting device is provided and has the forming machine of this chip collecting device, is used for collecting smear metal man-hour adding, and prevents the smear metal loss, and is convenient to smear metal and collects.

A kind of chip collecting device, described chip collecting device comprises holding considers device to be worth doing, described appearance bits device comprises crane and chip pocket, described crane is used for raising or reducing described chip pocket, described chip pocket comprises peristome, occlusion part and holds bits section, described occlusion part is between described peristome and described appearance bits section, and described occlusion part is used for surrounding workpiece to be processed, and described appearance bits section is used for the carrying smear metal.

Wherein, described crane comprises the first guidance set, the second guidance set and the screw thread lowering or hoisting gear that is the angular position mode and arranges, described the first guidance set, the second guidance set are used for keeping described chip pocket balance, and described screw thread lowering or hoisting gear is used for driving described chip pocket lifting.

Wherein, described the first guidance set comprises the first fairlead and the first lead, described the first lead one end is slidingly connected in described the first fairlead, the described first lead other end is connected in described chip pocket, described the second guidance set comprises the second fairlead and the second lead, described the second lead one end is slidingly connected in described the second fairlead, the described second lead other end is connected in described chip pocket, described screw thread lowering or hoisting gear comprises screw rod and threaded block, described screw rod one end is bolted in the described threaded block, and the described screw rod other end is connected in described chip pocket.

Wherein, described occlusion part offers one for the breach of accommodating anchor clamps.

Wherein, described chip collecting device also comprises the smear metal transfer device, described smear metal transfer device comprises mechanical arm, holds bits cup and collecting box, described appearance bits cup is used for being sheathed on workpiece to be processed and collects smear metal, the described appearance bits of described mechanical arm clamping cup, described mechanical arm are used for described appearance bits cup is transferred in the described collecting box.

Wherein, described appearance bits cup comprises inner sleeve, outer sleeve and handle part, it is outside that described outer sleeve is sheathed on described inner sleeve, one end opening of described outer sleeve, the other end and described inner sleeve are connected to form the holding part of splendid attire smear metal, described outer sleeve is used for surrounding workpiece to be processed, described inner sleeve is used for being sheathed on the anchor clamps for clamping workpiece to be processed, closely cooperate with anchor clamps, described inner sleeve one end is provided with the opening that exposes described anchor clamps for part, the other end of described inner sleeve and the other end of described outer sleeve are connected to form described holding part, and it is outside that described handle part is fixed in described appearance bits cup, matches with described mechanical arm.

Wherein, described collecting box comprises a plurality of collecting chambers, and described each collecting chamber is respectively applied to accept different borings.

A kind of forming machine, it comprises base and above-mentioned chip collecting device, described crane is connected between described base and the described chip pocket.

Wherein, described forming machine also comprises triaxial movement platform and main shaft, described triaxial movement platform is arranged at described forming machine top, described triaxial movement platform drives described motion of main shaft, described triaxial movement platform comprises the first rectangular frame, the second rectangular frame and the 3rd rectangular frame, described the second rectangular frame and the 3rd rectangular frame all are nested in described the first rectangular frame, described the second rectangular frame is slidingly connected on described the first rectangular frame along first direction, described first direction is parallel to the parallel plane of described the first rectangular frame, described the 3rd rectangular frame is slidingly connected on described the second rectangular frame along second direction, described second direction is parallel to the parallel plane of described the first rectangular frame, and vertical with described first direction, described main shaft is slidingly connected on described the 3rd rectangular frame along third direction, and described third direction is simultaneously perpendicular to described first direction and second direction.

Wherein, described the second rectangular frame adopts two slide rails that are parallel to each other to be slidingly connected to described the first rectangular frame, described the 3rd rectangular frame adopts two slide rails that are parallel to each other to be slidingly connected on described the second rectangular frame, and described main shaft adopts two slide rails that are parallel to each other to be slidingly connected on described the 3rd rectangular frame.

