CN212737477U - Smooth type drying equipment - Google Patents

Abstract

The utility model provides a smooth type drying equipment belongs to drying equipment's technical field. A smooth type drying device comprises a printing track, a printing machine and a drying machine; the utility model discloses a smooth stoving main part of drying-machine locates in the stoving base, the smooth printing track of locating of stoving base just is located between the double track way, make the stoving main part can be from the motion that the inboard was removed to the outside in the double track way of printing track, pass through for the printing main part provides enough big space of passing through, the collision of printing machine and drying-machine has been avoided, or make the stoving main part do and remove to inboard motion from the outside of double track way, dry the printing part on the printing track, adapt to and use in the limited environment in space, the anticollision has both been realized, the damage of equipment has been prevented, the normal work of printing machine and drying-machine has also been maintained, work efficiency and equipment utilization have been improved.

Description

Smooth type drying equipment

Technical Field

The utility model relates to a drying equipment's technical field specifically is a relate to a smooth type drying equipment.

Background

In the printing trade, for the efficiency that improves the printing, the printing piece after the printing machine printing needs to be dried, realizes the rapid prototyping of printing piece, makes things convenient for piling up of printing piece to deposit.

However, the enterprise is in order to further improve the efficiency of printing trade, often set up the printing track of gyration in limited space, printing machine and drying-machine homoenergetic move along the printing track, make printing machine and drying-machine can not stop the continuous work of machine, but, because printing process and drying process's demand are different, lead to the moving speed of printing machine on the printing track to be greater than the moving speed of drying-machine on the printing track, make when the printing machine moves to the position just right with the drying-machine, because the size of printing machine and drying-machine is great, the printing machine easily collides with the drying-machine, cause the damage of equipment, influence the continuation of printing and drying process and go on, lead to the reduction of printing efficiency.

Disclosure of Invention

To the above-mentioned problem that exists among the prior art, it aims at providing a smooth type drying equipment now, set up the stoving main part with the drying-machine into the structure that can slide in the horizontal plane, make when the printing machine moves to just to the region with the drying-machine, the accessible slides the one side that the main part orientation of drying deviates from the printing machine, thereby for passing through of printing machine provides sufficient space, the problem of printing machine and drying-machine bump has been avoided, thereby the limited service environment in space has been adapted to, make printing machine and drying-machine sustainable work, thereby printing efficiency has been improved, the waste of equipment resource has been avoided.

The specific technical scheme is as follows:

a smoothing drying apparatus having the characteristics comprising:

the printing track is of a U-shaped rotary double-track structure;

the printing machine is provided with a printing guide rail and a printing main body, the printing guide rail is arranged on the printing track in parallel, and the printing main body is arranged on the printing guide rail in a sliding manner;

the drying machine is provided with a drying base and a drying main body, the drying base is slidably arranged in the printing track and located between the double tracks, the drying main body is slidably arranged on the drying base, the sliding direction of the drying base in the printing track and the sliding direction of the drying main body on the drying base form an included angle, and the included angle ranges from 0 degree to 180 degrees.

In the above smooth drying apparatus, a sliding direction of the drying base in the printing track is perpendicular to a sliding direction of the drying main body on the drying base.

Foretell smooth type drying equipment, wherein, be provided with sliding construction between stoving base and the stoving main part, sliding construction includes slide rail and spout, and the slide rail level sets up on the stoving base and perpendicular to printing track sets up, and the spout sets up in the bottom of stoving main part, and the spout cunning locates on the slide rail.

Foretell smooth type drying equipment, wherein, the cross section of spout and slide rail all is trapezoidal setting, and the small one side in cross-section sets up upwards.

The above-mentioned smooth drying equipment, wherein, the printing main body and/or drying main body is provided with a distance detector for detecting the distance between the printing main body and the drying main body.

The smooth drying equipment further comprises a translation driving assembly, wherein the translation driving assembly is one of a telescopic cylinder structure, a wheel guide rail structure, a chain gear structure and a inhaul cable pulley structure.

When the translation driving assembly is of a telescopic cylinder structure, the translation driving assembly is provided with a telescopic cylinder, a cylinder body of the telescopic cylinder is fixed on the drying base, the end part of a telescopic shaft of the telescopic cylinder is hinged to the bottom of the drying main body, and the telescopic direction of the telescopic cylinder is consistent with the arrangement direction of the sliding rails;

or the cylinder body of the telescopic cylinder is fixed on the bottom of the drying main body, the end part of a telescopic shaft of the telescopic cylinder is hinged on the drying base, and the telescopic direction of the telescopic cylinder is consistent with the arrangement direction of the slide rails.

