CN114719585B - Gear drying device - Google Patents

Abstract

The invention relates to the technical field of drying equipment, in particular to a gear drying device; the drying device comprises a box body, a heating piece arranged in the box body, a placing component for placing a gear to be dried and a driving component for driving the gear to rotate; the placement component comprises a cross column for the inner ring of the gear to pass through, a first telescopic piece fixedly connected with the cross column and a first fan; the driving assembly comprises a driving piece and a rotating motor for driving the driving piece to rotate; in the drying process, the outer side wall of the gear can be contacted with high-temperature air, the inner side wall and the two side surfaces of the gear can be contacted with the high-temperature air, and the inner side wall and the two side surfaces of the gear can receive high-speed high-temperature air flow through the cooperation of the first fan and the transverse column; and the gear on the transverse column is driven to rotate by the driving assembly, so that the inner side wall, the outer side wall and the two side surfaces of the gear can be uniformly heated, the overall drying efficiency is greatly improved, the energy is saved, and meanwhile, the drying effect is good, and water marks remained on the gear are avoided.

Description

Gear drying device

Technical Field

The invention relates to the technical field of drying equipment, in particular to a gear drying device.

Background

The gear cooperation drive arrangement plays important role in transmission structure, the gear is polished to every tooth with the help of rotating the grinding roller in the course of working, the piece that is polished down in the course of polishing is in the same place with lubricating oil and cooling liquid mixture to the adhesion is in the surface of gear, consequently, need clear up its surface after the gear finishes polishing, the residual moisture on the gear surface after the washing disappears slower, directly stores the gear, easily lead to the gear corrosion, consequently need carry out drying treatment to the gear, but still have following drawback to the gear in the course of drying at present: firstly, the side surface of the gear is horizontally placed on a plane for drying, which belongs to static drying, and is easy to cause that the side, close to the plane, of the gear is difficult to contact with hot air, long time is required for drying the gear, and water marks can be left under the gear; secondly, the gears are stacked together for drying, and the inner ring of the gears is difficult to dry because of shielding; to sum up, the prior art is low to the gear when drying, and stoving effect is not good.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention provides a gear drying device which solves the problems of low drying efficiency and poor drying effect in the prior art.

According to an embodiment of the invention, a gear drying device comprises a box body, a heating element, a placing component for placing a gear to be dried and a driving component for driving the gear to rotate, wherein the heating element is arranged in the box body;

the placement component comprises a cross column for the inner ring of the gear to pass through, a first telescopic piece fixedly connected with the cross column and a first fan; the inside of the cross column is a hollow space, a through groove communicated with the hollow space is axially formed in the outer side wall of the cross column, the first fan supplies air to the hollow space of the cross column, a through hole for the cross column and a gear on the cross column to pass through is formed in the box body, and when the first telescopic piece stretches, the cross column is driven to extend out of the through hole or extend into the box body;

the driving assembly is installed in the box body in a lifting mode and comprises a driving piece in contact with the gear on the transverse column and a rotating motor for driving the driving piece to rotate.

