CN204148117U - Vibration screen machine - Google Patents

Abstract

The utility model discloses a kind of vibration screen machine, it comprises a support, an aggregate bin, a printing opacity screen frame and a retainer ring.The inside of support is provided with an oscillator.Aggregate bin is arranged on support, and aggregate bin has one and leaches mouth and a fixing flange, leaches mouth and is interconnected with fixing flange.Printing opacity screen frame is arranged on aggregate bin, and printing opacity screen frame comprises a feeding end and a discharge end, and wherein, feeding end and discharge end are arranged at the two ends place of printing opacity screen frame respectively.Retainer ring is arranged at the discharge end place of printing opacity screen frame around ground, to be fixed on printing opacity screen frame by a screen cloth.By the fixing flange of aggregate bin, printing opacity screen frame and aggregate bin are interconnected.Make user can observe the current screening situation of vibration screen machine from outside by the setting of printing opacity screen frame, the first printing opacity screen frame and the second printing opacity screen frame, reduce the overall weight of the manufacturing cost of screen frame, manufacturing time and vibration screen machine simultaneously.

Description

Vibration screen machine

Technical field

The utility model relates to a kind of vibration screen machine, espespecially a kind of vibration screen machine with printing opacity screen frame.

Background technology

Vibration screen machine is that the powder on screen cloth is carried out the instrument of classifying by a kind of mode of vibration that utilizes according to granular size, this vibration screen machine according to its vibration frequency and filter screen mesh size and can be applicable on different materials.Now because of the progress of science and technology, the size of powder is contracted to nano size further, makes the screen cloth of screening machine need have less mesh.

Meanwhile, in order to increase powder screening efficiency, usually can by by below screen frame frame abut to screen cloth surrounding's frame and by sequentially stacked for multiple screen frame.And when required screen frame is more, the time made required for screen frame also can increase.Moreover vibration screen machine is also often applied to food materials such as screening rice or flour etc., or is applied to the screening of medicine powder, and existing screen frame does not have light transmission usually, and user cannot observe the situation of screen frame inside from outside.Furthermore, existing screen frame is made with metal usually, and this can make the heavier-weight of screening machine, and manufacturing cost and manufacturing time all can improve simultaneously.In addition, also because existing screen frame uses metal usually and by manually making, and for metal material, metal material does not have resistance to acids and bases, thus its security and wholesomeness still to need business true.

Therefore, how a kind of vibration screen machine is provided, the screen frame can with printing opacity with make user observe the current screening situation of vibration screen machine from outside and the overall weight simultaneously reducing the manufacturing cost of screen frame, manufacturing time and vibration screen machine to overcome above-mentioned defect, become one of industry important topic to be solved.

Utility model content

In view of problem above, the utility model provides a kind of vibration screen machine, this vibration screen machine makes user can observe the current screening situation of screen frame inside from outside by the printing opacity screen frame made in the mode of ejection formation, can reduce the manufacturing cost of screen frame simultaneously and promote manufacture efficiency.

In order to reach above-mentioned object, an embodiment of the present utility model provides a kind of vibration screen machine, and described vibration screen machine comprises: a support, and the inside of described support is provided with an oscillator; One aggregate bin, described aggregate bin is arranged on described support, and wherein, described aggregate bin has one and leaches mouth and and fix flange, described in leach mouth and described fixing flange is interconnected; One printing opacity screen frame, described printing opacity screen frame is arranged on described aggregate bin, and described printing opacity screen frame comprises a feeding end and a discharge end, and wherein, described feeding end and described discharge end are arranged at the two ends place of described printing opacity screen frame respectively; And a retainer ring, described retainer ring is arranged at the discharge end place of described printing opacity screen frame around ground, to be fixed on described printing opacity screen frame by a screen cloth.Wherein, by the described fixing flange of described aggregate bin, described printing opacity screen frame and described aggregate bin are interconnected.

Further, described aggregate bin is printing opacity aggregate bin.

Further, the described discharge end of described printing opacity screen frame has a locating flange, and described locating flange is provided with multiple locking hole around ground.

Further, described screen cloth is fixed to the discharge end of described printing opacity screen frame by described retainer ring by multiple locking part.

Further, described vibration screen machine also comprises multiple holding part and multiple pedestal further, described multiple pedestal is arranged at around ground on the side of described aggregate bin, each in described multiple holding part includes a flexible member, a pulling buckle and a ring bodies, one end of described flexible member is hooked on described pedestal, the other end of described flexible member is connected with described ring bodies, and described pulling buckle is fixed to the side of described ring bodies.