The forming machine that provides in the utility model rises chip pocket owing to can add man-hour, workpiece to be processed is surrounded fully, thereby the smear metal of splashing everywhere all can be concentrated in the chip pocket, convenient collection smear metal.Simultaneously, when clamp-replacing or movement, described chip pocket can reduce, thereby can be convenient for changing anchor clamps.

In addition, described appearance bits cup can concentrate on smear metal less scope, and can transfer in the described collecting box by described mechanical arm, thereby avoids in operating process operating personnel's contact.

Described collecting box is accepted respectively different borings by different collecting chambers, thereby is convenient to the management of smear metal.

By the triaxial movement platform of rectangular frame design, rigidity is high, and precision is high during motion.Simultaneously owing to being frame structure, so can reduce quality.

Because described the second rectangular frame and the 3rd rectangular frame all are nested in described the first rectangular frame, so can so that compact conformation, satisfy the demand of the large stroke of small size.

Description of drawings

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, the below will do to introduce simply to the accompanying drawing of required use in embodiment or the description of the Prior Art, apparently, accompanying drawing in the following describes only is embodiment more of the present utility model, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain according to these accompanying drawings other accompanying drawing.

Fig. 1 is the schematic diagram of the forming machine that provides of the utility model;

Fig. 2 is the chip pocket propradation schematic diagram of the forming machine of Fig. 1;

Fig. 3 is the schematic diagram that the appearance of the forming machine of Fig. 1 is considered cup to be worth doing;

Fig. 4 is that the appearance bits cup of Fig. 3 is along the cutaway view of IV-IV line gained;

Fig. 5 is the schematic diagram of another state of the forming machine of Fig. 1;

Fig. 6 is the decomposing schematic representation of the triaxial movement platform of Fig. 5;

Fig. 7 is the combination schematic diagram of the triaxial movement platform of Fig. 5.

The specific embodiment

Below in conjunction with the accompanying drawing among the utility model embodiment, the technical scheme among the utility model embodiment is clearly and completely described, obviously, described embodiment only is the utility model part embodiment, rather than whole embodiment.Based on the embodiment in the utility model, those of ordinary skills are not making the every other embodiment that obtains under the creative work prerequisite, all belong to the scope of the utility model protection.

The forming machine that provides in the utility model rises chip pocket owing to can add man-hour, workpiece to be processed is surrounded fully, thereby the smear metal of splashing everywhere all can be concentrated in the chip pocket, convenient collection smear metal.Simultaneously, when clamp-replacing or movement, described chip pocket can reduce, thereby can be convenient for changing anchor clamps.

See also Fig. 1 and Fig. 2, the forming machine 100 that the utility model provides comprises base 10, fuselage 20, holds bits device 30, smear metal transfer device 40, triaxial movement platform 50, main shaft 60, anchor clamps 70, loading plate 80 and cutter 90.Described appearance bits device 30 and the smear metal transfer device 40 common chip collecting devices that form.

Described fuselage 20 is fixed on the described base 10, and in the present embodiment, described fuselage 20 and described base 10 are one-body molded.Described appearance bits device 30 is installed on the described base 10, and can relatively described base 10 lifting moving.Described anchor clamps 70 are installed on described fuselage 20 middle parts, are positioned at described appearance bits device 30 tops.Described triaxial movement platform 50 is installed on described fuselage 20 tops, is used for driving described main shaft 60 motions.Described main shaft 60 is positioned at described anchor clamps 70 tops.

Described appearance bits device 30 comprises crane 31 and chip pocket 32.Described crane 31 is connected between described base 10 and the described chip pocket 32, is used for raising or reducing described chip pocket 32.In the present embodiment, described crane 31 comprises the first guidance set 310, the second guidance set 311 and the screw thread lowering or hoisting gear 312 that is the angular position mode and arranges.Described the first guidance set 310, the second guidance set 311 are used for keeping described chip pocket 32 balances, and described screw thread lowering or hoisting gear 312 is used for driving described chip pocket 32 liftings.