In the embodiment, before drying, the stretching end of the first stretching piece is controlled to stretch out, and the stretching end drives the transverse column to stretch out of the box body from the perforation on the box body; then the gear to be dried is sleeved on the cross column, and the gear is movably arranged on the cross column; then controlling the telescopic end of the first telescopic piece to retract, driving the transverse column and the upper gear thereof to extend into the box body, starting the heating piece in the box body, and heating the air in the box body through the heating piece; then, the first fan is started, air is supplied to the hollow space inside the cross column through the first fan, air flow entering the cross column flows out from the through groove on the outer side wall of the cross column and acts on the gear arranged on the cross column, and the air flow on the inner side wall and the surfaces of the two side surfaces of the gear is accelerated; meanwhile, the lifting-mounted driving assembly ascends until the driving piece contacts with the gear on the transverse column, the rotating motor is started, the driving piece is driven to rotate by the rotating motor, and the gear arranged on the transverse column is movable, so that the driving piece can drive the gear contacted with the driving piece to rotate on the transverse column when rotating, and when rotating, the gear can uniformly receive high-speed air flow at the through groove on the inner side wall and the two side surfaces of the gear, and the outer side wall of the gear can be uniformly heated; after the drying is finished, the driving assembly is controlled to move downwards, the transverse column and the gears on the transverse column are driven to extend out of the box body through the first telescopic piece, the dried gears are taken down, and then other gears to be dried are sleeved on the transverse column to continue the subsequent drying work; in the drying process, the outer side wall of the gear can be contacted with high-temperature air, the inner side wall and the two side surfaces of the gear can be contacted with the high-temperature air, and the inner side wall and the two side surfaces of the gear can receive high-speed high-temperature air flow through the cooperation of the first fan and the transverse column; and the gear on the transverse column is driven to rotate by the driving assembly, so that the inner side wall, the outer side wall and the two side surfaces of the gear can be uniformly heated, the overall drying efficiency is greatly improved, the energy is saved, and meanwhile, the drying effect is good, and water marks remained on the gear are avoided.

Further, place the subassembly still include the collector bucket and the fretwork post of the flexible end fixed connection of first extensible member, the inlet end fixed connection of first fan is in the one end that the fretwork post deviates from first extensible member, first fan give vent to anger the end with the great one end fixed connection of collector bucket opening, the less one end of collector bucket opening with diaphragm fixed connection, and with the cavity space intercommunication.

Further, one end of the cross column, which is away from the first telescopic piece, is detachably connected with a limiting piece.

Further, the driving assembly further comprises a second telescopic piece and a mounting box which are fixedly connected to the bottom of the box body, the driving piece is fixedly connected with an output shaft of the rotating motor, the rotating motor is fixedly mounted in the mounting box, and the telescopic end of the second telescopic piece is fixedly connected with the mounting box.

Further, the driving piece is a cylinder with a plurality of convex teeth uniformly arranged on the outer side surface.

Further, the heating element is fixedly connected to the inner top of the box body and is located above the transverse column, and a second fan is fixedly installed below the heating element.

Further, an opening and closing door for opening and closing the perforation is arranged on the outer side wall of the box body.

Further, a partition board is fixedly connected in the box body, and divides the box body into an equipment chamber and a drying chamber; the first telescopic piece, the second telescopic piece and the rotating motor are arranged in the equipment room, and the heating piece, the cross column, the driving piece and the first fan are positioned in the drying room; the bottom of the drying chamber is provided with a drainage groove communicated with the outside of the box body.

Further, the bottom of the box body is fixedly connected with a supporting frame, and a first access door and a second access door which are respectively opened and closed to the equipment room and the drying room are arranged on the outer side wall of the box body.

Further, a plurality of groups of placing components and driving components which are matched are arranged in the box body.

Compared with the prior art, the invention has the following beneficial effects:

in the drying process, the outer side wall of the gear can be contacted with high-temperature air, the inner side wall and the two side surfaces of the gear can be contacted with the high-temperature air, and the inner side wall and the two side surfaces of the gear can receive high-speed high-temperature air flow through the cooperation of the first fan and the transverse column; and the gear on the transverse column is driven to rotate by the driving assembly, so that the inner side wall, the outer side wall and the two side surfaces of the gear can be uniformly heated, the overall drying efficiency is greatly improved, the energy is saved, and meanwhile, the drying effect is good, and water marks remained on the gear are avoided.