An other embodiment of the present utility model provides a kind of vibration screen machine, and described vibration screen machine comprises: a support, and the inside of described support is provided with an oscillator; One aggregate bin, described aggregate bin is arranged on described support, and wherein, described aggregate bin has an accumulator tank and and fixes flange, and described accumulator tank and described fixing flange are interconnected; One first printing opacity screen frame, described first printing opacity screen frame is arranged on described aggregate bin, described first printing opacity screen frame comprises one first feeding end and one first discharge end, and wherein, described first feeding end and described first discharge end are arranged at the two ends place of described first printing opacity screen frame respectively; One second printing opacity screen frame, described second printing opacity screen frame is arranged on described first printing opacity screen frame, described second printing opacity screen frame comprises one second feeding end and one second discharge end, wherein, described second feeding end and described second discharge end are arranged at the two ends place of described second printing opacity screen frame respectively; One first retainer ring, described first retainer ring is arranged at the first discharge end place of described first printing opacity screen frame around ground, to be fixed on by one first screen cloth on described first printing opacity screen frame; And one second retainer ring, described second retainer ring is arranged at the second discharge end place of described second printing opacity screen frame around ground, to be fixed on described second printing opacity screen frame by one second screen cloth.

Further, described first discharge end of described first printing opacity screen frame has one first locating flange, described first locating flange is provided with multiple locking hole around ground, described second discharge end of described second printing opacity screen frame has one second locating flange, and described second locating flange is provided with multiple locking hole around ground.

Further, described first screen cloth and described second screen cloth are fixed to the first discharge end of described first printing opacity screen frame and the second discharge end of described second printing opacity screen frame by multiple locking part by described first retainer ring and described second retainer ring respectively.

Further, described vibration screen machine also comprises a lid further, and described lid is arranged on described second printing opacity screen frame.

Further, described vibration screen machine also comprises multiple fastener further, each in described multiple fastener includes a holder, one handle, one moving part, one body of rod and a cramp, described holder is fixed to the outside of described aggregate bin, described handle comprises a pin joint seat and a grip part, grip part described in described pin joint seat and described holder pivot joint bottom described pin joint seat toward bending away from the direction of described aggregate bin and toward downward-extension, described moving part is pivoted to the described pin joint seat of described handle, the described body of rod is pivoted to described moving part, described cramp is fixed to described body of rod top and snapping extremely described lid apical margin.

The beneficial effects of the utility model can be, the vibration screen machine that the utility model embodiment provides, make user can observe the current screening situation of vibration screen machine from outside by the setting of printing opacity screen frame, the first printing opacity screen frame and the second printing opacity screen frame, reduce the overall weight of the manufacturing cost of screen frame, manufacturing time and vibration screen machine simultaneously.

Further understand feature of the present utility model and technology contents for enable, refer to hereafter about detailed description of the present utility model and accompanying drawing, but accompanying drawing only provides with reference to the effect with explanation, not for being limited the utility model.

Accompanying drawing explanation

Fig. 1 is the perspective exploded view of the utility model first embodiment.

Fig. 2 is the solid combination schematic diagram of the utility model first embodiment.

Fig. 3 A is the perspective exploded view of the utility model second embodiment.

Fig. 3 B is the solid combination schematic diagram of the utility model second embodiment.

Fig. 3 C is the generalized section of the utility model second embodiment.

Fig. 3 D is the close-up schematic view of the part A of Fig. 3 C.

Fig. 4 A is a using state schematic diagram of this creation the 3rd embodiment.

Fig. 4 B is an other using state schematic diagram of this creation the 3rd embodiment.

Fig. 4 C is the decomposing schematic representation of the element in this creation the 3rd embodiment.

