CN217236267U

CN217236267U - Laminated hot air baking device

Info

Publication number: CN217236267U
Application number: CN202123429011.6U
Authority: CN
Inventors: 王凯
Original assignee: Yancheng Putian Coating Industry Co ltd
Current assignee: Yancheng Putian Coating Industry Co ltd
Priority date: 2021-12-31
Filing date: 2021-12-31
Publication date: 2022-08-19
Anticipated expiration: 2031-12-31

Abstract

The utility model discloses a hot-blast baking equipment of range upon range of formula, including box shell, stoving case, removal chassis, chassis translation mechanism, a plurality of auxiliary stand, feed mechanism, stoving mechanism and two chamber doors. The laminated hot air baking device is installed in a laminated mode by utilizing the auxiliary supports, workpieces are conveniently placed in the laminated mode, and hot air is circularly blown by the drying mechanism for drying, so that the workpieces are efficiently dried, and the energy consumption of heating air is reduced; the window is closed by the two box doors, so that the drying effect is prevented from being influenced by the escape of hot air in the drying box; the chassis translation mechanism is used for driving the movable chassis to translate longitudinally, so that each auxiliary bracket is driven to move out of the drying box, and the feeding mechanism can conveniently feed or discharge materials; utilize feed mechanism to take off each auxiliary stand, remove auxiliary stand to material loading point or unloading point, be convenient for go up unloading to the work piece to realize going up unloading under the condition of contactless work piece.

Description

Laminated hot air baking device

Technical Field

The utility model relates to a baking equipment, especially a range upon range of formula hot-blast baking equipment.

Background

At present, no matter in life or production, the stoving case has been the indispensable a practical tool of people, the stoving case adopts shaped steel and sheet metal formation back welding to form, rational in infrastructure, the box is handsome in appearance, sturdy and durable, but steam is directly got rid of to current stoving box most, can't utilize the steam of stoving in-process again, need reheat lower gas of temperature when making secondary drying, relatively speaking relatively more extravagant, and can directly take out article after the stoving, because article temperature after just drying is higher can scald one's hand when taking out, it is very inconvenient.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: provided is a laminated hot air baking device which can circularly blow hot air for drying and can carry out loading and unloading without contacting a workpiece.

The technical scheme is as follows: the utility model provides a stacked hot air baking device, which comprises a box body shell, a drying box, a movable chassis, a chassis translation mechanism, a plurality of auxiliary supports, a feeding mechanism, a drying mechanism and two box doors;

four top corners of the lower side surface of the box body shell are respectively provided with a supporting leg; the drying box is arranged in the box body shell, and the front side and the lower side of the drying box are both open; a window extending to the lower side surface is arranged on the front side surface of the box body shell; the two box doors are respectively arranged on the box body shells at the left side and the right side of the window and are used for sealing the window; a chassis notch extending to the window is arranged on the lower side surface of the box body shell; the movable chassis is longitudinally and slidably arranged on a notch of the chassis; each auxiliary support is arranged on the movable chassis in a stacked mode and used for placing workpieces in a stacked mode; the chassis translation mechanism is arranged below the box body shell and used for driving the movable chassis to drive each auxiliary bracket to longitudinally move for loading and unloading; the feeding mechanism is arranged on the box body shell and used for taking and placing each auxiliary support to feed; and the drying mechanism is arranged on the box body shell and used for carrying out hot air circulation drying on the workpieces on the auxiliary supports.

Furthermore, a slide bar is longitudinally arranged at the left edge and the right edge of the lower opening of the box body shell; the left and right groove surfaces of the notch of the chassis are provided with a sliding groove matched with the corresponding side sliding strip.

Furthermore, a fixed barrier strip is longitudinally arranged on the lower side of the inner walls of the left side and the right side of the drying box; a movable barrier strip is longitudinally hinged at the left edge and the right edge of the upper side surface of the movable chassis; a pressing spring which tightly presses the movable barrier strip on the fixed barrier strip is arranged on the movable chassis.

Furthermore, the auxiliary bracket comprises a supporting flat plate, a butt joint sleeve and a butt joint support; the butt joint sleeve is fixed at the center of the upper side surface of the support flat plate; the butt-joint support is fixed on the lower side surface of the support flat plate and is used for being inserted on the butt-joint sleeve on the support flat plate on the lower side; a bottom layer pipe sleeve is fixed at the center of the upper side surface of the movable chassis; the butt-joint support at the lowest side is inserted on the bottom pipe sleeve; a positioning notch is vertically arranged at the lower side of the circumferential side surface of the butt joint strut; positioning inserting strips matched with the corresponding positioning notches are vertically arranged on the bottom layer pipe sleeve and the butt joint sleeve; the center of the front edge, the rear edge, the left edge and the right edge of the upper side surface of each supporting flat plate is provided with a suspension block; each suspension block is provided with a suspension hole.

