Utility model content
One of purpose of this utility model embodiment is to provide a kind of dust arrester, it is possible to removes and coheres more close dust.
For solving above-mentioned technical problem, this utility model embodiment provides a kind of dust arrester, including:
Jet assembly, including air inlet, air nozzle and the air inlet pipe connecting described air inlet and air nozzle;
Dust suction subassembly, including gas outlet, suction port and the escape pipe connecting described gas outlet and suction port;
Wherein, the zone of action of described air nozzle and suction port has coincidence.
Preferably, described jet assembly also includes the filter being arranged in described air inlet pipe, and described filter is for filtering the air-flow from air inlet to air nozzle.
Preferably, described jet assembly also includes the pressure regulator being arranged in described air inlet pipe, and described pressure regulator is for adjusting the air pressure of the air-flow from air inlet to air nozzle.
Preferably, described jet assembly also includes the current limiter being arranged in described air inlet pipe, and described current limiter is for adjusting the flow of the air-flow from air inlet to air nozzle.
Preferably, described jet assembly also includes the controller being arranged in described air inlet pipe, and described controller is for adjusting conducting duration and/or the turn-on frequency of air inlet pipe.
Preferably, described filter, pressure regulator, current limiter and controller are arranged in described air inlet pipe each through Quick Release joint.
Preferably, described dust suction subassembly includes the dust excluding hood closing described escape pipe end, and the quantity of described suction port is set at least one, and described suction port is all disposed through described dust excluding hood.
Preferably, described dust excluding hood includes the installation portion connected with described escape pipe end and the protuberance connecting with described installation portion and extending away from described installation portion, described air nozzle stretches out in described protuberance and runs through the end of described protuberance, and described suction port also extends through the end being arranged at described protuberance.
Preferably, described installation portion is provided through Quick Release joint, described air inlet pipe and described air nozzle and is interconnected by described Quick Release joint.
The technical scheme provided from above this utility model embodiment, dust arrester that this utility model embodiment provides and sheeting system, by jet assembly, dust to be cleaned can be blown, again through dust suction subassembly, the dust blown be siphoned away, it is achieved remove and cohere close dust.
One of purpose of this utility model embodiment is to provide a kind of sheeting system, its dust arrester can remove tablet machine drops cohere more close dust.
For solving above-mentioned technical problem, this utility model embodiment provides a kind of sheeting system, including:
Tablet machine, including:
Punch die, described punch die includes upper plunger, lower plunger and middle mould, described middle mould include the middle mould endoporus for receiving particulate material, described upper plunger and lower plunger can in described middle mould endoporus relative motion so that particulate material is pressed into lamellar;
Bracing frame, supports described punch die, and including the lower punch plate for connecting with described lower plunger, described lower punch plate includes lower plunger and connects place, and the described lower plunger place of connecting is for carrying the particulate material that therefrom mould endoporus drops;
Dust arrester as described in aforementioned utility model content, the place of connecting between described lower punch plate and lower plunger is positioned at the zone of action overlapped of described air nozzle and suction port.
The technical scheme provided from above this utility model embodiment, the sheeting system that this utility model embodiment provides, by jet assembly, the dust to be cleaned of lower plunger assembling place can be blown, again through dust suction subassembly, the dust blown be siphoned away, it is achieved remove and cohere close dust.
Detailed description of the invention
This utility model embodiment provides a kind of dust arrester and sheeting system.
In order to make those skilled in the art be more fully understood that the technical scheme in this utility model, below in conjunction with the accompanying drawing in this utility model embodiment, technical scheme in this utility model embodiment is clearly and completely described, obviously, described embodiment is only a part of embodiment of this utility model, rather than whole embodiments.Based on the embodiment in this utility model, the every other embodiment that those of ordinary skill in the art obtain under not making creative work premise, all should belong to the scope of this utility model protection.
Shown in ginseng Fig. 1, in this utility model embodiment, sheeting system 100 includes tablet machine 10 and dust arrester (non-label), and the two can be assembled integrally formula equipment by mechanical fastener, can also separate layout, only when there being dust suction demand combination use.
It should be noted that in this utility model embodiment, dust arrester 20 is for carrying out dust suction to tablet machine 10, merely illustrative, dust arrester 20 also can with other types equipment with the use of, or be used alone, do not repeat at this.
Tablet machine 10 includes upper plunger 11, lower plunger 12, middle mould 13 and bracing frame 14. Upper plunger 11, lower plunger 12 and middle mould 13 constitute a set of punch die, and this punch die for being pressed into round sheet or the pill of abnormity lamellar by pulverous particulate material. Bracing frame 14, for the punch die supporting upper plunger 11, lower plunger 12, middle mould 13 are constituted, allows it to stably be positioned on ground or workbench.
