CN213856881U - Automatic riveting equipment of dust remover jetting pipe - Google Patents

Abstract

The utility model relates to an automatic riveting device of a dust remover blowing pipe, which belongs to the field of environmental protection and dust removal, wherein a sleeve pipe material arranging mechanism and a core pipe material arranging mechanism are arranged in a collinear way; the middle part of the lifting mechanism is provided with an automatic riveting mechanism, and the upper surface of the lifting mechanism is also provided with a feeding groove mechanism; the sleeve pipe material arranging mechanism is correspondingly provided with a sleeve pipe feeding mechanism, and the core pipe material arranging mechanism is correspondingly provided with a core pipe feeding mechanism; the sleeve pipe arranging mechanism and the sleeve pipe feeding mechanism are arranged on one side of the automatic riveting mechanism, and the core pipe arranging mechanism and the core pipe feeding mechanism are arranged on the other side of the automatic riveting mechanism; the sleeve arranging mechanism and the sleeve feeding mechanism are arranged oppositely; the sleeve feeding mechanism and the core pipe feeding mechanism are arranged in parallel; the utility model discloses a device, the automatic riveting work of realization that the device can be quick, the effectual product of having avoided is at the skew that the riveting process produced, and then can show the precision that improves riveting processing, has stabilized riveted quality again, has improved product quality's stability simultaneously.

Description

Automatic riveting equipment of dust remover jetting pipe

Technical Field

The utility model relates to an environmental protection dust removal field particularly relates to a riveting equipment.

Background

At present, along with the continuous and deep promotion of environmental protection and energy-saving emission reduction policies, dust collectors are developing towards automation, energy conservation, large-scale, high-performance and high-efficiency; the dust remover is an environment-friendly product with wide universality, and the blowing pipe of the dust remover is an important part of the dust remover and has important influence on the dust removal of a cloth bag of the dust remover and the service life of the cloth bag; the dust collector continuously accumulates thick dust layers on filter bags along with the extension of the filtering time, the resistance of dust collection equipment continuously rises, and when the resistance of the equipment rises to a set value, the dust removal device starts to remove dust; a chambered lift valve is closed to cut off the filtering air flow, then an electromagnetic pulse valve is opened, compressed air rapidly expands in an upper box body in a very short time and flows into a filter bag, so that the filter bag expands and deforms to generate vibration, and under the action of reverse air flow scouring, dust attached to the outer surface of the filter bag is peeled off and falls into a dust hopper; after the ash removal is finished, the electromagnetic pulse valve is closed, the poppet valve is opened, and the chamber is recovered to a filtering state; the ash removal of each chamber is carried out in sequence, and an ash removal period is from the ash removal of the first chamber to the ash removal of the next time; the dust trapped by the filtering and ash removing work falls into an ash hopper and is intensively discharged by an ash discharging device at the opening of the ash hopper; the blowing pipe of the dust remover is a vulnerable part, the damage is extremely large, and the dust remover needs to be produced in a matching way in the using process; the traditional production method is to rivet the sleeve and the core pipe manually, so that the operation is unreliable, the precision is poor, the popularization is not facilitated, and the efficiency is extremely low.

SUMMERY OF THE UTILITY MODEL

For overcoming the defects, the utility model provides an automatic riveting equipment of dust remover jetting pipe, the device can be quick realize automatic riveting work, the effectual product of having avoided is at the skew that the riveting process produced, and then can show the precision that improves riveting processing, has both improved the convenience, has stabilized riveted quality again, has improved product quality's stability simultaneously.

In order to achieve the purpose, the utility model provides an automatic riveting device of a dust remover blowing pipe, which comprises a working panel, wherein the working panel is provided with a material lifting mechanism, one side of the material lifting mechanism is provided with a sleeve pipe material arranging mechanism, the other side of the material lifting mechanism is provided with a core pipe material arranging mechanism, and the sleeve pipe material arranging mechanism and the core pipe material arranging mechanism are arranged in a collinear way; the middle part of the lifting mechanism is provided with an automatic riveting mechanism, and a feeding groove mechanism is also arranged on the lifting mechanism; the sleeve pipe material arranging mechanism is correspondingly provided with a sleeve pipe feeding mechanism, and the core pipe material arranging mechanism is correspondingly provided with a core pipe feeding mechanism; the sleeve pipe arranging mechanism and the sleeve pipe feeding mechanism are arranged on one side of the automatic riveting mechanism, and the core pipe arranging mechanism and the core pipe feeding mechanism are arranged on the other side of the automatic riveting mechanism; the sleeve arranging mechanism and the sleeve feeding mechanism are arranged oppositely; the sleeve feeding mechanism and the core tube feeding mechanism are arranged in parallel.

