阅读说明：本技术 一种集装箱及其加工工艺 (Container and processing technology thereof ) 是由 姚惠红 于 2020-11-13 设计创作，主要内容包括：本发明公开了一种集装箱,包括底板、顶板；所述底板和所述顶板通过两个侧板进行连接,所述侧板的一侧设有翻折边,所述翻折边与所述底板相互连接。(The invention discloses a container, which comprises a bottom plate and a top plate; the bottom plate and the top plate are connected through two side plates, one side of each side plate is provided with a turning edge, and the turning edges are connected with the bottom plate.)

1. A container comprising a floor 1, a roof 11; the method is characterized in that: the bottom plate and the top plate are connected through two side plates 12, one side of each side plate is provided with a flanging edge 13, and the flanging edges are connected with the bottom plate.

2. The container of claim 1, wherein: the rear cover plate 14 is arranged on one side of the bottom plate, and the two rotating doors 15 are arranged on the other side of the bottom plate; the two rotating doors are respectively in rotatable connection with the two side plates.

3. A process for manufacturing a container according to any one of claims 1-2, characterized in that: the method comprises the following steps:

1) cutting and forming the container plate;

2) transporting the formed plate;

3) fixedly connecting the turned edge of the side plate with the bottom plate by using punching equipment;

4) connecting the top plate and the side plate by welding;

5) installing a rear cover plate and two rotating doors;

the punching equipment in the step 3 comprises two rolling wheels 2, a rolling belt 21 sleeved on the two rolling wheels, a plurality of through holes 22 arranged on the rolling belt, a driving rod 23 used for connecting the two rolling wheels, a supporting frame 24 arranged on the driving rod, a drilling device 3 arranged on the supporting frame, a plurality of drilling auxiliary devices 4 arranged on the rolling belt, a fixing device 5 arranged on the supporting frame, and a plurality of coating devices 6 arranged on the rolling belt; the drilling device comprises a first driving piece 31 arranged on the supporting frame, a second driving piece 32 arranged on the first driving piece, a drilling shaft 33 arranged on the second driving piece, two first telescopic rods 34 arranged on two sides of the second driving piece, and two first convex rings 35 respectively arranged on the two first telescopic rods; the drilling auxiliary devices are identical in structure and symmetrically arranged, the coating devices are identical in structure and symmetrically arranged, the drilling shafts and the through holes are correspondingly arranged, and springs are arranged in the first telescopic rods; when the flanging edge of the side plate and the bottom plate need to be fixed, the rolling wheel is rotated to drive the rolling belt to rotate, the drilling shaft is moved to a position needing drilling, then the first driving part is started to drive the second driving part and the drilling shaft to move downwards, when the drilling shaft moves downwards and penetrates through the through hole to abut against the surface of the flanging edge, the second driving part is started to drive the drilling shaft to rotate, the first driving part is matched to drive the drilling shaft to move downwards, and then the flanging edge and the bottom plate are drilled through the drilling shaft.

4. The process of claim 3, wherein: the drilling auxiliary device 4 comprises a first fixed seat 41 arranged on the rolling belt, a rotating ring 42 arranged on the fixed seat and two cleaning assemblies arranged on the rotating ring; the cleaning assembly comprises a moving frame 43 arranged on the moving ring, a first elastic piece 44 used for connecting the moving frame and the moving ring, a cleaning piece 45 arranged on the moving frame, a second telescopic rod 46 arranged on the first fixed seat, a driving shaft 47 arranged in the second telescopic rod, a driving groove 48 arranged on the first fixed seat, a gear 49 arranged on the first fixed seat and a driving hole 40 arranged on the gear; the first fixed seat is arranged in an annular structure, the rotating ring can rotate relative to the first fixed seat, the two cleaning assemblies are identical in structure and symmetrically arranged, the moving frame can move relative to the moving ring, one side of the moving frame is in an arc-shaped structure, a spring is arranged in the second telescopic rod, a driving shaft and the driving hole are arranged in a matched mode, the driving shaft can move relative to the driving groove, the gear can rotate relative to the first fixed seat, and the gear and the moving ring are arranged in a matched mode; in the process of moving the drilling shaft downwards, the first telescopic rod moves downwards along with the second driving piece, when the first telescopic rod moves downwards and contacts the arc-shaped structure of the moving frame, the first telescopic rod pushes the moving frame in the process of continuing moving downwards so that the moving frame moves relative to the moving ring, so that the moving frame drives the cleaning piece to move towards the position of the drilling shaft and the cleaning piece is attached to the side wall of the drilling shaft, then the first telescopic rod continues to move downwards and contacts the second telescopic rod, the second telescopic rod is extruded through the first telescopic rod, when the second telescopic rod is contracted, the driving shaft moves downward along the driving groove, and then the driving shaft and the gear come into contact with each other, and the gear is driven to rotate by the driving shaft, and then drive the shift ring through the gear and rotate to drive through the shift ring and remove frame and clearance piece and rotate.

5. The process of claim 4, wherein: the drilling auxiliary device 4 further comprises two scraping components arranged on the first fixed seat; the scraping component comprises a first transmission belt 401 arranged on the first fixed seat, a shifting sheet 402 arranged on the first transmission belt, a scraping plate 403 arranged on one side of the cleaning piece, and a connecting line 404 for connecting the scraping plate and the first transmission belt; the two scraping components and the two cleaning components are arranged correspondingly, the two scraping components have the same structure and are symmetrically arranged, and the first transmission belt can rotate relative to the first fixed seat; when first telescopic link lapse, first bulge loop on the first telescopic link can contact the plectrum, first telescopic link promotes the plectrum afterwards and drives first drive belt and rotate, and then through connecting wire pulling scraper blade, clearance piece removes and plugs up the position of scraper blade lapse to drilling axle department afterwards, when first telescopic link upwards resets, clearance piece can reset under the drive of removing the frame, the scraper blade moves down and carries out the scraper blade to the clearance piece under the effect of self gravity afterwards.

