CN217929559U - Vacuum drying equipment is used in sodium ion battery production - Google Patents

Abstract

The utility model provides a vacuum drying equipment is used in sodium ion battery production, this vacuum drying equipment is used in sodium ion battery production, including base, support, motor, support, gear and two semicircle casing subassemblies. The support and the support are arranged at the top of the base, and the motor is arranged on the support. The gear is arranged on the output end of the motor. The two semicircular shell components are mutually buckled and are in sliding fit on the support. This vacuum drying equipment is used in sodium ion battery production mutually supports through base, support, motor, support, gear and two semicircle casing subassemblies that set up. Make the utility model discloses can have and will originally be in the drying cabinet material, salvage and then accomplish multi-directional stirring through the secondary. Greatly improve the working efficiency of the utility model. Is convenient for people to use.

Description

Vacuum drying equipment is used in sodium ion battery production

Technical Field

The utility model relates to a vacuum drying equipment technical field specifically is a vacuum drying equipment is used in sodium ion battery production.

Background

In the processing and production fields of grains, foods, chemical industry, medicine, agricultural and sideline products, pasture and the like, materials need to be heated and dried; the hot air used in the roller drying bin of the roller dryer is hot air exchanged by the heat exchanger outside the device, the heat exchange efficiency of the heat energy is low, the heat energy is used at one time, the effective utilization rate of the heat energy is low, the heat energy required by drying is increased greatly, and the drying moisture influencing the material drying is uneven. The lifting plates in the drum drying bin of the drum dryer are also called as material guide plates, material turning plates, shoveling plates and lifting plates. The lifting blade and the helical blade in the roller drying bin of the roller dryer on the market at present only have good contact with hot air in order to increase the uniformity of stirred materials, and the lifting blade and the helical blade do not have the function of heat conduction heating.

For example, the Chinese patent discloses a roller vacuum drying bin (patent number: CN 201810085642.4), which comprises a roller drying bin, a heat pipe heating device, a feeding device, a discharging device, a heating bin and a heat-conducting medium. The heating bin is arranged outside the roller drying bin, and heat energy carried by heat-conducting media in the heating bin conducts heat conduction and heating on materials in the roller drying bin through the bin body of the roller drying bin and the heat pipe heating device. The heat conducting working medium conducts heat conducting heat exchange of liquid-gas phase change in the heat pipe heating device; the bin body of the roller drying bin and the heat pipe heating device exchange heat in a three-dimensional mode, and the heat dissipation speed of heat energy is increased. The heat pipe heating device can conduct heat and heat to the materials and can also play a role in pushing and stirring the materials forwards during the drying work of the materials; when one of the heat pipe heating devices is damaged, leakage is generated, and the use of the whole roller drying bin cannot be influenced. The materials can continuously enter and exit the roller drying bin through the feeding device and the discharging device, and the materials can be continuously dried in vacuum.

However, the above patent only performs accelerated drying by rolling, and the drying efficiency is not high enough, which is inconvenient for people to use.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

To the not enough of prior art, the utility model provides a vacuum drying equipment is used in sodium ion battery production.

(II) technical scheme

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: a vacuum drying device for producing a sodium ion battery comprises a base, a support, a motor, a support, a gear and two semicircular shell assemblies. The support and the support are arranged at the top of the base, and the motor is arranged on the support. The gear is arranged on the output end of the motor. The two semicircular shell components are mutually buckled and are in sliding fit on the support.

Preferably, the device also comprises a slideway and a U-shaped bracket, wherein the slideway is transversely arranged on the base. The U-shaped support is in sliding fit with the slide way, and the two semicircular shell assemblies are located on the inner side of the U-shaped support. And two ends of the U-shaped support are in linkage connection with the two semicircular shell assemblies.

Preferably, the support is provided with a slot and further comprises a toothed ring. The gear ring is sleeved on the two semicircular shell assemblies. The gear ring is located in the open slot and meshed with the gear.