The utility model discloses the during operation: the working base of the automatic riveting device is fixed and placed on the fixed frame, and sufficient space is reserved below and on the side face of the working base for various cylinder actions, so that unnecessary interference of various parts is avoided; the sleeve and the core tube which need to be riveted are prepared, the sleeve is placed in a sleeve hopper of a sleeve feeding mechanism, a locking handle in a sleeve length adjusting assembly is adjusted, and an adjusting block is driven by the locking handle to move back and forth relative to a locking block, so that the sleeve hopper can adapt to the requirement of the length of the sleeve conveniently; after the adjustment is finished, the diameter adjusting assembly is adjusted, so that the sleeves can be sequentially stacked, and the influence on later-stage processing work caused by staggered arrangement of the sleeves is avoided; the core tube is placed in a core tube hopper of the core tube feeding mechanism, a locking handle in the core tube length adjusting assembly is adjusted, and the adjusting block is driven by the locking handle to move back and forth relative to the locking block, so that the core tube hopper can adapt to the requirement of the length of the core tube conveniently; after the adjustment is finished, the diameter adjusting assembly is adjusted, so that the core tubes can be sequentially stacked, and the influence on later-stage processing actions caused by staggered arrangement of the core tubes is avoided; after the sleeve and the core pipe are stacked in sequence, rivets needing to be riveted are installed in the lower side riveting component and the upper side riveting component, and then the positions, needing to be riveted, of the sleeve and the core pipe are determined, so that the riveting inaccuracy is avoided; the sleeve pushing cylinder of the sleeve feeding mechanism starts to act, before the sleeve feeding mechanism acts, due to the gravity, a sleeve to be riveted falls into the sleeve receiving groove, then the sleeve pushing cylinder pushes the sleeve in the sleeve receiving groove to act forwards, and meanwhile, in the action process of the sleeve pushing cylinder, sleeve baffle plates on two sides of a sleeve sliding seat can effectively block the sleeves arranged in sequence, so that all the sleeves are prevented from falling; the sleeve pushing cylinder pushes the sleeves in the sleeve receiving groove in place and ensures that the sleeves are arranged corresponding to the sleeve placing part, and the sleeve receiving groove where the sleeves are placed and the sleeve groove are arranged in a collinear manner; meanwhile, a core tube pushing cylinder of the core tube feeding mechanism starts to act, before the action, the core tube to be riveted falls into a core tube receiving groove due to the gravity, then the core tube pushing cylinder pushes the core tube in the core tube receiving groove to act forwards, and meanwhile, in the action process of the core tube pushing cylinder, core tube baffle plates on two sides of a core tube sliding seat can effectively block the core tubes arranged in sequence on the core tube baffle plates, so that all the core tubes are prevented from falling; after the core tube is pushed to the right position, the core tube and the sleeve are collinear in the axial direction, the sleeve material arranging cylinder of the sleeve material arranging mechanism drives the material arranging push block to push forwards, and meanwhile, an operator can adjust the stroke of the sleeve material arranging cylinder through the stroke adjusting block of the sleeve material arranging cylinder so as to be convenient for high-precision sleeving of the sleeve and the core tube; after the sleeve is pushed to the right position by the sleeve arranging cylinder, the lower side riveting component and the upper side riveting component of the automatic riveting mechanism directly rivet the sleeve and the core pipe, positioning is not needed in the riveting process, riveting can be directly carried out, and riveting precision is improved; after riveting is finished, a material lifting cylinder of the material lifting mechanism moves upwards and drives a sleeve placing part to move, a sleeve groove in the sleeve placing part receives a riveted sleeve and a riveted core pipe and respectively leaves a corresponding sleeve pipe receiving groove and a corresponding core pipe receiving groove until the material lifting is in place, and the circle center of the riveted sleeve and the circle center of the core pipe just correspond to the circle center position of a core pipe adjusting block on a core pipe pushing material arranging cylinder; the core pipe pushing and arranging cylinder drives the core pipe adjusting block to push the riveted sleeve and core pipe towards the front side chute and the rear side straight groove of the feeding groove mechanism, an included angle of 15-30 degrees is formed between the front side chute and the working panel in the pushing process in order to avoid blocking, and meanwhile, a shallow groove is formed in the rear side straight groove in a matched mode with the sleeve pipe to avoid rolling in the pushing process; in the process of pushing materials by the core tube pushing material arranging cylinder, the core tube pushing cylinder and the sleeve pushing cylinder sequentially contract backwards, and then a next group of sleeves to be riveted and core tubes are received through the corresponding core tube receiving groove and the corresponding sleeve receiving groove; the core tube pushing material arranging cylinder contracts backwards after pushing is finished, and meanwhile, the material lifting cylinder also contracts downwards to ensure that the whole material lifting mechanism is lower than the sleeve feeding mechanism, so that mutual interference is avoided; therefore, the automatic riveting process of the whole sleeve and the core pipe is completed, the working efficiency is high, the precision is reliable, and the cost is low.

