CN216326011U - Welding protective structure for cover trimming robot - Google Patents

Abstract

The utility model discloses a welding protection structure for a cover trimming robot, which comprises a protection cover, wherein the upper end of the protection cover is communicated with a ventilating duct, an exhaust fan is arranged at the inner top of the ventilating duct, the bottom surface of the ventilating duct is communicated with an air duct, three soft air pipes are communicated with a barrel body of the ventilating duct, the barrel body is positioned in a cavity, the lower end of each soft air pipe is communicated with a cuboid air suction seat, and a filtering seat used for reserving part of dust is inserted in an air suction groove of each cuboid air suction seat. The utility model uses the protective cover to isolate the processing machine on the whole structure design, adopts three groups of cuboid air suction seats with detachable filter seats and a ventilating duct with an exhaust fan to perform air suction matching, and the bottom of the ventilating duct is provided with an air duct to quickly absorb dust on the ground in the protective cover and during flying, and uses the protective cover to protect and stably clamp the air suction pipe disc to improve the stability of dust absorption work, thereby improving the environmental problem caused by the dust.

Description

Welding protective structure for cover trimming robot

Technical Field

The utility model relates to the technical field of automobile manufacturing, in particular to a welding protection structure for a cover trimming robot.

Background

The robot binding is a key technology in the assembly process of the vehicle body, and the robot controls an assembly tool arranged at the tail end of an arm of the robot to assemble and process workpieces, common binding processing treatment such as automobile covers is carried out, and the joint of the workpieces can be welded and reinforced at the same time in the process.

However, in the process of edge rolling and welding, sparks and dust are generated and fall on the ground, and the dust falling on the ground is easily dissipated to various places of a production workshop, so that the workshop environment is polluted, and certain health risks are brought to workers during working. Therefore, the welding protection structure for the machine cover edge rolling robot is provided to improve the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a welding protection structure for a machine cover edge rolling robot, which aims to solve the problems in the background technology.

The technical scheme for realizing the purpose is as follows: the utility model provides a machine lid border robot is with welding protective structure which characterized in that: the device comprises a protective cover, wherein a cavity with an opening at the bottom is arranged in the protective cover, the protective cover is also correspondingly provided with a dust absorption mechanism and a ventilation mechanism, spark dust generated in the processes of edge rolling and welding is absorbed through the dust absorption mechanism, and the ventilation mechanism is matched to ensure the circulation of air during air suction;

dust absorption mechanism is including the upper end opening, lower extreme confined funnel, the funnel is installed in the protection casing top, the open end of funnel is located outside the protection casing, and install the air exhauster, the bottom surface of funnel is located the cavity, and the bottom intercommunication of funnel has three hose, hose's cross-section is the rectangle, three hose pastes in proper order and pastes to arrange on the cavity is controlled and the rear side inner wall, and all communicate the cuboid air suction seat that is used for the dust absorption in the bottom, three cuboid air suction seat forms \\ 21274, the shape structure pastes and pastes on the border in the cavity bottom, all be provided with the inward groove of induced drafting of opening on every cuboid air suction seat.

Furtherly, it has the filter seat that is used for intercepting iron dirt bits to peg graft in the outer port of the groove of induced drafting, filter the seat including two rubber slabs, two magnet boards that are the splayed and arrange of fixedly connected with between two rubber slabs, and the tank bottom of the small-bore end orientation groove of magnet board induced drafts, still fixedly connected with magnet pole between two rubber slabs, the magnet pole is located between two magnet boards and leaves the interval, magnet board and magnet pole are pegged graft in the outer port of the groove of induced drafting of cuboid air suction seat through the rubber slab at both ends.

Furthermore, two sides of the bottom of the protective cover are provided with flanges to form mounting plates, and the mounting plates are matched with bolts to fixedly mount the protective cover on the ground.

Furthermore, the bottom of the ventilating duct is communicated with the mouth piece through the soft air pipes, and the mouth piece of each soft air pipe is detachably connected and communicated with the mouth piece in a plugging mode in a one-to-one correspondence mode.

Furtherly, nested bottom surface and the positive continuous open-ended cage that has in the cavity, the cage upper end is connected on the ventilating funnel bottom surface, forms the trachea chamber between cage outer wall and the cavity inner wall, and the hose arranges in the trachea intracavity isolation protection, and the lower port clearance setting of cage breathes in the cuboid seat top of breathing in.

