CN205518552U - Vibration screening machine and sieve charging tray structure and sieve material module thereof - Google Patents

Abstract

The utility model relates to a vibration screening machine and sieve charging tray structure and sieve material module thereof, there is sieve material module oscillation unit top location, its the sieve material base that the module possessed top is equipped with the frame that gathers materials, and it is formed with the accommodation space to gather materials an inside, the frame that is gathering materials again is equipped with the hole that gathers materials in accommodation space bottom, and run through the discharge gate that has the oblique extension of subordinate square neck outwards in the hole that gathers materials towards an outside limit that gathers materials, be equipped with the sieve charging tray again above the base, its sieve charging tray has the holding ring, and be equipped with cyclic annular combination portion inwards on the holding ring top, and be equipped with the cover on the joint portion and cover in the inside screen cloth in joint portion, be equipped with cyclic annular frame again above the sieve charging tray, when the user uses sieve material module to filter the material for a long time, the joint portion that its sieve charging tray accessible was established inwards increases the intensity that the combination area between sieve charging tray and screen cloth combines with the increase, and then the phenomenon that the material caused the inboard screen cloth of holding ring to subside is filtered for a long time downwards in the reduction, increase user's use number of times.

Description

Vibrating screen classifier and sieve material tray structure thereof expect module with sieve

Technical field

This utility model relates to a kind of vibrating screen classifier, espespecially vibration unit is located above with sieve material module, the sieve charging tray of its sieve material module has locating ring, and it is provided with joint portion inwardly at locating ring, and joint portion is provided with screen cloth, the bonded area between sieve charging tray and screen cloth can be increased by joint portion and increase the intensity of combination, to reduce the phenomenon that long-term material screening causes screen cloth to subside downwards.

Background technology

nullPress，Along with Technology Times arrives、The lifting of human lives's quality，For the article needed for daily life and work、The quality of apparatus etc. is the highest，And in order to meet consumer for various article、The quality requirements of apparatus etc.，Many manufactures、Production firm will pass through the machining machine and tool of high precision、Carry out the manufacture of various article apparatus、Produce，Except various article can be promoted、Outside the quality of apparatus etc.，Also can lead to undergone mass production and reduce cost，And consumer's requirement for article all kinds of in daily life can be met，Raw material at aspect many article of food is powder、Fine granularity etc.，Such as flour、Cornstarch、Corn、Beans、The Sal of flavouring agent、Sugar or monosodium glutamate etc.，The cement of the building the most typically lived use when building or the grains of sand etc.，Also or therapeutic medical medicated powder、Pill、Gypsum Fibrosum powder etc.，Furthermore as factory adds logical screw、The small-sized spare part such as nut etc.，Various powder、Granular product etc.，When manufacturing production，Relatively easy affected by context factor，Make powder、Granular raw material produces and mixes、It is gathered into bulky grain、The large volumes such as bulk or bulk，And then cannot use，Therefore at various powder、Granular raw material dispatch from the factory before screening operation，Then become considerable working link.

But, develop a kind of vibrating screen classifier on the market, it utilizes the mode of vibration, powder on screen cloth is carried out according to granular size the instrument classified, can be applicable on different materials according to its frequency of vibration and the mesh size of filter screen, refer to again shown in Fig. 9, it it is the three-dimensional exploded view of existing vibrating screen classifier, wherein this existing vibrating screen classifier is to include vibration unit A and screening module B positioned over thereof, this screening module B has the rack B2 of more than accommodating hopper B1 and internal contained at least one of which thereof, and accommodating hopper B1 outer side edges be formed can be screened for after material derive discharging opening B11, and rack B2 has locating ring B21 and top one thereof or the most made frame B22, screen cloth B211 it is provided with again inside locating ring B21.

But the adhesion between the locating ring B21 and screen cloth B211 of vibrating screen classifier is inadequate the most on the market, so carrying out screening after operation through vibration unit A life-time service, its screen cloth B211 easily produces subsides downwards also or locating ring B21 and screen cloth B211 junction generation structure crumbles the phenomenon causing screen cloth B211 wire side to rupture.

Therefore how to manage to solve above-mentioned existing disappearance and inconvenience, it is relevant dealer and is desired most ardently the place, direction that research improves.

