CN116673787A - Non-metal product binary channels five machining center - Google Patents

Abstract

The invention relates to the technical field of nonmetallic product processing equipment, in particular to a nonmetallic product double-channel five-axis processing center which comprises a machine tool, a driving cross beam, two driving sliding tables, sliding tables and two processing machine heads, wherein the driving cross beam and the two driving sliding tables are arranged on the upper side of the machine tool, the sliding tables are respectively arranged on the upper sides of the two driving sliding tables in a sliding mode, the two processing machine heads are arranged on one side of the driving cross beam and used for respectively processing workpieces on the two sliding tables, a relatively closed dust cover is arranged on the upper side of the machine tool, a side dust suction hopper and a middle dust suction hopper are arranged on the machine tool and used for intensively absorbing dust and entering a dust collection filter box for processing, so that dust and dust are not easy to be scattered and fly upwards, and are convenient to intensively clean, two sides of the sliding tables on the two driving sliding tables are respectively provided with cleaning mechanisms, and the cleaning mechanisms can clean the dust and dust on the surfaces of the side dust suction hopper and the middle dust suction hopper into the dust cleaning mechanism while the sliding tables move forwards and backwards, so that the cleaning effect of the dust and dust are improved.

Description

Non-metal product binary channels five machining center

Technical Field

The invention relates to the technical field of nonmetallic product processing equipment, in particular to a nonmetallic product double-channel five-axis processing center.

Background

The nonmetallic substrate mainly comprises synthetic resin, rubber, ceramic, graphite, carbon and the like; the reinforcing material mainly comprises glass fiber, carbon fiber, boron fiber, aramid fiber, silicon carbide fiber, asbestos fiber, whisker, metal wire, hard fine particles and the like; in order to process products with different shapes such as planes, three-dimensional patterns, peripheral curves and curved surfaces, most of the existing nonmetallic products are produced and processed by a multi-shaft processing machine tool, a driving beam is used for driving a processing machine head to move and processing workpieces placed on a sliding workbench, larger dust fragments are generated during processing, the dust fragments are easy to scatter everywhere when not processed well, the processing working effect of equipment is affected, the whole working environment is affected, and workers can cause certain harm to the health in the environment for a long time.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide a nonmetallic product double-channel five-axis machining center so as to solve the problems in the prior art.

In order to achieve the above object, the present invention is realized by the following technical scheme: the utility model provides a nonmetallic product binary channels five machining center, includes the lathe, locates driving beam and two drive slip tables of lathe upside, slides respectively and sets up in the slip table of two drive slip tables upside and installs two processing aircraft nose that are used for carrying out processing respectively to the work piece on two slip tables in driving beam one side, the lathe upside is connected with the dust cover through the screw lock, the dust cover front side is opened and shut and is provided with the work window so that later stage is got and is put the work piece, two on the lathe in the drive slip table outside respectively the screw mounting have the side dust absorption fill, two screw mounting has the middle part dust absorption fill on the lathe between the drive slip table, side dust absorption fill and middle part dust absorption fill are used for directly absorbing dust and piece when processing.

The further improvement is that: the dust collection filter box is arranged on one side of the machine tool, the dust collector and the filter screen are arranged in the dust collection box, and one sides of the bottoms of the side dust collection hopper and the middle dust collection hopper are respectively connected with the dust collector of the dust collection filter box through air pipes and filter dust by utilizing the filter screen.

The further improvement is that: the side dust absorption hopper and the middle dust absorption hopper are respectively provided with a hopper frame body and a hollowed panel, wherein the bottom side of the hopper frame body is communicated with a dust discharging pipe, and the dust discharging pipe is connected with a dust collector inside the dust collection filter box through an air pipe, so that dust and fragments absorbed by the side dust absorption hopper and the middle dust absorption hopper can enter the dust collection filter box for filtering treatment.

The further improvement is that: in order to enable dust and debris on the surfaces of the side dust collection hopper and the middle dust collection hopper to be better cleaned and enter the inside, the two sliding worktable two sides are respectively detachably and adjustably provided with cleaning mechanisms, and the cleaning mechanisms are respectively arranged on the upper sides of the side dust collection hopper and the middle dust collection hopper so that the cleaning mechanisms can directly clean the side dust collection hopper and the middle dust collection hopper.