When the translation driving assembly is of a wheel guide rail structure, the translation driving assembly is provided with a driver and wheels, the driver is fixed on the drying base, the wheels are fixed on a driving shaft of the driver, and after a sliding groove of the drying main body is arranged on a sliding rail in a sliding manner, the bottom of the drying main body is in contact with the wheels;

or the driver is fixed at the bottom of the drying main body, the wheels are fixed on the driving shaft of the driver, and the drying base is in contact with the wheels after the sliding groove of the drying main body is slidably arranged on the sliding rail.

When the translation driving assembly is in a gear-rack structure, the translation driving assembly is provided with a driver, a rack and a gear, the driver is fixed on the drying base, the gear is fixed on a driving shaft of the driver, the rack is arranged on the bottom of the drying main body and is parallel to the sliding rail, and the rack is meshed with the gear;

or the driver is fixed at the bottom of the drying main body, the gear is fixed on a driving shaft of the driver, the rack is arranged on the drying base and parallel to the sliding rail, and the rack is meshed with the gear.

Foretell smooth type drying equipment, wherein, when translation drive assembly was cable pulley structure, had driver, cable and pulley, on driver and pulley all were fixed in the stoving base, the cable was the annular setting, and the cable around locating between driver and the pulley, simultaneously, the cable still was fixed in on the bottom of stoving main part.

The positive effects of the technical scheme are as follows:

the smooth drying device is characterized in that the drying base of the dryer is arranged in the printing track in a sliding way, and the drying base is provided with a drying main body in a sliding way, and the sliding direction of the drying base in the printing track and the sliding direction of the drying main body on the drying base are arranged in an angle way, so that when the printing machine moves to the position opposite to the drying machine, the drying main body can be partially or completely withdrawn out of the double tracks by horizontally sliding the drying main body to one side of the outer sides of the double tracks of the printing tracks, thereby make to have enough big space between the double track and be used for the passing through of printing machine, avoided the collision of printing machine and drying-machine, both avoided equipment because of the damage that the collision caused, still make printing machine and drying-machine sustainable work, improved machining efficiency and equipment utilization ratio, the safety guarantee nature is higher, has adapted to the limited service environment in space.

Drawings

Fig. 1 is a view angle structure diagram of an embodiment of a smooth drying device of the present invention;

fig. 2 is a structural diagram of another view angle of an embodiment of the smooth drying device of the present invention;

FIG. 3 is a state diagram of a preferred embodiment of the present invention;

FIG. 4 is another state diagram of a preferred embodiment of the present invention;

FIG. 5 is a structural diagram of the telescopic cylinder structure of the translation driving assembly according to a preferred embodiment of the present invention;

fig. 6 is a structural diagram of a wheel rail structure of the translation driving assembly according to a preferred embodiment of the present invention;

fig. 7 is a structural view of a rack and pinion arrangement of the translation drive assembly in accordance with a preferred embodiment of the present invention;

fig. 8 is a structural diagram of a cable pulley structure of the translation driving assembly according to a preferred embodiment of the present invention.

In the drawings: 1. printing a track; 2. a printing press; 3. a dryer; 31. drying the base; 32. drying the main body; 311. a wheel; 4. a sliding structure; 41. a slide rail; 42. a chute; 5. a translation drive assembly; 51. a telescopic cylinder; 52. a driver; 53. a wheel; 54. a rack; 55. a gear; 56. a cable; 57. a pulley.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the following embodiments are specifically described with reference to fig. 1 to 8, but the following contents are not intended to limit the present invention.

Fig. 1 is a view angle structure diagram of an embodiment of a smooth drying device of the present invention; fig. 2 is a structural diagram of another view angle of an embodiment of the smooth drying device of the present invention; FIG. 3 is a state diagram of a preferred embodiment of the present invention; fig. 4 is another state diagram of a preferred embodiment of the present invention. As shown in fig. 1, 2, 3 and 4, the smooth drying apparatus provided by the present embodiment includes: the printing track 1, the printing machine 2 and the drying machine 3, wherein the printing machine 2 and the drying machine 3 can slide along the printing track 1, and meanwhile, the drying machine 3 can also move along the direction vertical to the printing track 1.