Shown in Fig. 2, in this utility model embodiment, upper plunger 11 is long straight-bar, and bracing frame 14 includes upper punch plate 141, and upper punch plate 141 includes a long straight host cavity (not shown), and upper plunger 11 is movably mounted to the straight host cavity of this length.
Upper plunger 11 and upper track member 15 connect, and under the drive of upper track member 15, do straight reciprocating motion along long straight host cavity.
Preferably, upper plunger 11 is vertically arranged, then upper plunger 11 is under upper track member 15 drives, and moves back and forth at vertical direction.
In this utility model embodiment, bracing frame 14 props up support plate 142 in including, and middle mould 13 is arranged on this support plate 142.
Middle mould 13 includes middle mould endoporus 131, and the bearing of trend of middle mould endoporus 131 is identical with the bearing of trend of upper plunger 11, it is of course also possible to be set to the same with upper plunger 11 vertically extends.
Upper plunger 11 includes the upper punch 111 near middle mould endoporus 131, and upper punch 111 is under the drive of upper track member 15, it is possible to into and out middle mould endoporus 131 according to demand.
Further, the sectional dimension of upper punch 111 and the sectional dimension of middle mould endoporus 131 are essentially identical, adopt matched in clearance so that in into and out middle mould endoporus 131 process of upper punch 111, and in upper punch 111 edge all the time, the medial wall of mould endoporus 131 is moved.
In this utility model embodiment, lower plunger 12 is also long straight-bar, and bracing frame 14 includes lower punch plate 143, and lower punch plate 142 also has a long straight host cavity (not shown), and lower plunger 12 is movably mounted to the straight host cavity of this length.
And the lower plunger that lower punch plate 143 includes connecting with lower plunger 12 connects place 1431, lower plunger connects and without hindrance between place 1431 and middle mould endoporus 131 connects place 1431 it can be appreciated that long straight host cavity is near the distal edge edge of middle mould endoporus 131 in lower punch plate 142 every, lower plunger.
Lower plunger 12 and lower track member 16 connect, and under the drive of lower track member 16, do straight reciprocating motion along long straight host cavity.
Wherein, lower plunger 12 is identical with the bearing of trend of upper plunger 11, it is of course also possible to be set to the same with upper plunger 11 vertically extends.
Lower plunger 12 includes the low punch 121 being arranged in mould endoporus 131, fit in the medial wall of low punch 121 and middle mould endoporus 131, make one containing cavities of formation between the top of upper punch 111 and the sidewall of middle mould endoporus 131, when sheeting operation need to be carried out, then it is placed in this containing cavities in pulverous particulate material, processes in order to follow-up tabletting.
In this utility model embodiment, also having lubricating oil between lower plunger 12 and the straight host cavity of this length, lubricating oil is added between lower plunger 12 and the straight host cavity of this length by grease channel 17, it is ensured that the mobile efficiency of lower plunger 12
Certainly, the top of upper punch 111 and the bottom of low punch 121 could be arranged to corresponding shape, for instance both could be arranged to hemispherical, then can extrude the tablet of spherical shape.
The tableting processes of above-mentioned tablet machine 10 described briefly below:
Feeding stage: now upper punch 111 is not in middle mould endoporus 131, pulverous particulate material is put in middle mould endoporus 131, now particulate material is by the top braces of low punch 121, is arranged among the containing cavities (not shown) of medial wall formation of low punch 121 top and mould endoporus 131.
In the quantitative stage: now upper punch 111 is not still in middle mould endoporus 131, material scraping plate (not shown) is utilized will unnecessary particulate material therefrom mould 13 to blow off.
Packing stage: now upper punch 111 and low punch 121 move toward one another, particulate material will be located in middle mould endoporus 131 is squeezed into the tablet of preset shape, by adjusting the motion amplitude of upper punch 111 and low punch 121 so that tablet optimum position molding in middle mould endoporus.
The slice stage: mould endoporus in now upper punch 111 disengaging, away from the tablet that compacting is formed, low punch 121 is about to tablet release in mould endoporus, tablet is pushed away low punch 121 again through slice baffle plate (not shown) and enters in tablet storage area by tablet.
