CN217190220U - Centrifugal machine for producing anhydrous sodium sulfite - Google Patents

Abstract

The utility model provides a centrifuge for anhydrous sodium sulfite production belongs to centrifugal equipment technical field. The centrifuge for producing the anhydrous sodium sulfite comprises a power component and a fixed component. Power component includes backup pad, support column, shock attenuation portion, reation kettle, level sensor, fluid-discharge tube, support, motor, first circular slide rail, first slider, diaphragm, first iron plate, first electro-magnet and kettle cover, the support column is fixed on the lower surface of backup pad, during the use, accomplish and the centrifugal basket is no longer rotatory back when the material centrifugation, close first electro-magnet, second electro-magnet and third electro-magnet, can take off the kettle cover, mention centrifugal basket and take out, again be equipped with the next centrifugal basket of material to be equipped with the material in the reation kettle according to above-mentioned step dress back can, this centrifuge is convenient for carry out quick material loading and centrifugation to the material, has improved the production efficiency to anhydrous sodium sulfite.

Description

Centrifugal machine for producing anhydrous sodium sulfite

Technical Field

The utility model relates to a centrifugal equipment field particularly, relates to a centrifuge for anhydrous sodium sulfite production.

Background

Sodium sulfite is an inorganic substance, commonly known as sulfite. It has irritation to eyes, skin, and mucosa, and can pollute water source. Toxic sulfide fume is generated by high-temperature decomposition. The industrial production is mainly used for preparing cellulose sulfite, sodium thiosulfate, organic chemicals, bleaching fabrics and the like, and is also used as a reducing agent, a preservative, a dechlorinating agent and the like.

At present, the current centrifuge for anhydrous sodium sulfite production injects the material for producing anhydrous sodium sulfite into the process of centrifuge too time-consuming, has reduced the production efficiency to anhydrous sodium sulfite.

SUMMERY OF THE UTILITY MODEL

In order to compensate above not enough, the utility model provides a centrifuge for anhydrous sodium sulfite production aims at improving the process of pouring into centrifuge into the material that production anhydrous sodium sulfite used too time-consuming, has reduced the problem to the production efficiency of anhydrous sodium sulfite.

The utility model discloses a realize like this:

the utility model provides a centrifuge for anhydrous sodium sulfite production, including power component and fixed subassembly.

The power assembly comprises a supporting plate, a supporting column, a damping part, a reaction kettle, a liquid level sensor, a liquid discharge pipe, a support, a motor, a first circular slide rail, a first slide block, a transverse plate, a first iron block, a first electromagnet and a kettle cover, wherein the supporting column is fixed on the lower surface of the supporting plate, the damping part is fixed between the reaction kettle and the supporting plate, one end of the liquid discharge pipe is arranged on the reaction kettle, the support is fixed in the inner wall of the reaction kettle, the motor is fixed on the support, the first circular slide rail is fixed in the inner wall of the reaction kettle, the first slide block slides on the first circular slide rail, the upper end of an output shaft of the motor is fixed on the lower surface of the transverse plate, the outer wall of the first slide block is fixed with the outer wall of the transverse plate together, and the first iron block is fixed in the kettle cover, the first electromagnet is fixed in the reaction kettle, and the liquid level sensor is fixed on the outer wall of the reaction kettle.

The fixing component comprises a centrifugal net basket, a second electromagnet, a second iron block, a basket cover, a second circular slide rail, a second sliding block, a vertical rod, a third electromagnet, a threaded rod and a third iron block, the second electromagnet is fixed in the transverse plate, a groove and a threaded groove are formed in the centrifugal net basket, the second iron block is fixed in the groove, the second circular slide rail is fixed in the inner wall of the reaction kettle, the second sliding block slides on the second circular slide rail, the third electromagnet is fixed on the outer wall of the centrifugal net basket, the third iron block is fixed on the side surface of the second sliding block, a through hole is formed in the second sliding block, the vertical rod penetrates through the through hole, threads of the threaded rod penetrate through the basket cover, and the end part of the threaded rod is threaded into the threaded groove.

In an embodiment of the present invention, the support column includes a column body and a threaded column, the column body is fixed on the lower surface of the support plate, and the threaded column is threaded in the column body.