Specifically, printing track 1 is the double track way structure of U type gyration, at this moment, printing track 1 is including the straight track that just the interval set up side by side and set up in the arc track of straight track tip, and the orbital both ends of arc can be dismantled with two straight orbital tip respectively and be connected, thereby make printing track 1 can be for the U type structure of opening nature, also can be the runway type structure of closure, only need with the arc track of different quantity and position with straight track carry out reasonable assembly can, thereby adapt to different user demands, and increased printing track 1's stroke in limited space, the space utilization is more reasonable, work efficiency is higher.

Specifically, the printing machine 2 comprises a printing guide rail and a printing main body, the printing guide rail is arranged on the printing track 1 in parallel, the arrangement direction of the printing guide rail is consistent with the arrangement direction of the printing track 1, and the printing main body is arranged on the printing guide rail in a sliding manner, so that the printing main body can slide along the arrangement direction of the printing track 1, and a printing part to be printed on the printing track 1 is subjected to printing operation.

Specifically, the dryer 3 further includes a drying base 31 and a drying main body 32, the drying base 31 is slidably disposed in the printing track 1 and located between the two tracks, so that the drying base 31 can slide along the arrangement direction of the printing track 1. Meanwhile, a drying main body 32 is arranged on the drying base 31 in a sliding mode, so that the drying base 31 can drive the drying main body 32 to move in the arrangement direction of the printing rails 1 in the printing guide rails 1, printed parts which are printed on the printing rails 1 but not dried are dried, the printed parts can be quickly formed, the printed parts can be conveniently stacked and stored, the sliding direction of the drying base 31 in the printing rails 1 and the sliding direction of the drying main body 32 on the drying base 31 are arranged in an included angle range of 0-180 degrees, the position of the drying main body 32 in double tracks of the printing rails 1 can be adjusted through the movement of the drying main body 32 on the drying base 31, the adjustment of the position of the drying main body 32 between the double tracks of the printing rails 1 is achieved, and when the printing machine 2 moves to the position opposite to the drying machine 3, the drying main body 32 can move to enable the drying main body 32 to occupy a smaller space or not occupy the space between the double tracks of the printing rails 1 Within a definite time, thereby make printing machine 2's printing main part have enough big space of passing through to avoided printing machine 2 and 3 problem of bumping of drying-machine, avoided the damage of equipment, the safety guarantee nature is higher, has also guaranteed printing machine 2 and 3 homoenergetic continuous work of drying-machine, has improved work efficiency and rate of equipment utilization, has adapted to the limited service environment in space, and structural design is more reasonable.

More specifically, the slip direction of stoving base 31 in printing track 1 and the slip direction of stoving main part 32 on stoving base 31 are the vertical layout, have guaranteed that stoving main part 32 can be with its variable quantity maximize in printing track 1 internal position when the motion, and adaptability is higher, and structural design is more reasonable.

More specifically, a sliding structure 4 is disposed between the drying base 31 and the drying main body 32, and the drying main body 32 is moved on the drying base 31 through the sliding structure 4. At this time, the sliding structure 4 further includes a sliding rail 41 and a sliding groove 42, the sliding rail 41 is horizontally disposed on the drying base 31 and is perpendicular to the printing track 1, the sliding groove 42 is disposed at the bottom of the drying main body 32, and the sliding groove 42 is slidably disposed on the sliding rail 41, so that the arrangement directions of the sliding rail 41 and the sliding groove 42 are both perpendicular to the printing track 1, and thus the drying main body 32 can move from the inner side to the outer side of the two tracks of the printing track 1 through the sliding fit of the sliding rail 41 and the sliding groove 42, so as to provide a sufficient space for the passing of the printing machine 2, and before or after the passing of the printing machine 2, the drying main body 32 can be restored to the position originally extending between the two tracks of the printing track 1 through the sliding fit of the sliding rail 41 and the sliding groove 42, so as to dry the printing member on the printing track 1, that is, the drying main body 32 is, thereby achieving the purpose of preventing the printer 2 and the dryer 3 from collision.

More specifically, the cross section of setting up spout 42 and slide rail 41 on stoving main part 32 and the stoving base 31 all is trapezoidal setting, and the one side that the cross-section is little sets up, one side of the tip of spout 42 and slide rail 41 is located upper portion promptly, one side of main aspects is located the lower part, it installs on stoving base 31 from the top to have made things convenient for stoving main part 32, and form wedge structure, make stoving main part 32 compress tightly on stoving base 31 under the effect of self gravity, and also guaranteed that spout 42 and slide rail 41's cooperation can automatically regulated targets in place, need not the manual work and adjust, installation labour saving and time saving, structural design is more reasonable.