6. The process of claim 5, wherein: the drilling auxiliary device 4 further comprises two guide assemblies arranged on the first fixed seat; the guide device comprises a guide block 405 arranged on the first transmission belt, a second transmission belt 406 arranged on the first fixed seat, a guide groove 407 arranged on the second transmission belt, a push plate 408 arranged on the second transmission belt, a guide frame 409 arranged on one side of the push plate, a second elastic member 410 for connecting the guide frame and the push plate, a guide roller 411 arranged on the guide frame, and two guide wheels 412 arranged on the guide roller; the two guide assemblies are identical in structure and symmetrically arranged, the two guide assemblies and the two scraping assemblies are correspondingly arranged, the guide blocks and the guide grooves are arranged in a matched mode, and the guide rollers can rotate relative to the guide frame; when first drive belt rotated, can drive the second drive belt through the cooperation of guide block and guiding groove and rotate to drive the direction of leading frame to the second driving piece through the push pedal and remove, the leading wheel contacts the lateral wall of second driving piece afterwards, and drives leading wheel and guide roll at the in-process that the second driving piece moves down and rotate.

7. The process of claim 6, wherein: the guide assembly further comprises a sealing element 413 for connecting the two guide wheels, a plurality of vent grooves 414 arranged on the guide roller, two third telescopic rods 415 arranged on two sides of the guide roller, two sliding blocks 416 respectively arranged at one end of the two third telescopic rods, a plurality of fixing holes 417 respectively arranged on the two third telescopic rods, two fixing lugs 418 respectively arranged on the two third telescopic rods, two sliding rails 419 respectively used for connecting the two sliding blocks and the first fixing seat, two limit buckles 420 respectively arranged on the two sliding rails, and two fourth telescopic rods 421 respectively arranged on the two sliding blocks; the third telescopic rod and the fourth telescopic rod are arranged in a matched mode, the sliding block can move relative to the sliding rail, the fixing lug and the fixing hole are arranged in a matched mode, the third telescopic rod can rotate relative to the guide roller, the third telescopic rod can rotate relative to the sliding block, and the fourth telescopic rod and the limiting buckle are arranged in a matched mode; when the laminating of leading wheel one side was on the second driving piece lateral wall, the third telescopic link can drive the slider and remove to the other end of slide rail along the slide rail, and the second driving piece can extrude the sealing member afterwards, with the gas between sealing member and the guide roll along the air channel crowded in the fourth telescopic link on the slider, after the extension of fourth telescopic link, the one end of fourth telescopic link can pass spacing knot and carry on spacingly through the position cooperation of fourth telescopic link and spacing knot to the guide roll.

8. The process of claim 1, wherein: the drilling auxiliary device 4 further comprises two eliminating assemblies arranged on the first fixed seat; the eliminating assembly comprises a third transmission belt 422 arranged on the first fixed seat, a first scraping block 423 arranged on the third transmission belt, a second scraping block 424 arranged on the third transmission belt, a third scraping block 425 arranged on the third transmission belt, a support rod 426 arranged on the first fixed seat, a rotating frame 427 arranged on the support rod, a connecting shaft 428 used for connecting the rotating frame and the support rod, two telescopic blocks 429 arranged on the rotating frame, a first connecting rod 430 used for connecting one of the two telescopic blocks and a guide roller in one of the two guide assemblies, a second connecting rod 431 used for connecting the other of the two telescopic blocks and the guide roller in the other of the two guide assemblies, a push rod 432 used for connecting the rotating frame and the third transmission belt, a first connecting rod 432, a second connecting rod and a second connecting rod, A plurality of balls 433 arranged on the third transmission belt, and a clamping rod 434 arranged on the first fixed seat; the two eliminating assemblies are identical in structure and are symmetrically arranged, the inner diameter of the second scraping block is larger than that of the first scraping block, the inner diameter of the third scraping block is larger than that of the second scraping block, the rotating frame can rotate relative to the connecting shaft, the first connecting rod can rotate relative to the telescopic block, the first connecting rod can rotate relative to the guide roller, the second connecting rod can rotate relative to the telescopic block, the second connecting rod can rotate relative to the guide roller, the push rod can rotate relative to the rotating frame, the push rod can rotate relative to the third driving belt, and the ball and the clamping rod are arranged in a matched mode; when drilling axle downstream, the one end of drilling axle can contact first scraping piece, the guide roll removes under the drive of guide frame this moment, and drive two flexible pieces through first connecting rod and second connecting rod and remove to one side of keeping away from the drilling axle, and then drive and rotate the frame and rotate and promote the third drive belt through the push rod at the pivoted in-process, when the third drive belt rotates, first scraping piece, second scraping piece and third scraping piece can scrape the material to the bottom of drilling axle in proper order, the third drive belt is at the pivoted in-process simultaneously, a plurality of balls can contact with the kelly in proper order, and drive the third drive belt and vibrate, and then drive first scraping piece, second scraping piece and third scraping piece vibrate the scraping material to the drilling axle.

Technical Field

The invention belongs to the field of containers, and particularly relates to a container and a processing technology thereof.