Preferably, in order to facilitate the material lifting mechanism to move up and down, materials needing to be processed and riveted are conveniently lifted, and meanwhile, in order to ensure reliable work; the material lifting mechanism comprises a material lifting cylinder arranged perpendicular to the working panel, a material lifting seat arranged on the material lifting cylinder, material lifting guide rails arranged on two sides of the material lifting cylinder, and sleeve placing parts respectively arranged on two sides of the material lifting seat; the material lifting cylinder drives the material lifting seat to move up and down through the guiding of the material lifting guide rail; the sleeve pipe placing part is provided with a sleeve pipe groove in a matching mode with the diameter of the sleeve pipe.

Preferably, the sleeve arranging mechanism is reliable in work and convenient for sleeving the sleeve and the core pipe together, so that the work is stable and reliable; the sleeve arranging mechanism comprises an outer L-shaped connecting plate and an inner L-shaped connecting plate which are arranged on the leftmost side of the working panel respectively, a sleeve arranging cylinder arranged on the outer L-shaped connecting plate, an arranging push block arranged on a push rod of the sleeve arranging cylinder, and an arranging stroke adjusting block arranged by matching with the inner L-shaped connecting plate; the inner L-shaped connecting plate is provided with a sleeve material arranging adjusting bolt matched with the material arranging stroke adjusting block, and the sleeve material arranging adjusting bolt is arranged in a matched manner with the material arranging stroke adjusting block; the sleeve material arranging cylinder drives the material arranging push block to move back and forth and carries out limit stroke adjustment through the material arranging stroke adjusting block.

Preferably, in order to facilitate the core tube arranging mechanism, the core tube can be stably and reliably communicated with the riveted sleeve and pushed to the material feeding groove mechanism, and the stable work is ensured; the core pipe material arranging mechanism comprises a core pipe L-shaped connecting block, a core pipe pushing material arranging cylinder and a core pipe adjusting block, wherein the core pipe pushing material arranging cylinder is arranged in cooperation with the core pipe L-shaped connecting block; the core pipe regulating block is arranged in a solid cylindrical shape.

Preferably, in order to facilitate the sleeve feeding mechanism to continuously transport the sleeves one by one to perform processing and riveting work, and the phenomena of blocking and the like are avoided; the sleeve feeding mechanism comprises a sleeve hopper, a bottom sleeve trough matched with the sleeve hopper, and a sleeve pushing assembly matched with the bottom sleeve trough; the sleeve pipe hopper cooperation is provided with sleeve pipe length adjustment subassembly, bottom sleeve pipe silo cooperation is provided with sleeve pipe diameter adjustment subassembly, sleeve pipe propelling movement subassembly is including fixing the sleeve pipe propelling movement cylinder on the work panel, and the sleeve pipe propelling movement slide rail that cooperation sleeve pipe propelling movement cylinder set up sets up the sleeve pipe sliding seat on sleeve pipe propelling movement slide rail, sets up the sleeve pipe striker plate in sleeve pipe sliding seat both sides and sets up the sleeve pipe in the sleeve pipe striker plate front and connect the silo, the sleeve pipe striker plate is provided with a plurality of groups, and the sleeve pipe that corresponds connects the silo also is provided with a plurality of groups side by side, the sleeve pipe connects the silo and the setting of staggering between the sleeve pipe portion of placing.

Preferably, in order to facilitate the stable feeding of the core pipe by the core pipe feeding mechanism, the phenomenon of shell jamming is avoided, and the reliable work is ensured; the core tube feeding mechanism comprises a core tube hopper, a bottom core tube trough matched with the core tube hopper, and a core tube pushing assembly matched with the bottom core tube trough; the cooperation of core pipe hopper is provided with core pipe length adjustment subassembly, core pipe silo cooperation is provided with core pipe diameter adjustment subassembly, core pipe propelling movement subassembly is including fixing the core pipe propelling movement cylinder on the work panel, and the core pipe propelling movement slide rail that cooperation core pipe propelling movement cylinder set up sets up the core pipe sliding seat on core pipe propelling movement slide rail, sets up the core pipe striker plate in core pipe sliding seat both sides and sets up the core pipe that connects in the core pipe striker plate front and connect the silo, the core pipe striker plate is provided with a plurality of groups, and the core pipe that corresponds connects the silo also is provided with a plurality of groups side by side.

Preferably, in order to facilitate the automatic riveting mechanism to simultaneously rivet from the right upper side and the right lower side of the sleeve, the riveting reliability is ensured, and unnecessary displacement is prevented from being generated to further influence the processing precision; the automatic riveting mechanism comprises a lower side riveting component fixed on the working panel and an upper side riveting component matched with the lower side riveting component, the material lifting mechanism is arranged between the lower side riveting component and the upper side riveting component, the lower side riveting component and the upper side riveting component are respectively and correspondingly provided with a riveting oil cylinder, a riveting head arranged by the riveting oil cylinder is matched, and the riveting oil cylinders of the lower side riveting component and the upper side riveting component are arranged relatively.