Symbol description

C, C ' vibration screen machine

1,1 ' support

11 oscillators

12 bases

13 mount pads

14 elastomers

2 aggregate bins

21 leach mouth

22 fix flange

23 pedestals

2 ' aggregate bin

21 ' accumulator tank

22 ' fixes flange

3 printing opacity screen frames

31 feeding ends

32 discharge ends

33 locating flanges

34 locking holes

3 ' first printing opacity screen frame

31 ' first feeding end

32 ' first discharge end

33 ' first locating flange

3 " the second printing opacity screen frame

31 " the second feeding end

32 " the second discharge end

33 " the second locating flange

4 retainer rings

41 locking holes

4 ' first retainer ring

4 " the second retainer ring

5 screen clothes

5 ' first screen cloth

5 " the second screen cloth

6 holding parts

61 flexible members

62 ring bodies

63 pulling buckles

7 lids

71 apical margins

8 fasteners

81 holders

82 handles

821 pin joint seats

822 grip parts

83 moving parts

84 bodies of rod

841 thread segments

842 nuts

85 cramps

851 risers

852 transverse slats

853 short slabs

86 adjustment parts

861 screws

S locking part

N nut

F framework

Detailed description of the invention

The embodiment of " vibration screen machine " disclosed in the utility model is described hereafter by specific instantiation, and one of ordinary skilled in the art can understand other advantages of the present utility model and effect easily from the content disclosed in this description.The utility model is also implemented by other different specific embodiments or is applied, the every details in this description also can based on different viewpoints be applied in do not deviate from spirit of the present utility model prerequisite under carry out various amendment and change.And accompanying drawing of the present utility model is only for simple declaration, not describe according to actual size, also unreacted goes out the actual size of relative configurations, hereby illustrates.Embodiment system hereafter further describes correlation technique content of the present utility model, but and is not used to limit technical scope of the present utility model.

(the first embodiment)

First, refer to shown in Fig. 1 to Fig. 2, Fig. 1 is the perspective exploded view of the utility model first embodiment, and Fig. 2 is the solid combination schematic diagram of the utility model first embodiment.The utility model first embodiment provides a kind of printing opacity screen frame 3 of vibration screen machine, and in order to be leached by thing to be filtered, this vibration screen machine comprises printing opacity screen frame 3 and a retainer ring 4.For example, for the utility model, the thing to be filtered in printing opacity screen frame 3 is separated and discharges from printing opacity screen frame 3 by the vibration also by an oscillator, and these filtrate is collected by a cell body collecting filtrate.And thing to be filtered can be the generally common powder such as flour, cosmetics powder, or can be the powder of the nano-grade size such as ceramic powder, lithium battery powder.

Shown in Fig. 1 and Fig. 2, printing opacity screen frame 3 can comprise feeding end 31 and a discharge end 32, feeding end 31 and discharge end 32 can be arranged at the two ends place of printing opacity screen frame 3 respectively, wherein, discharge end 32 also can have a locating flange 33, locating flange 33 can be provided with multiple locking hole 34 around ground, but the utility model is not as limit.In addition, printing opacity screen frame 3 is made by the mode of ejection formation, its material can select light transmittance to be greater than the plastic material of 30%, such as acronitrile-butadiene-styrene (ABS, Acrylonitrile Butadiene Styrene), polystyrene (PS, Polystyrene), polypropylene (PP, Polypropylene), PET (PET, Polyethylene terephthalate), poly-sour methyl esters (PMMA, Polymethylmethacrylate), polyethylene (PE, the material such as Polyethylene), the Production Time of printing opacity screen frame 3 can be reduced by ejection formation.

Then, retainer ring 4 can be arranged at discharge end 32 place of printing opacity screen frame 3 around ground, and one screen cloth 5 is fixed to the discharge end 32 of printing opacity screen frame 3 by multiple locking part S and multiple nut N and mutually locks with the locking hole 34 on locating flange 33 and the locking hole 41 on retainer ring 4 simultaneously.In other words, by being abutted by printing opacity screen frame 3 on the cell body of a collection filtrate, and printing opacity screen frame 3 and cell body being interconnected, being separated with the thing to be filtered that will be arranged in printing opacity screen frame 3 and being expelled to cell body by screen cloth 5.In addition, retainer ring 4 can adopt stainless steel, and its durability will be more excellent than traditional wood quality.

The utility model first embodiment makes user can observe the current screening situation of thing to be filtered in printing opacity screen frame 3 from outside by the setting of printing opacity screen frame 3, reduces the overall weight of the manufacturing cost of printing opacity screen frame 3, manufacturing time and vibration screen machine simultaneously.Furthermore, with the printing opacity screen frame 3 made by the mode of ejection formation, its resistance to impact is more excellent for traditional existing material, and because this printing opacity screen frame adopts plastic material, although therefore it also can not produce too large deflection after clashing into.