Background

The container is a group tool which can be loaded with packaged or unpackaged goods for transportation and is convenient to load, unload and carry by mechanical equipment. In the prior art, the side plates and the bottom plate are generally directly welded in the process of manufacturing the container, so that the side plates and the bottom plate are easily welded without being aligned, and the fixing effect of the side plates and the bottom plate is reduced.

Disclosure of Invention

The invention provides a container and a processing technology thereof, which aims to overcome the defects of the prior art and improve the position accuracy of a side plate and a bottom plate and increase the fixing effect of the side plate and the bottom plate.

In order to achieve the purpose, the invention adopts the following technical scheme: a container comprising a floor, a roof; the bottom plate and the top plate are connected through two side plates, one side of each side plate is provided with a turning edge, and the turning edges are connected with the bottom plate.

According to the invention, through the arrangement of the turning edge, when the side plate needs to be fixed with the bottom plate, the turning edge can be aligned to the position where the bottom plate needs to be fixed, and then the turning edge and the bottom plate are fixed, so that the accuracy of the position between the side plate and the bottom plate is increased, and the fixing effect between the side plate and the bottom plate is improved.

The rear cover plate is arranged on one side of the bottom plate, and the two rotating doors are arranged on the other side of the bottom plate; the two rotating doors are respectively in rotatable connection with the two side plates.

The invention also discloses a processing technology for manufacturing the container, which comprises the following steps:

1) cutting and forming the container plate;

2) transporting the formed plate;

3) fixedly connecting the turned edge of the side plate with the bottom plate by using punching equipment;

4) connecting the top plate and the side plate by welding;

5) installing a rear cover plate and two rotating doors;

the punching equipment in the step 3 comprises two rolling wheels, a rolling belt sleeved on the two rolling wheels, a plurality of through holes arranged on the rolling belt, a driving rod used for connecting the two rolling wheels, a supporting frame arranged on the driving rod, a drilling device arranged on the supporting frame, a plurality of drilling auxiliary devices arranged on the rolling belt, a fixing device arranged on the supporting frame and a plurality of coating devices arranged on the rolling belt; the drilling device comprises a first driving piece arranged on the supporting frame, a second driving piece arranged on the first driving piece, a drilling shaft arranged on the second driving piece, two first telescopic rods arranged on two sides of the second driving piece, and two first convex rings respectively arranged on the two first telescopic rods; the drilling auxiliary devices are identical in structure and symmetrically arranged, the coating devices are identical in structure and symmetrically arranged, the drilling shafts and the through holes are correspondingly arranged, and springs are arranged in the first telescopic rods; when the flanging edge of the side plate and the bottom plate need to be fixed, the rolling wheel is rotated to drive the rolling belt to rotate, the drilling shaft is moved to a position needing drilling, then the first driving part is started to drive the second driving part and the drilling shaft to move downwards, when the drilling shaft moves downwards and penetrates through the through hole to abut against the surface of the flanging edge, the second driving part is started to drive the drilling shaft to rotate, the first driving part is matched to drive the drilling shaft to move downwards, the flanging edge and the bottom plate are drilled through the drilling shaft, the accuracy in drilling is improved, meanwhile, the rolling wheel and the rolling belt are driven, so that the punching operation of the flanging edge can be automatically carried out, the manual labor cost is reduced, and the accuracy of each hole position is improved; through the perforation, when the drilling shaft drills the turned edge and the bottom plate, the drilling shaft can be guided through the perforation, and the accuracy of the drilling shaft during use is improved.

The drilling auxiliary device comprises a first fixed seat arranged on the rolling belt, a rotating ring arranged on the fixed seat and two cleaning assemblies arranged on the rotating ring; the cleaning assembly comprises a moving frame arranged on the moving ring, a first elastic piece used for connecting the moving frame and the moving ring, a cleaning piece arranged on the moving frame, a second telescopic rod arranged on the first fixed seat, a driving shaft arranged in the second telescopic rod, a driving groove arranged on the first fixed seat, a gear arranged on the first fixed seat and a driving hole arranged on the gear; the first fixed seat is arranged in an annular structure, the rotating ring can rotate relative to the first fixed seat, the two cleaning assemblies are identical in structure and symmetrically arranged, the moving frame can move relative to the moving ring, one side of the moving frame is in an arc-shaped structure, a spring is arranged in the second telescopic rod, a driving shaft and the driving hole are arranged in a matched mode, the driving shaft can move relative to the driving groove, the gear can rotate relative to the first fixed seat, and the gear and the moving ring are arranged in a matched mode; in the process that the drilling shaft moves downwards, the first telescopic rod moves downwards along with the second driving piece, when the first telescopic rod moves downwards and contacts the arc-shaped structure of the moving frame, the first telescopic rod pushes the moving frame in the process of continuing moving downwards, so that the moving frame moves relative to the moving ring, the moving frame drives the cleaning piece to move towards the position of the drilling shaft and enables the cleaning piece to be attached to the side wall of the drilling shaft, the cleaning piece wraps and guides the side wall of the drilling shaft, the condition that the drilling shaft and the cleaning piece are interfered with each other in the process that the drilling shaft moves downwards is avoided, the condition that the drilling shaft and the cleaning piece are damaged due to the fact that the drilling shaft and the cleaning piece are interfered with each other is avoided, the service life of the equipment is prolonged, and the maintenance cost of the equipment is reduced; first telescopic link continues downstream and contacts the second telescopic link afterwards, and then extrude the second telescopic link through first telescopic link, when the second telescopic link contracts, the drive shaft can be along drive groove downstream, drive shaft and gear contact each other afterwards, and drive the gear through the drive shaft and rotate, and then rotate through the gear drive shifting ring, thereby drive through the shifting ring and remove frame and clearance piece and rotate, make the clearance piece carry out rotatory clearance to the lateral wall of drilling axle, the clearance effect of clearance piece to drilling axle has been increased, the drilling axle drilling effect that has avoided drilling axle surface impurity too much and has leaded to worsen the condition.