More specifically, the printing main body and/or the drying main body 32 is provided with a distance detector for detecting a distance between the printing main body and the drying main body 32, and the distance between the printing main body and the drying main body 32 can be monitored in real time through the distance detector arranged on the printing main body and/or the drying main body 32, so that a reference basis is provided for controlling the drying main body 32 to move on the drying base 31. If the drying main body 32 and the printing main body are located on different tracks of the double tracks of the printing track 1, when the distance detector detects that the distance between the drying main body 32 and the printing main body is small, in order to prevent the drying main body and the printing main body from colliding, the drying main body 32 horizontally moves towards the outer sides of the double tracks on the drying base 31, so that a large enough space is left between the double tracks for the printing main body to pass through, and collision avoidance is realized; and when the drying main body 32 and the printing main body are located on the same track of the two tracks of the printing track 1, at this time, if the printing track 1 is a closed track type track and the printing main body has finished a circle of printing on the printing track 1 and is about to contact the drying main body 32 in front from the rear of the printing direction, if the distance detection sensor detects that the distance between the drying main body 32 and the printing main body is small, in order to prevent the two bodies from colliding, the printing main body runs at a reduced speed or stops for waiting, and collision avoidance is also achieved. In addition, the distance detector is a laser ranging sensor, and the model is P1KY 001.

More specifically, translation drive assembly 5 is further disposed between drying base 31 and drying main body 32, and translation drive assembly 5 drives drying main body 32 to move on drying base 31, and at this moment, guide is performed between drying main body 32 and drying base 31 through chute 42 and slide rail 41. And translation drive assembly 5 is one in telescoping cylinder structure, wheel guide rail structure, chain gear structure and cable pulley structure, can select suitable translation drive assembly 5 according to the in-service use demand, satisfies different user demands, and structural adaptability is higher.

Fig. 5 is a structural diagram of the telescopic cylinder structure of the translation driving assembly according to a preferred embodiment of the present invention. As shown in fig. 1 to 5, when the translation driving assembly 5 is a telescopic cylinder structure, the translation driving assembly 5 further includes a telescopic cylinder 51, a cylinder body of the telescopic cylinder 51 is fixed on the drying base 31, an end of a telescopic shaft of the telescopic cylinder 51 is hinged to the bottom of the drying main body 32, and a telescopic direction of the telescopic cylinder 51 is consistent with an arrangement direction of the slide rail 41, so that when the telescopic cylinder 51 performs telescopic motion, the telescopic shaft can drive the drying main body 32 to move on the drying base 31 along the arrangement direction of the slide rail 41 and the slide groove 42, and move from an inner side of a dual-track of the printing track 1 to an outer side, so as to avoid the printing main body and prevent the drying machine 3 and the printing machine 2 from colliding, or move from the outer side of the dual-track to the inner side, so as to dry the printing parts on the printing track 1. Or, the cylinder body of the telescopic cylinder 51 is fixed on the bottom of the drying main body 32, the end of the telescopic shaft of the telescopic cylinder 51 is hinged on the drying base 31, and the telescopic direction of the telescopic cylinder 51 is consistent with the arrangement direction of the slide rail 41, and similarly, when the telescopic cylinder 51 performs telescopic motion, the cylinder body of the telescopic cylinder 51 can drive the drying main body 32 to move on the drying base 31 along the arrangement direction of the slide rail 41 and the slide groove 42, and move from the inner side to the outer side of the double tracks of the printing track 1, or move from the outer side to the inner side of the double tracks, so as to realize avoidance of the printing main body or drying of the printing parts on the printing track 1.