Preferably, in order to facilitate the conveying trough mechanism to continuously convey the riveted sleeve and core pipe, the working efficiency is improved; the feeding groove mechanism is arranged above the sleeve arranging mechanism and is arranged in parallel with the sleeve arranging mechanism, and the feeding mechanism comprises a front side chute and a rear side straight groove; the front side chute and the working panel are arranged at an angle of 15-30 degrees, and the front side chute is arranged on the side surface of the material lifting mechanism in a matching manner; the rear side straight groove is provided with a shallow groove in a matched manner with the sleeve.

Preferably, in order to facilitate the sleeve length adjusting assembly and the core tube length adjusting assembly to adjust the corresponding sleeve and core tube in real time, the sleeve and core tube with different lengths can be riveted conveniently, the use flexibility of the device is improved, the device is convenient to rivet reliably, the riveting stability is ensured, and the phenomenon of dangerous breakage caused by non-collinear is avoided; the sleeve length adjusting assembly and the core tube length adjusting assembly respectively comprise a middle support column and side locking parts which are arranged on two sides of the middle support column and used for locking the middle support column, each side locking part comprises a locking block, an adjusting block matched with the locking block and a locking handle used for controlling the adjusting block, the adjusting block is matched with the middle support column and arranged in an arc shape, and the locking handle drives the adjusting block to move back and forth; when the automatic riveting mechanism works, the core pipe placed in the core pipe receiving groove and the sleeve pipe placed in the sleeve pipe receiving groove are positioned on the same straight line; the height of the sleeve pushing cylinder is lower than that of the core tube pushing cylinder, and the height of the core tube pushing cylinder corresponds to the front side inclined groove and the rear side straight groove.

The beneficial effects of the utility model are that, the automatic riveting work of realization that the device can be quick, the effectual product of having avoided is at the skew that the riveting process produced, and then can show the precision that improves riveting processing, has both improved the convenience, has stabilized riveted quality again, has improved product quality's stability simultaneously.

Drawings

To facilitate understanding by those skilled in the art, the present invention will be further described with reference to the accompanying drawings:

fig. 1 is a schematic three-dimensional view of the present invention.

Fig. 2 is a schematic three-dimensional view of the present invention.

Fig. 3 is a three-dimensional schematic view of the present invention.

Fig. 4 is a schematic three-dimensional view of the present invention.

Fig. 5 is an enlarged view of a portion a in fig. 1.

Fig. 6 is an enlarged view of fig. 1 at B.

Fig. 7 is an enlarged view of fig. 1 at C.

Fig. 8 is an enlarged view of fig. 2 at D.

Fig. 9 is an enlarged view of fig. 3 at E.

Wherein, 1 working panel, 2 lifting mechanisms, 3 sleeve pipe material arranging mechanisms, 4 automatic riveting mechanisms, 5 sleeve pipe material feeding mechanisms, 6 material feeding groove mechanisms, 7 core pipe material feeding mechanisms, 8 material lifting mechanism placing holes, 9 material lifting cylinders, 10 material lifting seats, 11 material lifting guide rails, 12 sleeve pipe placing parts, 13 sleeve pipe grooves, 14 sleeve pipes, 15 outer side L-shaped connecting plates, 16 inner side L-shaped connecting plates, 17 sleeve pipe material arranging cylinders, 18 material arranging push blocks, 19 material arranging stroke adjusting blocks, 20 sleeve pipe material arranging adjusting bolts, 21 rear side straight grooves, 22 front side inclined grooves, 23 shallow grooves, 24 core pipe L-shaped connecting blocks, 25 core pipe pushing material arranging cylinders, 26 core pipe adjusting blocks, 27 core pipe pushing material arranging cylinder fixing grooves, 28 sleeve pipe hoppers, 29 bottom sleeve pipe material grooves, 30 sleeve pipe length adjusting assemblies, 31 sleeve pipe diameter adjusting assemblies, 32 sleeve pipe pushing cylinders, 33 sleeve pipe pushing slide rails, 34 sleeve pipe slide seats, The automatic core tube assembling machine comprises a 35 sleeve pipe material baffle plate, a 36 sleeve pipe material receiving groove, a 37 core pipe hopper, a 38 bottom core pipe material groove, a 39 core pipe length adjusting assembly, a 40 core pipe diameter adjusting assembly, a 41 core pipe pushing slide rail, a 42 core pipe pushing air cylinder, a 43 core pipe material baffle plate, a 44 core pipe slide seat, a 45 core pipe material receiving groove, a 46 upper side riveting assembly, a 47 lower side riveting assembly, a 48 middle support column, a 49 locking block, a 50 adjusting block, a 51 locking handle and a 52 core pipe material arranging mechanism.