Preferably, the semicircular shell assembly comprises a shell, a movable sleeve, a pull rod, a piston sheet, a box cover and a sealing hoop. The casing joint is in the side of ring gear, the horizontal sliding fit of movable sleeve is in the side of casing, the detachable joint of case lid and casing, the detachable joint of sealing hoop and case lid. One end of the pull rod penetrates through the box cover and extends out of the shell, and the other end of the pull rod penetrates through the movable sleeve and is connected with the piston sheet. The side surface of the piston sheet is tightly attached to the inner wall of the movable sleeve.

Preferably, the semicircular shell assembly further comprises two electric telescopic rods, and the electric telescopic rods are symmetrically arranged on the upper side and the lower side of the shell.

Preferably, the electric telescopic rod further comprises sleeves, the sleeves are arranged at two movable ends of the two electric telescopic rods, and the sleeves correspond to the movable sleeves.

(III) advantageous effects

The utility model provides a vacuum drying equipment is used in sodium ion battery production. The method has the following beneficial effects:

1. this vacuum drying equipment is used in sodium ion battery production mutually supports through base, support, motor, support, gear and two semicircle casing subassemblies that set up. Make the utility model discloses can have and will originally be in the drying cabinet material, salvage and then accomplish multi-directional stirring through the secondary. Greatly improve the working efficiency of the utility model. Is convenient for people to use.

Drawings

Fig. 1 is a first perspective view of the present invention;

fig. 2 is a second perspective view of the present invention;

fig. 3 is a rear view of the present invention.

In the figure: the device comprises a base 1, a slideway 2, a toothed ring 3, a shell 4, a support 5, a pull rod 6, a sealing hoop 7, a box cover 8, a gear 9, a motor 10, a support 11, a semicircular shell component 12, a sleeve 13, a slot 14, a U-shaped support 15, a piston plate 16, a movable sleeve 17 and an electric telescopic rod 18.

Detailed Description

The embodiment of the utility model provides a vacuum drying equipment is used in sodium ion battery production, as shown in fig. 1-3, including base 1, support 11, motor 10, support 5, gear 9 and two semicircle casing subassemblies 12. The support 5 and the bracket 11 are both arranged at the top of the base 1, and the motor 10 is arranged on the bracket 11. A gear 9 is arranged on the output of the motor 10. The two semicircular shell assemblies 12 are mutually buckled and are in sliding fit on the support 5.

The device also comprises a slideway 2 and a U-shaped bracket 15, wherein the slideway 2 is transversely arranged on the base 1. The U-shaped bracket 15 is in sliding fit with the slideway 2, and the two semicircular shell assemblies 12 are positioned at the inner side of the U-shaped bracket 15. Two ends of the U-shaped bracket 15 are linked with the two semicircular shell assemblies 12.

Through slide 2 and the mutually supporting of U type support 15 that set up, can utilize the utility model discloses the unchangeable condition of atmospheric pressure in it extrudes the piston rod of one end this moment, and the piston rod of the corresponding other end must be ejecting, and then accomplishes repetitive operation's prerequisite.

The support 5 is provided with a slot 14 and also comprises a toothed ring 3. The toothed ring 3 is sleeved on the two semicircular shell assemblies 12. The toothed ring 3 is located in the slot 14, the toothed ring 3 meshing with the gear wheel 9.

The semi-circular housing assembly 12 includes a housing 4, a movable sleeve 17, a pull rod 6, a piston plate 16, a cover 8 and a sealing band 7. Casing 4 joint is in the side of ring gear 3, and movable sleeve 17 horizontal sliding fit is in the side of casing 4, and case lid 8 and the detachable joint of casing 4, sealed hoop 7 and the detachable joint of case lid 8. One end of the pull rod 6 passes through the box cover 8 and extends out of the housing 4, and the other end passes through the movable sleeve 17 and is connected with the piston plate 16. The side surface of the piston sheet 16 is tightly attached to the inner wall of the movable sleeve 17.