The drilling auxiliary device also comprises two scraping components arranged on the first fixed seat; the scraping component comprises a first transmission belt arranged on the first fixed seat, a shifting sheet arranged on the first transmission belt, a scraping plate arranged on one side of the cleaning piece, and a connecting wire used for connecting the scraping plate and the first transmission belt; the two scraping components and the two cleaning components are arranged correspondingly, the two scraping components have the same structure and are symmetrically arranged, and the first transmission belt can rotate relative to the first fixed seat; when first telescopic link lapse, first bulge loop on the first telescopic link can contact the plectrum, first telescopic link promotes the plectrum afterwards and drives first drive band and rotate, and then through connecting wire pulling scraper blade, clearance piece removes and plugs up the position of scraper blade lapse to drilling axle department afterwards, interference between scraper blade and the clearance piece has been avoided, when first telescopic link upwards resets, the clearance piece can reset under the drive of removing the frame, the scraper blade moves down and carries out the scraper blade to the clearance piece under the effect of self gravity afterwards, make the impurity of clearance piece from drilling epaxial erasing can be struck off by the scraper blade, avoided impurity to remain the condition that the clearance piece effect that leads to worsens always on clearance piece surface.

The drilling auxiliary device also comprises two guide assemblies arranged on the first fixed seat; the guide device comprises a guide block arranged on the first transmission belt, a second transmission belt arranged on the first fixed seat, a guide groove arranged on the second transmission belt, a push plate arranged on the second transmission belt, a guide frame arranged on one side of the push plate, a second elastic part used for connecting the guide frame and the push plate, a guide roller arranged on the guide frame, and two guide wheels arranged on the guide roller; the two guide assemblies are identical in structure and symmetrically arranged, the two guide assemblies and the two scraping assemblies are correspondingly arranged, the guide blocks and the guide grooves are arranged in a matched mode, and the guide rollers can rotate relative to the guide frame; when first drive belt rotates, can drive the second drive belt through the cooperation of guide block and guiding groove and rotate, and drive the direction of leading frame to the second driving piece through the push pedal and remove, the leading wheel contacts the lateral wall of second driving piece afterwards, and drive leading wheel and guide roll at the in-process of second driving piece lapse and rotate, lead to the second driving piece through the leading wheel, the second driving piece that has avoided the second driving piece to produce in the use vibration too big and the condition that leads to and bore the axle rocks, the stability of second driving piece and bore the axle has been increased, the effect of drilling has been improved, simultaneously, rotation through the leading wheel, frictional force between leading wheel and the second driving piece has been reduced, the life of equipment has been increased.

The guide assembly further comprises a sealing element for connecting the two guide wheels, a plurality of vent grooves formed in the guide roller, two third telescopic rods arranged on two sides of the guide roller, two sliding blocks respectively arranged at one end of the two third telescopic rods, a plurality of fixing holes respectively formed in the two third telescopic rods, two fixing lugs respectively arranged on the two third telescopic rods, two sliding rails respectively used for connecting the two sliding blocks and the first fixing seat, two limiting buckles respectively arranged on the two sliding rails, and two fourth telescopic rods respectively arranged on the two sliding blocks; the third telescopic rod and the fourth telescopic rod are arranged in a matched mode, the sliding block can move relative to the sliding rail, the fixing lug and the fixing hole are arranged in a matched mode, the third telescopic rod can rotate relative to the guide roller, the third telescopic rod can rotate relative to the sliding block, and the fourth telescopic rod and the limiting buckle are arranged in a matched mode; when one side of the guide wheel is attached to the side wall of the second driving piece, the third telescopic rod can drive the sliding block to move to the other end of the sliding rail along the sliding rail, then the second driving piece can extrude the sealing piece, gas between the sealing piece and the guide roller is extruded into the fourth telescopic rod on the sliding block along the vent groove, after the fourth telescopic rod is extended, one end of the fourth telescopic rod can penetrate through the limit buckle and limit the guide roller through the position matching of the fourth telescopic rod and the limit buckle, so that when the guide wheel is attached to the side wall of the second driving piece, the positions of the guide wheel and the guide roller cannot be changed at will, the guide wheel and the guide roller are prevented from shaking or separating from the side wall of the second driving piece due to the vibration of the second driving piece, the guiding and shockproof effects of the guide wheel are improved, and when the vibration of the second driving piece is too large, the guide frame can extrude the second elastic piece, and then cushion the vibration, extrude the second elastic component and make the guide frame when moving to push pedal department when the guide frame, the third telescopic link can corresponding extension to once detain fixed lug on all the other several fixed orificess, stability when having increased the extension of third telescopic link, avoided the third telescopic link can extend at will and the condition of the position asynchronism between guide frame and the slider that leads to, increased the stability of direction subassembly overall structure.

