CN108326568B - Full-automatic commodity shelf stand system of processing - Google Patents

Abstract

The application discloses a full-automatic storage rack upright post processing system which comprises a first scraper type conveying device, an automatic wheel pipe blanking device, a second scraper type conveying device and a chamfering and pressing device which are sequentially arranged, wherein a first parallel slideway is arranged between the first scraper type conveying device and the automatic wheel pipe blanking device, a second parallel slideway is arranged between the second scraper type conveying device and the chamfering and pressing device, the automatic wheel pipe blanking device comprises a first rolling shaft and a second rolling shaft, the first rolling shaft is connected with a connecting rod jacking device, and a material transition slideway is arranged below the first rolling shaft and the second rolling shaft. According to the application, the first scraper type conveying device, the automatic wheel pipe blanking device, the second scraper type conveying device and the chamfering and pressing device are arranged, so that the wheel pipe, chamfering and pressing processes are integrated in one system, automatic and integrated machining of the wheel pipe, the chamfering and the pressing is realized, manpower is greatly liberated, and the machining efficiency is improved.

Description

Full-automatic commodity shelf stand system of processing

Technical Field

The application relates to the field of machining of storage rack stand columns, in particular to a full-automatic storage rack stand column machining system.

Background

The metal commodity shelf is a shelf for placing articles and generally comprises four vertical upright posts serving as supports and a plurality of layers of net sheets for placing articles on the pipe fitting, bamboo joint lines are engraved on the upright posts of the commodity shelf in consideration of factors such as attractive appearance in the production process of the metal commodity shelf, and screw plugs are arranged at the end parts of the pipe fitting. The existing processing technology generally adopts a single machine to carry out step processing, the working efficiency is low, and each machine needs to be manually operated, so that the manpower is greatly wasted, and therefore, how to integrate the machines required to be used in the processing process of the metal storage rack upright post together so as to realize full-automatic and integrated wheel tube, chamfering and screw plug mounting is a problem which needs to be solved in the field.

Disclosure of Invention

The application solves the technical problem of providing a full-automatic commodity shelf upright post processing system which is capable of carrying out wheel pipe, chamfering and screw plug assembling operations in a full-automatic and integrated mode.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a full-automatic supporter stand processing system, includes first scraper conveyor, automatic wheel pipe doffer, second scraper conveyor and the chamfer swager that sets gradually, be provided with first parallel slide between first scraper conveyor and the automatic wheel pipe doffer, be provided with second parallel slide between second scraper conveyor and the chamfer swager, automatic wheel pipe doffer includes first roller bearing and second roller bearing, first roller bearing is connected with the connecting rod top and moves the device, the connecting rod top is moved the device and is used for driving first roller bearing and keep away from or be close to the second roller bearing, first roller bearing and second roller bearing below are provided with the excessive slide of material.

According to the application, the first scraper type conveying device, the automatic wheel pipe blanking device, the second scraper type conveying device and the chamfering and pressing device are arranged, so that the wheel pipe, chamfering and pressing processes are integrated in one system, automatic and integrated machining of the wheel pipe, the chamfering and the pressing is realized, manpower is greatly liberated, and the machining efficiency is improved.

Further is: the connecting rod jacking device comprises two connecting shafts which are longitudinally symmetrical, jacking devices are respectively connected to the bottoms of the two connecting shafts, the end parts of the two connecting shafts are respectively in running fit with two pull rod plates, the other ends of the pull rod plates are in running fit with a pull rod, a connecting rod is arranged in the middle of each pull rod plate, the pull rod plates can rotate around the connecting rod, and the pull rods are connected with the first rolling shafts.

Further is: the automatic wheel tube blanking device further comprises a positioning device, the positioning device comprises two positioning blocks arranged at two ends of the first rolling shaft, the end portions of the positioning blocks are connected with a pushing device, the positioning blocks can stretch towards the first rolling shaft, blanking positioning grooves and machining positioning grooves are formed in the positioning blocks, the blanking positioning grooves are used for limiting the first rolling shaft during blanking, and the machining positioning grooves are used for positioning the first rolling shaft during machining.