(the second embodiment)

Also consult shown in Fig. 3 A to Fig. 3 D please refer to Fig. 1 and Fig. 2 simultaneously, Fig. 3 A is the perspective exploded view of the utility model second embodiment, Fig. 3 B is the solid combination schematic diagram of the utility model second embodiment, Fig. 3 C is the generalized section of the utility model second embodiment, and Fig. 3 D is the close-up schematic view of the part A of Fig. 3 C.The utility model second embodiment provides a kind of vibration screen machine C, in order to thing to be filtered is leached, as shown in Figure 3 B, aggregate bin 2 and printing opacity screen frame 3 can be arranged on a support 1, wherein, the inside of support 1 can be provided with an oscillator, makes the thing to be filtered being positioned at printing opacity screen frame 3 be separated and discharge by the high-frequency vibration of oscillator.Thing to be filtered can be the generally common powder such as flour, cosmetics powder, or can be the powder of the nano-grade size such as ceramic powder, lithium battery powder.Relatively can learn by Fig. 3 B and Fig. 2, the difference of the second embodiment and the first embodiment is: the second embodiment also can with an aggregate bin 2 and a support 1 with the use of, and by multiple holding part 6 by aggregate bin 2 and printing opacity screen frame 3 snapping mutually.

As shown in figures 3 a and 3b, aggregate bin 2 has one and leaches mouth 21 and a fixing flange 22, and leach mouth 21 and be interconnected with fixing flange 22, aggregate bin 2 also can be the light-permeable aggregate bin 2 with light transmission features.And then printing opacity screen frame 3 can be arranged at the top of aggregate bin 2.For the utility model second embodiment, vibration screen machine C also can comprise multiple holding part 6 and multiple pedestal 23, and multiple pedestal 23 is arranged on the side of aggregate bin 2 around ground by the mode of welding.And each holding part 6 all can comprise flexible member 61, ring bodies 62 and a pulling buckle 63, one end of flexible member 61 can be hooked on pedestal 23, the other end of flexible member 61 can be connected with ring bodies 62, and pulling buckle 62 is fixed to the side of pulling buckle 63 by the mode of welding.Thus, when user uses vibration screen machine C provided by the utility model, by the flexible member 61 of holding part 6 and ring bodies 62 by aggregate bin 2 and printing opacity screen frame 3 snapping mutually.

It is worth mentioning that, for the utility model second embodiment, aggregate bin 2 is made with the mode of printing opacity screen frame 3 by ejection formation, its material can select light transmittance to be greater than the plastic material of 30%, such as acronitrile-butadiene-styrene (ABS, Acrylonitrile ButadieneStyrene), polystyrene (PS, Polystyrene), polypropylene (PP, Polypropylene), PET (PET, Polyethylene terephthalate), poly-sour methyl esters (PMMA, Polymethylmethacrylate), polyethylene (PE, the material such as Polyethylene), this material can reduce Production Time and the manufacturing cost of printing opacity screen frame 3 and aggregate bin 2 by ejection formation.

And then, in order to further illustrate the annexation of all parts in the utility model second embodiment, shown in Fig. 3 C and Fig. 3 D, retainer ring 4 can be arranged at discharge end 32 place of printing opacity screen frame 3 around ground, and one screen cloth 5 is fixed to the discharge end 32 of printing opacity screen frame 3 by multiple locking part S and multiple nut N and mutually locks with the locking hole 34 on locating flange 33 and the locking hole 41 on retainer ring 4 simultaneously.In other words, by the locating flange 33 of printing opacity screen frame 3 or retainer ring 4 being abutted on the fixing flange 22 of the aggregate bin 2 of a collection filtrate, and printing opacity screen frame 3 and aggregate bin 2 are interconnected, so that the thing to be filtered being arranged in printing opacity screen frame 3 is separated and is expelled to aggregate bin 2 by screen cloth 5, for the utility model, the shape of aggregate bin 2 can be determined according to the actual requirements.

The vibration screen machine C that the utility model second embodiment provides, make by the setting of printing opacity screen frame 3 and aggregate bin 2 user can observe the current screening situation of thing to be filtered in vibration screen machine C from outside, reduce the overall weight of the manufacturing cost of vibration screen machine C, manufacturing time and vibration screen machine C simultaneously.In addition, by multiple holding part 6 and multiple pedestals 23 of being arranged on aggregate bin 2, aggregate bin 2 and printing opacity screen frame 3 are closely fixed.

