CN111112748A - Environment-friendly equipment for smokeless cutting of stainless steel water tank - Google Patents

Abstract

The invention relates to the technical field of hardware fitting production equipment, in particular to environment-friendly equipment for smokeless cutting of a stainless steel water tank, which comprises an operating platform, a first synchronous belt sliding table, a portal frame, a second synchronous belt sliding table, a single-shaft cylinder, a filtering and isolating mechanism, a cutting mechanism and a guide mechanism, wherein the first synchronous belt sliding table is arranged at two sides of the operating platform, the bottom ends at two sides of the portal frame are respectively and fixedly connected with the sliding working ends of the first synchronous belt sliding table at two sides, the second synchronous belt sliding table is coaxially arranged at the top end of the portal frame, the single-shaft cylinder is vertically arranged at the bottom of the sliding working end of the second synchronous belt sliding table, the filtering and isolating mechanism is coaxially arranged at the bottom of the working end of the single-shaft cylinder, the cutting mechanism is coaxially arranged at the middle position of the working end of the filtering and isolating mechanism, the fixed ends of the guide mechanism are arranged at two sides of the filtering and isolating, thereby ensuring that the working environment is not polluted.

Description

Environment-friendly equipment for smokeless cutting of stainless steel water tank

Technical Field

The invention relates to the technical field of hardware fitting production equipment, in particular to environment-friendly equipment for smokeless cutting of a stainless steel water tank.

Background

The hardware fittings refer to machine parts or parts made of hardware and small hardware products, and can be used independently or used as auxiliary tools, such as hardware tools, hardware parts, daily hardware, building hardware, security articles and the like.

The basin is as one kind of hardware fitting, and when producing the basin, cutting equipment is indispensable, and general cutting equipment has a lot of high temperature material sputter to come at the during operation, threatens operating personnel's safety, has the potential safety hazard, and so on, cutting equipment can produce a large amount of smoke and dust in the cutting, if inhaled by operating personnel, also can influence operating personnel's health, has reduced cutting equipment's practicality.

Chinese patent CN201711132394.6 discloses a safe and reliable's environment-friendly stainless steel water tank cutting equipment, which comprises a frame, a workbench, a pedestal and a cutting head, and further comprises a first moving mechanism, two second moving mechanisms, a protection mechanism, a filtering mechanism and two fluting, the protection machine comprises two transmission assemblies, a cylinder, a first transmission rod, a support frame and two isolation hoods, the filtering mechanism comprises a spray assembly, a driving assembly, an exhaust port, an air inlet, a shell, a support rod, a bearing seat, an impeller and a driving shaft, the transmission assembly comprises a first moving block, a second transmission rod, a third transmission rod and a moving rod.

The impeller of the filtering mechanism of the device is arranged below the nozzle, and the normal work of the impeller driving motor can be influenced in the working process.

Disclosure of Invention

The invention aims to solve the technical problem of providing the environment-friendly equipment for the smokeless cutting of the stainless steel water tank, and the technical scheme solves the environment-friendly problem in the cutting process of the stainless steel water tank.

In order to solve the technical problems, the invention provides the following technical scheme: an environment-friendly device for smokeless cutting of a stainless steel water tank comprises an operation table, a first synchronous belt sliding table, a portal frame and a second synchronous belt sliding table, the unipolar cylinder, filter isolation mechanism, cutting mechanism and guiding mechanism, first synchronous area slip table sets up in the operation panel both sides, portal frame both sides bottom respectively with both sides first synchronous area slip table slip work end fixed connection, the coaxial setting of second hold-in range slip table is on the portal frame top, the vertical setting of unipolar cylinder is in second hold-in range slip work end bottom, unipolar cylinder work end is vertical down, filter isolation mechanism is coaxial to be set up in unipolar cylinder work end bottom, cutting mechanism is coaxial to be set up in filtering isolation mechanism work end intermediate position, filter isolation mechanism and cutting mechanism work end are all vertical down, the guiding mechanism stiff end sets up in filtering isolation mechanism both sides, the guiding mechanism expansion end sets up on the portal frame top.

Preferably, the operation panel is including the installation chassis, the fixed column, the mount, the adjustable shelf, first threaded rod and installation splint, the fixed column is fixed to be set up in installation chassis top both sides, the fixed column top is provided with the guide way along the axial, the fixed column inboard is provided with first fixed ear, the mount sets up on both sides fixed column with the axial both ends with the installation chassis, mount bottom both sides are provided with the fixed ear of second, adjustable shelf bottom both sides are provided with first slider, the adjustable shelf both ends slide through first slider and set up inside the guide way, adjustable shelf bottom both sides still are provided with first screw-nut, the coaxial rotation of first threaded rod sets up on first fixed ear and the fixed ear of second, the coaxial wrong joint of first screw-nut is on first threaded rod, the fixed setting in mount and adjustable shelf in installation splint both sides.

Preferably, through holes are uniformly distributed on a top plate of the mounting clamp plate, a dovetail plate is further arranged inside the mounting clamp plate, and strip-shaped openings are formed in two sides of the bottom end of the dovetail plate; a first drainage groove communicated with the strip-shaped port is formed in the mounting side of the fixing frame and the mounting clamping plate, and one end of the first drainage groove is coaxially provided with a first flow guide port communicated with the outside; the side of the movable frame and the installation clamp plate is provided with a second drainage groove communicated with the strip-shaped opening, and one end of the second drainage groove is coaxially provided with a second diversion opening communicated with the outside.

Preferably, the fixing device comprises a threaded fixing rod, a connecting rod, a butt joint block and a square wing butterfly nut, the threaded fixing rod is vertically and uniformly arranged on the top ends of the fixing column and the fixing frame along the axial direction, one end of the connecting rod is coaxially arranged on the threaded fixing rod in a penetrating mode, the butt joint block is fixedly arranged at the bottom of the other end of the connecting rod, the square wing butterfly nut is coaxially screwed on the threaded fixing rod, and the butt joint block is located above the connecting rod.