The drilling auxiliary device also comprises two eliminating components arranged on the first fixed seat; the elimination assembly comprises a third transmission belt arranged on the first fixing seat, a first scraping block arranged on the third transmission belt, a second scraping block arranged on the third transmission belt, a third scraping block arranged on the third transmission belt, a support rod arranged on the first fixing seat, a rotating frame arranged on the support rod, a connecting shaft used for connecting the rotating frame with the support rod, two telescopic blocks arranged on the rotating frame, a first connecting rod used for connecting one of the two telescopic blocks with a guide roller in one of the two guide assemblies, a second connecting rod used for connecting the other of the two telescopic blocks with the guide roller in the other of the two guide assemblies, a push rod used for connecting the rotating frame with the third transmission belt, a plurality of round beads arranged on the third transmission belt, The clamping rod is arranged on the first fixed seat; the two eliminating assemblies are identical in structure and are symmetrically arranged, the inner diameter of the second scraping block is larger than that of the first scraping block, the inner diameter of the third scraping block is larger than that of the second scraping block, the rotating frame can rotate relative to the connecting shaft, the first connecting rod can rotate relative to the telescopic block, the first connecting rod can rotate relative to the guide roller, the second connecting rod can rotate relative to the telescopic block, the second connecting rod can rotate relative to the guide roller, the push rod can rotate relative to the rotating frame, the push rod can rotate relative to the third driving belt, and the ball and the clamping rod are arranged in a matched mode; when the drilling shaft moves downwards, one end of the drilling shaft contacts the first scraping block, the guide roller moves under the driving of the guide frame, and the two telescopic blocks are driven to move towards one side far away from the drilling shaft by the first connecting rod and the second connecting rod, thereby driving the rotating frame to rotate and pushing the third transmission belt through the push rod in the rotating process, when the third transmission belt rotates, the first scraping block, the second scraping block and the third scraping block can scrape the bottom end of the drilling shaft in sequence, so that the first scraping block, the second scraping block and the third scraping block can clean the impurities at the bottom end of the drilling shaft, the using effect of the drilling shaft is increased, meanwhile, the inner diameters of the first scraper block, the second scraper block and the third scraper block are sequentially increased, so that the drill shaft cleaning device can adapt to positions with different diameters at the bottom end of the drill shaft according to different inner diameters, and the cleaning effect on the drill shaft is improved; simultaneously the third drive belt is at the pivoted in-process, and a plurality of balls can contact with the kelly in proper order to drive the third drive belt and vibrate, and then drive first scraper piece, second scraper piece and third scraper piece and vibrate the scraper to the drilling shaft, increased the scraper effect of first scraper piece, second scraper piece and third scraper piece.

In summary, the invention has the following advantages: the position accuracy of the side plate and the bottom plate is improved, and the fixing effect of the side plate and the bottom plate is improved.

Drawings

Fig. 1 is a schematic structural view of the container of the present invention.

FIG. 2 is a schematic view of the structure of the punching apparatus of the present invention.

Fig. 3 is a partial enlarged view of the invention at a in fig. 2.

Fig. 4 is a partial enlarged view of the invention at a in fig. 3.

FIG. 5 is a front view of the perforating apparatus of the present invention.

FIG. 6 is a cross-sectional view taken along line A-A of FIG. 5 in accordance with the present invention.

Fig. 7 is a partial enlarged view of the invention at a in fig. 6.

FIG. 8 is a side view of the perforating apparatus of the present invention.

FIG. 9 is a cross-sectional view taken along line B-B of FIG. 8 in accordance with the present invention.

Fig. 10 is an enlarged view of a portion a of fig. 9 according to the present invention.

Fig. 11 is a partial enlarged view of the invention at a in fig. 10.

Fig. 12 is a partial enlarged view of the invention at B in fig. 10.

Fig. 13 is a partial enlarged view of the invention at B in fig. 9.

Fig. 14 is an enlarged view of a portion of the invention at C in fig. 9.

Detailed Description

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

As shown in fig. 1-14, a container comprises a bottom plate 1, a top plate 11; the bottom plate and the top plate are connected through two side plates 12, one side of each side plate is provided with a flanging edge 13, and the flanging edges are connected with the bottom plate.

The rear cover plate 14 is arranged on one side of the bottom plate, and the two rotating doors 15 are arranged on the other side of the bottom plate; the two rotating doors are respectively in rotatable connection with the two side plates.

The invention also discloses a processing technology for manufacturing the container, which comprises the following steps:

1) cutting and forming the container plate;

2) transporting the formed plate;

3) fixedly connecting the turned edge of the side plate with the bottom plate by using punching equipment;

4) connecting the top plate and the side plate by welding;

5) installing a rear cover plate and two rotating doors;

the punching equipment in the step 3 comprises two rolling wheels 2, a rolling belt 21 sleeved on the two rolling wheels, a plurality of through holes 22 arranged on the rolling belt, a driving rod 23 used for connecting the two rolling wheels, a supporting frame 24 arranged on the driving rod, a drilling device 3 arranged on the supporting frame, a plurality of drilling auxiliary devices 4 arranged on the rolling belt, a fixing device 5 arranged on the supporting frame, and a plurality of coating devices 6 arranged on the rolling belt; the drilling device comprises a first driving piece 31 arranged on the supporting frame, a second driving piece 32 arranged on the first driving piece, a drilling shaft 33 arranged on the second driving piece, two first telescopic rods 34 arranged on two sides of the second driving piece, and two first convex rings 35 respectively arranged on the two first telescopic rods; the drilling auxiliary devices are identical in structure and symmetrically arranged, the coating devices are identical in structure and symmetrically arranged, the drilling shafts and the through holes are correspondingly arranged, and springs are arranged in the first telescopic rods; when the flanging edge of the side plate and the bottom plate need to be fixed, the rolling wheel is rotated to drive the rolling belt to rotate, the drilling shaft is moved to a position needing drilling, then the first driving part is started to drive the second driving part and the drilling shaft to move downwards, when the drilling shaft moves downwards and penetrates through the through hole to abut against the surface of the flanging edge, the second driving part is started to drive the drilling shaft to rotate, the first driving part is matched to drive the drilling shaft to move downwards, and then the flanging edge and the bottom plate are drilled through the drilling shaft; a motor is arranged in the driving rod, the rolling wheel is driven by the motor to rotate, the first driving piece is an air cylinder, and the second driving piece is a motor; the driving rod can be arranged on the track, so that the driving rod moves along the track, and the accuracy of the driving rod and the moving direction of the whole equipment is improved; meanwhile, the punching equipment can punch the wooden floor placed in the container.