Drawings

Fig. 1 is a schematic front view of a gear drying device according to an embodiment of the present invention;

fig. 2 is a schematic right-view structure of a gear drying device according to an embodiment of the present invention;

FIG. 3 is a schematic cross-sectional view of a gear dryer according to an embodiment of the present invention (with a cross-bar extending into a case);

fig. 4 is a schematic diagram of a cross-sectional structure of a gear drying device according to an embodiment of the present invention (when the cross-column extends out of the case);

FIG. 5 is a schematic diagram illustrating the connection of a first telescoping member, a hollow post, a first blower, a manifold, a cross post, gears, and a restraint member according to an embodiment of the present invention;

FIG. 6 is a schematic view of the connection of a cross-post to a restraint in accordance with an embodiment of the present invention;

FIG. 7 is a schematic diagram of a three-dimensional structure of a hollow column, a first fan, a collecting bucket and a cross column according to an embodiment of the present invention;

FIG. 8 is a schematic view of a gear, a cross-post and a driver according to an embodiment of the present invention;

in the above figures: 10. a gear; 100. a case; 101. perforating; 102. a drainage channel; 11. an equipment room; 12. a drying chamber; 110. a first access door; 120. a second access door; 130. a support frame; 140. an opening/closing door; 141. a magnet; 150. a partition plate; 151. a through hole; 210. a heating member; 220. a second fan; 221. a mounting plate; 310. a first telescopic member; 311. connecting sleeves; 320. routing the column; 330. a first fan; 340. a collecting hopper; 350. a cross column; 351. a through groove; 352. a limiting groove; 353. a restriction member; 410. a second telescopic member; 420. a rotating electric machine; 421. a mounting box; 430. a driver; 431. convex teeth.

Detailed Description

The technical scheme of the invention is further described below with reference to the accompanying drawings and examples.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present invention.

Referring to fig. 1 to 8 together, the present embodiment provides a gear drying device, which includes a box 100, a heating element 210 installed in the box 100, a placement component for placing a gear 10 to be dried, and a driving component for driving the gear 10 to rotate;

the placement component comprises a transverse column 350 for the inner ring of the gear 10 to pass through, a first telescopic piece 310 fixedly connected with the transverse column 350 and a first fan 330; the inside of the transverse column 350 is a hollow space, a through groove 351 communicated with the hollow space is axially formed in the outer side wall of the transverse column 350, the first fan 330 supplies air to the hollow space of the transverse column 350, a through hole 101 for the transverse column 350 and the upper gear 10 of the transverse column to pass through is formed in the box body 100, and when the first telescopic piece 310 stretches, the transverse column 350 is driven to extend out of the through hole 101 or extend into the box body 100;

the driving assembly is installed in the case 100 in a lifting manner, and includes a driving part 430 contacting with the gear 10 on the transverse column 350, and a rotating motor 420 driving the driving part 430 to rotate.

In this embodiment, before drying, the extension end of the first extension member 310 is controlled to extend, and the extension end drives the transverse column 350 to extend out of the box 100 from the perforation 101 on the box 100; then the gear 10 to be dried is sleeved on the transverse column 350, so that the gear 10 is movably arranged on the transverse column 350; then, the telescopic end of the first telescopic piece 310 is controlled to retract, the transverse column 350 and the upper gear 10 thereof are driven to extend into the box body 100, the heating piece 210 in the box body 100 is started, and the air in the box body 100 is heated through the heating piece 210; then, the first fan 330 is started, air is supplied to the hollow space inside the transverse column 350 through the first fan 330, air flow entering the interior of the transverse column 350 flows out from the through groove 351 on the outer side wall of the transverse column, acts on the gear 10 arranged on the transverse column 350, and accelerates the air flow on the inner side wall and the two side surfaces of the gear 10; meanwhile, the lifting-mounted driving assembly is lifted until the driving piece 430 contacts with the gear 10 on the transverse column 350, the rotating motor 420 is started, the driving piece 430 is driven to rotate by the rotating motor 420, and the gear 10 arranged on the transverse column 350 is movable, so that the driving piece 430 can drive the gear 10 contacted with the driving piece to rotate on the transverse column 350 when rotating, and when the gear 10 rotates, the inner side wall and the two side surfaces of the gear 10 can uniformly receive high-speed air flow at the through groove 351, and the outer side wall of the gear can also be uniformly heated; after the drying is finished, the driving assembly is controlled to move downwards, the transverse column 350 and the gear 10 on the transverse column 350 are driven to extend out of the box body 100 through the first telescopic piece 310, the dried gear 10 is taken down, and other gears 10 to be dried are sleeved on the transverse column 350 to continue the subsequent drying work; in the drying process, not only the outer side wall of the gear 10 can contact high-temperature air, but also the inner side wall and the two side surfaces of the gear 10 can contact high-temperature air, and the inner side wall and the two side surfaces of the gear 10 can receive high-speed high-temperature air flow through the cooperation of the first fan 330 and the transverse column 350; and the gear 10 on the transverse column 350 is driven to rotate by the driving assembly, so that the inner side wall, the outer side wall and the two side surfaces of the gear 10 can be heated uniformly, the overall drying efficiency is greatly improved, the energy is saved, and meanwhile, the drying effect is good, and water marks remained on the gear 10 are avoided.