Fig. 6 is a structural diagram of the translation driving assembly of the present invention in a wheel rail structure according to a preferred embodiment of the present invention. As shown in fig. 1 to 4 and 6, when the translation driving assembly 5 is a wheel guide structure, the translation driving assembly 5 further includes a driver 52 and a wheel 53, the driver 52 is fixed on the drying base 31, the wheel 53 is fixed on a driving shaft of the driver 52, that is, the driver 52 drives the wheel 53 to rotate, and after the chute 42 of the drying main body 32 is slidably disposed on the slide rail 41, the bottom of the drying main body 32 contacts the wheel 53, so that when the driver 52 drives the wheel 53 to rotate, the wheel 53 can drive the drying main body 32 to move along the arrangement direction of the chute 42 and the slide rail 41 by the friction force between the wheel 53 and the drying main body 32, so that the drying main body 32 moves from the inner side to the outer side of the double tracks of the printing track 1, thereby avoiding the printing main body, preventing the dryer 3 and the printing machine 2 from colliding, or moving from the outer side to the inner side of the double tracks, the drying of the printed matter on the printing track 1 is realized. Or, the driver 52 is fixed at the bottom of the drying main body 32, the wheel 53 is fixed on the driving shaft of the driver 52, and after the chute 42 of the drying main body 32 is slidably disposed on the slide rail 41, the drying base 31 contacts the wheel 53, similarly, when the driver 52 drives the wheel 53 to rotate, the wheel 53 can drive the drying main body 32 to move along the arrangement direction of the chute 42 and the slide rail 41 through the friction force between the wheel 53 and the drying base 31, so that the drying main body 32 performs the movement of moving from the inner side to the outer side of the double tracks of the printing track 1, or performs the movement of moving from the outer side to the inner side of the double tracks, thereby realizing the avoidance of the printing main body or the drying of the printing member on the printing track 1.

Fig. 7 is a structural diagram of a rack and pinion structure of the translation driving assembly according to a preferred embodiment of the present invention. As shown in fig. 1 to 4 and 7, when the translation driving assembly 5 is a rack-and-pinion structure, the translation driving assembly 5 further includes a driver 52, a rack 54 and a pinion 55, the driver 52 is fixed on the drying base 31, the pinion 55 is fixed on a driving shaft of the driver 52, the rack 54 is disposed on the bottom of the drying main body 32 and is parallel to the sliding rail 41, and the rack 54 is engaged with the gear 55, so that when the driver 52 rotates the gear 55, the rack gear 54 is moved by the gear 55 along the arrangement direction of the slide rail 41 and the slide groove 42, thereby enabling the drying main body 32 to move from the inner side to the outer side of the double tracks of the printing track 1, realizing the avoidance of the printing main body, preventing the collision between the dryer 3 and the printer 2, or the drying main body 32 moves from the outer side to the inner side of the double tracks, so that the printing parts on the printing track 1 are dried. Or, the driver 52 is fixed at the bottom of the drying main body 33, the gear 55 is fixed on the driving shaft of the driver 52, the rack 54 is arranged on the drying base 31 and parallel to the slide rail 41, and the rack 54 is meshed with the gear 55, similarly, when the driver 52 drives the gear 55 to rotate, the gear 55 moves on the rack 54, the drying main body 32 is driven by the gear 55 to move along the arrangement direction of the slide rail 41 and the chute 42, and the movement from the inner side to the outer side of the double tracks of the printing track 1 or the movement from the outer side to the inner side of the double tracks is performed, so that the avoidance of the printing main body or the drying of the printing parts on the printing track 1 is realized.

Fig. 8 is a structural diagram of a cable pulley structure of the translation driving assembly according to a preferred embodiment of the present invention. As shown in fig. 1 to 4 and 8, when the translation driving assembly 5 is a cable pulley structure, the translation driving assembly 5 further includes a driver 52, a cable 56 and a pulley 57, the driver 52 and the pulley 57 are both fixed on the drying base 31, the cable 56 is annularly disposed, the cable 56 is wound between the driver 52 and the pulley 57, and at the same time, the cable 56 is further fixed on the bottom of the drying main body 32, the cable 56 is pulled to move by the rotation of the driver 52, so that the drying main body 32 is pulled to move along the arrangement direction of the chute 42 and the slide rail 41 by the cable 56, and the drying main body 32 is pulled to move from the inner side to the outer side of the double tracks of the printing track 1 by the forward rotation and the reverse rotation of the driver 52, so as to avoid the printing main body, prevent the dryer 3 and the printer 2 from colliding, or pull the drying main body 32 to move from the outer side to the inner side of the, the drying of the printed matter on the printing track 1 is realized.

More specifically, the bottom of stoving base 31 is provided with wheel 311, and wheel contact printing track 1, and simultaneously, be provided with the driver that slides in the stoving base 31, the driver that slides is driving motor, and the driver that slides is connected to wheel 311 through the drive belt on, realizes the slip of stoving base 31 in printing track 1.