Preferably, filter isolation mechanism is including the driving piece, first filtration isolating device, the second filters isolating device, the third filters isolating device, fourth filters isolating device and buffering separation device, the coaxial fixed setting in unipolar cylinder working end bottom in driving piece top, first filtration isolating device, the second filters isolating device, third filters isolating device and fourth and filters isolating device along the axial equipartition on four movable working ends in driving piece bottom, the vertical central point at the driving piece bottom of installing of cutting mechanism puts, buffering separation device fixed mounting filters isolating device at first, the second filters isolating device, third filters isolating device and fourth and filters isolating device bottom.

Preferably, the driving member comprises a first mounting box, a limiting track, a second threaded rod, a second lead screw nut, a first bevel gear, a second bevel gear, a first rotating shaft and a first servo motor, the top end of the first mounting box is coaxially and fixedly arranged at the bottom of the working end of the single-shaft cylinder, the driving member is horizontally arranged at the bottom end inside the single-shaft cylinder in a cross shape, the second threaded rod is coaxially and rotatably arranged on the limiting track, the second lead screw nut is coaxially screwed on the second threaded rod, the first filtering and isolating device, the second filtering and isolating device, the third filtering and isolating device and the fourth filtering and isolating device are axially and uniformly distributed at the bottom ends of different second lead screw nuts, the first bevel gear is coaxially arranged at one end of the second threaded rod, the first rotating shaft is coaxially and rotatably arranged inside the first mounting box, the second bevel gear is coaxially arranged on the first rotating shaft, and the second bevel gear is mutually meshed, the first rotating shaft output shaft is coaxially and fixedly connected with the first rotating shaft.

Preferably, the first filtering and isolating device comprises a second mounting box, a first sieve plate, a spray head mounting plate, a spray head, a second servo motor, a communicating pipe, an axial fan, a second rotating shaft and a third servo motor, wherein the first mounting box is vertically arranged at the movable working end at the bottom of the driving piece, through holes communicated with the inside and the outside are arranged at one end and the bottom end of the first mounting box facing to the axis of the driving piece, the first sieve plate is arranged in the second mounting box, an output shaft of the second servo motor penetrates through the second mounting box and is fixedly connected with the spray head mounting plate, the spray heads are uniformly distributed at the other side of the spray head mounting plate along the axial direction, the spray head horizontally faces the first sieve plate, the communicating pipe is arranged in the second mounting box, one end of the communicating pipe penetrates through the top end of the first mounting box, the second rotating shaft penetrates through the communicating pipe and is coaxially and fixedly connected with the axial fan, the axial fan is coaxially arranged, the buffer blocking device is fixedly arranged at the bottom end of the driving piece, and an upper through hole of the buffer blocking device is communicated with a bottom end through hole of the second mounting box; the second filtering and isolating device, the third filtering and isolating device and the fourth filtering and isolating device have the same structure as the first filtering and isolating device.

Preferably, buffering barrier device is including second sieve and rubber strip, and the second sieve is fixed to be set up and is filtered the isolating device in first filtration isolating device, second, third and fourth filtration isolating device bottom, and the vertical equipartition of rubber strip is in second sieve bottom, and through-hole and first filtration isolating device, second filtration isolating device, third filtration isolating device and fourth filtration isolating device bottom through-hole intercommunication on the second sieve.

Preferably, the cutting mechanism comprises a cutting driver and a cutting head, the cutting driver is coaxially and vertically arranged at the center of the bottom end of the driving piece, and the cutting head is coaxially arranged at the bottom end of the output shaft of the cutting driver.

Preferably, the guide mechanism comprises a linear guide rail, a guide pillar mounting plate, guide pillars, springs and guide sleeves, the linear guide rail is horizontally arranged on two sides of the top end of the portal frame, the guide pillar mounting plate is fixedly arranged on two sides of the driving piece, the guide pillars are vertically arranged at two ends of the guide pillar mounting plate, the guide sleeves are fixedly arranged on one side of the sliding working end of the linear guide rail, the guide pillars coaxially penetrate through the guide sleeves, the top ends of the guide pillars are coaxially provided with stop blocks, the springs are coaxially sleeved on the guide pillars, and two ends of the springs are respectively abutted.

Compared with the prior art, the invention has the beneficial effects that:

the personnel at the working end places the stainless steel plate to be cut on the top of the operating platform, because the first synchronous belt sliding tables are arranged at the two sides of the operating platform, the bottom ends at the two sides of the portal frame are respectively fixedly connected with the sliding working ends of the first synchronous belt sliding tables at the two sides, and the second synchronous belt sliding tables are coaxially arranged at the top end of the portal frame, so that the filtering and isolating mechanism and the cutting mechanism which are arranged at the sliding working ends of the second synchronous belt sliding tables can freely move on the operating platform, thereby being convenient for cutting out the shape of the water tank, and the single-shaft cylinder is arranged at the bottom of the sliding working end of the second synchronous belt sliding table, thereby leading the working end of the single-shaft cylinder to descend to drive the filtering and isolating mechanism and the cutting mechanism to move downwards, leading the working end of the cutting mechanism to be abutted against the stainless steel plate to cut, and leading the working end of the, the high-temperature sputtering material produced in the cutting process can be blocked by the baffle at the working end of the filtering and isolating mechanism, so that the working personnel can be prevented from being accidentally injured, and the harmful gas and dust produced in the cutting process can be sucked into the working end of the cutting mechanism for dissolution treatment, so that the purifying effect is improved.

The device can be effectual with the harmful gas and the splash separation that produce in the basin cutting process to guarantee that operational environment does not receive the pollution.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a first perspective view of the console of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2;

FIG. 4 is a second perspective view of the console of the present invention;

FIG. 5 is a front view of the console of the present invention;

FIG. 6 is a sectional view taken along line B-B of FIG. 5;

FIG. 7 is a perspective view of the filter isolation mechanism of the present invention;

FIG. 8 is a front view of the filter isolation mechanism of the present invention;

FIG. 9 is a cross-sectional view taken along line C-C of FIG. 8;

FIG. 10 is a side view of a first filtration isolation unit of the present invention;

FIG. 11 is a cross-sectional view taken along line D-D of FIG. 10;

fig. 12 is a perspective view of the guide mechanism of the present invention.