Further is: the first scraper type conveying device comprises a conveying scraper which is obliquely upwards, a plurality of pipe fitting placing grooves are formed in the conveying scraper, and the second scraper type conveying device is consistent with the first scraper type conveying device in structure.

Further is: the first parallel slideway is inclined downwards and comprises an upper rail and a lower rail which are parallel.

Further is: the top end of the lower rail is arc-shaped, the top end of the lower rail is lower than the top end of the conveying scraping plate, and the length of the top end of the lower rail exceeds that of the upper rail.

Further is: the second parallel slideway is consistent with the first parallel slideway in structure.

Further is: the first parallel slideway bottom is from last to still having set gradually first cylinder, second cylinder and the third cylinder of blocking that blocks down, first cylinder and the second cylinder interval pipe shaft that blocks.

Further is: the chamfering and pressing device comprises a chamfering slideway and a pressing slideway which are sequentially arranged, wherein the side face of the end part of the chamfering slideway is provided with a chamfering device, the side face of the end part of the pressing slideway is provided with a pressing device, and the end parts of the chamfering slideway and the pressing slideway are respectively provided with a chamfering blocking cylinder and a pressing blocking cylinder.

Further is: and a chamfering jacking device and a pressing jacking device are respectively arranged below the tail end of the chamfering slideway and below the tail end of the pressing slideway.

The beneficial effects of the application are as follows: according to the application, the first scraper type conveying device, the automatic wheel pipe blanking device, the second scraper type conveying device and the chamfering and pressing device are arranged, so that the wheel pipe, the chamfering and pressing processes are integrated in one system, the wheel pipe, the chamfering and the pressing are automatically, integrally and integrally processed, the manpower is greatly liberated, and the processing efficiency is improved; in addition, a first blocking cylinder, a second blocking cylinder and a third blocking cylinder are arranged on the first parallel sliding rail, so that the first parallel sliding rail can process the pipe fitting in batches; in addition, the chamfering and material pressing device is provided with the chamfering blocking cylinder and the material pressing blocking cylinder, so that chamfering and material pressing can be carried out in batches, and the pipe fitting can be better matched with the chamfering device and the material pressing device.

Drawings

Fig. 1 is a schematic perspective view of the present application.

Fig. 2 is a side view of the present application.

Fig. 3 is a schematic view of a chamfering and pressing device.

Fig. 4 is a schematic view of an automatic wheel tube chamfering machine.

Fig. 5 is an enlarged schematic view of the left end of the first roller.

Fig. 6 is an enlarged view of the right end of the first roller.

Fig. 7 is a schematic view of a fixed block and a sliding seat.

Fig. 8 is an enlarged schematic top view of the first scraper conveyor.

Marked in the figure as: the automatic pipe blanking device comprises a first scraper type conveying device 1, a conveying scraper 11, a pipe placing groove 111, an automatic pipe blanking device 2, a first roller 21, a second roller 22, a connecting rod jacking device 23, a connecting shaft 231, a pull rod plate 232, a pull rod 233, a connecting rod 234, a positioning device 24, a positioning block 241, a pushing device 242, a blanking positioning groove 2411, a processing positioning groove 2412, a lower pressing cylinder 25, a hob 26, a sliding seat 27, a sliding table 28, a second scraper type conveying device 3, a chamfering pressing device 4, a chamfering slide 41, a chamfering device 42, a pressing slide 43, a pressing device 44, a chamfering blocking cylinder 45, a pressure blocking cylinder 46, a chamfering jacking device 47, a feeding device 48, a pressing jacking device 49, a first parallel slide 5, an upper rail 51, a lower rail 52, a first blocking cylinder 53, a second blocking cylinder 54, a third blocking cylinder 55, a second parallel slide 6 and a material excessive slide 7.

Detailed Description

The application is further described below with reference to the drawings and the detailed description.