(the 3rd embodiment)

First, refer to shown in Fig. 4 A to Fig. 4 C, Fig. 4 A is a using state schematic diagram of the utility model the 3rd embodiment, and Fig. 4 B is an other using state schematic diagram of the utility model the 3rd embodiment, and Fig. 4 C is the decomposing schematic representation of the element in the utility model the 3rd embodiment.Can be learnt with comparing of Fig. 3 B by Fig. 4 A, 3rd embodiment and the maximum difference of the second embodiment are: the 3rd embodiment can in addition with multiple fastener 8 with the use of, the shape of aggregate bin 2 can be changed simultaneously, so that fastener 8 is assembled on aggregate bin 2, in addition, can also with a lid 7 and multiple printing opacity screen frame 3 with the use of.

The utility model the 3rd embodiment provides a kind of vibration screen machine C ', in order to thing to be filtered is leached, as shown in Figure 4 A, aggregate bin 2 ', the first printing opacity screen frame 3 ' and the second printing opacity screen frame 3 " can be arranged on a support 1 '; wherein; the inside of support 1 ' can be provided with an oscillating element, vibrated by the high-frequency of oscillator, make to be positioned at the first printing opacity screen frame 3 ' and the second printing opacity screen frame 3 " thing to be filtered be separated and discharge.For the utility model, oscillator 11, one base 12, mount pad 13 and a multiple flexible member 14 can be provided with in support 1 ', mount pad 13 secures to the bottom of aggregate bin 2 ' by locking part (not shown) and is linked to the top of oscillator 11, multiple flexible member 14 can be arranged between mount pad 13 and base 12, in order to provide cushioning effect during vibration.

Then, aggregate bin 2 ' can be arranged on support 1 ', and aggregate bin 2 ' has an accumulator tank 21 ' and and fixes flange 22 ', and accumulator tank 21 ' can be interconnected with fixing flange 22 '.Then, one first printing opacity screen frame 3 ' can be arranged on aggregate bin 2 ', first printing opacity screen frame 3 ' can comprise one first feeding end 31 ' and one first discharge end 32 ', first feeding end 31 ' and the first discharge end 32 ' can be arranged at the two ends place of the first printing opacity screen frame 3 ' respectively, in addition, first discharge end 32 ' also can have one first locating flange 33 ', and the first locating flange 33 ' can be provided with multiple locking hole around ground.For example, the inwall of aggregate bin 2 ' also can be provided with a framework F, be arranged on aggregate bin 2 ', but the utility model is not as limit for by the first printing opacity screen frame 3 '.Furthermore, first printing opacity screen frame 3 ' can arrange one second printing opacity screen frame 3 again ", make the second printing opacity screen frame 3 " be arranged on the first printing opacity screen frame 3 ' by stacking mode, wherein, second printing opacity screen frame 3 " one second feeding end 31 can be comprised " and one second discharge end 32 ", second feeding end 31 " with the second discharge end 32 " the second printing opacity screen frame 3 can be arranged at respectively " and two ends place, in addition, second discharge end 32 " also can have one second locating flange 33 ", and the second locating flange 33 " on ground can be provided with multiple locking hole.

Furthermore, one first retainer ring 4 ' can be arranged at the first discharge end 32 ' place of the first printing opacity screen frame 3 ' around ground, to fix one first screen cloth 5 ', for example, one first screen cloth 5 ' be fixed to the discharge end 32 ' of the first printing opacity screen frame 3 ' by multiple locking part S and nut N and mutually lock with the locking hole on the locking hole on locating flange 33 ' and the first retainer ring 4 ' simultaneously.Moreover, by the locating flange 33 ' of the first printing opacity screen frame 3 ' or the first retainer ring 4 ' are abutted on the fixing flange 22 ' of aggregate bin 2 ', be interconnected with aggregate bin 2 ' to make the first printing opacity screen frame 3 '.And then, by one second retainer ring 4 " be arranged at the second printing opacity screen frame 3 around ground " the second discharge end 32 " place; to fix one second screen cloth 5 ", for example, by multiple locking part S and nut N by the second screen cloth 5 " be fixed to the second printing opacity screen frame 3 " and the second discharge end 32 " and simultaneously with the second locating flange 33 " on locking hole and the second retainer ring 4 " on locking hole mutually lock.And the second printing opacity screen frame 3 " locating flange 33 " or the first retainer ring 4 ' can abut on the first feeding end 31 ' of the first printing opacity screen frame 3 ', to make the first printing opacity screen frame 3 ' and the second printing opacity screen frame 3 " be interconnected, but the utility model is not as limit.In addition, the first retainer ring 4 ' and the second retainer ring 4 " can stainless steel be adopted, its durability will be more excellent than traditional wood quality.For example, can at the second printing opacity screen frame 3 " on multiple screen frame is set further; and each screen cloth on sequentially stacking multiple screen frames can have the mesh of different size, and in theory should be descending to filter thing to be filtered layer by layer to the screen cloth mesh size of lower floor by upper strata.It is worth mentioning that, for the 3rd embodiment, also can comprise a lid 7 further, lid 7 can be arranged at the second printing opacity screen frame 3 " on, be namely arranged at the screen frame upper end of the superiors.