The further improvement is that: the cleaning mechanism comprises a threaded rod and a cleaning brush, the threaded rod is fixedly connected with the side face of the sliding workbench, a lock nut is sleeved on the threaded rod, the lock nut can be spirally displaced left and right, a plurality of plastic elastic clamping plates are arranged at the circular array of the outer end of the threaded rod, a ball head rod is fixedly arranged at one end of the cleaning brush, the ball head rod can be clamped into a notch between the elastic clamping plates, and therefore the ball head rod can be adjusted in rotation angle according to the use requirement of the notch between the elastic clamping plates.

The further improvement is that: each elastic clamping plate outer end inner side is provided with a convex clamping block respectively, each convex clamping block can be tightly attached to a ball head rod clamped in the elastic clamping plate, and therefore falling off can be effectively avoided after the convex clamping block clamps the ball head rod.

The further improvement is that: the middle part of the sliding workbench is respectively provided with a negative pressure adsorption mechanism for adsorbing a workpiece, the negative pressure adsorption mechanism comprises an adsorption cavity head and a negative pressure fan, the adsorption cavity head is fixedly arranged on the upper side of the sliding workbench, the bottom of the inner cavity of the adsorption cavity head is connected with the negative pressure fan through an air pipe, and the exhaust end of the negative pressure fan is communicated with the inside of the dust collection filter box through the air pipe, so that part of dust adsorbed by the adsorption mechanism can enter the dust collection filter box to be filtered.

The further improvement is that: the machine tool and the dust cover are respectively provided with a plurality of blowing pumps, the air inlet of each blowing pump is communicated with the outside, the air outlet end of each blowing pump is communicated with the inside of the dust cover through an exhaust pipe, and the blowing pumps are used for blowing outside air into the machine tool and blowing away dust of the sliding workbench, so that the overall cleaning effect of the dust collector is improved.

The further improvement is that: the side dust absorption fill and middle part dust absorption fill slope setting makes the dust together in drive slip table both sides, the vertical baffle that is equipped with in middle part dust absorption fill upside middle part, and this baffle is connected with the lathe locking, avoids two sliding table simultaneous working time produced dust and detritus to fly away each other.

By adopting the technical scheme, the invention has the beneficial effects that:

the dust-collecting filter box is provided with the relatively closed dust-proof cover on the upper side of the machine tool, and the side dust-collecting hopper and the middle dust-collecting hopper which are arranged on the machine tool are used for intensively absorbing dust and scraps and entering the dust-collecting filter box for treatment, so that the dust and scraps are not easy to be scattered and fly everywhere so as to be intensively cleaned; the two sides of the sliding worktable on the two driving sliding tables are respectively provided with a cleaning mechanism, and the cleaning mechanisms can clean dust and fragments on the surfaces of the side dust suction hopper and the middle dust suction hopper into the sliding worktable when the sliding worktable moves forwards and backwards, so that the cleaning effect of the sliding worktable is improved;

meanwhile, the negative pressure adsorption mechanism is arranged on the sliding workbench, so that the negative pressure adsorption mechanism not only can adsorb workpieces, but also can intensively absorb part of dust into the dust collection filter box A for filtering treatment.

Drawings

Other features, objects and advantages of the present invention will become more apparent upon reading of the detailed description of non-limiting embodiments, given with reference to the accompanying drawings in which:

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic side view of the present invention;

FIG. 3 is a schematic view of the internal structure of the present invention;

FIG. 4 is a schematic view of the internal structure of the present invention;

FIG. 5 is a schematic view of the sweeping mechanism of the present invention;

FIG. 6 is a schematic structural view of the negative pressure adsorption mechanism of the present invention;

FIG. 7 is a schematic view of the structure of the middle dust collection hopper of the invention;

FIG. 8 is a schematic view of a side suction hopper according to the present invention;

FIG. 9 is a schematic side view of a plastic spring clamping plate according to the present invention

In the figure: machine tool 1, dust cover 2, working window 3, drive slip table 4, sliding table 5, drive crossbeam 6, processing aircraft nose 7, side dust absorption fill 8, middle part dust absorption fill 9, bucket frame 91, fretwork panel 92, dust exhaust pipe 93, dust collection filter box A, baffle 10, cleaning mechanism 11, threaded rod 111, lock nut 112, plastics elasticity chucking plate 113, cleaning brush 114, bulb pole 115, protruding fixture block 116, negative pressure adsorption mechanism 12, adsorption cavity head 121, negative pressure fan 122, air blowing pump 13.