As shown in fig. 1 and 2, a full-automatic rack stand processing system, including the first scraper type conveyor 1, automatic wheel pipe doffer 2, second scraper type conveyor 3 and chamfer swager 4 that set gradually, be provided with first parallel slide 5 between first scraper type conveyor 1 and the automatic wheel pipe doffer 2, be provided with second parallel slide 6 between conveyor and the chamfer swager 4 during the second scraper blade.

As shown in fig. 4 to 7, the automatic roller blanking device 2 comprises a roller tube machine frame, a hob group mechanism, a first roller 21 and a second roller 22, wherein the hob group mechanism is arranged on the roller tube machine frame, the hob group mechanism comprises a cylinder group consisting of a plurality of lower pressing cylinders 25 and a plurality of parallel and side-by-side hobs 26 connected with the lower sides of the lower pressing cylinders 25, the lower sides of the hob group mechanism are provided with the first roller 21 and the second roller 22 which are in parallel, the lower sides of the first roller 21 and the second roller 22 are respectively connected with a servo motor, the first roller 21 and the second roller 22 roll in the same direction and have the same speed under the driving of the servo motor, the end part of the second roller 22 is in running fit with a fixed seat, the fixed seat is fixedly connected with the roller tube machine frame, the two ends of the first roller 21 are in running fit with a sliding seat 27, the two ends of the roller tube machine frame, which are positioned at the first roller 21, are provided with two sliding tables 28, the sliding seat 27 is in sliding fit with the sliding table 28, the end part of the first roller 21 is connected with a connecting rod jacking device 23, the jacking device can be an oil cylinder or an air cylinder, the connecting rod jacking device 23 comprises two connecting shafts 231 positioned at two ends of the first roller 21, the bottoms of the two connecting shafts 231 are respectively connected with the jacking device, the end parts of the two connecting shafts 231 are respectively provided with two triangular pull rod plates 232, the triangular pull rod plates 232 comprise two sharp ends and a right-angle end, one sharp end of each pull rod plate 232 is in rotating fit with the end part of the connecting shaft 231, the other sharp end of each pull rod plate 232 is in rotating fit with one pull rod 233, the connecting rod 234 respectively passes through the right-angle ends of the two pull rod plates 232 and is fixed with the side wall of the sliding table 28, the pull rod plates 232 can rotate around the connecting rods 234, the other ends of the pull rod plates 233 are in rotating connection with the first roller 21, the link ejecting device 23 may drive the first roller 21 to move away from or close to the second roller 22 in a horizontal plane. It should be noted that the above is only one embodiment of the link propping device 23, and other devices that can drive the first roller 21 away from or close to the second roller 22 can be used as the link propping device 23 of the present application.

As shown in fig. 4 to 7, on the basis of the above, a plurality of parallel material transition slides 7 inclined downward are arranged below the first roller 21 and the second roller 22, the material transition slides 7 are fixedly connected with the frame of the tube rolling machine, the processed tube falls onto the material transition slides 7 from the gap between the first roller 21 and the second roller 22, and slides downward along the material transition slides 7, and the material transition slides 7 serve to guide the tube to slide to the second scraper conveyor 3.

As shown in fig. 4 to 7, in addition, the automatic wheel tube blanking device 2 is further provided with a positioning device 24, the positioning device 24 includes a positioning block 241 disposed at two ends of the first roller 21, the end of the positioning block 241 is connected with a pushing device 242, the pushing device 242 is fixed on a side wall of the sliding table 28, the pushing device 242 may be an oil cylinder or an air cylinder, the positioning block 241 can stretch and retract towards the first roller 21 under the driving of the pushing device 242, the positioning block 241 is provided with a blanking positioning groove 2411 and a processing positioning groove 2412, the blanking positioning groove 2411 and the processing positioning groove 2412 can both be clamped with the sliding seat 27, the blanking positioning groove 2411 is located at one end of the positioning block 241 away from the pushing device 242, when blanking is required, the pushing device 242 drives the positioning block 241 to enable the blanking positioning groove 2411 to be opposite to the sliding seat 27, when the sliding seat 27 is driven by the connecting rod jacking device 23 to move away from the second roller 22, the positioning groove 2411 limits the sliding seat 27, and when processing, the positioning block 241 pushes the positioning groove 2412 to clamp the sliding seat 27, so that the sliding seat 27 cannot be processed.