The smooth type drying equipment provided by the embodiment, including printing track 1, printing machine 2 and drying-machine 3, drying main part 32 through with drying-machine 3 slides and locates in drying base 31, and drying base 31 slides and locates in printing track 1 and be located between the double track way, make drying main part 32 can be from the motion that the inboard of the double track way of printing track 1 moved to the outside, pass through for printing main part provides enough big space of passing through, printer 2 and drying-machine 3's collision has been avoided, or make drying main part 32 move to the motion of inboard from the outside of double track way, dry the printing part on printing track 1, the adaptation is used in the limited environment in space, both realized the anticollision, the damage of equipment has been prevented, the normal work of printing machine 2 and drying-machine 3 has also been maintained, work efficiency and equipment utilization rate are improved.

The above is only a preferred embodiment of the present invention, and not intended to limit the scope of the invention, and it should be appreciated by those skilled in the art that various equivalent substitutions and obvious changes made in the specification and drawings should be included within the scope of the present invention.

Claims (10)

1. A smoothing type drying apparatus, comprising:

the printing track is of a U-shaped rotary double-track structure;

the printing machine is provided with a printing guide rail and a printing main body, the printing guide rail is arranged on the printing track in parallel, and the printing main body is arranged on the printing guide rail in a sliding manner;

the drying machine, the drying machine has stoving base and stoving main part, the stoving base cunning is located just be located between the double track way in the printing track, the stoving main part cunning is located on the stoving base, just the stoving base is in the slip direction in the printing track with the stoving main part is in the slip direction on the stoving base is the contained angle and arranges, and the contained angle scope is 0-180.

2. The smoothing type drying apparatus of claim 1, wherein a sliding direction of the drying base in the printing track is arranged perpendicular to a sliding direction of the drying body on the drying base.

3. The smoothing type drying equipment of claim 1, wherein a sliding structure is arranged between the drying base and the drying main body, the sliding structure comprises a sliding rail and a sliding groove, the sliding rail is horizontally arranged on the drying base and is perpendicular to the printing track, the sliding groove is arranged at the bottom of the drying main body, and the sliding groove is slidably arranged on the sliding rail.

4. The smoothing type drying apparatus of claim 3, wherein the cross sections of the sliding groove and the sliding rail are both trapezoidal, and one side with a small cross section is arranged upward.

5. The smoothing type drying apparatus of claim 1, wherein a distance detector is provided on the printing body and/or the drying body to detect a distance between the printing body and the drying body.

6. The smooth drying apparatus of claim 3 further comprising a translation drive assembly, wherein the translation drive assembly is one of a telescoping cylinder structure, a wheel rail structure, a chain gear structure, and a cable pulley structure.

7. The smooth drying equipment as claimed in claim 6, wherein when the translation driving assembly is in the telescopic cylinder structure, a telescopic cylinder is provided, a cylinder body of the telescopic cylinder is fixed on the drying base, an end part of a telescopic shaft of the telescopic cylinder is hinged on the bottom of the drying main body, and a telescopic direction of the telescopic cylinder is consistent with an arrangement direction of the slide rails;

or the cylinder body of the telescopic cylinder is fixed on the bottom of the drying main body, the end part of a telescopic shaft of the telescopic cylinder is hinged on the drying base, and the telescopic direction of the telescopic cylinder is consistent with the arrangement direction of the slide rails.

8. The sliding type drying apparatus of claim 6, wherein when the translational driving assembly is the wheel guide structure, the translational driving assembly has a driver and a wheel, the driver is fixed on the drying base, the wheel is fixed on a driving shaft of the driver, and after the sliding groove of the drying main body is slidably arranged on the sliding rail, the bottom of the drying main body contacts the wheel;

or the driver is fixed at the bottom of the drying main body, the wheels are fixed on a driving shaft of the driver, the sliding groove of the drying main body is slidably arranged on the sliding rail, and then the drying base is contacted with the wheels.

9. The apparatus of claim 6, wherein the translational driving assembly is in a rack-and-pinion structure, and comprises a driver, a rack and a pinion, the driver is fixed on the drying base, the pinion is fixed on a driving shaft of the driver, the rack is arranged on the bottom of the drying main body and parallel to the sliding rail, and the rack is engaged with the pinion;

or the driver is fixed at the bottom of the drying main body, the gear is fixed on a driving shaft of the driver, the rack is arranged on the drying base and parallel to the slide rail, and the rack is meshed with the gear.

10. The smooth type drying equipment as claimed in claim 6, wherein when the translation driving assembly is the cable pulley structure, the translation driving assembly has a driver, a cable and a pulley, the driver and the pulley are fixed on the drying base, the cable is arranged in an annular shape and is wound between the driver and the pulley, and meanwhile, the cable is also fixed on the bottom of the drying main body.

Images