The reference numbers in the figures are:

1. an operation table; 1a, installing a chassis; 1b, fixing columns; 1b1, guide groove; 1b2, first fixing ear; 1c, a fixed frame; 1c1, second fixing ear; 1c2, a first drainage groove; 1c3, a first diversion port; 1d, a movable frame; 1d1, first slider; 1d2, a first lead screw nut; 1d3, second drainage groove; 1d4 and a second diversion port; 1e, a first threaded rod; 1f, installing a clamping plate; 1f1, through holes; 1f2, dovetail plate; 1f3, strip-shaped mouth; 1g, a fixing tool; 1g1, a threaded fixing rod; 1g2, connecting rod; 1g3, abutment block; 1g4, square wing butterfly nut;

2. a first synchronous belt sliding table;

3. a gantry;

4. a second synchronous belt sliding table;

5. a single-shaft cylinder;

6. a filtering and isolating mechanism; 6a, a driving piece; 6a1, a first mounting box; 6a2, limit rail; 6a3, second threaded rod; 6a4, a second lead screw nut; 6a5, first bevel gear; 6a6, second bevel gear; 6a7, first rotation axis; 6a8, a first servomotor; 6b, a first filtering and isolating device; 6b1, second mounting box; 6b2, first screen deck; 6b3, spray header mounting plate; 6b4, spray header; 6b5, a second servomotor; 6b6, communicating pipe; 6b7, axial fan; 6b8, second rotation axis; 6b9, third servomotor; 6c, a second filtering and isolating device; 6d, a third filtering and isolating device; 6e, a fourth filtering and isolating device; 6f, a buffer blocking device; 6f1, second screen deck; 6f2, rubber strip;

7. a cutting mechanism; 7a, a cutting driver; 7b, a cutting head;

8. a guide mechanism; 8a, a linear guide rail; 8b, a guide post mounting plate; 8c, a guide post; 8c1, stop block; 8d, a spring; 8e, guide sleeve.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Referring to fig. 1 to 12, an environment-friendly apparatus for smokeless cutting of stainless steel water tank comprises an operation table 1, a first synchronous belt sliding table 2, a portal frame 3, a second synchronous belt sliding table 4, a single-shaft cylinder 5, a filtering isolation mechanism 6, a cutting mechanism 7 and a guide mechanism 8, wherein the first synchronous belt sliding table 2 is arranged at two sides of the operation table 1, the bottom ends of two sides of the portal frame 3 are respectively fixedly connected with the sliding working ends of the first synchronous belt sliding tables 2 at two sides, the second synchronous belt sliding table 4 is coaxially arranged at the top end of the portal frame 3, the single-shaft cylinder 5 is vertically arranged at the bottom of the sliding working end of the second synchronous belt sliding table 4, the working end of the single-shaft cylinder 5 is vertically downward, the filtering isolation mechanism 6 is coaxially arranged at the bottom of the working end of the single-shaft cylinder 5, the cutting mechanism 7 is coaxially arranged at the middle position of the working end of the, the fixed end of the guide mechanism 8 is arranged at the two sides of the filtering and isolating mechanism 6, and the movable end of the guide mechanism 8 is arranged at the top end of the portal frame 3.

The personnel at the working end places the stainless steel plate to be cut on the top of the operating platform 1, because the first synchronous belt sliding tables 2 are arranged at the two sides of the operating platform 1, the bottom ends at the two sides of the portal frame 3 are respectively fixedly connected with the sliding working ends of the first synchronous belt sliding tables 2 at the two sides, the second synchronous belt sliding table 4 is coaxially arranged at the top end of the portal frame 3, so that the filtering and isolating mechanism 6 and the cutting mechanism 7 which are arranged at the sliding working end of the second synchronous belt sliding table 4 can freely move on the operating platform 1, thereby being convenient for cutting out the shape of the water tank, and the single-shaft cylinder 5 is arranged at the bottom of the sliding working end of the second synchronous belt sliding table 4, so that the working end of the single-shaft cylinder 5 descends to drive the filtering and isolating mechanism 6 and the cutting mechanism 7 to move downwards, thereby the working end of the cutting mechanism 7 can be abutted against the stainless steel plate to cut, and, thereby make 7 work ends of cutting mechanism under operating condition, the high temperature sputter that produces in the cutting process can be blocked by 6 work end baffle of isolation mechanism of filtration to prevent accidental injury staff, thereby harmful gas and the dust that produces in the cutting process can be inhaled by 7 work ends of cutting mechanism and dissolve the processing, thereby improve purifying effect.

The operating platform 1 comprises an installation underframe 1a, fixed columns 1b, a fixed frame 1c, a movable frame 1d, a first threaded rod 1e and an installation splint 1f, the fixed columns 1b are fixedly arranged on two sides of the top of the installation underframe 1a, the top end of the fixed column 1b is provided with guide grooves 1b1 along the axial direction, the inner side of the fixed column 1b is provided with first fixed lugs 1b2, the fixed frame 1c and the installation underframe 1a are coaxially arranged on the fixed columns 1b on two sides, two sides of the bottom end of the fixed frame 1c are provided with second fixed lugs 1c1, two sides of the bottom end of the movable frame 1d are provided with first sliding blocks 1d1, two ends of the movable frame 1d are arranged in the guide grooves 1b1 in a sliding mode through the first sliding blocks 1d1, two sides of the bottom end of the movable frame 1d are also provided with first lead screw nuts 1d2, the first threaded rod 1e is coaxially and rotatably arranged on the first fixed lugs 1b2 and the second fixed lugs 1c1, the, two sides of the mounting splint 1f are fixedly arranged on the fixed frame 1c and the movable frame 1 d.