The utility model discloses an in one embodiment, the shock attenuation portion includes stand and bumper shock absorber, the up end of stand is fixed on reation kettle's the lower surface, the bumper shock absorber is fixed the lower extreme of stand with between the upper surface of backup pad.

The utility model discloses an in one embodiment, the fluid-discharge tube includes fluid-discharge tube body and flowing back valve, the one end setting of fluid-discharge tube body is in reation kettle is last, the flowing back valve sets up on the fluid-discharge tube body.

The utility model discloses an in one embodiment, the motor includes motor body and first protective housing, first protective housing fixes on the support, motor body fixes in the first protective housing.

In an embodiment of the present invention, the power assembly further includes a guide cover, and the guide cover is fixed on the lower surface of the transverse plate.

In an embodiment of the present invention, the power assembly further includes an observation window, and the observation window is disposed on the reaction kettle.

In an embodiment of the present invention, the fixing assembly further includes a first holding portion, and the first holding portion is fixed on the upper surface of the basket cover.

The utility model discloses an in one embodiment, the third electro-magnet includes third electro-magnet body and second protective housing, second protective housing fixes on the outer wall of centrifugal basket, the third electro-magnet body is fixed in the second protective housing.

In an embodiment of the present invention, the threaded rod includes a threaded rod body and a second hand-held portion, the threaded rod body threads penetrate through the basket cover, and the second hand-held portion is fixed at an end of the threaded rod body.

The utility model has the advantages that: the utility model discloses a centrifuge for anhydrous sodium sulfite production that obtains through above-mentioned design, during the use, utilize the pole setting to cluster together all second sliders of a vertical row, then place the centrifugal basket of adorning the material on the diaphragm, and correspond second electro-magnet and second iron plate together, remove the pole setting again, even the second slider of same vertical row moves simultaneously, make the third iron plate on the second slider correspond together with the third electro-magnet, the second electro-magnet adsorbs firmly the second iron plate, the third electro-magnet adsorbs firmly the third iron plate, cover the basket lid, the rotary threaded rod, make the tip of threaded rod enter into the thread groove, pull out the pole setting from the second slider again and take off, cover the kettle lid at last, make first iron plate and first electro-magnet correspond together, the first electro-magnet adsorbs firmly the first iron plate, the rotation of motor output shaft drives the diaphragm and rotates, centrifugal basket is at first circular slide rail, first slider, the second electro-magnet, the second iron plate, the third electro-magnet, the third iron plate, steady rotation under the combined action of the circular slide rail of second and second slider, the realization is to the centrifugal operation of material, after the material centrifugation is accomplished and centrifugal basket is no longer rotatory, close first electro-magnet, second electro-magnet and third electro-magnet, can take off the kettle cover, mention centrifugal basket and take out, again be equipped with the next centrifugal basket of material to be equipped with the material according to above-mentioned step dress back to reation kettle in can, this centrifuge is convenient for carry out quick material loading and centrifugation to the material, the production efficiency to anhydrous sodium sulfite has been improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural diagram of a centrifuge for producing anhydrous sodium sulfite according to an embodiment of the present invention;

fig. 2 is a schematic cross-sectional structure diagram of a centrifuge for producing anhydrous sodium sulfite according to an embodiment of the present invention;

fig. 3 is a schematic cross-sectional view of a power assembly according to an embodiment of the present invention;

fig. 4 is an enlarged view of the area a in fig. 3 according to an embodiment of the present invention;

fig. 5 is a schematic cross-sectional view of a fixing assembly according to an embodiment of the present invention;

fig. 6 is an enlarged view of a region B in fig. 5 according to an embodiment of the present invention.

In the figure: 100-a power assembly; 110-a support plate; 120-support column; 121-cylinder; 122-a threaded post; 130-a shock absorbing part; 131-upright post; 132-a shock absorber; 140-a reaction kettle; 150-a liquid level sensor; 160-a drain pipe; 161-drain body; 162-drain valve; 170-a bracket; 180-motor; 181-motor body; 182-a first protective housing; 190-a guide hood; 191-a first circular slide rail; 192-a first slider; 193-transverse plate; 194-a first iron block; 195-a first electromagnet; 196-observation window; 197-kettle cover; 200-a stationary component; 230-a centrifugal basket; 240-a second electromagnet; 250-a second iron block; 260-grooves; 270-basket cover; 280-a first hand-held portion; 290-a second circular slide; 291-second slider; 292-a through hole; 293-upright stanchion; 294-a third electromagnet; 2941-a third electromagnet body; 2942-a second protective housing; 295-thread groove; 296-a threaded rod; 2961-threaded rod body; 2962-second hand-held part; 299-third iron block.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings of the embodiments of the present invention are combined to clearly and completely describe the technical solutions of the embodiments of the present invention, and obviously, the described embodiments are some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Examples