As shown in fig. 4 to 7, in the automatic roller blanking device 2, since the first roller 21 and the second roller 22 are arranged side by side, a groove is formed between the first roller 21 and the second roller 22, a pipe is placed between the first roller 21 and the second roller 22, the lower pressing cylinder 25 presses the hob 26 down on the surface of the pipe, the roller drives the pipe to rotate, so as to perform roller tube processing on the surface of the pipe, after the pipe processing is completed, the jacking device drives the connecting shaft 231 to descend, the connecting shaft 231 drives one end of the pull rod plate 232 to descend, and since the right-angle end of the pull rod plate 232 is fixed by the connecting rod 234, the pull rod plate 232 rotates around the connecting rod 234, so that the other end of the pull rod plate 232 ascends, the other end moves towards a direction away from the second roller 22 in the ascending process, so as to drive the first roller 21 away from the second roller 22, and as the gap between the first roller 21 and the second roller 22 is bigger, the pipe placed between the first roller 212 and the second roller 223 falls through the gap, so as to complete automatic blanking.

As shown in fig. 1 and 8, the first scraper type conveying device 1 comprises a conveyor casing and a conveying scraper 11 obliquely upwards, the conveying scraper 11 is installed on the conveyor casing, the conveying scraper 11 is connected with a motor, the conveying scraper 11 moves upwards under the driving of the motor, the conveying scraper 11 is composed of a conveying belt and scrapers, a plurality of parallel scrapers are arranged on the conveying belt, an upper pipe fitting placing groove 111 is formed between two adjacent scrapers and is used for placing pipe fittings, the pipe fittings ascend under the driving of the scrapers, and the second scraper type conveying is consistent with the first scraper type conveying device 1 in structure.

As shown in fig. 1 and 8, the inlet end of the first parallel slide 5 is connected to the conveyor casing of the first scraper, the first parallel slide 5 is inclined downward, the inlet end is the top end, the first parallel slide 5 includes an upper rail 51 and a lower rail 52, the pipe passes between the upper rail 51 and the lower rail 52, the upper rail 51 and the lower rail 52 are parallel, the inlet end of the lower rail 52 is arc-shaped, the inlet end of the lower rail 52 is longer than the upper rail 51, i.e. the upper rail 51 is not arranged above the inlet end of the lower rail 52, the height of the inlet end of the lower rail 52 in the horizontal direction is lower than the top of the conveying scraper 11, and the pipe can fall onto the lower rail 52 when conveyed to the top of the conveying scraper 11 due to the arrangement.

As shown in fig. 1, the top end of the second parallel slideway 6 is connected with the conveyor shell in the second scraper conveyor 3, the structure of the second parallel slideway 6 is identical to that of the first parallel slideway 5, and the bottom end of the second parallel slideway 6 corresponds to the inlet of the chamfering and pressing device 4.

As shown in fig. 1 and 8, on the basis of the above, the bottom end of the first parallel slideway 5 corresponds to the automatic roller tube blanking device 2, the bottom end of the first parallel slideway 5 is further provided with a first blocking cylinder 53, a second blocking cylinder 54 and a third blocking cylinder 55 in sequence from top to bottom, the first blocking cylinder 53 and the second blocking cylinder 54 are separated by a tube body, the first blocking cylinder 53 is arranged below the lower rail 52, the second blocking cylinder 54 and the third blocking cylinder 55 are arranged on the upper rail 51, when the tube enters the first parallel slideway 5, the first blocking cylinder 53 and the second blocking cylinder 54 are in a blocking state, when the tube needs to be processed, the tube is blocked by the second blocking cylinder 54, at the moment, the first blocking cylinder 53 pushes out the blocked subsequent tube, and because the first blocking cylinder 53 and the second blocking cylinder 54 can only accommodate one tube body, only one tube body exists between the first blocking cylinder 53 and the second blocking cylinder 54, the second blocking cylinder 54 is contracted, when the single tube continues to be contracted by the second blocking cylinder 54, the third blocking cylinder 55 is blocked by the third blocking cylinder 55, and the second blocking cylinder 21 can continue to be contracted by the second roller tube 22 after the roller tube is arranged on the first roller tube 21 and the second roller tube 21.