The fixed post 1b is fixedly arranged at both sides of the top of the installation chassis 1a, thereby providing a fixed frame 1c and a movable frame 1d on the fixed post 1b, while the fixed frame 1c is arranged on the fixed post 1b at both sides in the same axial direction as the installation chassis 1a, and the top end of the fixed post 1b is provided with a guide groove 1b1 in the axial direction, both sides of the bottom end of the movable frame 1d are provided with a first slider 1d1, thereby both ends of the movable frame 1d are slidably arranged inside the guide groove 1b1 by the first slider 1d1, thereby allowing the movable frame 1d to slide relative to the fixed frame 1c, thereby freely adjusting according to the width of the stainless steel plate, while the first threaded rod 1e is coaxially rotatably arranged on the first fixing lug 1b2 and the second fixing lug 1c1, the first screw nut 1d2 is coaxially screwed on the first threaded rod 1e, thereby when the first threaded rod 1e is rotated, first screw-nut 1d2 is fixed on adjustable shelf 1d to make adjustable shelf 1d can mount 1c freely remove relatively, thereby the adjustment distance, and the fixed setting in mount 1c and adjustable shelf 1d in installation splint 1f both sides, thereby make the stainless steel panel place the cutting of being convenient for on installation splint 1 f.

Through holes 1f1 are uniformly distributed on a top plate of the mounting clamp plate 1f, a dovetail plate 1f2 is further arranged inside the mounting clamp plate 1f, and strip-shaped openings 1f3 are formed in two sides of the bottom end of the dovetail plate 1f 2; a first drainage groove 1c2 communicated with the strip-shaped opening 1f3 is formed in the mounting side of the fixing frame 1c and the mounting splint 1f, and one end of the first drainage groove 1c2 is coaxially provided with a first drainage opening 1c3 communicated with the outside; the installation sides of the movable frame 1d and the installation splint 1f are provided with a second drainage groove 1d3 communicated with the strip-shaped port 1f3, and one end of the second drainage groove 1d3 is coaxially arranged on a second drainage port 1d4 communicated with the outside.

Through holes 1f1 are uniformly distributed on a top plate of the mounting clamp plate 1f, a dovetail plate 1f2 is further arranged inside the mounting clamp plate 1f, and strip-shaped openings 1f3 are formed in two sides of the bottom end of the dovetail plate 1f 2; so that when the stainless steel plate is placed on the mounting splint 1f, waste liquid generated during cutting will flow downwards through the through hole 1f1, and when the stainless steel plate flows onto the dovetail plate 1f2, the waste liquid will flow towards both sides due to the oblique angle effect, so as to flow outwards through the strip-shaped port 1f3, while the mounting side of the fixed frame 1c and the mounting splint 1f is provided with a first drainage groove 1c2 communicated with the strip-shaped port 1f3, the mounting side of the movable frame 1d and the mounting splint 1f is provided with a second drainage groove 1d3 communicated with the strip-shaped port 1f3, and one end of the first drainage groove 1c2 is coaxially arranged with a first drainage port 1c3 communicated with the outside, one end of the second drainage groove 1d3 is coaxially arranged with a second drainage port 1d4 communicated with the outside, so that the waste liquid flows outwards through the first drainage groove 1c2 and the first drainage port 1c3 or the second drainage groove 1d3 and the second drainage port 1d4, thereby facilitating the collection of waste liquid.

The fixing tool 1g comprises a threaded fixing rod 1g1, a connecting rod 1g2, a butt block 1g3 and a wing butterfly nut 1g4, the threaded fixing rod 1g1 is uniformly and vertically mounted at the top ends of a fixing column 1b and a fixing frame 1c along the axial direction, one end of the connecting rod 1g2 is coaxially arranged on the threaded fixing rod 1g1 in a penetrating mode, the butt block 1g3 is fixedly mounted at the bottom of the other end of the connecting rod 1g2, the wing butterfly nut 1g4 is coaxially screwed on the threaded fixing rod 1g1, and the butt block 1g3 is located above the connecting rod 1g 2.

The threaded fixing rods 1g1 are uniformly and vertically arranged at the top ends of the fixing column 1b and the fixing frame 1c along the axial direction, one end of the connecting rod 1g2 is coaxially arranged on the threaded fixing rod 1g1 in a penetrating mode, the abutting block 1g3 is fixedly arranged at the bottom of the other end of the connecting rod 1g2, the wing butterfly nut 1g4 is coaxially screwed on the threaded fixing rod 1g1, and the abutting block 1g3 is located above the connecting rod 1g2, so that when the stainless steel plate is placed on the mounting splint 1f, the abutting block 1g3 abuts on the top end edge of the stainless steel plate by rotating the connecting rod 1g2, and the wing butterfly nut 1g4 abuts one end of the connecting rod 1g2 on the threaded fixing rod 1g1, so that the stainless steel plate is fixed on the mounting splint 1f, and cutting is facilitated.

Filter isolation mechanism 6 including driving piece 6a, first filtration isolating device 6b, second filtration isolating device 6c, third filtration isolating device 6d, fourth filtration isolating device 6e and buffering isolating device 6f, the coaxial fixed setting in 5 work end bottoms in unipolar cylinder in driving piece 6a top, first filtration isolating device 6b, second filtration isolating device 6c, third filtration isolating device 6d and fourth filtration isolating device 6e follow the axial equipartition on four movable work ends in driving piece 6a bottom, the vertical central point in driving piece 6a bottom of installing of cutting mechanism 7 puts, buffering isolating device 6f fixed mounting is at first filtration isolating device 6b, second filtration isolating device 6c, third filtration isolating device 6d and fourth filtration isolating device 6e bottom.