Preferably, the placement assembly further comprises a collecting bucket 340 and a hollow column 320 fixedly connected with the telescopic end of the first telescopic member 310, the air inlet end of the first fan 330 is fixedly connected with one end of the hollow column 320 deviating from the first telescopic member 310, the air outlet end of the first fan 330 is fixedly connected with one end of the collecting bucket 340 with a larger opening, and one end of the collecting bucket 340 with a smaller opening is fixedly connected with the transverse column 350 and communicated with the hollow space.

As shown in fig. 3, 4, 5 and 7, the first telescopic member 310 is fixedly installed in the case 100, and the telescopic end thereof is fixedly connected with the hollow column 320; the hollow column 320, the first fan 330, the collecting hopper 340 and the cross column 350 are sequentially and fixedly connected, the bottom of the hollow column 320 is a disc fixedly connected with the telescopic end, the top of the hollow column is a circular ring fixedly connected with the air inlet end of the first fan 330, the first fan 330 and the telescopic end are arranged at intervals, and meanwhile, the hollow part of the hollow column 320 facilitates air inlet of the air inlet end of the first fan 330; one end with a larger opening of the collecting hopper 340 is fixedly connected with the first fan 330 with a larger diameter, and one end with a smaller opening is fixedly connected with the transverse column 350 with a smaller diameter, so that the air flow generated at the air outlet end of the first fan 330 is concentrated and conveyed to the interior of the transverse column 350, and the air flow generated by the first fan 330 is ensured to completely enter the interior of the transverse column 350.

Preferably, a limiting member 353 is also removably attached to the end of the cross-post 350 facing away from the first telescoping member 310.

As shown in fig. 3 to 6, one end of the transverse column 350, which faces away from the first telescopic member 310, is radially provided with a T-shaped limiting groove 352, the limiting member 353 is in a cross shape, and one end of the limiting member 353 can be placed in the limiting groove 352 when passing through the limiting groove 352; the gear 10 on the cross-post 350 can be restrained by the restraining member 353, preventing the gear 10 from falling from the end of the cross-post 350 during the rotation and drying process.

Preferably, the driving assembly further includes a second telescopic member 410 fixedly connected to the bottom of the case 100 and a mounting box 421, the driving member 430 is fixedly connected to an output shaft of the rotating motor 420, the rotating motor 420 is fixedly mounted in the mounting box 421, and a telescopic end of the second telescopic member 410 is fixedly connected to the mounting box 421.

As shown in fig. 3 and 4, when the rotating motor 420 is started, the driving element 430 on the output shaft of the rotating motor is driven to rotate; when the telescopic end of the second telescopic member 410 stretches, the mounting box 421 and the rotating motor 420 inside the mounting box are driven to lift, so that the driving member 430 on the output shaft of the rotating motor 420 is driven to lift.