As shown in fig. 1 to 3, the chamfering and pressing device 4 comprises a conveying base and a device base, a chamfering slideway 41 and a pressing slideway 43 are sequentially arranged on the conveying base, the device base is located on the side face of the conveying base, a chamfering device 42 and a pressing device 44 are arranged on the device base, the working end of the chamfering device 42 is located at the tail end of the chamfering slideway 41, the working end of the pressing device 44 is located at the tail end of the pressing slideway 43, a chamfering blocking cylinder 45 and a pressing blocking cylinder 46 are respectively arranged at the tail ends of the chamfering slideway 41 and the pressing and pouring, in addition, the pressing device 44 is connected with an automatic feeding device 48, the automatic feeding device 48 is arranged on the automatic feeding base, the automatic feeding device 48 can be an automatic feeding disc, and the automatic feeding device 48 is used for providing a screw plug for the pressing device 44. The chamfering slide way 41 is characterized in that the tail end of the chamfering slide way 41 and the slide way base below the tail end of the pressing slide way 43 are also respectively provided with a chamfering material ejecting device 47 and a pressing material ejecting device 49, the chamfering material ejecting device 47 and the pressing material ejecting device 49 are consistent in structure, the chamfering material ejecting device 47 comprises a material ejecting groove, the material ejecting groove is matched with a pipe fitting, the bottom end of the material ejecting groove is connected with a lifting device, the lifting device can be an oil cylinder or an air cylinder, the lifting device drives the material ejecting groove to push the pipe fitting upwards, the material ejecting groove pushes the pipe fitting to the processing end face of the chamfering device 42, and the pressing material ejecting device 49 pushes the pipe fitting to the processing end face of the pressing material ejecting device 44.

The chamfering device 42 may be a chamfering device 42 commonly used in the art, the chamfering device 42 is used for chamfering the inner diameter and the outer diameter of the pipe, burrs generated by chamfering can be removed, the pressing device 44 may be a pipe fitting screw plug mounting device commonly used in the art, and the pressing device 44 is used for pressing a screw plug into the pipe fitting.

The whole working process of the application is that a pipe fitting is put on a first scraper conveying device, the pipe fitting enters a first parallel slideway 5 along with the first scraper conveying device, the pipe fitting enters a position between a first roller 21 and a second roller 22 in an automatic pipe blanking device 2 along the first parallel slideway 5, a hob 26 performs pipe rolling processing on the pipe fitting, when the pipe fitting passes through the pipe, a connecting rod jacking device 23 pulls the first roller 21 to enable the pipe fitting to fall off, the falling pipe fitting enters a second scraper conveying device along with a material transition slideway 7, then the pipe fitting enters a second parallel slideway 6 along with the second scraper conveying device, the pipe fitting enters a chamfering slideway 41 along with the second parallel slideway 6, at the moment, a chamfering blocking cylinder 45 pushes out and blocks the pipe fitting to advance, a chamfering jacking device 47 pushes the pipe fitting to the processing end face of the chamfering device 42, the chamfering device 42 chamfer device performs chamfering and deburring on the pipe fitting, then the chamfering blocking cylinder 47 puts down the pipe fitting, the chamfering blocking cylinder 45 is contracted simultaneously, at the moment, a pressing plug 49 pushes the pipe fitting to the end face of a pressing device 44, the pressing plug 48 is pushed down, the pipe fitting is pressed down along with the material is pressed down by the pressing device 44, and the pressing plug 44 is pressed down along with the pressing device 44, the pipe fitting is pressed down along with the pressing device 44, the pressing plug 44 is continued, and the pipe fitting is pressed.