Utility model content

Therefore, utility model designer, because above-mentioned problem and disappearance, is to collect related data, via in many ways assessing and considering, and to engage in the many years of experience of the industry accumulation, via constantly studying and revising, begins to design the novel birth of this kind of vibrating screen classifier.

For achieving the above object, the technical solution adopted in the utility model includes:

A kind of vibrating screen classifier, it is characterised in that include vibration unit and sieve material module, wherein:

This vibration unit is located above with this sieve material module；

This sieve material module has base, and it is arranged over aggregate rack at base, and aggregate rack has been internally formed accommodation space, accommodation space at aggregate rack is provided with and concentrates, towards base, the guiding face of inclination again, and guiding face center bottom is provided with the hole that gathers materials, and run through towards aggregate rack outer side edges in the hole that gathers materials and to have the discharging opening that inclined downward extends towards the outside, it is arranged over sieving charging tray at base again, this sieve charging tray has locating ring, and it is provided with ring-type joint portion inwardly on locating ring top, and joint portion is provided with and covers in the screen cloth within joint portion, it is arranged over ring-type housing again at sieve charging tray, and it has been internally formed charging space at housing.

Described vibrating screen classifier, wherein: this vibration unit has housing, and in housing, it is accommodated with motor, and be combined with positioning framework above motor and be available for the complex elastic element being positioned between housing and positioning framework, upper and lower, left and right and the counterweight of tilt and vibration function is produced, also at positioning framework located above with being available for the cover body that covers outside vibration unit when being the most reversely provided with operating again at upper and lower two sides of the rotating shaft that motor is had.

Described vibrating screen classifier, wherein: the aggregate rack top of this sieve material module is bent with outwardly bottom the first flange, and the locating ring of sieve charging tray and is bent with the second flange outwardly, and outer frame bottom is bent with third lip outwardly.

Described vibrating screen classifier, wherein: be socketed with sealing gasket on the second flange of this locating ring, this sealing gasket bottom surface is held in the first flange, and surface is supported by third lip, and is held in locating ring inside sealing gasket.

Described vibrating screen classifier, wherein: the surface, joint portion of this sieve material module has faying face, and is provided with weld part between screen cloth peripheral region and faying face.

For achieving the above object, the technical solution adopted in the utility model also includes:

The sieve material tray structure of a kind of vibrating screen classifier, it is characterised in that include sieve charging tray and screen cloth, wherein:

This sieve charging tray has locating ring, and is provided with joint portion inwardly on this locating ring top；And

This screen cloth combines and covers in the joint portion of sieve charging tray.

The sieve material tray structure of described vibrating screen classifier, wherein: be bent with the second flange bottom the locating ring of this sieve charging tray outwardly, and be socketed with sealing gasket on the second flange.

The sieve material tray structure of described vibrating screen classifier, wherein: the surface, joint portion of this sieve charging tray has faying face, and is provided with weld part between screen cloth peripheral region and faying face.

For achieving the above object, the technical solution adopted in the utility model also includes:

A kind of sieve material module of vibrating screen classifier, it is characterized in that: this sieve material module has aggregate rack, and aggregate rack has been internally formed accommodation space, the hole that gathers materials it is provided with again bottom the accommodation space of aggregate rack, and run through the discharging opening having towards outer incline extension towards aggregate rack outer side edges in the hole that gathers materials, it is arranged over sieving charging tray at base again, this sieve charging tray has locating ring, and it is provided with ring-type joint portion inwardly on locating ring top, and joint portion is provided with and covers in the screen cloth within joint portion, it is arranged over ring-type housing again at sieve charging tray, and it has been internally formed charging space at housing.

Major advantage of the present utility model is in that this vibration unit is located above with sieve material module, the locating ring top that its sieve material module sieve charging tray is had is provided with joint portion inwardly, and on joint portion, it is combined with screen cloth, when the sieve material long-term material screening of module, its sieve charging tray increases the bonded area between sieve charging tray and screen cloth to increase the intensity combined by the joint portion set inwardly, and then reduce the phenomenon that long-term material screening causes the screen cloth inside locating ring to subside downwards, reach to increase the purpose of access times.