Furthermore, the outer wall of the isolation cover is respectively provided with a v-21274which is matched with the corresponding side soft air pipe, and the soft air pipes are respectively clamped in the corresponding clamping frames.

Furthermore, the ventilation mechanism is including even ventilating the lumen and being located the intake pipe of protection casing upper end, and the air inlet has all been seted up at every side cover wall middle part that the cage corresponds the lumen of qi, and air inlet and intake pipe cooperation intercommunication cage inner and outer space, and air inlet and intake pipe all have dustproof ventilative cover for filtering the debris of process in the port bonding.

Furthermore, a v-shaped sealing body 21274is arranged between the lower end opening of the air pipe cavity and the soft air pipe, the sealing body is made of rubber, and impurities can be prevented from invading into the air pipe cavity to pollute each air pipe component.

Furthermore, the upper end fixed connection air duct of keeping apart, the lower side pipe body of air duct passes isolation hood, upper end and upwards communicates the draft tube, and the internal diameter of air duct is no longer than half of draft tube internal diameter, and the less air duct of design internal diameter carries out the machine-hour and flies up the absorption of in-process dust when carrying out the machine tooling.

Furthermore, the front side of the protective cover is provided with an opening and is hinged with a sealing door, and the sealing door is in sealing connection with the front opening of the isolation cover when in a closed state.

Compared with the prior art, the utility model has the beneficial effects that: use the protection casing to keep apart processing machine on overall structure design, take three groups to have the cuboid of removable filter seat to inhale the seat and have the ventilation stack of air exhauster and inhale the cooperation, and set up the air duct in the ventilation stack bottom, inhale subaerial and the dirt bits when flying upward in the protection casing fast to use the isolation casing to protect and stabilize the card and hold the suction pipe dish, improve the stability that the dirt bit was inhaled and is held, thereby improve the environmental problem that the dirt bit brought.

Drawings

Fig. 1 is a schematic view of the internal structure of the present invention.

FIG. 2 is a schematic view of a partial structure of the connection relationship on the isolation mask of the present invention.

FIG. 3 is an exploded view of a portion of the structure of the rectangular parallelepiped getter seat according to the present invention.

Fig. 4 is a schematic front view of the present invention.

Detailed Description

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, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the 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.

Referring to fig. 1-4, the present invention provides a welding protection structure for a cover binding robot, including a protection cover 1, wherein a chamber 101 with an opening at the bottom is disposed inside the protection cover 1.

As the further improvement of this embodiment, for the convenience of the installation of protection casing 1 and placing the use, the bottom both sides of protection casing 1 are provided with the turn-ups and form mounting panel 3, and mounting panel 3 cooperates bolt fixed mounting protection casing 1 on subaerial.

The protective cover 1 is also correspondingly provided with a dust absorption mechanism and a ventilation mechanism, the dust absorption mechanism is used for absorbing spark dust generated in the processes of edge rolling and welding, and the ventilation mechanism is used in a matched mode to ensure ventilation of air during air suction.

Dust absorption mechanism is including the upper end opening, lower extreme confined funnel 4, funnel 4 installs in 1 top of protection casing, the open end of funnel 4 is located outside protection casing 1, and install air exhauster 5, the bottom surface of funnel 4 is located cavity 101, and the bottom intercommunication of funnel 4 has three hose 8, hose 8's cross-section is the rectangle, three hose 8 pastes in proper order and leans on arranging on cavity 101 left and right sides and rear side inner wall, and all communicate in the bottom has the cuboid air suction seat 9 that is used for the dust absorption, three cuboid air suction seat 9 forms \21274, the shape structure is pasted on the border of cavity 101 bottom, all be provided with the opening air suction groove inwards on every cuboid air suction seat 9.

The groove of induced drafting surrounds that chamber 101 is left and right sides and the rear side is guaranteed all-round dust absorption and is used, it has the seat 10 of straining that is used for intercepting iron dirt bits to peg graft in the outer port in groove of induced drafting, strain seat 10 including two rubber slab 1001, two magnet boards 1002 that are the splayed and arrange of fixedly connected with between two rubber slab 1001, and the tank bottom of magnet board 1002 small-bore end orientation groove of induced drafting, still fixedly connected with magnet pole 1003 between two rubber slab 1001, magnet pole 1003 is located between two magnet boards 1002 and leaves the interval, magnet board 1002 and magnet pole 1003 peg graft in the outer port in the groove of cuboid air suction seat 9 air suction through the rubber slab 1001 at both ends.