The top end of the driving piece 6a is coaxially and fixedly arranged at the bottom of the working end of the single-shaft cylinder 5, so that when the working end of the single-shaft cylinder 5 starts to move vertically downwards, the driving piece 6a can synchronously move downwards, so that the cutting mechanism 7 can abut against the top end of the stainless steel plate so as to be convenient for cutting, and the first filtering and isolating device 6b, the second filtering and isolating device 6c, the third filtering and isolating device 6d and the fourth filtering and isolating device 6e are uniformly distributed on the four movable working ends at the bottom end of the driving piece 6a along the axial direction, so that when the working end at the bottom of the driving piece 6a is inwards folded, the first filtering and isolating device 6b, the second filtering and isolating device 6c, the third filtering and isolating device 6d and the fourth filtering and isolating device 6e synchronously move towards the axial direction so as to surround the cutting mechanism 7, so that when the cutting mechanism 7 cuts the stainless, the filtering and isolating device absorbs harmful gas and isolates splashes, so that the working environment is prevented from being polluted, the buffering and isolating device 6f is fixedly installed at the bottom ends of the first filtering and isolating device 6b, the second filtering and isolating device 6c, the third filtering and isolating device 6d and the fourth filtering and isolating device 6e, and therefore the buffering and isolating device 6f can play a role in buffering when the cutting mechanism 7 abuts against a stainless steel plate, and the splashes can be prevented from flying out of the bottom end.

The driving member 6a comprises a first mounting box 6a1, a limit track 6a2, a second threaded rod 6a3, a second lead screw nut 6a4, a first bevel gear 6a5, a second bevel gear 6a6, a first rotating shaft 6a7 and a first servo motor 6a8, the top end of the first mounting box 6a1 is coaxially and fixedly arranged at the bottom of the working end of the single-shaft cylinder 5, the driving member 6a is horizontally arranged at the bottom end inside the single-shaft cylinder 5 in a cross shape, the second threaded rod 3 is coaxially and rotatably arranged on the limit track 6a2, the second lead screw nut 6a4 is coaxially screwed on the second threaded rod 6a3, a first filtering and isolating device 6b, a second filtering and isolating device 6c, a third filtering and isolating device 6d and a fourth filtering and isolating device 6e are axially and uniformly distributed at the bottom ends of different second lead screw nuts 6a4, the first bevel gear 6a5 is coaxially arranged at one end of the second threaded rod 3, the first rotating shaft 6a7 is coaxially arranged inside the first mounting box 1, the second bevel gear 6a6 is coaxially disposed on the first rotating shaft 6a7, the second bevel gear 6a6 is engaged with the first bevel gear 6a5, and the output shaft of the first rotating shaft 6a7 is coaxially and fixedly connected with the first rotating shaft 6a 7.

The top end of a first mounting box 6a1 is coaxially and fixedly arranged at the bottom of the working end of a single-shaft cylinder 5, a driving piece 6a is horizontally arranged at the bottom end inside the single-shaft cylinder 5 in a cross shape, a second threaded rod 6a3 is coaxially and rotatably arranged on a limiting track 6a2, a second lead screw nut 6a4 is coaxially screwed on the second threaded rod 6a3, a first filtering and isolating device 6b, a second filtering and isolating device 6c, a third filtering and isolating device 6d and a fourth filtering and isolating device 6e are axially and uniformly distributed at the bottom ends of different second lead screw nuts 6a4, a first bevel gear 6a5 is coaxially arranged at one end of the second threaded rod 6a3, a first rotating shaft 6a7 is coaxially and rotatably arranged inside the first mounting box 6a1, a second bevel gear 6a6 is coaxially arranged on a first rotating shaft 6a7, a second bevel gear 6a6 is meshed with the first bevel gear 6a5, and an output shaft 6a7 is coaxially and fixedly connected with the first rotating shaft 6a7, so that when the working end of the first servomotor 6a8 rotates, the first rotating shaft 6a7 rotates the second bevel gear 6a6 synchronously, and the second bevel gear 6a6 and the first bevel gear 6a5 are engaged with each other, so that the second threaded rod 6a3 synchronously rotates in the limit track 6a2, and the second lead screw nut 6a4 is screwed on the second threaded rod 6a3, so that the second screw nut 6a4 slides on the limit track 6a2, and the first filtering and isolating device 6b, the second filtering and isolating device 6c, the third filtering and isolating device 6d and the fourth filtering and isolating device 6e are uniformly distributed at the bottom end of different second screw nuts 6a4 along the axial direction, so that the first filtering and separating device 6b, the second filtering and separating device 6c, the third filtering and separating device 6d and the fourth filtering and separating device 6e move towards the axial direction synchronously, thereby being convenient to surround the cutting mechanism 7.

The first filtering and isolating device 6b comprises a second mounting box 6b1, a first sieve plate 6b2, a spray head mounting plate 6b3, a spray head 6b4, a second servo motor 6b5, a communicating pipe 6b6, an axial flow fan 6b7, a second rotating shaft 6b8 and a third servo motor 6b9, wherein the first mounting box 6a1 is vertically arranged at the bottom movable working end of a driving piece 6a, through holes for communicating the inside and the outside are arranged at one end and the bottom end of the first mounting box 6a1 facing to the axis of the driving piece 6a, the first sieve plate 6b2 is arranged inside the second mounting box 6b1, an output shaft of the second servo motor 6b5 penetrates through the second mounting box 6b1 and is fixedly connected with the spray head mounting plate 6b3, the spray heads 6b4 are uniformly distributed at the other side of the spray head mounting plate 6b3 along the axial direction, the spray head 6b4 horizontally faces to the first sieve plate 6b2, the communicating pipe 6b6 is arranged inside the second mounting box 6b 68628 and penetrates through the top end of the first mounting, the second rotating shaft 6b8 penetrates through the communicating pipe 6b6 to be coaxially and fixedly connected with the axial flow fan 6b7, the axial flow fan 6b7 is coaxially arranged inside the communicating pipe 6b6, the other end of the second rotating shaft 6b8 penetrates through the driving piece 6a to be coaxially and fixedly connected with an output shaft of the third servo motor 6b9, the buffering and blocking device 6f is fixedly arranged at the bottom end of the driving piece 6a, and a through hole in the buffering and blocking device 6f is communicated with a through hole in the bottom end of the second mounting box 6b 1; the second filtering and isolating device 6c, the third filtering and isolating device 6d and the fourth filtering and isolating device 6e have the same structure as the first filtering and isolating device 6 b.