Detailed Description

As shown in fig. 1-9, in order to achieve the above object, the present invention provides an automatic riveting device for a blowing pipe of a dust collector, which comprises a working panel 1, wherein the working panel 1 is provided with a material lifting mechanism 2, one side of the material lifting mechanism 2 is provided with a sleeve pipe material arranging mechanism 3, the other side of the material lifting mechanism 2 is provided with a core pipe material arranging mechanism 52, and the sleeve pipe material arranging mechanism 3 and the core pipe material arranging mechanism 52 are arranged in a collinear manner; the middle part of the material lifting mechanism 2 is provided with an automatic riveting mechanism 4, and the upper surface of the material lifting mechanism 2 is also provided with a feeding chute mechanism 6; the sleeve pipe material arranging mechanism 3 is correspondingly provided with a sleeve pipe feeding mechanism 5, and the core pipe material arranging mechanism 52 is correspondingly provided with a core pipe feeding mechanism 7; the sleeve pipe arranging mechanism 3 and the sleeve pipe feeding mechanism 5 are arranged on one side of the automatic riveting mechanism 4, and the core pipe arranging mechanism 52 and the core pipe feeding mechanism 7 are arranged on the other side of the automatic riveting mechanism 4; the sleeve arranging mechanism 3 and the sleeve feeding mechanism 5 are oppositely arranged; the sleeve feeding mechanism 5 and the core tube feeding mechanism 7 are arranged in parallel.

The material lifting mechanism comprises a working panel 11, a material lifting mechanism placing hole 8, a material lifting mechanism 2 and a sleeve placing part 12, wherein the material lifting mechanism placing hole 8 is formed in the working panel 11, the material lifting mechanism 2 comprises a material lifting cylinder 9 perpendicular to the working panel 11, a material lifting seat 10 arranged on the material lifting cylinder 9, material lifting guide rails 11 arranged on two sides of the material lifting cylinder 9, and sleeve placing parts 12 respectively arranged on two sides of the material lifting seat 10; the material lifting cylinder 9 is guided by the material lifting guide rail 11 and drives the material lifting seat 10 to move up and down; the ferrule receiving portion 12 is provided with a ferrule recess 13 in accordance with the diameter of the ferrule 14.

The sleeve pipe material arranging mechanism 3 comprises an outer L-shaped connecting plate 15 and an inner L-shaped connecting plate 16 which are respectively arranged at the leftmost side of the working panel 11, a sleeve pipe material arranging cylinder 17 arranged on the outer L-shaped connecting plate 15, a material arranging push block 18 arranged on a push rod of the sleeve pipe material arranging cylinder 17, and a material arranging stroke adjusting block 19 arranged by matching with the inner L-shaped connecting plate 16; the inner side L-shaped connecting plate 16 is provided with a sleeve material arranging adjusting bolt 20 in a matching way with the material arranging stroke adjusting block 19, and the sleeve material arranging adjusting bolt 20 is arranged in a matching way with the material arranging stroke adjusting block 19; the sleeve material arranging cylinder 17 drives the material arranging push block 18 to move back and forth and to adjust the limit stroke through the material arranging stroke adjusting block 19.

The core tube material arranging mechanism 52 comprises a core tube L-shaped connecting block 24, a core tube pushing material arranging cylinder 25 arranged by matching with the core tube L-shaped connecting block 24, and a core tube adjusting block 26 arranged on the core tube pushing material arranging cylinder 25, wherein the core tube pushing material arranging cylinder 25 is arranged from outside to inside, and a core tube pushing material arranging cylinder fixing groove 27 is also arranged on the core tube L-shaped connecting block 24 in a matching manner; the core tube adjusting block 26 is provided in a solid cylindrical shape.

The sleeve feeding mechanism 5 comprises a sleeve hopper 28, a bottom sleeve trough 29 matched with the sleeve hopper 28 and a sleeve pushing assembly matched with the bottom sleeve trough 29; the cooperation of sleeve pipe hopper 28 is provided with sleeve pipe length adjustment subassembly 30, bottom sleeve pipe silo 29 cooperation is provided with sleeve pipe diameter adjustment subassembly 31, sleeve pipe propelling movement subassembly is including fixing sleeve pipe propelling movement cylinder 32 on work panel 11, and the sleeve pipe propelling movement slide rail 33 that cooperation sleeve pipe propelling movement cylinder 32 set up sets up sleeve pipe sliding seat 34 on sleeve pipe propelling movement slide rail 33, sets up at the sleeve pipe striker plate 35 of sleeve pipe sliding seat 34 both sides and sets up the sleeve pipe in the front of sleeve pipe striker plate 35 and connects the silo 36, sleeve pipe striker plate 35 is provided with a plurality of groups, and the sleeve pipe that corresponds connects silo 36 also is provided with a plurality of groups side by side, the sleeve pipe connects the setting of staggering between silo 36 and the sleeve pipe portion of placing 12.

The core tube feeding mechanism 7 comprises a core tube hopper 37, a bottom core tube trough 38 matched with the core tube hopper 37 and a core tube pushing assembly matched with the bottom core tube trough 38; core pipe hopper 37 cooperation is provided with core pipe length adjustment subassembly 39, core pipe silo cooperation is provided with core pipe diameter adjustment subassembly 40, core pipe propelling movement subassembly is including fixing core pipe propelling movement cylinder 42 on work panel 11, and core pipe propelling movement slide rail 41 that cooperation core pipe propelling movement cylinder 42 set up sets up core pipe sliding seat 44 on core pipe propelling movement slide rail 41, sets up the core pipe striker plate 43 in core pipe sliding seat 44 both sides and sets up the core pipe in the front of core pipe striker plate 43 and connects silo 45, core pipe striker plate 43 is provided with a plurality of groups, and the core pipe that corresponds connects silo 45 also is provided with a plurality of groups side by side.