The drilling auxiliary device 4 comprises a first fixed seat 41 arranged on the rolling belt, a rotating ring 42 arranged on the fixed seat and two cleaning assemblies arranged on the rotating ring; the cleaning assembly comprises a moving frame 43 arranged on the moving ring, a first elastic piece 44 used for connecting the moving frame and the moving ring, a cleaning piece 45 arranged on the moving frame, a second telescopic rod 46 arranged on the first fixed seat, a driving shaft 47 arranged in the second telescopic rod, a driving groove 48 arranged on the first fixed seat, a gear 49 arranged on the first fixed seat and a driving hole 40 arranged on the gear; the first fixed seat is arranged in an annular structure, the rotating ring can rotate relative to the first fixed seat, the two cleaning assemblies are identical in structure and symmetrically arranged, the moving frame can move relative to the moving ring, one side of the moving frame is in an arc-shaped structure, a spring is arranged in the second telescopic rod, a driving shaft is connected with the driving hole through threads, the driving shaft can move relative to the driving groove, the gear can rotate relative to the first fixed seat, and the gear and the moving ring are meshed with each other; in the process of moving the drilling shaft downwards, the first telescopic rod moves downwards along with the second driving piece, when the first telescopic rod moves downwards and contacts the arc-shaped structure of the moving frame, the first telescopic rod pushes the moving frame in the process of continuing moving downwards so that the moving frame moves relative to the moving ring, so that the moving frame drives the cleaning piece to move towards the position of the drilling shaft and the cleaning piece is attached to the side wall of the drilling shaft, then the first telescopic rod continues to move downwards and contacts the second telescopic rod, the second telescopic rod is extruded through the first telescopic rod, when the second telescopic rod is contracted, the driving shaft moves downward along the driving groove, and then the driving shaft and the gear come into contact with each other, and the gear is driven to rotate by the driving shaft, the gear drives the movable ring to rotate, so that the movable ring drives the movable frame and the cleaning piece to rotate; the first elastic piece is a spring, and the cleaning piece is made of sponge.

The drilling auxiliary device 4 further comprises two scraping components arranged on the first fixed seat; the scraping component comprises a first transmission belt 401 arranged on the first fixed seat, a shifting sheet 402 arranged on the first transmission belt, a scraping plate 403 arranged on one side of the cleaning piece, and a connecting line 404 for connecting the scraping plate and the first transmission belt; the two scraping components and the two cleaning components are arranged correspondingly, the two scraping components have the same structure and are symmetrically arranged, and the first transmission belt can rotate relative to the first fixed seat; when the first telescopic rod moves downwards, the first convex ring on the first telescopic rod contacts the shifting piece, then the first telescopic rod pushes the shifting piece to drive the first transmission belt to rotate, the scraper is further pulled through the connecting line, then the cleaning piece moves towards the drilling shaft and blocks the position of the scraper moving downwards, when the first telescopic rod resets upwards, the cleaning piece resets under the driving of the moving frame, and then the scraper moves downwards under the action of self gravity and scrapes the cleaning piece; the connecting wire is a steel wire.

The drilling auxiliary device 4 further comprises two guide assemblies arranged on the first fixed seat; the guide device comprises a guide block 405 arranged on the first transmission belt, a second transmission belt 406 arranged on the first fixed seat, a guide groove 407 arranged on the second transmission belt, a push plate 408 arranged on the second transmission belt, a guide frame 409 arranged on one side of the push plate, a second elastic member 410 for connecting the guide frame and the push plate, a guide roller 411 arranged on the guide frame, and two guide wheels 412 arranged on the guide roller; the two guide assemblies are identical in structure and symmetrically arranged, the two guide assemblies and the two scraping assemblies are correspondingly arranged, the guide block can be buckled into the guide groove, and the guide roller can rotate relative to the guide frame; when the first driving belt rotates, the second driving belt can be driven to rotate through the matching of the guide block and the guide groove, the guide frame is driven to move towards the direction of the second driving piece through the push plate, and then the guide wheel contacts with the side wall of the second driving piece and drives the guide wheel and the guide roller to rotate in the process that the second driving piece moves downwards; the second elastic piece is a spring.