Described the first guidance set 310 comprises the first fairlead 310a and the first lead 310b.Described the first fairlead 310a is fixed on the described base 10, and described the first lead 310b one end is slidingly connected in described the first fairlead 310a, and the other end is connected in described chip pocket 32.Described the second guidance set 311 comprises the second fairlead 311a and the second lead 311b.Described the second fairlead 311a is fixed on the described base 10, and described the second lead 311b one end is slidingly connected in described the second fairlead 311a, and the other end is connected in described chip pocket 32.Described screw thread lowering or hoisting gear 312 comprises screw rod 312a and threaded block 312b.Described threaded block 312b is fixed on the described base 10, and described screw rod 312a one end is bolted in the described threaded block 312b, and the other end is connected in described chip pocket 32.Certainly, in other embodiments, described crane 31 can also adopt hydraulic column, four bar structures, gear train assembly or gear/rack transmission etc., and other can realize the transmission device of lifting.

Described chip pocket 32 comprises peristome 320, the occlusion part 321 that is oppositely arranged and holds bits section 322.Described occlusion part 321 is between described peristome 320 and described appearance bits section 322.Described occlusion part 321 is used for accommodating described anchor clamps 70 and workpiece (not shown) to be processed.In the present embodiment, the rectangle framework that described occlusion part 321 is surrounded by four rectangular side wall, described occlusion part 321 is also offered a breach 321a, is used for described anchor clamps 70 are contained in the described occlusion part 321.Certainly, in other embodiments, described occlusion part 321 also can not offered described breach 321a, and the support section 71 of described anchor clamps 70 is designed to N-shaped.Described appearance bits section 322 is used for the carrying smear metal.

Described appearance bits section 322 is the cone bucket shape, so that concentrate smear metal.Certainly, in other embodiments, described appearance bits section 322 can also be other shapes such as spherical groove, dovetail groove or flat-bottom slot.Described appearance bits section 322 is connected with described crane 31.

Described forming machine 100 adds man-hour, rises chip pocket 32, workpiece to be processed is surrounded fully, thereby the smear metal of splashing everywhere all can be concentrated in the chip pocket 32, convenient collection smear metal.When described forming machine 100 is changed described anchor clamps 70, reduce described chip pocket 32, thereby can be convenient for changing described anchor clamps 70.

Described smear metal transfer device 40 is used for shifting smear metal.Described smear metal transfer device 40 comprises mechanical arm 41, holds bits cup 42 and collecting box 43.Described mechanical arm 41 1 end mobile links are in described fuselage 20, and the other end connects described appearance bits cup 42.Described mechanical arm 41 is used for described appearance bits cup 42 is sheathed on the jaw 72 of described anchor clamps 70, and is used for described appearance bits cup 42 is transferred in the described collecting box 43.See also Fig. 3 to Fig. 4, described appearance bits cup 42 comprises inner sleeve 420, outer sleeve 421 and handle part 422, described outer sleeve 421 is sheathed on described inner sleeve 420 outsides, described outer sleeve 421 is cylinder barrel shaped, one end 421a opening of described outer sleeve 421, other end 421b and described inner sleeve 420 are connected to form the holding part 423 of splendid attire smear metal, and described outer sleeve 421 is used for surrounding described jaw 72 and workpiece to be processed, smear metal is concentrated in the less scope, namely in the described holding part 423.Described inner sleeve 420 is taper barrel, described inner sleeve 420 is used for being sheathed on the bottom of described jaw 72, closely cooperate with described jaw 72, the little openend 420a of described inner sleeve 420 offers be used to the opening that exposes described jaw 72, and the large openend 420b of described inner sleeve 420 and the other end 421b of described outer sleeve 421 are connected to form described holding part 423.Described handle part 422 is fixed in described appearance bits cup 42 outsides, is convenient to the described appearance bits of described mechanical arm 41 crawls cup 42.

Described collecting box 43 comprises four collecting chambers 430, and described four collecting chambers 430 are respectively applied to accept different borings.Certainly, in other embodiments, the quantity of described collecting chamber 430 also can be one or more.Described collecting chamber 430 locks by coded lock.Collecting chamber described in the figure 430 opens wide, and described collecting chamber 430 can also be installed self-acting valve, automatically opens when described mechanical arm 41 arrives when self-acting valve, puts into described appearance bits cup 42 rear autoshutdowns.