Automatic riveting mechanism 4 is including fixing upside riveting subassembly 47 and the upside riveting subassembly 46 that cooperation downside riveting subassembly 47 set up on work panel 11, it sets up between downside riveting subassembly 47 and upside riveting subassembly 46 to lift material mechanism 2, downside riveting subassembly 47 and upside riveting subassembly 46 correspond respectively and set up the riveting hydro-cylinder, and the riveting head that the cooperation riveting hydro-cylinder set up, downside riveting subassembly 47 and upside riveting subassembly 46's riveting hydro-cylinder set up relatively.

The feeding groove mechanism 6 is arranged above the sleeve pipe arranging mechanism 3 and is arranged in parallel with the sleeve pipe arranging mechanism 3, and the feeding mechanism comprises a front side chute 22 and a rear side straight groove 21; the front side chute 22 and the working panel 11 are arranged at an angle of 15-30 degrees, and the front side chute 22 is arranged on the side surface of the lifting mechanism 2 in a matching manner; the rear straight groove 21 is provided with a shallow groove 23 matching with the sleeve 14.

The sleeve length adjusting assembly 30 and the core tube length adjusting assembly 39 respectively comprise a middle support column 48 and side locking components which are arranged on two sides of the middle support column 48 and used for locking the middle support column 48, each side locking component comprises a locking block 49, an adjusting block 50 matched with the locking block 49 and a locking handle 51 used for controlling the adjusting block 50, the adjusting block 50 is matched with the middle support column 48 and is arranged in an arc shape, and the locking handle 51 drives the adjusting block 50 to move back and forth; when the automatic riveting mechanism 4 works, the core pipe placed in the core pipe receiving groove 45 and the sleeve 14 placed in the sleeve receiving groove 36 are positioned on the same straight line; the height of the sleeve pushing cylinder 32 is lower than that of the core tube pushing cylinder 42, and the height of the core tube pushing cylinder 42 is arranged corresponding to the front side inclined groove 22 and the rear side straight groove 21.