When the dust collector is used, the exhaust fan 5 works, the ventilating duct 4 performs air suction action, each soft air pipe 8 responds to air suction, the structure of the cavity 101 of the structure of the cavity 101 of the structure of the cavity 101 of the cavity, the cavity of the cavity 101 of the cavity, the cavity of the cavity 101 of the cavity 101 of the cavity, the cavity of the cavity 9 of the cavity, the cavity of the cavity, the cavity of the cavity, the cavity of, and the filter base 10 can be flexibly disassembled and assembled by using the detachable connection mode of inserting the filter base 10, so that the dust can be conveniently cleaned. Thereby three groups of cuboid air suction seats 9 that have the filter seat 10 are taken in the overall structure design and are come and the cooperation of breathing in with the draft fan 4 that has air exhauster 5, and the quick dirt bits of absorbing in the protection casing 1 use 4 connecting tube of draft fan can the chip removal and can collect the chip removal, improve the environmental problem that the dirt bit brought.

As a further improvement of this embodiment, in order to facilitate the removal and replacement of the air hose 8, the bottom of the funnel 4 is communicated with the interface tube 7 in cooperation with the air hose 8, and the interface of each air hose 8 is detachably connected and communicated with the interface tube 7 in a one-to-one correspondence manner.

For the purpose of insulation protection of the flexible gas tube 8 and the associated components during processing:

the bottom surface and the front continuous open-ended cage 13 have been nested in the cavity 101, and cage 13 upper end is connected on the bottom surface of draft tube 4, forms between 13 outer walls of cage and the cavity 101 inner wall trachea chamber 102, and hose 8 arranges the isolation protection in trachea chamber 102, and the lower port clearance of cage 13 sets up in cuboid seat 9 top of breathing in.

As a further improvement of the embodiment, a sealing body 801 is arranged between the lower port of the air tube cavity 102 and the air hose 8, the sealing body 801 is made of rubber, and impurities can be prevented from entering the air tube cavity 102 and polluting each air tube component due to the arrangement of the sealing body 801.

As a further improvement of the embodiment, in order to stably arrange the air hoses 8 for use, the outer walls of the isolation hoods 13 are respectively provided with a v-shaped 21274matched with the corresponding side air hoses 8, and the shape clamping frames 14 are respectively clamped in the corresponding clamping frames 14 by the air hoses 8.

The ventilation mechanism is including linking up ventilation lumen 102 and being located the intake pipe 11 of protection casing 1 upper end, and the every side of shield 13 corresponding gas lumen 102 covers the wall middle part and has all seted up air inlet 15, and air inlet 15 and intake pipe 11 cooperation intercommunication shield 13 inner and outer space, and air inlet 15 and intake pipe 11 are all glued in the port for the debris of filtering the process and are had dustproof ventilation cover 12.

As the further improvement of this embodiment, the upper end fixed connection air duct 6 of cage 13, the lower side pipe body of air duct 6 passes cage 13, upper end upwards communicates draft tube 4, and the internal diameter of air duct 6 is no longer than half of the internal diameter of draft tube 4, and the less air duct 6 of design internal diameter is carried out the machine tooling and is carried out the dust that flies upward in the air and receive, further improves dust and debris treatment effect.

As a further improvement of the embodiment, the front side of the protective cover 1 is provided with an opening and is hinged with a sealing door 2, and the sealing door 2 is in sealing connection with the front opening of the isolation cover 13 when in a closed state.

The working process of the utility model is as follows:

when the dust collecting device is used, the cover is arranged outside the edge rolling welding equipment, when the dust collecting device works, the edge rolling welding equipment performs workpiece welding to generate flying and landing accumulation of dust, the exhaust fan 5 works, and the dust in the flying is firstly adsorbed through the air guide pipe 9.