Detailed Description

The invention is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

As shown in fig. 1-9, the invention provides a technical scheme of a nonmetallic product double-channel five-axis machining center: including lathe 1, locate the drive crossbeam 6 and the two drive slip tables 4 of lathe 1 upside, slide the slip workstation 5 that sets up in two drive slip tables 4 upside respectively and install two processing aircraft nose 7 that are used for carrying out processing respectively to the work piece on two slip workstation 5 in drive crossbeam 6 one side, lathe 1 upside is connected with dust cover 2 through the screw lock, dust cover 2 front side opens and shuts and is provided with work window 3 so that later stage gets and puts the work piece, install side dust absorption fill 8 on the lathe 1 of two drive slip tables 4 outsides respectively, install middle part dust absorption fill 9 on the lathe 1 between two drive slip tables 4, side dust absorption fill 8 and middle part dust absorption fill 9 are used for directly absorbing dust and piece when processing.

In order to perform concentrated filtration treatment on absorbed dust, a dust collection filter box A is arranged on one side of the machine tool 1, a dust collector and a filter screen are arranged in the dust collection box, one sides of the bottoms of the side dust collection hopper 8 and the middle dust collection hopper 9 are respectively connected with the dust collector of the dust collection filter box A through air pipes, and the filter screen is used for filtering dust.

And, side dust absorption fill 8 and middle part dust absorption fill 9 all are including fighting framework 91 and fretwork panel 92, and wherein fight framework 91 bottom side intercommunication is provided with dust exhaust pipe 93, and dust exhaust pipe 93 passes through the trachea and is connected with the inside dust catcher of dust collection filter box A for side dust absorption fill 8 and middle part dust absorption fill 9 absorbing dust piece can get into dust collection filter box A and carry out filtration treatment.

In order to enable better cleaning of dust and debris on the surfaces of the side dust collection hopper 8 and the middle dust collection hopper 9, cleaning mechanisms 11 are detachably and adjustably arranged on two sides of the two sliding tables 5, and the cleaning mechanisms 11 are arranged on the upper sides of the side dust collection hopper 8 and the middle dust collection hopper 9 respectively, so that the cleaning mechanisms 11 can clean the side dust collection hopper 8 and the middle dust collection hopper 9 directly.

In order to enable the cleaning mechanism 11 to be rotatably adjusted and detached, the cleaning mechanism 11 comprises a threaded rod 111 and a cleaning brush 114, the threaded rod 111 is fixedly connected with the side face of the sliding workbench 5, a lock nut 112 is sleeved on the threaded rod 111 in a threaded mode, the lock nut 112 can be spirally displaced left and right, a plurality of plastic elastic clamping plates 113 are arranged at the outer end of the threaded rod 111 in a circular array mode, a ball rod 115 is fixedly arranged at one end of the cleaning brush 114, the ball rod 115 can be clamped into a notch between the elastic clamping plates 113, the ball rod 115 can be adjusted in a rotating angle according to the use requirement on the notch between the elastic clamping plates 113, and the cleaning mechanism is more applicable and flexible to use.

Wherein, protruding fixture blocks 116 are respectively arranged on the inner sides of the outer ends of the elastic clamping plates 113, and each protruding fixture block 116 can be tightly attached to the ball head rod 115 clamped in the elastic clamping plates 113, so that the falling off of the ball head rod 115 can be effectively avoided after the protruding fixture blocks 116 are clamped on the ball head rod 115.

The middle part of the sliding workbench 5 is respectively provided with a negative pressure adsorption mechanism 12 for adsorbing workpieces, the structure of the negative pressure adsorption mechanism 12 comprises an adsorption cavity head 121 and a negative pressure fan 122, the adsorption cavity head 121 is fixedly arranged on the upper side of the sliding workbench 5, the bottom of the inner cavity of the adsorption cavity head 121 is connected with the negative pressure fan 122 through an air pipe, and the exhaust end of the negative pressure fan 122 is communicated with the inside of the dust collection filter box A through the air pipe, so that part of dust adsorbed by the adsorption mechanism 12 can enter the dust collection filter box A for filtering treatment.