The first mounting box 6a1 is vertically arranged at the movable working end at the bottom of the driving piece 6a, the second filtering and isolating device 6c, the third filtering and isolating device 6d and the fourth filtering and isolating device 6e have the same structure as the first filtering and isolating device 6b, when the second filtering and isolating device 6c, the third filtering and isolating device 6d and the fourth filtering and isolating device 6e and the first filtering and isolating device 6b surround the cutting mechanism 7, and the cutting mechanism 7 normally works, the output shafts of the second servo motor 6b5 and the third servo motor 6b9 rotate, the spray head 6b4 is connected through a hose to spray the solution, the spray head 6b4 is axially and uniformly distributed at the other side of the spray head mounting plate 6b3, so that the spray head 6b4 rotates to spray the solution, the second rotating shaft 6b8 penetrates through the communicating pipe 6b6 to be coaxially and fixedly connected with the axial flow fan 6b7, and the other end of the second rotating shaft 6b8 penetrates through the driving piece 6a and the output shaft 6b9 and is coaxially and fixedly connected with the third servo So that the axial flow fan 6b7 discharges the air in the second mounting box 6b1 outwards, and the harmful gas generated in the cutting process is sucked inwards through the through hole on one side of the second mounting box 6b1 and the first sieve plate 6b2, so that the solution dissolves any gas, thereby protecting the working environment from being polluted; the second mounting box 6b1 side can also block the flying of splashed materials, thereby preventing accidental injury to workers.

Buffering separation device 6f is including second sieve 6f1 and rubber strip 6f2, second sieve 6f1 is fixed to be set up at first filter separator 6b, second filter separator 6c, the bottom of third filter separator 6d and fourth filter separator 6e, the vertical equipartition of rubber strip 6f2 is in second sieve 6f1 bottom, second sieve 6f1 go up through-hole and first filter separator 6b, second filter separator 6c, third filter separator 6d and fourth filter separator 6e bottom through-hole intercommunication.

The second sieve 6f1 is fixed to be set up at first filter separator 6b, the second filters separator 6c, the third filters separator 6d and the fourth filters separator 6e bottom, the vertical equipartition of rubber strip 6f2 is in second sieve 6f1 bottom, through-hole and first filter separator 6b, the second filters separator 6c on the second sieve 6f1, third filter separator 6d and the fourth filter separator 6e bottom through-hole intercommunication, thereby make thereby the waste liquid that filter separator produced thereby bottom through-hole and second sieve 6f1 through-hole flow down, thereby be convenient for collect, and rubber strip 6f2 can be when cutting mechanism 7 butt on the stainless steel panel, can cushion its butt power, and can block thereby the bottom departure of splash.

The cutting mechanism 7 comprises a cutting driver 7a and a cutting head 7b, the cutting driver 7a is coaxially and vertically arranged at the center position of the bottom end of the driving piece 6a, and the cutting head 7b is coaxially arranged at the bottom end of an output shaft of the cutting driver 7 a.

The cutting driver 7a is coaxially and vertically arranged at the center of the bottom end of the driving piece 6a, and the cutting head 7b is coaxially arranged at the bottom end of an output shaft of the cutting driver 7a, so that the cutting driver 7a drives the cutting head 7b to cut on the stainless steel plate in a working state.

The guide mechanism 8 comprises a linear guide rail 8a, a guide pillar mounting plate 8b, a guide pillar 8c, a spring 8d and a guide sleeve 8e, the linear guide rail 8a is horizontally arranged on two sides of the top end of the portal frame 3, the guide pillar mounting plate 8b is fixedly arranged on two sides of the driving part 6a, the guide pillar 8c is vertically arranged at two ends of the guide pillar mounting plate 8b, the guide sleeve 8e is fixedly arranged on one side of the sliding working end of the linear guide rail 8a, the guide pillar 8c coaxially penetrates through the guide sleeve 8e, a stop block 8c1 is coaxially arranged at the top end of the guide pillar 8c, the spring 8d is coaxially sleeved on the guide pillar 8c, and two ends of the spring 8d are respectively abutted.

When the driving part 6a is lifted in the vertical direction, rotation may occur, the guide post mounting plate 8b is fixedly arranged at two sides of the driving part 6a, the guide posts 8c are vertically arranged at two ends of the guide post mounting plate 8b, the guide sleeves 8e are fixedly arranged at one side of the sliding working end of the linear guide rail 8a, the guide posts 8c coaxially penetrate through the guide sleeves 8e, the top ends of the guide posts 8c are coaxially provided with the stop blocks 8c1, the spring 8d is coaxially sleeved on the guide posts 8c, two ends of the spring 8d are respectively abutted against the top ends of the guide sleeves 8e and the bottom ends of the stop blocks 8c1, so that when the driving part 6a moves downwards, the driving part can perform buffer motion under the elastic force of the spring 8d, the guide posts 8c are conveniently fixed in the direction and cannot rotate, and the stop blocks.

The working principle of the invention is as follows:

the personnel at the working end places the stainless steel plate to be cut on the top of the operating platform 1, because the first synchronous belt sliding tables 2 are arranged at the two sides of the operating platform 1, the bottom ends at the two sides of the portal frame 3 are respectively fixedly connected with the sliding working ends of the first synchronous belt sliding tables 2 at the two sides, the second synchronous belt sliding table 4 is coaxially arranged at the top end of the portal frame 3, so that the filtering and isolating mechanism 6 and the cutting mechanism 7 which are arranged at the sliding working end of the second synchronous belt sliding table 4 can freely move on the operating platform 1, thereby being convenient for cutting out the shape of the water tank, and the single-shaft cylinder 5 is arranged at the bottom of the sliding working end of the second synchronous belt sliding table 4, so that the working end of the single-shaft cylinder 5 descends to drive the filtering and isolating mechanism 6 and the cutting mechanism 7 to move downwards, thereby the working end of the cutting mechanism 7 can be abutted against the stainless steel plate to cut, and, thereby make 7 work ends of cutting mechanism under operating condition, the high temperature sputter that produces in the cutting process can be blocked by 6 work end baffle of isolation mechanism of filtration to prevent accidental injury staff, thereby harmful gas and the dust that produces in the cutting process can be inhaled by 7 work ends of cutting mechanism and dissolve the processing, thereby improve purifying effect.