Referring to fig. 1-6, the present invention provides a technical solution: a centrifuge for anhydrous sodium sulfite production comprises a power assembly 100 and a fixed assembly 200. Fixed subassembly 200 is fixed on power component 100, and this centrifuge is convenient for carry out quick material loading and carry out the centrifugation to the material, has improved the production efficiency to anhydrous sodium sulfite.

Referring to fig. 1 to 4, the power assembly 100 includes a support plate 110, a support column 120, a vibration absorbing part 130, a reaction vessel 140, a liquid level sensor 150, a liquid discharge pipe 160, a bracket 170, a motor 180, a first circular slide rail 191, a first slide block 192, a transverse plate 193, a first iron block 194, a first electromagnet 195 and a vessel cover 197, the support column 120 is fixed on the lower surface of the support plate 110 by bolts, the support column 120 includes a column 121 and a threaded column 122, the column 121 is fixed on the lower surface of the support plate 110 by bolts, the threaded column 122 is threaded in the column 121, the threaded column 122 enables the centrifuge to adapt to uneven ground, the vibration absorbing part 130 is fixed between the reaction vessel 140 and the support plate 110 by bolts, the vibration absorbing part 130 includes a column 131 and a vibration absorber 132, the upper end surface of the column 131 is fixed on the lower surface of the reaction vessel 140 by bolts, the vibration absorber 132 is fixed between the lower end of the column 131 and the upper surface of the support plate 110 by bolts, the vibration absorber 132 can effectively absorb the vibration generated when the centrifuge is operated.

One end of drain pipe 160 is disposed on reaction kettle 140, drain pipe 160 includes drain pipe body 161 and drain valve 162, one end of drain pipe body 161 is disposed on reaction kettle 140, drain valve 162 is disposed on drain pipe body 161, drain valve 162 facilitates draining liquid in reaction kettle 140, support 170 is fixed in the inner wall of reaction kettle 140 through bolts, motor 180 is fixed on support 170 through bolts, motor 180 includes motor body 181 and first protective housing 182, first protective housing 182 is fixed on support 170 through bolts, motor body 181 is fixed in first protective housing 182 through bolts, first protective housing 182 protects motor body 181 from being corroded by liquid, power assembly 100 further includes guide cover 190, guide cover 190 is fixed on the lower surface of lateral plate 193 through bolts, guide cover 190 protects motor 180 from being corroded by liquid.

First circular slide rail 191 passes through the bolt fastening in reation kettle 140's inner wall, first slider 192 slides on first circular slide rail 191, the output shaft upper end of motor 180 passes through the bolt fastening on the lower surface of diaphragm 193, the outer wall of first slider 192 and the outer wall of diaphragm 193 pass through the bolt fastening together, first iron plate 194 passes through the bolt fastening in kettle cover 197, first electro-magnet 195 passes through the bolt fastening in reation kettle 140, level sensor 150 passes through the bolt fastening on reation kettle 140's outer wall, power component 100 still includes observation window 196, observation window 196 sets up on reation kettle 140, observation window 196 is convenient for carry out real-time observation to the liquid volume in reation kettle 140.

Referring to fig. 2, 5 and 6, the fixing assembly 200 includes a centrifugal basket 230, a second electromagnet 240, a second iron block 250, a basket cover 270, a second circular slide rail 290, a second slide block 291, an upright rod 293, a third electromagnet 294, a threaded rod 296 and a third iron block 299, the second electromagnet 240 is fixed in the transverse plate 193 by bolts, the centrifugal basket 230 is provided with a groove 260 and a threaded groove 295, the second iron block 250 is fixed in the groove 260 by bolts, the second circular slide rail 290 is fixed in the inner wall of the reaction vessel 140 by bolts, the second sliding block 291 slides on the second circular sliding rail 290, the third electromagnet 294 is fixed on the outer wall of the centrifugal basket 230 through bolts, the third iron block 299 is fixed on the side surface of the second sliding block 291 through bolts, the third electromagnet 294 comprises a third electromagnet body 2941 and a second protective casing 2942, and the second protective casing 2942 is fixed on the outer wall of the centrifugal basket 230 through bolts.