Minor advantage of the present utility model is in that the sieve charging tray stacking of this sieve material module is on base, and lay one layer of pore screen cloth further at sieve charging tray, again by downward for housing stacking, make pore screen cloth clamping by the third lip bottom surface of the sieve sealing gasket upper surface that had of charging tray and housing, can produce up and down by Vibration on Start-up unit, left and right and tilt and vibration, material is made to pass through screen cloth and the choosing of fine ga(u)ge screen mesh screen, derived by discharging opening again after sub-material, it assembles sieve charging tray that is relatively easy and that be not required to change different mesh size, to reach to increase the purpose of the convenience on using.

Another advantage of the present utility model is in that the sieve sealing gasket that had of charging tray of this sieve material module is made by rubber, plastic cement, silica gel or other soft materials, just can reach and allows pore screen cloth be not likely to produce the purpose rocked by held tight.

Accompanying drawing explanation

Fig. 1 is stereo appearance figure of the present utility model.

Fig. 2 is three-dimensional exploded view of the present utility model.

Fig. 3 is the stereo appearance figure that this utility model sieve charging tray is combined with screen cloth.

Fig. 4 is the three-dimensional exploded view that this utility model sieve charging tray is combined with screen cloth.

Fig. 5 is side cutaway view of the present utility model.

Fig. 6 is the stereo appearance figure of another embodiment of this utility model.

Fig. 7 is the stereo appearance figure of the another embodiment of this utility model.

Fig. 8 is the side cutaway view of the another embodiment of this utility model.

Fig. 9 is existing three-dimensional exploded view.

Description of reference numerals: 1-vibration unit；11-housing；12-motor；121-counterweight；13-positioning framework；131-cover body；14-flexible member；2-sieve material module；21-base；210-accommodation space；211-aggregate rack；212-the first flange；213-guiding face；214-gathers materials hole；215-discharging opening；22-sieves charging tray；221-locating ring；2211-the second flange；2212-sealing gasket；222-joint portion；2221-faying face；23-screen cloth；231-weld part；24-housing；240-feeds space；241-third lip；A-vibration unit；B-screens module；B1-houses hopper；B11-discharging opening；B2-rack；B21-locating ring；B211-screen cloth；B22-frame.

Detailed description of the invention

For reaching above-mentioned purpose and effect, technological means that this utility model is used and structure thereof, just hereby drawing, its feature of preferred embodiment elaborate of the present utility model and function are as follows, in order to understanding completely.

Refer to shown in Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, it is the three-dimensional exploded view that is combined with screen cloth of the stereo appearance figure that is combined with screen cloth of stereo appearance figure of the present utility model, three-dimensional exploded view, sieve charging tray, sieve charging tray and side cutaway view, by shown in figure it is clear that, vibrating screen classifier of the present utility model includes vibration unit 1 and sieve material module 2 positioned over thereof, wherein:

This vibration unit 1 has housing 11, and in housing 11, it is accommodated with motor 12, and be combined with positioning framework 13 above motor 12 and be available for the complex elastic element 14 being positioned between housing 11 and positioning framework 13, counterweight 121 the most reversely it is provided with again, separately in positioning framework 13 located above with being available for the cover body 131 that covers outside vibration unit 1 at upper and lower two sides of rotating shaft that motor 12 is had.

nullThis sieve material module 2 has base 21，And it is arranged over aggregate rack 211 at base 21，And aggregate rack 211 has been internally formed accommodation space 210，On aggregate rack 211, it is positioned at accommodation space 210 top is again bent with the first flange 212 outwardly，And aggregate rack 211 is provided with in accommodation space 210 and concentrates, towards base 21, the guiding face 213 of inclination，And guiding face 213 center bottom is provided with the hole 214 that gathers materials，The hole 214 that gathers materials again is run through towards aggregate rack 211 outer side edges and is had discharging opening 215，Then discharging opening 215 is that inclined downward extends towards the outside，And base 21 is arranged over sieving charging tray 22，Its sieve charging tray 22 periphery has locating ring 221，And bottom locating ring 221, it is bent with the second flange 2211 outwardly，And second be socketed with sealing gasket 2212 on flange 2211，Its sealing gasket 2212 bottom surface is held in the first flange 212，And inside sealing gasket 2212, it is held in locating ring 221，Ring-type joint portion 222 it is provided with inwardly again on locating ring 221 top，And there is above joint portion 222 faying face 2221，And locating ring 221 is provided with the screen cloth 23 being incorporated on faying face 2221，Internal in joint portion 222 for covering，And between screen cloth 23 peripheral region and faying face 2221, it is provided with weld part 231，It is arranged over ring-type housing 24 again at sieve charging tray 22，And housing 24 has been internally formed charging space 240，And bottom housing 24, it is bent with third lip 241 outwardly，And third lip 241 bottom surface is held in sealing gasket 2212 surface.