Visible by the tableting processes of tablet machine 10, lower plunger 12 needs to head on to move in middle mould endoporus 131 in pulverous particulate material, always having certain interval between the medial wall of low punch 121 and middle mould endoporus 131, particulate material inevitably drops from by this gap. Owing to lower plunger connects between place 1431 and middle mould endoporus 131 without hindrance every, particulate material and drop to the lower plunger of lower punch plate 143 up and down jumper bar 12 along lower plunger 12 and connect place 1431. Due to, the particulate material dropped is along with the friction of motion of lower plunger 12, and under the lubricating oil effect between lower plunger 12 and lower punch plate 143, particulate material coheres tight gradually.
In this utility model embodiment, dust arrester for absorb be positioned at lower plunger connect place 1431 on particulate material, dust arrester includes jet assembly 20 and dust suction subassembly 30.
Jet assembly 20 includes air nozzle 21, air inlet pipe 22 and air inlet 23.
Air inlet pipe 22 connects air nozzle 21 and air inlet 23, and air inlet 23 is connected with positive pressure air component (not shown), obtains compression air from this positive pressure air component, and this compression air can be 0.6MPa, it is also possible to be other air pressure magnitudes. Follow-up, air inlet pipe 22 is by compressed air delivery to air nozzle 21.
Air inlet pipe 22 can adopt nylon tube, it would however also be possible to employ metal tube, does not repeat at this.
Air nozzle 21 has a zone of action, this zone of action should be a three-dimensional concept, its shape is also uncertain, being appreciated that the scope that the air-flow formed by compression air that air nozzle 21 sprays can arrive at, therefore the object in this zone of action all can be subject to the impact of the sprayed air-flow of air nozzle 21.
Certainly, along with the adjustment of the factors such as the size of air nozzle 21, compressed-air actuated air pressure and surrounding wind speed, also there is difference air nozzle 21 zone of action, does not repeat at this.
Dust suction subassembly 30, including suction port 31, gas outlet (not shown) and escape pipe (not shown).
In this utility model embodiment, the escape pipe of dust suction subassembly 30 connects negative pressure air component and is connected, for instance directly can be connected with blower fan conventional in the industry, produce negative pressure by blower fan, and then by suction port 31, dusty gas is sucked, again through gas outlet, clean gas is discharged.
Suction port 31 also has a zone of action, and this zone of action should be a three-dimensional concept, and its shape is also uncertain, it is possible to understand that all can be sucked by suction port 31 by the dusty gas in this zone of action.
Certainly, along with the adjustment of the factors such as the size of suction port 31, compressed-air actuated air pressure and surrounding wind speed, also there is difference suction port 31 zone of action, does not repeat at this.
In this utility model embodiment, the zone of action of air nozzle 21 and suction port 31 has coincidence, and the region of this coincidence can be subject to the impact of the sprayed air-flow of air nozzle 21 simultaneously, it is also possible to is subject to the impact of the suction of suction port 31.
More close dust is cohered, it is possible to adjust the zone of action of air nozzle 21 and suction port 31 so that these dust are positioned at the overlapping region of the zone of action of air nozzle 21 and suction port 31 if having. Control jet assembly 20 and dust suction subassembly 30 operates jointly, first pass through jet assembly 20 and dust to be cleaned is blown, again through dust suction subassembly, the dust blown is siphoned away, it is achieved remove and cohere close dust.
Preferably, the lower plunger place of connecting 1431 is positioned at the overlapping region of the zone of action of air nozzle 21 and suction port 31, then can quickly siphon away and be positioned at the lower plunger place of connecting 1431 and cohere more close particulate material, it is to avoid these particulate materials hinder the motion of lower plunger 12.
In this utility model embodiment, jet assembly 20 also includes the filter being arranged in air inlet pipe 22, and filter is for filtering from air inlet 23 to the air-flow of air nozzle 21.
Such as, filter can filter in air inlet pipe 22 in air-flow steam and micropartical dust so that the gas of ejection is clean, does not interfere with the quality of medicine in middle mould endoporus 131. The filter capacity of filter can be adjusted according to demand, and the material filtering required filter element is technology well known to those of ordinary skill in the art, does not repeat at this.
In this utility model embodiment, jet assembly 20 also includes the pressure regulator being arranged in air inlet pipe 22, and pressure regulator is for adjusting the air pressure from air inlet 23 to the air-flow of air nozzle 21.
Such as, when blowing some dust cohering tension, it is possible to increase from air inlet 23 to the air pressure of the air-flow of air nozzle 21. Otherwise, when blowing some and cohering the dust being not as tight, it is possible to reduce from air inlet 23 to the air pressure of the air-flow of air nozzle 21, to reduce jet assembly 20 workload.