According to the application, the first scraper type conveying device 1, the automatic wheel pipe blanking device 2, the second scraper type conveying device 3 and the chamfering and pressing device 4 are arranged, so that the wheel pipe, chamfering and pressing processes are integrated in a system, the wheel pipe, the chamfering and the pressing are automatically, integrally and integrally processed, the manpower is greatly liberated, and the processing efficiency is improved; in addition, the first blocking air cylinder 53, the second blocking air cylinder 54 and the third blocking air cylinder 55 are arranged on the first parallel sliding rail, so that the first parallel sliding rail can process the pipe fitting in batches; in addition, the chamfering and material pressing device 4 is provided with a chamfering blocking cylinder 45 and a material pressing blocking cylinder 46, so that chamfering and material pressing can be carried out in batches, and the pipe fitting can be better matched with the chamfering device 42 and the material pressing device 44 by the aid of the chamfering and material pressing device 47 and the material pressing device 49.

While the foregoing is directed to embodiments of the present application, other and further details of the application may be had by the present application, it should be understood that the foregoing description is merely illustrative of the present application and that no limitations are intended to the scope of the application, except insofar as modifications, equivalents, improvements or modifications are within the spirit and principles of the application.

Claims (4)

1. A full-automatic supporter stand system of processing, its characterized in that: including the first scraper conveyor (1) that sets gradually, automatic round tube doffer (2), second scraper conveyor (3) and chamfer swager (4), be provided with first parallel slide (5) between first scraper conveyor (1) and the automatic round tube doffer (2), be provided with second parallel slide (6) between second scraper conveyor (3) and chamfer swager (4), automatic round tube doffer (2) include first roller (21) and second roller (22), first roller (21) are connected with connecting rod top movable device (23), connecting rod top movable device (23) are used for driving first roller (21) and keep away from or be close to second roller (22), first roller (21) and second roller (22) below are provided with material excessive slide (7), connecting rod top movable device (23) include at two vertical symmetrical lift-up connection axle (231), two connecting axle (231) bottoms are connected with top device respectively, two connecting rod axle (232) are connected with each other end portion (232) and link plate (234) are rotatable, link plate (232) are rotatable about the other end portion (234), pull rod (233) with first roller (21) are connected, automatic wheel pipe doffer (2) still includes positioner (24), positioner (24) are including setting up two locating pieces (241) at first roller (21) both ends, locating piece (241) end connection has thrust unit (242), locating piece (241) can stretch out and draw back towards first roller (21), be provided with blanking constant head tank (2411) and processing constant head tank (2412) on locating piece (241), blanking constant head tank (2411) are used for first roller (21) spacing when the blanking, processing constant head tank (2412) are used for carrying out the location to first roller (21) when processing, first scraper conveyor (1) are including oblique ascending conveying scraper (11), set up a plurality of pipe fitting standing grooves (111) on conveying scraper (11), second scraper conveyor (3) with first scraper conveyor (1) structure is unanimous, first parallel (5) down track (5) down, first slope track (5) down track (52) are including down and down track (52) are down pressed track (52) and are including down in proper order chamfer track (51), the chamfering slide way (41) end side is provided with chamfer device (42), material pressing slide way (43) end side is provided with material pressing device (44), material pressing device (44) still are connected with feedway (48), chamfer slide way (41) and material pressing slide way (43) end are provided with chamfer respectively and block cylinder (45) and material pressing block cylinder (46), chamfer slide way (41) terminal below and material pressing slide way (43) terminal below are provided with chamfer liftout device (47) and material pressing liftout device (49) respectively.

2. A fully automated pallet post processing system as defined in claim 1 wherein: the top end of the lower rail (52) is arc-shaped, the top end of the lower rail (52) is lower than the top end of the conveying scraper (11), and the length of the top end of the lower rail (52) exceeds that of the upper rail (51).

3. A fully automated rack post processing system as claimed in claim 1 or 2 wherein: the second parallel slideway (6) is consistent with the first parallel slideway (5) in structure.

4. A fully automated pallet post processing system as defined in claim 1 wherein: the bottom end of the first parallel slideway (5) is further provided with a first blocking cylinder (53), a second blocking cylinder (54) and a third blocking cylinder (55) from top to bottom in sequence, and the first blocking cylinder (53) and the second blocking cylinder (54) are separated by a pipe body.