In other embodiments, described appearance bits device 30 and smear metal transfer device 40 also can put down to be used for other Digit Control Machine Tools.

See also Fig. 5 to Fig. 7, described triaxial movement platform 50 comprises the first rectangular frame 51, the second rectangular frame 52, the 3rd rectangular frame 53, the first drive unit 54, the second drive unit 55 and the 3rd drive unit 56.Described the first rectangular frame 51 is parallel to horizontal plane.Described the second rectangular frame 52 and the 3rd rectangular frame 53 vertically are nested in described the first rectangular frame 51.Described the first rectangular frame 51 is fixed in described fuselage 20 tops.Described the first rectangular frame 51 comprises end to end four the first brace summers 510,511,512 and 513.Described the first brace summer 510 is fixed in described fuselage 20 tops.Described the first brace summer 511,513 1 ends and described the first brace summer 510 are fixed in described fuselage 20 tops.Described the first brace summer 511,513 the other end and described the first brace summer 512 stretch out from described fuselage 20, are positioned at described anchor clamps 70 tops.

Described the first brace summer 511,513 is installed respectively two the first guide rail 511a and 513a that are parallel to each other.Described the first guide rail 511a and 513a are along the direction horizontal-extending away from described fuselage 20.Described the first drive unit 54 comprises the first motor 540 and the first leading screw 541.Described the first motor 540 is fixed on described the first brace summer 510.Described the first leading screw 541 1 ends are connected with described the first motor 540, and the other end of described the first leading screw 541 matches with a nut (not shown) of described the second rectangular frame 52.Described the first drive unit 54 drives described the second rectangular frame 52 and slides at described the first guide rail 511a and 513a.Certainly, in its other embodiments, described the first brace summer 511,513 also can replace described the first guide rail 511a and 513a by chute or ball are set.

Described the second rectangular frame 52 is slidingly connected on described the first rectangular frame 51 along first direction A (directions X that is equivalent to Digit Control Machine Tool), and described first direction A is parallel to the parallel plane of described the first rectangular frame 51.In the present embodiment, 52 horizontal slips of described the second rectangular frame are on described the first rectangular frame 51.Described the second rectangular frame 52 is realized being slidingly connected with the form of described the first rectangular frame 51 with rolling guide and slide block.Described the second rectangular frame 52 comprises the first main body 520 and the first sliding part 521.Described the first sliding part 521 is a horizontally disposed slide plate, and described the first main body 520 is one vertically to be connected in the rectangle frame of described the first sliding part 521 1 sides.Described the first main body 520 and the first sliding part 521 are one-body molded.Described the first sliding part 521 bottoms offer the first chute 521a that matches with described the first guide rail 511a and 513a.Described the first main body 520 comprises end to end four the second brace summer 520a, 520b, 520c and 520d.Described the second brace summer 520b, 520d are fixed in described the first sliding part 521.Certainly, in its other embodiments, also can be on described the first main body 520 described the first chute 521a of moulding.

Described the second brace summer 520a, 520c install respectively two the second guide rail 520e and 520f that are parallel to each other.Described the second guide rail 520e and 520f along continuous straight runs extend.Described the second drive unit 55 comprises the second motor 550 and the second leading screw 551.The two ends of described the second leading screw 551 are rotationally connected with on described the first sliding part 521 by two bearing block 521b.Described the second motor 550 is fixed on the bearing block 521b.One end of described the second leading screw 551 is rotated by described the second motor 550, and described the second leading screw 551 matches with the nut (not shown) of described the 3rd rectangular frame 53.Described the second drive unit 55 drives described the 3rd rectangular frame 53 and slides at described the second guide rail 520e and 520f.Certainly, in its other embodiments, described the second brace summer 520,522 also can replace described the second guide rail 520e and 520f by chute or ball are set.