The mode that the faying face 2221 of above-mentioned joint portion 222 is preferably implemented as utilizing laser to weld with screen cloth 23 is assembled, but when reality is applied, the riveting that is possible with being adhesively fixed is fixing or the mode such as screw locking is fixed, such as utilization this utility model description and graphic content are done simple modification and equivalent structure change, all should in like manner be contained in the scope of the claims of the present utility model, close and give Chen Ming.

Furthermore, the counterweight 121 of above-mentioned vibration unit 1 motor 12 has generation upper and lower, left and right and tilt and vibration function when operating for vibration unit 1, and the predetermined diameter of this sieve material module 2 locating ring 221 of sieving charging tray 22 periphery can be between 60 centimeters to 150 centimeters, and this sealing gasket 2212 can be had again plural number and preset the screen cloth 23 of mesh and can be metal or the thin wire knitting forming having ductility or be stamped with the patterns such as plural small hole by metal plate made by rubber, plastic cement, silica gel or other soft materials inside this locating ring 221.

But, refer to shown in Fig. 1, Fig. 6, it it is the stereo appearance figure of stereo appearance figure of the present utility model and another embodiment, by shown in figure it is clear that, the discharging opening 215 that this sieve material module 2 is had is preferably implemented as being arranged at bottom aggregate rack 211, but during actual application, also discharging opening 215 can be arranged on aggregate rack 211 sidewall, therefore the simple modification that utilization this utility model description and graphic content are done such as and equivalent structure change, all should in like manner be contained in the scope of the claims of the present utility model, close and give Chen Ming.

Locating ring 221 top that this utility model sieve charging tray 22 is had is provided with joint portion 222 inwardly, above its joint portion 222, there is faying face 2221, again screen cloth 23 is incorporated on faying face 2221, and between screen cloth 23 peripheral region and faying face 2221, it is provided with weld part 231, when user life-time service sieve material module 2 material screening, its locating ring 221 increases the bonded area between sieve charging tray 22 and screen cloth 23 to increase the intensity combined by the joint portion 222 set inwardly, and then reduce the phenomenon that long-term material screening causes the screen cloth 23 inside locating ring 221 to subside downwards, reach to increase the purpose of access times.

nullAdditionally，Refer to Fig. 7、Shown in Fig. 8，It is stereo appearance figure and the side cutaway view of another embodiment of another embodiment of the present utility model，By shown in figure it is clear that，This utility model is as screened the material of more fine particle size further，Charging tray 22 stacking first will be sieved in base 21 by system，After sealing gasket 2212 bottom surface of its sieve charging tray 22 is resisted against the first flange 212 upper surface，Again one layer of pore screen cloth is layed in further on sieve charging tray 22，Then by downward for housing 24 stacking，Make pore screen cloth clamping by third lip 241 bottom surface of sealing gasket 2212 upper surface and housing 24，Can when will operate by vibration unit 1 produced up and down、The functions such as left and right and tilt and vibration，Material is made to pass through screen cloth 23 and the choosing of fine ga(u)ge screen mesh screen、Can be derived by discharging opening 215 after sub-material，It assembles sieve charging tray 22 that is relatively easy and that be not required to change different mesh size，To increase the convenience on using，And because sealing gasket 2212 is rubber、Plastic cement、Made by silica gel or other soft materials，Just pore screen cloth can be allowed by held tight to be not likely to produce the effect rocked.