It is worth mentioning that, first printing opacity screen frame 3 ', second printing opacity screen frame 3 " and aggregate bin 2 ' be made by the mode of ejection formation, its material can select light transmittance to be greater than the plastic material of 30%, such as acronitrile-butadiene-styrene (ABS, Acrylonitrile Butadiene Styrene), polystyrene (PS, Polystyrene), polypropylene (PP, Polypropylene), PET (PET, Polyethylene terephthalate), poly-sour methyl esters (PMMA, Polymethylmethacrylate), polyethylene (PE, the material such as Polyethylene), can reduce by the first printing opacity screen frame 3 ' by ejection formation, second printing opacity screen frame 3 " and Production Time of aggregate bin 2 ' and manufacturing cost.

Moreover, for the utility model second embodiment, vibration screen machine C ' also can comprise multiple fastener 8 further, each fastener 8 includes holder 81, handle 82, moving part 83, body of rod 84 and a cramp 85, holder 81 is fixed on the outside of aggregate bin 2 ', for example, by locking or the mode of pasting, fastener 8 and aggregate bin 2 ' are combined, but the utility model is not as limit.And then, handle 82 can comprise pin joint seat 821 and a grip part 822, this pin joint seat and this grip part of holder 81 pivot joint bend and past downward-extension toward the direction away from aggregate bin 2 ' bottom pin joint seat 821, moving part 83 is pivoted to the pin joint seat 821 of handle 82, the body of rod 84 is pivoted to moving part 83, cramp 85 be fixed to the body of rod 84 top and snapping to the apical margin 71 of lid 7.Thus, by fastener 8 by lid 7, second printing opacity screen frame 3 ", the first printing opacity screen frame 3 ' and aggregate bin 2 ' tighten together, and can prevent it from producing the phenomenon got loose.Refer to shown in Fig. 4 B, when for by lid 7, second printing opacity screen frame 3 ", the first printing opacity screen frame 3 ' and aggregate bin 2 ' be when getting loose each other, the handle 82 by cocked fastener 8 makes cramp 85 away from the apical margin 71 of lid 7.

The vibration screen machine C ' that the utility model the 3rd embodiment provides, by the first printing opacity screen frame 3 ', second printing opacity screen frame 3 " and aggregate bin 2 ' setting and make user can observe the current screening situation of thing to be filtered in vibration screen machine C from outside, reduce the overall weight of the manufacturing cost of vibration screen machine C ', manufacturing time and vibration screen machine C ' simultaneously.In addition, can by lid 7, first printing opacity screen frame 3 ', second printing opacity screen frame 3 by multiple fastener 8 " and aggregate bin 2 ' stacking each other and be closely linked.

(possible effect of embodiment)

In sum, the beneficial effects of the utility model can be, for vibration screen machine (C provided by the utility model, C '), not only by the first printing opacity screen frame 3 ', second printing opacity screen frame 3 " and aggregate bin 2 setting and make user can observe the current screening situation of thing to be filtered in vibration screen machine (C; C ') from outside; reduce the overall weight of the manufacturing cost of vibration screen machine (C; C '), manufacturing time and vibration screen machine (C, C ') simultaneously.Can also can by lid 7, first printing opacity screen frame 3 ', second printing opacity screen frame 3 by multiple fastener 8 " and aggregate bin 2 ' stacking each other and be closely linked.

Mentioned abovely be only more preferably possible embodiments of the present utility model; not thereby limit to the scope of the claims of the present utility model, therefore the equivalence techniques change that every utilization description of the present utility model and accompanying drawing content are done all is contained in protection domain of the present utility model.