The utility model discloses the during operation: the working base of the automatic riveting device is fixed and placed on the fixed frame, and sufficient space is reserved below and on the side face of the working base for various cylinder actions, so that unnecessary interference of various parts is avoided; preparing a sleeve 14 and a core tube which need to be riveted, placing the sleeve 14 into a sleeve hopper 28 of a sleeve feeding mechanism 5, adjusting a locking handle 51 in a sleeve length adjusting assembly 30, and driving an adjusting block 50 to move back and forth relative to a locking block 49 through the locking handle 51, so that the sleeve hopper 28 can adapt to the requirement of the length of the sleeve 14 conveniently; after the adjustment is finished, the diameter adjusting assembly is adjusted, so that the sleeves 14 can be sequentially stacked, and the influence on later-stage processing work caused by staggered arrangement of the sleeves 14 is avoided; the core tube is placed in the core tube hopper 37 of the core tube feeding mechanism 7, the locking handle 51 in the core tube length adjusting assembly 39 is adjusted, and the adjusting block 50 is driven by the locking handle 51 to move back and forth relative to the locking block 49, so that the core tube hopper 37 can adapt to the requirement of the length of the core tube conveniently; after the adjustment is finished, the diameter adjusting assembly is adjusted, so that the core tubes can be sequentially stacked, and the influence on later-stage processing actions caused by staggered arrangement of the core tubes is avoided; after the sleeve 14 and the core tube are stacked in sequence, rivets to be riveted are installed in the lower riveting component 47 and the upper riveting component 46, and then the positions of the sleeve 14 and the core tube to be riveted are determined, so that inaccurate riveting is avoided; the sleeve pushing cylinder 32 of the sleeve feeding mechanism 5 starts to act, before the action, due to the gravity, the sleeve 14 to be riveted falls into the sleeve receiving groove 36, then the sleeve pushing cylinder 32 pushes the sleeve 14 in the sleeve receiving groove 36 to act forwards, and meanwhile, in the action process of the sleeve pushing cylinder 32, the sleeve baffle plates 35 on two sides of the sleeve sliding seat 34 can effectively block the sleeve 14 arranged in sequence, so that all the sleeves 14 are prevented from falling; the sleeve pushing cylinder 32 pushes the sleeve 14 in the receiving groove in place and ensures that the sleeve 14 is arranged corresponding to the sleeve placing part 12, and the receiving groove where the sleeve 14 is placed is arranged in a collinear way with the sleeve groove 13; meanwhile, the core tube pushing cylinder 42 of the core tube feeding mechanism 7 starts to act, before the action, the core tube to be riveted falls into the core tube receiving groove 45 due to the gravity, then the core tube pushing cylinder 42 pushes the core tube in the core tube receiving groove 45 to act forwards, and meanwhile, in the action process of the core tube pushing cylinder 42, the core tube baffle plates 43 on the two sides of the core tube sliding seat 44 can effectively block the core tubes arranged in sequence, so that all the core tubes are prevented from falling; after the core tube is pushed to the proper position, the core tube and the sleeve 14 are collinear in the axial direction, the sleeve material arranging cylinder 17 of the sleeve material arranging mechanism 3 drives the material arranging push block 18 to move forwards, and meanwhile, an operator can adjust the stroke of the sleeve material arranging cylinder 17 through the stroke adjusting block 50 of the sleeve material arranging cylinder 17 so as to conveniently install the sleeve 14 and the high-precision sleeve 14 of the core tube; after the sleeve pipe arranging cylinder 17 pushes the sleeve pipe 14 to the position, the lower side riveting component 47 and the upper side riveting component 46 of the automatic riveting mechanism 4 directly rivet the sleeve pipe 14 and the core pipe, the riveting process does not need to be positioned, riveting can be directly carried out, and riveting precision is improved; after riveting is finished, the material lifting cylinder 9 of the material lifting mechanism 2 moves upwards and drives the sleeve placing part 12 to move, the sleeve groove 13 in the sleeve placing part 12 receives the riveted sleeve 14 and the riveted core pipe and respectively leaves the corresponding sleeve receiving groove 36 and the corresponding core pipe receiving groove 45 until the material lifting is in place, and the circle centers of the riveted sleeve 14 and the riveted core pipe just correspond to the circle center position of the core pipe pushing core pipe adjusting block 26 on the material arranging cylinder 25; the core tube pushing and arranging cylinder 25 drives the core tube adjusting block 26 to push the riveted sleeve 14 and the core tube towards the front side inclined groove 22 and the rear side straight groove 21 of the feeding groove mechanism 6, in the pushing process, in order to avoid blockage, an included angle of 15-30 degrees is formed between the front side inclined groove 22 and the working panel 11, and meanwhile, a shallow groove 23 is formed in the rear side straight groove 21 in a matched mode with the sleeve 14 to avoid rolling in the pushing process; in the process of pushing material by the core tube pushing material arranging cylinder 25, the core tube pushing cylinder 42 and the sleeve pushing cylinder 32 sequentially contract backwards, and then the next group of sleeves 14 and core tubes to be riveted are received through the corresponding core tube receiving groove 45 and the sleeve receiving groove 36; the core tube pushing and arranging cylinder 25 contracts backwards after pushing is finished, and meanwhile the material lifting cylinder 9 also contracts downwards to ensure that the whole material lifting mechanism 2 is lower than the sleeve feeding mechanism 5, so that mutual interference is avoided; therefore, the automatic riveting process of the whole sleeve 14 and the core tube is completed, the working efficiency is high, the precision is reliable, and the cost is low.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications should be considered as the protection scope of the present invention.

Claims (9)

1. The automatic riveting equipment for the blowing pipe of the dust remover is characterized by comprising a working panel, wherein a lifting mechanism is arranged on the working panel, a sleeve pipe arranging mechanism is arranged on one side of the lifting mechanism, a core pipe arranging mechanism is arranged on the other side of the lifting mechanism, and the sleeve pipe arranging mechanism and the core pipe arranging mechanism are arranged in a collinear manner;

the middle part of the lifting mechanism is provided with an automatic riveting mechanism, and a feeding groove mechanism is also arranged on the lifting mechanism; the sleeve pipe material arranging mechanism is correspondingly provided with a sleeve pipe feeding mechanism, and the core pipe material arranging mechanism is correspondingly provided with a core pipe feeding mechanism; the sleeve pipe arranging mechanism and the sleeve pipe feeding mechanism are arranged on one side of the automatic riveting mechanism, and the core pipe arranging mechanism and the core pipe feeding mechanism are arranged on the other side of the automatic riveting mechanism; the sleeve arranging mechanism and the sleeve feeding mechanism are arranged oppositely; the sleeve feeding mechanism and the core tube feeding mechanism are arranged in parallel.

2. The automatic riveting apparatus of a dust collector blowing pipe according to claim 1, wherein: the material lifting mechanism comprises a material lifting cylinder arranged perpendicular to the working panel, a material lifting seat arranged on the material lifting cylinder, material lifting guide rails arranged on two sides of the material lifting cylinder, and sleeve placing parts respectively arranged on two sides of the material lifting seat; the material lifting cylinder drives the material lifting seat to move up and down through the guiding of the material lifting guide rail; the sleeve pipe placing part is provided with a sleeve pipe groove in a matching mode with the diameter of the sleeve pipe.