nullTherefore，This utility model is for mainly for utilizing vibration unit 1 located above with sieve material module 2，Locating ring 221 top that sieve charging tray 22 in its sieve material module 2 is had is provided with joint portion 222 inwardly，And screen cloth 23 is incorporated on joint portion 222，When user life-time service sieve material module 23 material screening，Its sieve charging tray 22 can increase the bonded area between sieve charging tray 22 and screen cloth 23 to increase the intensity combined by the joint portion 222 set inwardly，Reduce the phenomenon that long-term material screening causes the screen cloth 23 inside locating ring 221 to subside downwards，And then reach to increase the purpose of access times，Therefore such as can reach the structure of foregoing advantages、Device all should be contained by this utility model，This kind of simple modification and equivalent structure change，All should in like manner be contained in protection domain of the present utility model，Chen Ming is given in conjunction.

Claims (9)

1. a vibrating screen classifier, it is characterised in that include vibration unit and sieve material module, wherein:

This vibration unit is located above with this sieve material module；

This sieve material module has base, and it is arranged over aggregate rack at base, and aggregate rack has been internally formed accommodation space, accommodation space at aggregate rack is provided with and concentrates, towards base, the guiding face of inclination again, and guiding face center bottom is provided with the hole that gathers materials, and run through towards aggregate rack outer side edges in the hole that gathers materials and to have the discharging opening that inclined downward extends towards the outside, it is arranged over sieving charging tray at base again, this sieve charging tray has locating ring, and it is provided with ring-type joint portion inwardly on locating ring top, and joint portion is provided with and covers in the screen cloth within joint portion, it is arranged over ring-type housing again at sieve charging tray, and it has been internally formed charging space at housing.

Vibrating screen classifier the most according to claim 1, it is characterized in that: this vibration unit has housing, and in housing, it is accommodated with motor, and be combined with positioning framework above motor and be available for the complex elastic element being positioned between housing and positioning framework, upper and lower, left and right and the counterweight of tilt and vibration function is produced, also at positioning framework located above with being available for the cover body that covers outside vibration unit when being the most reversely provided with operating again at upper and lower two sides of the rotating shaft that motor is had.

Vibrating screen classifier the most according to claim 1, it is characterised in that: the aggregate rack top of this sieve material module is bent with outwardly bottom the first flange, and the locating ring of sieve charging tray and is bent with the second flange outwardly, and outer frame bottom is bent with third lip outwardly.

Vibrating screen classifier the most according to claim 3, it is characterised in that: being socketed with sealing gasket on the second flange of this locating ring, this sealing gasket bottom surface is held in the first flange, and surface is supported by third lip, and is held in locating ring inside sealing gasket.

Vibrating screen classifier the most according to claim 1, it is characterised in that: the surface, joint portion of this sieve material module has faying face, and is provided with weld part between screen cloth peripheral region and faying face.

6. the sieve material tray structure of a vibrating screen classifier, it is characterised in that include sieve charging tray and screen cloth, wherein:

This sieve charging tray has locating ring, and is provided with joint portion inwardly on this locating ring top；And

This screen cloth combines and covers in the joint portion of sieve charging tray.

The sieve material tray structure of vibrating screen classifier the most according to claim 6, it is characterised in that: it is bent with the second flange bottom the locating ring of this sieve charging tray outwardly, and is socketed with sealing gasket on the second flange.

The sieve material tray structure of vibrating screen classifier the most according to claim 6, it is characterised in that: the surface, joint portion of this sieve charging tray has faying face, and is provided with weld part between screen cloth peripheral region and faying face.

9. the sieve material module of a vibrating screen classifier, it is characterized in that: this sieve material module has aggregate rack, and aggregate rack has been internally formed accommodation space, the hole that gathers materials it is provided with again bottom the accommodation space of aggregate rack, and run through the discharging opening having towards outer incline extension towards aggregate rack outer side edges in the hole that gathers materials, it is arranged over sieving charging tray at base again, this sieve charging tray has locating ring, and it is provided with ring-type joint portion inwardly on locating ring top, and joint portion is provided with and covers in the screen cloth within joint portion, it is arranged over ring-type housing again at sieve charging tray, and it has been internally formed charging space at housing.