Preferably, the driver 430 is a cylinder with a plurality of convex teeth 431 uniformly arranged on the outer side.

As shown in fig. 3, 4 and 8, the convex teeth 431 on the cylinder can increase the friction between the driving member 430 and the gear 10, and the driving member 430 can be made of a water absorbing material, such as sponge, so that the water on the outer side wall of the gear 10 can be quickly taken away, and the drying of the gear 10 is further accelerated; of course, the driver 430 may be supported by other materials, such as rubber, so as to ensure that the driver 430 does not scratch the outer sidewall of the gear 10 when contacting the gear 10.

Preferably, the heating element 210 is fixedly connected to the inner top of the case 100 and located above the cross column 350, and the second fan 220 is fixedly installed below the heating element 210.

As shown in fig. 3 and 4, the heating element 210 may be an electric heating tube in the prior art, and the second fan 220 is fixedly installed below the heating element 210 through the installation plate 221; the second fan 220 below the heating element 210 is located right above the transverse column 350, the air outlet end of the second fan 220 faces the gear 10 on the transverse column 350, and when the second fan 220 is started, high-speed air flow can be conveyed to the outer side wall of the gear 10, so that drying efficiency is further improved.

Preferably, an opening and closing door 140 for opening and closing the through hole 101 is installed at an outer sidewall of the case 100.

As shown in fig. 1 to 4, the opening and closing door 140 is hinged on the outer side wall of the box body 100, and a magnet 141 magnetically attracted with the outer side wall of the box body 100 is embedded on the opening and closing door 140, when the opening and closing door 140 is rotated to contact with the side wall of the box body 100, the opening and closing door 140 is attracted with the box body 100 to keep an opened state, which is convenient and practical.

Preferably, a partition 150 is fixedly connected to the inside of the cabinet 100, and the partition 150 partitions the cabinet 100 into an equipment room 11 and a drying room 12; the first telescopic member 310, the second telescopic member 410 and the rotating motor 420 are installed in the equipment room 11, and the heating member 210, the cross column 350, the driving member 430 and the first fan 330 are positioned in the drying chamber 12; a drain tank 102 communicating with the outside of the cabinet 100 is provided at the bottom of the drying chamber 12.

As shown in fig. 3 and fig. 4, the first telescopic member 310 is sleeved in the connecting sleeve 311, and the connecting sleeve 311 is fixedly connected with the partition 150, so that the first telescopic member 310 is fixedly installed in the equipment room 11; the baffle plate 150 is provided with a through hole 151 for the output shaft of the rotary motor 420 to extend into the drying chamber 12 and lift, so that the normal operation of the driving assembly is ensured; the partition 150 partitions the case 100 to reduce the interaction between the two areas; the water draining groove 102 at the bottom of the drying chamber 12 can drain the water in the drying chamber 12 quickly and drain the water vapor at the same time; specifically, the top of the case 100 may be provided with an upper vent hole.

Preferably, a supporting frame 130 is fixedly connected to the bottom of the case 100, and a first access door 110 and a second access door 120 for opening and closing the equipment room 11 and the drying room 12 are opened at the outer side wall of the case 100.

As shown in fig. 1 to 4, the supporting frame 130 can enable the box 100 to be arranged on the ground at intervals, so that the box 100 can be stably placed on the ground, and the openable first access door 110 and the openable second access door 120 can facilitate the access to the components in the box 100.

Preferably, a plurality of sets of placement components and driving components are installed in the box 100.

As shown in fig. 2, each opening and closing door 140 corresponds to a set of matched placement components and driving components, and when a plurality of sets of equipment are matched, more gears 10 can be dried at the same time, so that the working efficiency is improved; specifically, as shown in fig. 3 to 5, at least one gear 10 may be disposed on each of the cross posts 350, or a plurality of gears 10 may be disposed at intervals.