Claims (10)

1. An environment-friendly device for smokeless cutting of a stainless steel water tank is characterized by comprising an operation table (1), a first synchronous belt sliding table (2), a portal frame (3), a second synchronous belt sliding table (4), a single-shaft cylinder (5), a filtering isolation mechanism (6), a cutting mechanism (7) and a guide mechanism (8), wherein the first synchronous belt sliding table (2) is arranged at two sides of the operation table (1), the bottom ends of two sides of the portal frame (3) are respectively fixedly connected with the sliding working ends of the first synchronous belt sliding tables (2) at two sides, the second synchronous belt sliding table (4) is coaxially arranged at the top end of the portal frame (3), the single-shaft cylinder (5) is vertically arranged at the bottom of the sliding working end of the second synchronous belt sliding table (4), the working end of the single-shaft cylinder (5) is vertically downward, the filtering isolation mechanism (6) is coaxially arranged at the bottom of the working end of the single-shaft cylinder (5), the cutting mechanism (7) is coaxially arranged at the middle, the working ends of the filtering and isolating mechanism (6) and the cutting mechanism (7) are vertical downwards, the fixed ends of the guide mechanisms (8) are arranged on two sides of the filtering and isolating mechanism (6), and the movable ends of the guide mechanisms (8) are arranged on the top end of the portal frame (3).

2. The environment-friendly equipment for smokeless cutting of the stainless steel water tank is characterized in that the operating platform (1) comprises an installation underframe (1 a), fixing columns (1 b), a fixed frame (1 c), a movable frame (1 d), a first threaded rod (1 e) and an installation clamp plate (1 f), the fixing columns (1 b) are fixedly arranged on two sides of the top of the installation underframe (1 a), the top end of each fixing column (1 b) is axially provided with a guide groove (1 b 1), the inner side of each fixing column (1 b) is provided with a first fixing lug (1 b 2), the fixed frame (1 c) and the installation underframe (1 a) are coaxially arranged on the fixing columns (1 b) on two sides, two sides of the bottom end of the fixed frame (1 c) are provided with second fixing lugs (1 c 1), two sides of the bottom end of the movable frame (1 d) are provided with first sliding blocks (1 d 1), two ends of the movable frame (1 d) are slidably arranged in the guide grooves (1 b 1) through the first sliding blocks (1 d 1), the bottom end of the movable frame (1 d) is also provided with first lead screw nuts (1 d 2), the first threaded rod (1 e) is coaxially rotated and arranged on the first fixed lug (1 b 2) and the second fixed lug (1 c 1), the first lead screw nut (1 d 2) is coaxially screwed on the first threaded rod (1 e), and two sides of the installation clamp plate (1 f) are fixedly arranged on the fixed frame (1 c) and the movable frame (1 d).

3. The environment-friendly equipment for smokeless cutting of a stainless steel water tank as claimed in claim 2, wherein through holes (1 f 1) are uniformly distributed on a top plate of the mounting clamp plate (1 f), a dovetail plate (1 f 2) is further arranged inside the mounting clamp plate (1 f), and strip-shaped openings (1 f 3) are formed in two sides of the bottom end of the dovetail plate (1 f 2); a first drainage groove (1 c 2) communicated with the strip-shaped port (1 f 3) is formed in the mounting side of the fixing frame (1 c) and the mounting splint (1 f), and one end of the first drainage groove (1 c 2) is coaxially provided with a first drainage port (1 c 3) communicated with the outside; the installation sides of the movable frame (1 d) and the installation splint (1 f) are provided with a second drainage groove (1 d 3) communicated with the strip-shaped port (1 f 3), and one end of the second drainage groove (1 d 3) is coaxially arranged at a second drainage port (1 d 4) communicated with the outside.

4. The environment-friendly equipment for smokeless cutting of a stainless steel water tank is characterized in that the fixing tool (1 g) comprises a threaded fixing rod (1 g 1), a connecting rod (1 g 2), a butt block (1 g 3) and a square wing butterfly nut (1 g 4), the threaded fixing rod (1 g 1) is uniformly and vertically arranged at the top ends of a fixing column (1 b) and a fixing frame (1 c) along the axial direction, one end of the connecting rod (1 g 2) is coaxially arranged on the threaded fixing rod (1 g 1) in a penetrating mode, the butt block (1 g 3) is fixedly arranged at the bottom of the other end of the connecting rod (1 g 2), the square wing butterfly nut (1 g 4) is coaxially screwed on the threaded fixing rod (1 g 1), and the butt block (1 g 3) is located above the connecting rod (1 g 2).

5. The environment-friendly equipment for smokeless cutting of a stainless steel water tank as claimed in claim 1, wherein the filtering isolation mechanism (6) comprises a driving member (6 a), a first filtering isolation device (6 b), a second filtering isolation device (6 c), a third filtering isolation device (6 d), a fourth filtering isolation device (6 e) and a buffer blocking device (6 f), the top end of the driving member (6 a) is coaxially and fixedly arranged at the bottom of the working end of the single-shaft cylinder (5), the first filtering isolation device (6 b), the second filtering isolation device (6 c), the third filtering isolation device (6 d) and the fourth filtering isolation device (6 e) are axially and uniformly distributed on four movable working ends at the bottom end of the driving member (6 a), the cutting mechanism (7) is vertically arranged at the central position of the bottom end of the driving member (6 a), and the buffer blocking device (6 f) is fixedly arranged at the first filtering isolation device (6 b), The bottom ends of the second filtering and isolating device (6 c), the third filtering and isolating device (6 d) and the fourth filtering and isolating device (6 e).