For better clear up the dust of sliding table 5, lathe 1 and dust cover 2 install a plurality of air blowing pump 13 respectively, and air blowing pump 13 air inlet intercommunication outside, and air blowing pump 13 air outlet end passes through blast pipe and the inside intercommunication of dust cover 2 for blow in lathe 1 inside with outside air, and blow away the dust of sliding table 5, improve its holistic cleaning effect.

And, side dust absorption fill 8 and middle part dust absorption fill 9 slope setting make the dust together in drive slip table 4 both sides, and the middle part of middle part dust absorption fill 9 upside middle part is vertical to be equipped with baffle 10, and this baffle 10 carries out locking with lathe 1 and be connected, avoids the dust and debris that two sliding table 5 simultaneous working produced to fly away each other.

More specifically: according to the invention, the sliding workbench 5 moves back and forth in a linear manner under the action of the motor, the screw and the sliding block in the sliding table 4, the negative pressure adsorption mechanism 12 on the sliding workbench 5 can adsorb a workpiece, the negative pressure fan 122 works to enable the adsorption cavity head 121 to generate negative pressure to adsorb and fix the workpiece, then the processing machine head 7 on the driving beam 6 directly processes the workpiece, larger dust and fragments are generated during processing, the dust cover 2 is beneficial to avoiding the dust and fragments from drifting outwards, then the dust collection in the dust collection filter box A works, the side dust collection hopper 8 connected with the dust collection filter box A and the hopper frame 91 in the middle dust collection hopper 9 can generate a negative pressure absorption effect, dust and fragments can enter the sliding workbench 5 through the hollowed-out panel 92, meanwhile, the air blowing pump 13 arranged can blow the dust and fragments to the sliding workbench 5, the dust and fragments can be effectively prevented from accumulating on the sliding workbench 5 in the front and back linear sliding process, and the cleaning mechanism 11 arranged on two sides of the sliding workbench 5 can directly clean the hollowed-out panel 92 on the upper surfaces of the side dust collection hopper 8 and the middle dust collection hopper 9, and the dust collection hopper 9 can improve the dust cleaning effect.

The cleaning mechanism 11 is capable of directly cleaning the surface of the hollowed-out panel 92 by specifically utilizing the brush of the cleaning brush 114 when the cleaning mechanism is displaced, and because the ball head rod 115 at one end of the upper side of the cleaning brush 114 can be clamped between the plastic elastic clamping plates 113 of the circular array, the cleaning brush 114 can rotate by utilizing the notch of the ball head rod 115 between the plastic elastic clamping plates 113, and after the cleaning mechanism is rotationally adjusted to a required position, the locking nut 112 rotationally displaces towards one side of the plastic elastic clamping plates 113, the ball head rod 115 of the cleaning brush 114 can be tightly clamped by the plastic elastic clamping plates 113, and the ball head rod 115 is clamped by the convex clamping blocks 116 of the plastic elastic clamping plates 113 to avoid falling off, so that the whole cleaning brush 114 can be disassembled according to the use requirement, and the rotation angle of the cleaning brush 114 can be adjusted, and the cleaning mechanism is simple and convenient to use.

The negative pressure adsorption mechanism 12 not only can adsorb workpieces, but also can intensively absorb part of dust into the dust collection filter box A for filtering treatment, and the specific negative pressure fan 122 works to enable the adsorption cavity head 121 to generate negative pressure to absorb certain dust, and the dust is directly discharged into a filter screen in the dust collection filter box A for filtering after absorption by the negative pressure fan 122.

It should be noted that, the two-channel five-axis machining center for nonmetallic products of the invention is mainly improved on the structure, and functions, components and structures which are not mentioned can be implemented by adopting components and structures which can realize corresponding functions in the prior art.

The present invention has been described in detail by way of specific examples, but these should not be construed as limiting the invention. Many variations and modifications may be made by one skilled in the art without departing from the principles of the invention, which is also considered to be within the scope of the invention.