Claims (10)

1. a vibration screen machine, is characterized in that, described vibration screen machine comprises:

One support, the inside of described support is provided with an oscillator;

One aggregate bin, described aggregate bin is arranged on described support, and wherein, described aggregate bin has one and leaches mouth and and fix flange, described in leach mouth and described fixing flange is interconnected;

One printing opacity screen frame, described printing opacity screen frame is arranged on described aggregate bin, and described printing opacity screen frame comprises a feeding end and a discharge end, and wherein, described feeding end and described discharge end are arranged at the two ends place of described printing opacity screen frame respectively; And

One retainer ring, described retainer ring is arranged at the discharge end place of described printing opacity screen frame around ground, to be fixed on by a screen cloth on described printing opacity screen frame;

Wherein, by the described fixing flange of described aggregate bin, described printing opacity screen frame and described aggregate bin are interconnected.

2. vibration screen machine according to claim 1, is characterized in that, described aggregate bin is printing opacity aggregate bin.

3. vibration screen machine according to claim 1, is characterized in that, the described discharge end of described printing opacity screen frame has a locating flange, and described locating flange is provided with multiple locking hole around ground.

4. vibration screen machine according to claim 3, is characterized in that, described screen cloth is fixed to the discharge end of described printing opacity screen frame by described retainer ring by multiple locking part.

5. vibration screen machine according to claim 1, it is characterized in that, described vibration screen machine also comprises multiple holding part and multiple pedestal further, described multiple pedestal is arranged at around ground on the side of described aggregate bin, each in described multiple holding part includes a flexible member, a pulling buckle and a ring bodies, one end of described flexible member is hooked on described pedestal, and the other end of described flexible member is connected with described ring bodies, and described pulling buckle is fixed to the side of described ring bodies.

6. a vibration screen machine, is characterized in that, described vibration screen machine comprises:

One support, the inside of described support is provided with an oscillator;

One aggregate bin, described aggregate bin is arranged on described support, and wherein, described aggregate bin has an accumulator tank and and fixes flange, and described accumulator tank and described fixing flange are interconnected;

One first printing opacity screen frame, described first printing opacity screen frame is arranged on described aggregate bin, described first printing opacity screen frame comprises one first feeding end and one first discharge end, and wherein, described first feeding end and described first discharge end are arranged at the two ends place of described first printing opacity screen frame respectively;

One second printing opacity screen frame, described second printing opacity screen frame is arranged on described first printing opacity screen frame, described second printing opacity screen frame comprises one second feeding end and one second discharge end, wherein, described second feeding end and described second discharge end are arranged at the two ends place of described second printing opacity screen frame respectively;

One first retainer ring, described first retainer ring is arranged at the first discharge end place of described first printing opacity screen frame around ground, to be fixed on by one first screen cloth on described first printing opacity screen frame; And

One second retainer ring, described second retainer ring is arranged at the second discharge end place of described second printing opacity screen frame around ground, to be fixed on described second printing opacity screen frame by one second screen cloth.

7. vibration screen machine according to claim 6, it is characterized in that, described first discharge end of described first printing opacity screen frame has one first locating flange, described first locating flange is provided with multiple locking hole around ground, described second discharge end of described second printing opacity screen frame has one second locating flange, and described second locating flange is provided with multiple locking hole around ground.

8. vibration screen machine according to claim 6, it is characterized in that, described first screen cloth and described second screen cloth are fixed to the first discharge end of described first printing opacity screen frame and the second discharge end of described second printing opacity screen frame by multiple locking part by described first retainer ring and described second retainer ring respectively.

9. vibration screen machine according to claim 6, is characterized in that, described vibration screen machine also comprises a lid further, and described lid is arranged on described second printing opacity screen frame.

10. vibration screen machine according to claim 9, it is characterized in that, described vibration screen machine also comprises multiple fastener further, each in described multiple fastener includes a holder, one handle, one moving part, one body of rod and a cramp, described holder is fixed to the outside of described aggregate bin, described handle comprises a pin joint seat and a grip part, grip part described in described pin joint seat and described holder pivot joint bottom described pin joint seat toward bending away from the direction of described aggregate bin and toward downward-extension, described moving part is pivoted to the described pin joint seat of described handle, the described body of rod is pivoted to described moving part, described cramp is fixed to described body of rod top and snapping extremely described lid apical margin.