In this utility model embodiment, filter and pressure regulator can be integrated in a filtering pressure reducing valve 24, and the structure of filtering pressure reducing valve 24 is mature technology in the industry, it is only necessary to ensure that it has aforementioned filter and pressure regulator function. Certainly, filter and pressure regulator can also be separated, and adopt scheme conventional in the industry to realize, do not repeat at this.
In this utility model embodiment, jet assembly 20 also includes the current limiter being arranged in air inlet pipe 22, and current limiter is for adjusting the flow from air inlet 23 to the air-flow of air nozzle 21.
Such as, when blowing some dust cohering tension, it is possible to increase from air inlet 23 to the flow of the air-flow of air nozzle 21. Otherwise, when blowing some and cohering the dust being not as tight, it is possible to reduce from air inlet 23 to the flow of the air-flow of air nozzle 21, to reduce jet assembly 20 workload.
In this utility model embodiment, current limiter can be realized by a push-in one-way throttle valve 25, for can this choke valve of manual adjustments, it is achieved adjusts from air inlet 23 to the flow of the air-flow of air nozzle 21, the structure of push-in one-way throttle valve is mature technology in the industry, does not repeat at this.
In this utility model embodiment, jet assembly 20 also includes the controller being arranged in air inlet pipe 22, and controller is for adjusting conducting duration and/or the turn-on frequency of air inlet pipe 22.
Controller can realize adjusting conducting duration and/or the turn-on frequency of air inlet pipe 22 by a two-position three way magnetic valve 26, the control parameter of this two-position three way magnetic valve 26 can be adjusted by a touch screen, user can set desired conducting duration and/or turn-on frequency on touch screen, two-position three way magnetic valve is turned on and off, so that air inlet pipe 22 has default conducting duration and/or turn-on frequency according to setting.
Filter, pressure regulator, current limiter and controller are arranged in air inlet pipe 22 each through Quick Release joint 27. In this utility model embodiment, filtering pressure reducing valve 24, push-in one-way throttle valve 25 and two-position three way magnetic valve 26 are arranged in air inlet pipe 22 each through Quick Release joint 27, it is simple to these parts are installed and changed by user. Even saying, some air intakes 23 integrated with malleation component can also pass through Quick Release joint 27 and connect with air inlet pipe 22, do not repeat at this.
In this utility model embodiment, dust suction subassembly 30 includes the dust excluding hood 32 closing described escape pipe end, and the quantity of suction port 31 is set at least one, and these suction ports 31 are all disposed through on dust excluding hood 32.
Dust excluding hood 32 includes the installation portion 321 that connects with described escape pipe end and connects with installation portion 321 and protuberance 322 that remotely mounted portion 321 extends, the size of installation portion 321 can be adjusted according to the size of escape pipe, protuberance 322 is configured to connect place 1431 extension towards lower plunger, its end 3221 and lower plunger connect place 1431 very close to.
Air inlet pipe 22 runs through dust excluding hood 32 and extends to inside it, air nozzle 21 connects with air inlet pipe 22 in installation portion 321, protuberance 322 is provided through Quick Release joint 27, this Quick Release joint 27 can be perpendicular type adaptor, air nozzle 21 is interconnected by this Quick Release joint 27 with air inlet pipe 22, it is simple to these parts are installed and changed by user.
Air nozzle 21 extends towards protuberance 322 in installation portion 321, and runs through the end 3221 of protuberance 322, and suction port 31 also extends through and is arranged at end 3221. Due to end 3221 and lower plunger, to connect place 1431 close, improves air nozzle 21 and suction port 31 and lower plunger is connected to the Scavenging activity of place's 1431 place's drug particles.
The sheeting system 100 that this utility model embodiment provides, in the process that tabletting processes, by jet assembly 20, the dust to be cleaned of lower plunger assembling place 1431 can be blown, again through dust suction subassembly 30, the dust blown be siphoned away, it is achieved remove and cohere close dust.
Each embodiment in this specification all adopts the mode gone forward one by one to describe, between each embodiment identical similar part mutually referring to, what each embodiment stressed is the difference with other embodiments. Especially for system embodiment, owing to it is substantially similar to embodiment of the method, so what describe is fairly simple, relevant part illustrates referring to the part of embodiment of the method.
The foregoing is only embodiment of the present utility model, be not limited to this utility model.To those skilled in the art, this utility model can have various modifications and variations. All make within spirit of the present utility model and principle any amendment, equivalent replacement, improvement etc., should be included within right of the present utility model.