Described the 3rd rectangular frame 53 is slidingly connected on described the second rectangular frame 52 along second direction B (Y-direction that is equivalent to Digit Control Machine Tool), and described second direction B is parallel to the parallel plane of described the first rectangular frame 51, and perpendicular to described first direction A.Described the 3rd rectangular frame 53 is realized being slidingly connected with the form of described the second rectangular frame 52 with rolling guide and slide block.Described the 3rd rectangular frame 53 comprises the second main body 530 and the second sliding part 531.Described the second main body 530 is a vertical rectangle frame.Described the second sliding part 531 comprises two the second chute 531a that match with described the second guide rail 520a and 522a.Described the second main body 530 comprises end to end four the 3rd brace summer 530a, 530b, 530c and 530d.Described the 3rd brace summer 530b, 530c are fixed in described the second sliding part 531.Certainly, in its other embodiments, described the 3rd rectangular frame 53 also can arrange connecting plate between described four the 3rd brace summer 530a, 530b, 530c and 530d.

Described the 3rd brace summer 530b, 530c install respectively two the 3rd guide rail 530e and 530f that are parallel to each other.Described three guide rail 530e and 530f vertically extend.Described the 3rd drive unit 56 comprises the 3rd motor 560 and the 3rd leading screw 561.Described the 3rd motor 560 is fixed on described the 3rd brace summer 530a.Described the 3rd leading screw 561 1 ends are connected with described the 3rd motor 560, and the other end of described the 3rd leading screw 561 is connected with described main shaft 60.Described the 3rd drive unit 56 drives described main shaft 60 and slides at described the 3rd guide rail 530e and 530f.Certainly, in its other embodiments, described the 3rd brace summer 530b, 530c also can replace described the 3rd guide rail 530e and 530f by chute or ball are set.

Described main shaft 60 is installed on the described loading plate 80.Described main shaft 60 is slidingly connected on described the 3rd rectangular frame 53 along third direction C (the Z direction that is equivalent to Digit Control Machine Tool), and described third direction C is simultaneously perpendicular to described first direction A and second direction B.Described main shaft 60 is realized being slidingly connected with the form of described the 3rd rectangular frame 53 with rolling guide and slide block.Offer the 3rd chute 51 that matches with described the 3rd guide rail 530e and 530 on the described loading plate 80.Still fix a nut (not shown) that cooperates with described the 3rd leading screw 561 on the described loading plate 80.Described loading plate 80 drives described main shaft 60 and moves up and down under the driving of described the 3rd leading screw 561.

Certainly, in other embodiments, described the first drive unit 54, the second drive unit 55 and the 3rd drive unit 56 also can drive described the second rectangular frame 52, described the 3rd rectangular frame 53 and described main shaft 60 by other modes such as line motors and move.Described triaxial movement platform 50 also can be used for other Digit Control Machine Tools.

Cutter 90 for the processing workpiece to be processed is installed on the described main shaft 60.

Described anchor clamps 70 are used for the clamping workpiece to be processed, and described anchor clamps 70 can be the angles such as chuck, bench vice.

The forming machine that provides in the utility model rises chip pocket owing to can add man-hour, workpiece to be processed is surrounded fully, thereby the smear metal of splashing everywhere all can be concentrated in the chip pocket, convenient collection smear metal.Simultaneously, when clamp-replacing or movement, described chip pocket can reduce, thereby can be convenient for changing anchor clamps.

In addition, described appearance bits cup can concentrate on smear metal less scope, and can transfer in the described collecting box by described mechanical arm, thereby avoids in operating process operating personnel's contact.

Described collecting box is accepted respectively different borings by different collecting chambers, thereby is convenient to the management of smear metal.

By the triaxial movement platform of rectangular frame design, rigidity is high, and precision is high during motion.Simultaneously owing to being frame structure, so can reduce quality.

Because described the second rectangular frame and the 3rd rectangular frame all are nested in described the first rectangular frame, so can so that compact conformation, satisfy the demand of the large stroke of small size.

Above disclosed only is a kind of preferred embodiment of the utility model, certainly can not limit with this interest field of the utility model, and the equivalent variations of therefore doing according to the utility model claim still belongs to the scope that the utility model is contained.