The guide assembly further comprises a sealing element 413 for connecting the two guide wheels, a plurality of vent grooves 414 arranged on the guide roller, two third telescopic rods 415 arranged on two sides of the guide roller, two sliding blocks 416 respectively arranged at one end of the two third telescopic rods, a plurality of fixing holes 417 respectively arranged on the two third telescopic rods, two fixing lugs 418 respectively arranged on the two third telescopic rods, two sliding rails 419 respectively used for connecting the two sliding blocks and the first fixing seat, two limit buckles 420 respectively arranged on the two sliding rails, and two fourth telescopic rods 421 respectively arranged on the two sliding blocks; the third telescopic rod and the fourth telescopic rod are mutually connected through an air pipe in an air-permeable mode, the sliding block can move relative to the sliding rail, the fixing lug can be buckled into the fixing hole, the third telescopic rod can rotate relative to the guide roller, the third telescopic rod can rotate relative to the sliding block, and the fourth telescopic rod can penetrate into the limit buckle; when one side of the guide wheel is attached to the side wall of the second driving piece, the third telescopic rod can drive the sliding block to move to the other end of the sliding rail along the sliding rail, then the second driving piece can extrude the sealing piece, gas between the sealing piece and the guide roller is extruded into a fourth telescopic rod on the sliding block along the vent groove, and after the fourth telescopic rod extends, one end of the fourth telescopic rod can penetrate through the limiting buckle and limit the guide roller through the matching of the positions of the fourth telescopic rod and the limiting buckle; the sealing element is made of rubber.

The drilling auxiliary device 4 further comprises two eliminating assemblies arranged on the first fixed seat; the eliminating assembly comprises a third transmission belt 422 arranged on the first fixed seat, a first scraping block 423 arranged on the third transmission belt, a second scraping block 424 arranged on the third transmission belt, a third scraping block 425 arranged on the third transmission belt, a support rod 426 arranged on the first fixed seat, a rotating frame 427 arranged on the support rod, a connecting shaft 428 used for connecting the rotating frame and the support rod, two telescopic blocks 429 arranged on the rotating frame, a first connecting rod 430 used for connecting one of the two telescopic blocks and a guide roller in one of the two guide assemblies, a second connecting rod 431 used for connecting the other of the two telescopic blocks and the guide roller in the other of the two guide assemblies, a push rod 432 used for connecting the rotating frame and the third transmission belt, a first connecting rod 432, a second connecting rod and a second connecting rod, A plurality of balls 433 arranged on the third transmission belt, and a clamping rod 434 arranged on the first fixed seat; the two eliminating assemblies are identical in structure and symmetrically arranged, the inner diameter of the second scraping block is larger than that of the first scraping block, the inner diameter of the third scraping block is larger than that of the second scraping block, the rotating frame can rotate relative to the connecting shaft, the first connecting rod can rotate relative to the telescopic block, the first connecting rod can rotate relative to the guide roller, the second connecting rod can rotate relative to the telescopic block, the second connecting rod can rotate relative to the guide roller, the push rod can rotate relative to the rotating frame, the push rod can rotate relative to the third driving belt, and the ball and the clamping rod can vibrate the third driving belt when being contacted and dislocated with each other; when drilling axle downstream, the one end of drilling axle can contact first scraping piece, the guide roll removes under the drive of guide frame this moment, and drive two flexible pieces through first connecting rod and second connecting rod and remove to one side of keeping away from the drilling axle, and then drive and rotate the frame and rotate and promote the third drive belt through the push rod at the pivoted in-process, when the third drive belt rotates, first scraping piece, second scraping piece and third scraping piece can scrape the material to the bottom of drilling axle in proper order, the third drive belt is at the pivoted in-process simultaneously, a plurality of balls can contact with the kelly in proper order, and drive the third drive belt and vibrate, and then drive first scraping piece, second scraping piece and third scraping piece vibrate the scraping material to the drilling axle.

The fixing device 5 comprises a third driving member 51 arranged on the supporting frame, a fifth telescopic rod 52 arranged on the third driving member, two sixth telescopic rods 53 arranged on the third driving member, two rotating clamping blocks 54 respectively arranged on the two sixth telescopic rods, two grooves 55 respectively arranged on the two rotating clamping blocks, two seventh telescopic rods 56 arranged on two sides of the fifth telescopic rod, two second convex rings 57 respectively arranged on the two seventh telescopic rods, two ejector rods 58 respectively arranged on two sides of the two fifth telescopic rods, and two through grooves 59 respectively arranged on the two ejector rods; a spring is arranged in the sixth telescopic rod, the rotating clamping block can rotate relative to the sixth telescopic rod, a torsional spring is arranged in the rotating clamping block, one end of the torsional spring is connected to the rotating clamping block, the other end of the torsional spring is connected to the sixth telescopic rod, a spring is arranged in the seventh telescopic rod, and the second convex ring and the poking sheet are arranged correspondingly; when the drilling shaft turns the flanging and the bottom plate is drilled, the roller belt drives the drilling device and the fixing device to move, when the fixing device moves above the drilled hole, the bolt is placed between the two grooves, the head of the bolt is loaded and fixed through the rotating clamping block, then the third driving piece is started to drive the fifth telescopic rod to move downwards and push the bolt to move downwards, meanwhile, when the fifth telescopic rod moves downwards, the sixth telescopic rod is driven to move downwards, so that the second convex ring pushes the poking piece, the first scraping block, the second scraping block and the third scraping block are driven to rotate, the situation that the bolt interferes with the first scraping block, the second scraping block and the third scraping block is avoided, then when the sixth telescopic rod extends to the longest under the pushing action of the fifth telescopic rod, the fifth telescopic rod continues to extend to push the bolt to move downwards and push the two rotating clamping plates open, the bolt is made to fall into the holes of the turned edge and the bottom plate, the side plate and the bottom plate are fixed through the bolt and the nut after the bolt is used conveniently, and convenience is improved when the equipment is used.