Specifically, the first telescopic member 310 and the second telescopic member 410 may be telescopic devices such as electric telescopic rods or hydraulic telescopic cylinders in the prior art.

Compared with the prior art, in the drying process, the outer side wall of the gear 10 can be contacted with high-temperature air, the inner side wall and the two side surfaces of the gear 10 can be contacted with the high-temperature air, and the inner side wall and the two side surfaces of the gear 10 can receive high-speed high-temperature air flow through the cooperation of the first fan 330 and the transverse column 350; and the gear 10 on the transverse column 350 is driven to rotate by the driving assembly, so that the inner side wall, the outer side wall and the two side surfaces of the gear 10 can be heated uniformly, the overall drying efficiency is greatly improved, the energy is saved, and meanwhile, the drying effect is good, and water marks remained on the gear 10 are avoided.

Finally, it is noted that the above embodiments are only for illustrating the technical solution of the present invention and not for limiting the same, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications and equivalents may be made thereto without departing from the spirit and scope of the technical solution of the present invention, which is intended to be covered by the scope of the claims of the present invention.

Claims (8)

1. The gear drying device is characterized by comprising a box body, a heating piece arranged in the box body, a placing component for placing a gear to be dried and a driving component for driving the gear to rotate;

the placement component comprises a cross column for the inner ring of the gear to pass through, a first telescopic piece fixedly connected with the cross column and a first fan; the inside of the cross column is a hollow space, a through groove communicated with the hollow space is axially formed in the outer side wall of the cross column, the first fan supplies air to the hollow space of the cross column, a through hole for the cross column and a gear on the cross column to pass through is formed in the box body, and when the first telescopic piece stretches, the cross column is driven to extend out of the through hole or extend into the box body;

the driving assembly is installed in the box body in a lifting manner and comprises a driving piece in contact with the gear on the transverse column and a rotating motor for driving the driving piece to rotate;

the placement assembly further comprises a collecting hopper and a hollow column fixedly connected with the telescopic end of the first telescopic piece, the air inlet end of the first fan is fixedly connected with one end, deviating from the first telescopic piece, of the hollow column, the air outlet end of the first fan is fixedly connected with one end, with a larger opening, of the collecting hopper, and one end, with a smaller opening, of the collecting hopper is fixedly connected with the transverse column and communicated with the hollow space;

the driving assembly further comprises a second telescopic piece and a mounting box which are fixedly connected to the bottom of the box body, the driving piece is fixedly connected with an output shaft of the rotating motor, the rotating motor is fixedly mounted in the mounting box, and the telescopic end of the second telescopic piece is fixedly connected with the mounting box.

2. The gear drying unit of claim 1 wherein the end of the cross-post facing away from the first telescoping member is further removably connected with a restraining member.

3. The gear drying device of claim 1, wherein the driving member is a cylinder with a plurality of convex teeth uniformly arranged on the outer side surface.

4. The gear drying device of claim 1, wherein the heating element is fixedly connected to the top of the box body and located above the cross column, and a second fan is fixedly installed below the heating element.

5. The gear drying apparatus of claim 1, wherein an opening and closing door for opening and closing the through hole is installed at an outer sidewall of the cabinet.

6. The gear drying device according to claim 1, wherein a partition plate is fixedly connected in the cabinet, and the partition plate divides the cabinet into an equipment room and a drying room; the first telescopic piece, the second telescopic piece and the rotating motor are arranged in the equipment room, and the heating piece, the cross column, the driving piece and the first fan are positioned in the drying room; the bottom of the drying chamber is provided with a drainage groove communicated with the outside of the box body.

7. The gear drying apparatus of claim 6, wherein the bottom of the cabinet is fixedly connected with a supporting frame, and the outer side wall of the cabinet is provided with a first access door and a second access door for opening and closing the equipment room and the drying room, respectively.

8. The gear drying unit of claim 1 wherein said housing is provided with a plurality of sets of said placement assemblies and said drive assemblies for use therewith.