Claims (10)

1. chip collecting device, described chip collecting device comprises holding considers device to be worth doing, described appearance bits device comprises crane and chip pocket, described crane is used for raising or reducing described chip pocket, described chip pocket comprises peristome, occlusion part and holds bits section, described occlusion part is between described peristome and described appearance bits section, and described occlusion part is used for surrounding workpiece to be processed, and described appearance bits section is used for the carrying smear metal.

2. chip collecting device as claimed in claim 1, it is characterized in that, described crane comprises the first guidance set, the second guidance set and the screw thread lowering or hoisting gear that is the angular position mode and arranges, described the first guidance set, the second guidance set are used for keeping described chip pocket balance, and described screw thread lowering or hoisting gear is used for driving described chip pocket lifting.

3. chip collecting device as claimed in claim 2, it is characterized in that, described the first guidance set comprises the first fairlead and the first lead, described the first lead one end is slidingly connected in described the first fairlead, the described first lead other end is connected in described chip pocket, described the second guidance set comprises the second fairlead and the second lead, described the second lead one end is slidingly connected in described the second fairlead, the described second lead other end is connected in described chip pocket, described screw thread lowering or hoisting gear comprises screw rod and threaded block, described screw rod one end is bolted in the described threaded block, and the described screw rod other end is connected in described chip pocket.

4. chip collecting device as claimed in claim 1 is characterized in that, described occlusion part offers one for the breach of accommodating anchor clamps.

5. chip collecting device as claimed in claim 1, it is characterized in that, described chip collecting device also comprises the smear metal transfer device, described smear metal transfer device comprises mechanical arm, holds bits cup and collecting box, described appearance bits cup is used for being sheathed on workpiece to be processed and collects smear metal, the described appearance bits of described mechanical arm clamping cup, described mechanical arm are used for described appearance bits cup is transferred in the described collecting box.

6. chip collecting device as claimed in claim 5, it is characterized in that, described appearance bits cup comprises inner sleeve, outer sleeve and handle part, it is outside that described outer sleeve is sheathed on described inner sleeve, one end opening of described outer sleeve, the other end and described inner sleeve are connected to form the holding part of splendid attire smear metal, described outer sleeve is used for surrounding workpiece to be processed, described inner sleeve is used for being sheathed on the anchor clamps for clamping workpiece to be processed, closely cooperate with anchor clamps, described inner sleeve one end is provided with the opening that exposes described anchor clamps for part, the other end of described inner sleeve and the other end of described outer sleeve are connected to form described holding part, it is outside that described handle part is fixed in described appearance bits cup, matches with described mechanical arm.

7. chip collecting device as claimed in claim 1 is characterized in that, described collecting box comprises a plurality of collecting chambers, and described each collecting chamber is respectively applied to accept different borings.

8. forming machine, it comprises base and such as claim 1-7 chip collecting device as described in each, described crane is connected between described base and the described chip pocket.

9. forming machine as claimed in claim 8, it is characterized in that, described forming machine also comprises triaxial movement platform and main shaft, described triaxial movement platform is arranged at described forming machine top, described triaxial movement platform drives described motion of main shaft, described triaxial movement platform comprises the first rectangular frame, the second rectangular frame and the 3rd rectangular frame, described the second rectangular frame and the 3rd rectangular frame all are nested in described the first rectangular frame, described the second rectangular frame is slidingly connected on described the first rectangular frame along first direction, described first direction is parallel to the parallel plane of described the first rectangular frame, described the 3rd rectangular frame is slidingly connected on described the second rectangular frame along second direction, described second direction is parallel to the parallel plane of described the first rectangular frame, and vertical with described first direction, described main shaft is slidingly connected on described the 3rd rectangular frame along third direction, and described third direction is simultaneously perpendicular to described first direction and second direction.

10. forming machine as claimed in claim 9, it is characterized in that, described the second rectangular frame adopts two slide rails that are parallel to each other to be slidingly connected to described the first rectangular frame, described the 3rd rectangular frame adopts two slide rails that are parallel to each other to be slidingly connected on described the second rectangular frame, and described main shaft adopts two slide rails that are parallel to each other to be slidingly connected on described the 3rd rectangular frame.

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