3. The automatic riveting apparatus of a dust collector blowing pipe according to claim 1, wherein: the sleeve arranging mechanism comprises an outer L-shaped connecting plate and an inner L-shaped connecting plate which are arranged on the leftmost side of the working panel respectively, a sleeve arranging cylinder arranged on the outer L-shaped connecting plate, an arranging push block arranged on a push rod of the sleeve arranging cylinder, and an arranging stroke adjusting block arranged by matching with the inner L-shaped connecting plate; the inner L-shaped connecting plate is provided with a sleeve material arranging adjusting bolt matched with the material arranging stroke adjusting block, and the sleeve material arranging adjusting bolt is arranged in a matched manner with the material arranging stroke adjusting block; the sleeve material arranging cylinder drives the material arranging push block to move back and forth and carries out limit stroke adjustment through the material arranging stroke adjusting block.

4. The automatic riveting apparatus of a dust collector blowing pipe according to claim 1, wherein: the core pipe material arranging mechanism comprises a core pipe L-shaped connecting block, a core pipe pushing material arranging cylinder and a core pipe adjusting block, wherein the core pipe pushing material arranging cylinder is arranged in cooperation with the core pipe L-shaped connecting block; the core pipe regulating block is arranged in a solid cylindrical shape.

5. The automatic riveting apparatus of a dust collector blowing pipe according to claim 1, wherein: the sleeve feeding mechanism comprises a sleeve hopper, a bottom sleeve trough matched with the sleeve hopper, and a sleeve pushing assembly matched with the bottom sleeve trough; the sleeve pipe hopper cooperation is provided with sleeve pipe length adjustment subassembly, bottom sleeve pipe silo cooperation is provided with sleeve pipe diameter adjustment subassembly, sleeve pipe propelling movement subassembly is including fixing the sleeve pipe propelling movement cylinder on the work panel, and the sleeve pipe propelling movement slide rail that cooperation sleeve pipe propelling movement cylinder set up sets up the sleeve pipe sliding seat on sleeve pipe propelling movement slide rail, sets up the sleeve pipe striker plate in sleeve pipe sliding seat both sides and sets up the sleeve pipe in the sleeve pipe striker plate front and connect the silo, the sleeve pipe striker plate is provided with a plurality of groups, and the sleeve pipe that corresponds connects the silo also is provided with a plurality of groups side by side, the sleeve pipe connects the silo and the setting of staggering between the sleeve pipe portion of placing.

6. The automatic riveting apparatus of a dust collector blowing pipe according to claim 1, wherein: the core tube feeding mechanism comprises a core tube hopper, a bottom core tube trough matched with the core tube hopper, and a core tube pushing assembly matched with the bottom core tube trough; the cooperation of core pipe hopper is provided with core pipe length adjustment subassembly, core pipe silo cooperation is provided with core pipe diameter adjustment subassembly, core pipe propelling movement subassembly is including fixing the core pipe propelling movement cylinder on the work panel, and the core pipe propelling movement slide rail that cooperation core pipe propelling movement cylinder set up sets up the core pipe sliding seat on core pipe propelling movement slide rail, sets up the core pipe striker plate in core pipe sliding seat both sides and sets up the core pipe that connects in the core pipe striker plate front and connect the silo, the core pipe striker plate is provided with a plurality of groups, and the core pipe that corresponds connects the silo also is provided with a plurality of groups side by side.

7. The automatic riveting apparatus of a dust collector blowing pipe according to claim 1, wherein: the automatic riveting mechanism comprises a lower side riveting component fixed on the working panel and an upper side riveting component matched with the lower side riveting component, the material lifting mechanism is arranged between the lower side riveting component and the upper side riveting component, the lower side riveting component and the upper side riveting component are respectively and correspondingly provided with a riveting oil cylinder, a riveting head arranged by the riveting oil cylinder is matched, and the riveting oil cylinders of the lower side riveting component and the upper side riveting component are arranged relatively.

8. The automatic riveting apparatus of a dust collector blowing pipe according to claim 1, wherein: the feeding groove mechanism is arranged above the sleeve arranging mechanism and is arranged in parallel with the sleeve arranging mechanism, and the feeding mechanism comprises a front side chute and a rear side straight groove; the front side chute and the working panel are arranged at an angle of 15-30 degrees, and the front side chute is arranged on the side surface of the material lifting mechanism in a matching manner; the rear side straight groove is provided with a shallow groove in a matched manner with the sleeve.

9. The automatic riveting apparatus of a dust collector blowing pipe according to claim 5, wherein: the sleeve length adjusting assembly and the core tube length adjusting assembly respectively comprise a middle support column and side locking parts which are arranged on two sides of the middle support column and used for locking the middle support column, each side locking part comprises a locking block, an adjusting block matched with the locking block and a locking handle used for controlling the adjusting block, the adjusting block is matched with the middle support column and arranged in an arc shape, and the locking handle drives the adjusting block to move back and forth; when the automatic riveting mechanism works, the core pipe placed in the core pipe receiving groove and the sleeve pipe placed in the sleeve pipe receiving groove are positioned on the same straight line; the height of the sleeve pushing cylinder is lower than that of the core tube pushing cylinder, and the height of the core tube pushing cylinder corresponds to the front side inclined groove and the rear side straight groove.

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