The third electromagnet body 2941 is fixed in the second protective casing 2942 through a bolt, the second protective casing 2942 protects the third electromagnet body 2941 from being eroded by liquid, the second slider 291 is provided with a through hole 292, the vertical rod 293 penetrates through the through hole 292, the threaded rod 296 penetrates through the basket cover 270 in a threaded manner, the fixing assembly 200 further comprises a first handheld portion 280, the first handheld portion 280 is welded on the upper surface of the basket cover 270, the first handheld portion 280 is convenient for carrying the basket cover 270, in the embodiment, the first handheld portion 280 is a lifting handle, the end portion of the threaded rod 296 is threaded into the threaded groove 295, the threaded rod 296 comprises a threaded rod body 2961 and a second handheld portion 2962, the threaded rod body 2961 penetrates through the basket cover 270 in a threaded manner, the second handheld portion 2962 is welded on the end portion of the threaded rod body 2961, the second handheld portion 2962 is convenient for rotating the threaded rod body 2961, and in the embodiment, the second handheld portion 2962 is a hand wheel.

Specifically, this a centrifuge for anhydrous sodium sulfite production's theory of operation: when the device is used, the vertical rod 293 is utilized to string all the second sliding blocks 291 in a vertical row together, then the centrifugal mesh basket 230 filled with materials is placed on the transverse plate 193, the second electromagnets 240 and the second iron blocks 250 are correspondingly connected together, the vertical rod 293 is moved, even if the second sliding blocks 291 in the same vertical row move simultaneously, the third electromagnets 299 on the second sliding blocks 291 and 294 are correspondingly connected together, the second electromagnets 240 and the third electromagnets 294 are started, the second electromagnets 240 firmly adsorb the second iron blocks 250, the third electromagnets 294 firmly adsorb the third iron blocks 299, the basket cover 270 is covered, the threaded rod 296 is rotated, the end part of the threaded rod 296 enters the threaded groove 295, the vertical rod 293 is pulled out of the second sliding blocks 291, finally the kettle cover 197 is covered, the first iron blocks 194 and the first electromagnets 195 are correspondingly connected together, the first electromagnets 195 are started, the first electromagnets 195 firmly adsorb the first iron blocks 194, the motor 180 is started, the rotation of the output shaft of the motor 180 drives the transverse plate 193 to rotate, the centrifugal baskets 230 stably rotate under the combined action of the first circular slide rail 191, the first slide block 192, the second electromagnet 240, the second iron block 250, the third electromagnet 294, the third iron block 299, the second circular slide rail 290 and the second slide block 291, so that the centrifugal operation on the materials is realized, when the materials are centrifuged and the centrifugal baskets 230 do not rotate any more, the first electromagnet 195, the second electromagnet 240 and the third electromagnet 294 are closed, the kettle cover 197 can be taken down, the centrifugal baskets 230 are lifted and taken out, and then the next centrifugal baskets 230 filled with the materials are put back into the reaction kettle 140 according to the steps.

It should be noted that the specific model specifications of the liquid level sensor 150, the motor 180, the first electromagnet 195, the second electromagnet 240, and the third electromagnet 294 need to be determined by type selection according to the actual specification of the device, and the specific type selection calculation method adopts the prior art in the field, so detailed description is omitted.

The power supply of the level sensor 150, the motor 180, the first electromagnet 195, the second electromagnet 240 and the third electromagnet 294 and the principle thereof will be clear to a person skilled in the art and will not be described in detail here.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A centrifuge for anhydrous sodium sulfite production, which is characterized by comprising