Simultaneously, the shape structure surrounds the left side, the right side and the rear side of the cavity 101, dust falling on the ground of the cavity 101 can be absorbed in all directions, a filter seat 10 used for absorbing iron dust is inserted in an air suction groove of each cuboid air suction seat 9, the iron dust enters the air suction groove of the cuboid air suction seat 9 under the combined action of negative pressure and magnetic force, smooth absorption of the iron dust with large weight is achieved, when the dust passes through the air suction groove of the cuboid air suction seat 9, the iron dust passing through is magnetically absorbed and collected by the two inclined magnet plates 1002, and when part of the dust gushes out from small openings of the magnet plates 1002 arranged in a splayed shape, the magnetic absorption and collection are carried out through the magnet rods 1003 again.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a machine lid border robot is with welding protective structure which characterized in that: the device comprises a protective cover, wherein a cavity with an opening at the bottom is arranged in the protective cover, the protective cover is also correspondingly provided with a dust absorption mechanism and a ventilation mechanism, spark dust generated in the processes of edge rolling and welding is absorbed through the dust absorption mechanism, and the ventilation mechanism is matched to ensure the circulation of air during air suction;

dust absorption mechanism is including the upper end opening, lower extreme confined funnel, the funnel is installed in the protection casing top, the open end of funnel is located outside the protection casing, and install the air exhauster, the bottom surface of funnel is located the cavity, and the bottom intercommunication of funnel has three hose, hose's cross-section is the rectangle, three hose pastes in proper order and pastes to arrange on the cavity is controlled and the rear side inner wall, and all communicate the cuboid air suction seat that is used for the dust absorption in the bottom, three cuboid air suction seat forms \\ 21274, the shape structure pastes and pastes on the border in the cavity bottom, all be provided with the inward groove of induced drafting of opening on every cuboid air suction seat.

2. The welding protective structure for the machine cover binding robot according to claim 1, characterized in that: it has the filter seat that is used for intercepting iron dirt bits to peg graft in the outer port in the groove of induced drafting, filter the seat including two rubber boards, two magnet boards that are the splayed and arrange of fixedly connected with between two rubber boards to the tank bottom in the groove is induced drafted to the osculum end orientation of magnet board, still fixedly connected with magnet pole between two rubber boards, the magnet pole is located between two magnet boards and leaves the interval, magnet board and magnet pole are pegged graft in the outer port in the groove is induced drafted to the cuboid through the rubber board at both ends.

3. The welding protective structure for the machine cover binding robot according to claim 1, characterized in that: the both sides of the bottom of the protective cover are provided with flanges to form mounting plates, and the mounting plates are matched with bolts to fixedly mount the protective cover on the ground.

4. The welding protective structure for the machine cover binding robot according to claim 1, characterized in that: the bottom of the ventilating duct is communicated with a connector pipe in a matched mode through a soft air pipe, and the connector of each soft air pipe is in one-to-one correspondence with the connector pipe in a detachable plug-in communication mode.

5. The welding protective structure for the machine cover binding robot according to claim 1, characterized in that: nested bottom surface and the positive continuous open-ended cage in the cavity, the cage upper end is connected on the ventilating funnel bottom surface, forms the trachea chamber between cage outer wall and the cavity inner wall, and the hose pipe arranges in the trachea intracavity isolation protection, and the lower port clearance setting of cage breathes in the seat top at the cuboid.

6. The welding protective structure for the machine cover binding robot according to claim 5, characterized in that: the outer wall of the isolation cover is respectively provided with a v-21274matched with the corresponding side soft air pipe, and the soft air pipes are respectively clamped in the corresponding clamping frames.

7. The welding protective structure for the machine cover binding robot according to claim 5, characterized in that: the mechanism of taking a breath is including even the intake pipe of ventilating the lumen and being located the protection casing upper end, and the air inlet has all been seted up at every side cover wall middle part that the cage corresponds the lumen of qi, and air inlet and intake pipe cooperation intercommunication cage inner and outer space, and air inlet and intake pipe all have dustproof ventilative cover for filtering the debris of process in the port bonding.

8. The welding protective structure for the machine cover binding robot according to claim 5, characterized in that: a v-shaped sealing body is arranged between the lower end opening of the trachea cavity and the soft trachea, the sealing body is made of rubber, and sundries can be prevented from invading into the trachea cavity to pollute parts of the trachea.

9. The welding protective structure for the machine cover binding robot according to claim 5, characterized in that: the upper end fixed connection air duct of keeping apart, the lower side pipe body of air duct passes isolation hood, upper end intercommunication draft tube that makes progress, and the internal diameter of air duct is no longer than half of draft tube internal diameter, and the less air duct of design internal diameter carries out the machine-hour and carries out the absorption that the dust and dust flew up the in-process.

10. The welding protective structure for the machine cover binding robot according to claim 5, characterized in that: the front side of the protective cover is provided with an opening and is hinged with a sealing door, and the sealing door is in sealing connection with the front opening of the isolation cover when in a closed state.

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