The coating device 6 comprises a second fixed seat 61 for connecting the first fixed seat and the rolling belt and two coating components arranged on the second fixed seat; the coating assembly comprises a storage pipe 62 arranged in the second fixed seat, an extrusion head 63 arranged at one end of the storage pipe, a valve 64 arranged at one end of the storage pipe, a third elastic part 65 used for connecting the storage tank with the second fixed seat, an eighth telescopic rod 66 arranged on the second fixed seat, and a ninth telescopic rod 67 arranged on the second fixed seat; the second fixing seat is of an annular structure, the two coating components are identical in structure and symmetrically arranged, the material storage pipe is made of rubber, an adhesive is stored in the material storage pipe, the material storage pipe is of an arc-shaped structure, a spring is arranged in the eighth telescopic rod, and the eighth telescopic rod and the ninth telescopic rod are mutually ventilated through an air pipe; when the ejector rod moves downwards under the driving of the fifth telescopic rod, one end of the ejector rod contacts the top end of the material storage pipe, then the material storage pipe is compressed and pushes the extrusion head to move to the position of the bolt, after the material storage pipe is compressed, the ejector rod continues to move downwards and pushes the eighth telescopic rod to continue to contract, then the ninth telescopic rod starts to extend through the matching between the eighth telescopic rod and the ninth telescopic rod, meanwhile, the ninth telescopic rod passes through the through groove position of the ejector rod in the extending process and continues to move to the position of the material storage pipe, then, the ninth telescopic rod carries out secondary extrusion on the material storage pipe, so that the adhesive in the material storage pipe is extruded from the extrusion head and is coated on the thread position of the bolt, the subsequent fixation after the nut and the bolt are screwed down is convenient, the accuracy of the adhesive in extrusion is improved, meanwhile, the coating process of the adhesive is convenient, and through the arrangement of the valve and the third elastic piece, make the ejector pin storage pipe after reseing also can upwards reset, when needs pack the storage pipe, open the valve and continue to pack the storage pipe, increased the convenience when storage pipe uses.

The specific working principle is as follows: when the flanging edge 13 of the side plate 12 and the bottom plate 1 need to be fixed, the rolling wheel 2 is rotated to drive the rolling belt 21 to rotate, the drilling shaft 33 is moved to a position needing drilling, then the first driving part 31 is started to drive the second driving part 32 and the drilling shaft 33 to move downwards, when the drilling shaft 33 moves downwards and penetrates through the through hole 22 to abut against the surface of the flanging edge 13, the second driving part 32 is started to drive the drilling shaft 33 to rotate, the first driving part 31 is matched to drive the drilling shaft 33 to move downwards, and then the flanging edge 13 and the bottom plate 1 are drilled through the drilling shaft 33; during the downward movement of the drilling shaft 33, the first telescopic rod 34 moves downward along with the second driving member 32, when the first telescopic rod 34 moves downward and contacts the arc-shaped structure of the moving frame 43, the first telescopic rod 34 pushes the moving frame 43 during the continuous downward movement, so that the moving frame 43 moves relative to the moving ring 42, so that the moving frame 43 drives the cleaning member 45 to move to the position of the drilling shaft 33 and attach the cleaning member 45 to the side wall of the drilling shaft 33, then the first telescopic rod 34 continues to move downward and contact the second telescopic rod 46, so that the second telescopic rod 46 is pressed by the first telescopic rod 34, when the second telescopic rod 46 contracts, the driving shaft 47 moves downward along the driving groove 48, then the driving shaft 47 and the gear 49 contact each other, and the gear 49 is driven by the driving shaft 46 to rotate, the gear 49 drives the moving ring 42 to rotate, so that the moving ring 42 drives the moving frame 43 and the cleaning piece 45 to rotate; when the first driving belt 401 rotates, the second driving belt 406 can be driven to rotate by the cooperation of the guide block 405 and the guide slot 407, and the guide frame 409 is driven to move towards the second driving member 32 by the push plate 408, and then the guide wheel 412 contacts with the side wall of the second driving member 32 to guide the second driving member 32; when the drilling shaft 33 moves downwards, one end of the drilling shaft 33 contacts the first scraping block 423, the guide roller 411 moves under the driving of the guide frame 409, and drives the two telescopic blocks 429 to move towards one side far away from the drilling shaft 33 through the first connecting rod 430 and the second connecting rod 431, so as to drive the rotating frame 427 to rotate and push the third transmission belt 422 through the push rod 432 in the rotating process, when the third transmission belt 422 rotates, the first scraping block 423, the second scraping block 424 and the third scraping block 425 scrape the bottom end of the drilling shaft 33 in sequence, and simultaneously when the third transmission belt 422 rotates, the plurality of round beads 433 contact the clamping rod 434 in sequence and drive the third transmission belt 422 to vibrate, so as to drive the first scraping block 423, the second scraping block 424 and the third scraping block 425 to scrape the drilling shaft 33 in a vibrating manner; after the drilling shaft 33 completes drilling on the flanging edge 13 and the bottom plate 1, the roller belt 21 drives the drilling device 3 and the fixing device 5 to move, after the fixing device 5 moves to the position above the drilled hole, the bolt is placed between the two grooves 55, the head of the bolt is fixedly supported by the rotating fixture block 54, then the third driving piece 51 is started to drive the fifth telescopic rod 52 to move downwards and push the bolt to move downwards, and finally the bolt is placed in the hole in the flanging edge 13.

It is to be understood that the described embodiments are merely a few embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.