Claims (9)

1. The utility model provides a nonmetallic product binary channels five machining center, includes lathe (1), locates driving beam (6) and two drive slip tables (4) of lathe (1) upside, slides respectively and sets up in slip workstation (5) of two drive slip tables (4) upside and installs two processing aircraft nose (7) that are used for carrying out processing respectively to the work piece on two slip workstation (5) in driving beam (6) one side, its characterized in that:

the dust-proof device is characterized in that a dust cover (2) is fixedly connected to the upper side of the machine tool (1) through screws, a working window (3) is arranged on the front side of the dust cover (2) in an opening and closing mode, side dust suction hoppers (8) are respectively arranged on the machine tool (1) on the outer sides of the driving sliding tables (4) through screws, and middle dust suction hoppers (9) are arranged on the machine tool (1) between the driving sliding tables (4) through screws.

2. The nonmetallic article dual-channel five-axis machining center as defined in claim 1, wherein: the dust collection device is characterized in that a dust collection filter box (A) is arranged on one side of the machine tool (1), a dust collector and a filter screen are arranged in the dust collection box, one sides of the bottoms of the side dust collection hopper (8) and the middle dust collection hopper (9) are respectively connected with the dust collector of the dust collection filter box (A) through air pipes, and dust is filtered through the filter screen.

3. The nonmetallic article dual-channel five-axis machining center as defined in claim 2, wherein: the side dust suction hopper (8) and the middle dust suction hopper (9) comprise a hopper frame body (91) and a hollowed panel (92), wherein a dust discharge pipe (93) is arranged at the bottom side of the hopper frame body (91) in a communicated mode, and the dust discharge pipe (93) is connected with a dust collector inside the dust collection filter box (A) through an air pipe.

4. The nonmetallic article dual-channel five-axis machining center as defined in claim 1, wherein: two sliding worktable (5) both sides can dismantle respectively and adjust and be provided with cleaning mechanism (11), and each cleaning mechanism (11) are established respectively and are located the upside of side dust absorption fill (8) and middle part dust absorption fill (9).

5. The nonmetallic article dual-channel five-axis machining center as defined in claim 4, wherein: the cleaning mechanism (11) comprises a threaded rod (111) and a cleaning brush (114), the threaded rod (111) is fixedly connected with the side face of the sliding workbench (5), a locking nut (112) is sleeved on the threaded rod (111) in a threaded mode, a plurality of plastic elastic clamping plates (113) are arranged at the circular array mode at the outer end of the threaded rod (111), a ball head rod (115) is fixedly arranged at one end of the cleaning brush (114), and the ball head rod (115) can be clamped into notches between the elastic clamping plates (113).

6. The nonmetallic article dual-channel five-axis machining center as defined in claim 5, wherein: the inner side of the outer end of each elastic clamping plate (113) is respectively provided with a convex clamping block (116), and each convex clamping block (116) can be tightly attached to a ball head rod (115) clamped in the elastic clamping plate (113).

7. The nonmetallic article dual-channel five-axis machining center as defined in claim 2, wherein: the vacuum suction device is characterized in that a vacuum suction mechanism (12) for sucking workpieces is arranged in the middle of the sliding workbench (5) respectively, the vacuum suction mechanism (12) comprises a suction cavity head (121) and a vacuum fan (122), the suction cavity head (121) is fixedly arranged on the upper side of the sliding workbench (5), the bottom of the inner cavity of the suction cavity head (121) is connected with the vacuum fan (122) through an air pipe, and the exhaust end of the vacuum fan (122) is communicated with the inside of the dust collection filter box (A) through the air pipe.

8. The nonmetallic article dual-channel five-axis machining center as defined in claim 1, wherein: the machine tool is characterized in that a plurality of blowing pumps (13) are respectively arranged on the machine tool (1) and the dust cover (2), the blowing pumps (13) are communicated with the outside in a gas inlet mode, the gas outlet ends of the blowing pumps (13) are communicated with the inside of the dust cover (2) through exhaust pipes, and the blowing pumps are used for blowing outside air into the machine tool (1) and blowing away dust of the sliding workbench (5).

9. The nonmetallic article dual-channel five-axis machining center as defined in claim 1, wherein: the side dust collection hopper (8) and the middle dust collection hopper (9) are obliquely arranged on two sides of the driving sliding table (4) so that dust can be concentrated together, a baffle (10) is vertically arranged in the middle of the upper side of the middle dust collection hopper (9), and the baffle (10) is in locking connection with the machine tool (1).