The power assembly (100) comprises a supporting plate (110), a supporting column (120), a damping part (130), a reaction kettle (140), a liquid level sensor (150), a liquid discharge pipe (160), a support (170), a motor (180), a first circular sliding rail (191), a first sliding block (192), a transverse plate (193), a first iron block (194), a first electromagnet (195) and a kettle cover (197), wherein the supporting column (120) is fixed on the lower surface of the supporting plate (110), the damping part (130) is fixed between the reaction kettle (140) and the supporting plate (110), one end of the liquid discharge pipe (160) is arranged on the reaction kettle (140), the support (170) is fixed in the inner wall of the reaction kettle (140), the motor (180) is fixed on the support (170), and the first circular sliding rail (191) is fixed in the inner wall of the reaction kettle (140), the first sliding block (192) slides on the first circular sliding rail (191), the upper end of an output shaft of the motor (180) is fixed on the lower surface of the transverse plate (193), the outer wall of the first sliding block (192) is fixed with the outer wall of the transverse plate (193), the first iron block (194) is fixed in the kettle cover (197), the first electromagnet (195) is fixed in the reaction kettle (140), and the liquid level sensor (150) is fixed on the outer wall of the reaction kettle (140);

a fixing assembly (200), wherein the fixing assembly (200) comprises a centrifugal net basket (230), a second electromagnet (240), a second iron block (250), a basket cover (270), a second circular slide rail (290), a second sliding block (291), an upright rod (293), a third electromagnet (294), a threaded rod (296) and a third iron block (299), the second electromagnet (240) is fixed in the transverse plate (193), a groove (260) and a threaded groove (295) are formed in the centrifugal net basket (230), the second iron block (250) is fixed in the groove (260), the second circular slide rail (290) is fixed in the inner wall of the reaction kettle (140), the second sliding block (291) slides on the second circular slide rail (290), the third electromagnet (294) is fixed on the outer wall of the centrifugal net basket (230), and the third iron block (299) is fixed on the side surface of the second sliding block (291), a through hole (292) is formed in the second sliding block (291), the vertical rod (293) penetrates through the through hole (292), the threaded rod (296) penetrates through the basket cover (270) in a threaded manner, and the end of the threaded rod (296) is threaded into the threaded groove (295).

2. A centrifuge for the production of anhydrous sodium sulfite according to claim 1 wherein the support column (120) comprises a cylinder (121) and a threaded cylinder (122), the cylinder (121) being fixed to the lower surface of the support plate (110), the threaded cylinder (122) being threaded within the cylinder (121).

3. The centrifuge for anhydrous sodium sulfite production according to claim 1, wherein the vibration-damping part (130) comprises a column (131) and a vibration damper (132), the upper end surface of the column (131) is fixed on the lower surface of the reaction vessel (140), and the vibration damper (132) is fixed between the lower end of the column (131) and the upper surface of the support plate (110).

4. The centrifuge for anhydrous sodium sulfite production according to claim 1, wherein the drain pipe (160) comprises a drain pipe body (161) and a drain valve (162), one end of the drain pipe body (161) is disposed on the reaction kettle (140), and the drain valve (162) is disposed on the drain pipe body (161).

5. A centrifuge for the production of anhydrous sodium sulfite according to claim 1, wherein the motor (180) comprises a motor body (181) and a first protective housing (182), the first protective housing (182) is fixed on the bracket (170), and the motor body (181) is fixed in the first protective housing (182).

6. The centrifuge for anhydrous sodium sulfite production according to claim 1, wherein the power assembly (100) further comprises a guide hood (190), and the guide hood (190) is fixed on the lower surface of the cross plate (193).

7. The centrifuge for the production of anhydrous sodium sulfite of claim 1 wherein the power module (100) further comprises a viewing window (196), the viewing window (196) being disposed on the reaction vessel (140).

8. The centrifuge for the production of anhydrous sodium sulfite of claim 1 wherein the mounting assembly (200) further comprises a first hand-held portion (280), the first hand-held portion (280) being secured to an upper surface of the basket lid (270).

9. The centrifuge for anhydrous sodium sulfite production according to claim 1, wherein the third electromagnet (294) comprises a third electromagnet body (2941) and a second protective housing (2942), the second protective housing (2942) is fixed on the outer wall of the centrifugal basket (230), and the third electromagnet body (2941) is fixed in the second protective housing (2942).

10. The centrifuge for the production of anhydrous sodium sulfite of claim 1 wherein the threaded rod (296) comprises a threaded rod body (2961) and a second hand-held portion (2962), the threaded rod body (2961) threaded through the basket cover (270), the second hand-held portion (2962) being secured to an end of the threaded rod body (2961).

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