The semicircular shell assembly 12 further comprises two electric telescopic rods 18, and the electric telescopic rods 18 are symmetrically arranged on the upper side and the lower side of the shell 4.

And the electric telescopic rod further comprises a sleeve 13, wherein the sleeve 13 is arranged on two movable ends of the two electric telescopic rods 18, and the sleeve 13 corresponds to the movable sleeve 17.

Through the sleeve 13 that sets up, utilize electric telescopic handle 18, can lift and descend sleeve 13 from the material, and then take up the material in the sleeve 13, the effect of indirect supplementary stirring drying.

The working principle is as follows: during the use, at first lift case lid 8 off from casing 4, pour the material into in casing 4, rotate through gear 9, drive casing 4 rotatory, stir the material, can be through U type support 15 lateral shifting, force a pull rod 6 to extrude into in casing 4, because the sealed state in casing 4, the pull rod 6 of the other end can extrude under the atmospheric pressure effect this moment, repeat above-mentioned operation, transversely stir the material in it.

The telescopic rod 18 can also stretch out and draw back to enable the sleeve 13 to move downwards, a part of materials are fished up, and the materials flow out of the sleeve 13 in the rotating process. And finishing the auxiliary stirring operation.

To sum up, this vacuum drying equipment is used in sodium ion battery production mutually supports through base 1, support 11, motor 10, support 5, gear 9 and two semicircle casing subassemblies 12 that set up. Make the utility model discloses can have and will originally be in the drying cabinet material, salvage and then accomplish multi-directional stirring through the secondary. Greatly improve the working efficiency of the utility model. Is convenient for people to use.

Claims (6)

1. The utility model provides a vacuum drying equipment is used in sodium ion battery production which characterized in that: including base (1), support (11), motor (10), support (5), gear (9) and two semicircle casing subassemblies (12), support (5) and support (11) all set up the top at base (1), motor (10) set up on support (11), gear (9) set up on the output of motor (10), and two semicircle casing subassemblies (12) lock each other and sliding fit are on support (5).

2. The vacuum drying apparatus for sodium ion battery production according to claim 1, wherein: still include slide (2) and U type support (15), slide (2) transversely set up on base (1), U type support (15) sliding fit is on slide (2), and two semicircle casing subassemblies (12) are located the inboard of U type support (15), the both ends and two semicircle casing subassemblies (12) linkage of U type support (15) are connected.

3. The vacuum drying apparatus for sodium ion battery production according to claim 2, characterized in that: the support (5) is provided with a groove (14), the gear ring (3) is further arranged, the gear ring (3) is sleeved on the two semicircular shell assemblies (12), the gear ring (3) is located in the groove (14), and the gear ring (3) is meshed with the gear (9).

4. The vacuum drying apparatus for sodium ion battery production according to claim 3, wherein: semicircle casing subassembly (12) are including casing (4), activity sleeve (17), pull rod (6), piston piece (16), case lid (8) and sealed hoop (7), casing (4) joint is in the side of ring gear (3), activity sleeve (17) lateral sliding fit is in the side of casing (4), case lid (8) and the detachable joint of casing (4), sealed hoop (7) and the detachable joint of case lid (8), outside case lid (8) and casing (4) were passed to the one end of pull rod (6) and extend, the other end passed activity sleeve (17) and linked to each other with piston piece (16), the side of piston piece (16) closely laminates with the inner wall of activity sleeve (17).

5. The vacuum drying apparatus for sodium ion battery production according to claim 1, wherein: the semicircular shell assembly (12) further comprises two electric telescopic rods (18), and the electric telescopic rods (18) are symmetrically arranged on the upper side and the lower side of the shell (4).

6. The vacuum drying apparatus for sodium ion battery production according to claim 1, wherein: the electric telescopic rod is characterized by further comprising a sleeve (13), wherein the sleeve (13) is arranged at two movable ends of the two electric telescopic rods (18), and the sleeve (13) corresponds to the movable sleeve (17).

Images