6. The environment-friendly equipment for smokeless cutting of a stainless steel water tank as claimed in claim 5, wherein the driving member (6 a) comprises a first mounting box (6 a 1), a limiting rail (6 a 2), a second threaded rod (6 a 3), a second screw nut (6 a 4), a first bevel gear (6 a 5), a second bevel gear (6 a 6), a first rotating shaft (6 a 7) and a first servo motor (6 a 8), the top end of the first mounting box (6 a 1) is coaxially and fixedly arranged at the bottom of the working end of the single-shaft cylinder (5), the driving member (6 a) is horizontally arranged at the bottom end inside the single-shaft cylinder (5) in a cross shape, the second threaded rod (6 a 3) is coaxially and rotatably arranged on the limiting rail (6 a 2), the second screw nut (6 a 4) is coaxially screwed on the second threaded rod (6 a 3), and a first filtering and isolating device (6 b), a second filtering isolating device (6 c) and a servo motor (6 c) are arranged on the second threaded rod 3), The third filtering and isolating device (6 d) and the fourth filtering and isolating device (6 e) are uniformly distributed at the bottom ends of different second screw nuts (6 a 4) along the axial direction, a first bevel gear (6 a 5) is coaxially arranged at one end of a second threaded rod (6 a 3), a first rotating shaft (6 a 7) is coaxially and rotatably arranged inside a first mounting box (6 a 1), a second bevel gear (6 a 6) is coaxially arranged on a first rotating shaft (6 a 7), the second bevel gear (6 a 6) is meshed with the first bevel gear (6 a 5), and an output shaft of the first rotating shaft (6 a 7) is coaxially and fixedly connected with the first rotating shaft (6 a 7).

7. The environment-friendly equipment for smokeless cutting of a stainless steel water tank as claimed in claim 6, wherein the first filtering and isolating device (6 b) comprises a second mounting box (6 b 1), a first screen plate (6 b 2), a spray head mounting plate (6 b 3), a spray head (6 b 4), a second servo motor (6 b 5), a communicating pipe (6 b 6), an axial fan (6 b 7), a second rotating shaft (6 b 8) and a third servo motor (6 b 9), the first mounting box (6 a 1) is vertically arranged at the movable working end at the bottom of the driving piece (6 a), a through hole for communicating the inside and the outside is arranged at one end and the bottom end of the first mounting box (6 a 1) facing to the axis of the driving piece (6 a), the first screen plate (6 b 2) is arranged inside the second mounting box (6 b 1), and an output shaft of the second servo motor (6 b 5) penetrates through the second mounting box (6 b 1) and is fixedly connected with the spray head mounting plate (6 b 3), the spray headers (6 b 4) are uniformly distributed on the other side of the spray header mounting plate (6 b 3) along the axial direction, the spray headers (6 b 4) horizontally face the first sieve plate (6 b 2), the communicating pipe (6 b 6) is arranged inside the second mounting box (6 b 1), one end of the communicating pipe penetrates through the top end of the first mounting box (6 a 1), the second rotating shaft (6 b 8) penetrates through the communicating pipe (6 b 6) and is coaxially and fixedly connected with the axial flow fan (6 b 7), the axial flow fan (6 b 7) is coaxially arranged inside the communicating pipe (6 b 6), the other end of the second rotating shaft (6 b 8) penetrates through the driving piece (6 a) and is coaxially and fixedly connected with an output shaft of the third servo motor (6 b 9), the buffer blocking device (6 f) is fixedly arranged at the bottom end of the driving piece (6 a), and an upper through hole of the buffer blocking device (6 f) is communicated with a through hole at the bottom end of; the second filtering and isolating device (6 c), the third filtering and isolating device (6 d) and the fourth filtering and isolating device (6 e) have the same structure as the first filtering and isolating device (6 b).

8. The environment-friendly equipment for smokeless cutting of a stainless steel water tank as claimed in claim 1, wherein the buffer blocking device (6 f) comprises a second sieve plate (6 f 1) and a rubber strip (6 f 2), the second sieve plate (6 f 1) is fixedly arranged at the bottom ends of the first filtering and isolating device (6 b), the second filtering and isolating device (6 c), the third filtering and isolating device (6 d) and the fourth filtering and isolating device (6 e), the rubber strip (6 f 2) is vertically and uniformly distributed at the bottom end of the second sieve plate (6 f 1), and the through hole on the second sieve plate (6 f 1) is communicated with the through holes at the bottom ends of the first filtering and isolating device (6 b), the second filtering and isolating device (6 c), the third filtering and isolating device (6 d) and the fourth filtering and isolating device (6 e).

9. The environment-friendly equipment for smokeless cutting of stainless steel water tank according to claim 1, wherein the cutting mechanism (7) comprises a cutting driver (7 a) and a cutting head (7 b), the cutting driver (7 a) is coaxially and vertically arranged at the center of the bottom end of the driving member (6 a), and the cutting head (7 b) is coaxially arranged at the bottom end of the output shaft of the cutting driver (7 a).

10. The environment-friendly equipment for smokeless cutting of a stainless steel water tank according to claim 1, the gantry crane guide mechanism is characterized in that the guide mechanism (8) comprises a linear guide rail (8 a), a guide post mounting plate (8 b), a guide post (8 c), a spring (8 d) and a guide sleeve (8 e), the linear guide rail (8 a) is horizontally arranged on two sides of the top end of the gantry frame (3), the guide post mounting plate (8 b) is fixedly arranged on two sides of the driving part (6 a), the guide post (8 c) is vertically arranged at two ends of the guide post mounting plate (8 b), the guide sleeve (8 e) is fixedly arranged on one side of the sliding working end of the linear guide rail (8 a), the guide post (8 c) coaxially penetrates through the guide sleeve (8 e), a stop block (8 c 1) is coaxially arranged at the top end of the guide post (8 c), the spring (8 d) is coaxially sleeved on the guide post (8 c), and two ends of the spring (8 d) are respectively abutted to the top end.

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