Further, the feeding mechanism comprises a top disc, a rotary driving motor, a rotary driving worm wheel, a rotary driving worm, an overhanging sleeve, a telescopic driving motor, a telescopic driving screw rod, an overhanging rod, an electric hoist, a suspension steel rope and a cross bracket;

the top disc is fixed on the upper side surface of the box body shell; a rotating shaft is rotatably and vertically arranged at the center of the top disk; the near end of the cantilever sleeve is fixed on the rotating shaft; the rotary driving motor is arranged on the upper side surface of the box body shell; the rotary driving worm is butted on an output shaft of the rotary driving motor; the rotary driving worm wheel is arranged on the rotating shaft and meshed with the rotary driving worm; a top roller running on the upper side surface of the top disc is arranged on the cantilever sleeve; the near end of the cantilever rod is inserted into the far end of the cantilever sleeve; a strip hole is arranged on the upper side wall of the cantilever sleeve along the length direction; a telescopic driving seat extending out through the strip hole is arranged on the cantilever rod; the telescopic driving screw rod is rotatably arranged on the cantilever sleeve and is screwed on the telescopic driving seat; the telescopic driving motor is used for driving the telescopic driving screw rod to rotate; the electric hoist is arranged at the far end of the cantilever rod and used for retracting and releasing the suspension steel rope; the lower end of the suspension steel rope is fixed at the center of the cross bracket; a branch steel rope is cantilevered on each of the four branch ends of the cross-shaped bracket; the lower end of each branch steel rope is provided with a lifting hook matched with the suspension hole.

Further, the chassis translation mechanism comprises a translation driving motor, a bottom plate, two chain wheels and two slide rails;

the bottom plate is arranged below the box body shell; two sliding seats are arranged on the lower side surface of the movable chassis; two translation driving screw rods are rotatably and longitudinally arranged on the upper side surface of the bottom plate, and the two translation driving screw rods are respectively screwed on the two sliding seats; the two chain wheels are respectively arranged at the front ends of the two translation driving screw rods; the two chain wheels are in chain transmission through chains; the translation driving motor is used for driving one of the translation driving screw rods to rotate; the two sliding rails are respectively and longitudinally arranged on the left side and the right side of the bottom plate; a plurality of bottom rollers which respectively walk on the corresponding side slide rails are arranged on the lower side surface of the movable chassis.

Further, the drying mechanism comprises a circulating fan, an electric heater, a return air pipe and two air outlet pipes;

the circulating fan is arranged in the box body shell, one end of the return air pipe is butted with an air inlet of the circulating fan, the other end of the return air pipe penetrates through the upper side wall of the drying box and then extends into the drying box, and a return air inlet is formed in the extending end of the return air pipe; the electric heater is connected in series with the return air pipe; the two air outlet pipes are in butt joint with an air outlet of the circulating fan; a plurality of air blowing openings extending into the drying box are vertically distributed on the left side surface and the right side surface of the drying box at intervals, and the two air outlet pipes are communicated with the air blowing openings on the corresponding sides.

Compared with the prior art, the utility model, its beneficial effect is: the auxiliary supports are installed in a stacked mode, so that workpieces can be conveniently placed in the stacked mode, and the drying mechanism circularly blows hot air for drying, so that the workpieces are efficiently dried, and meanwhile, the energy consumption for heating air is reduced; the window is closed by the two box doors, so that the drying effect is prevented from being influenced by the escape of hot air in the drying box; the chassis translation mechanism is used for driving the movable chassis to translate longitudinally, so that each auxiliary bracket is driven to move out of the drying box, and the feeding mechanism can conveniently feed or discharge materials; the feeding mechanism is used for taking down each auxiliary support, and the auxiliary supports are moved to a feeding point or a discharging point, so that the workpieces can be conveniently fed and discharged, and feeding and discharging are realized under the condition of not contacting the workpieces; the drying box is moved out of the drying box by the aid of the movable chassis and the auxiliary support through translation by the aid of the window, and the auxiliary support is taken and placed by a feeding mechanism conveniently; the heat preservation layer is utilized to prevent the temperature in the case body from dissipating, and the drying effect is enhanced.

Drawings

Fig. 1 is a front view of the present invention;

fig. 2 is a partial sectional view of the left side view of the present invention.

Detailed Description

The technical solution of the present invention will be described in detail with reference to the accompanying drawings, but the scope of the present invention is not limited to the embodiments.

Example 1:

as shown in fig. 1 and 2, the utility model provides a stacked hot air baking device, which comprises: the device comprises a box body shell 1, a drying box 3, a movable chassis 4, a chassis translation mechanism, a plurality of auxiliary supports, a feeding mechanism, a drying mechanism and two box doors 2;

four top corners of the lower side surface of the box body shell 1 are respectively provided with a supporting leg 35; the drying box 3 is arranged in the box body shell 1, and the front side and the lower side of the drying box 3 are both open; a window 44 extending to the lower side is provided on the front side of the box body case 1; the two box doors 2 are respectively arranged on the box body shells 1 at the left side and the right side of the window 44 and are used for sealing the window 44; the box body shell 1 and the two box doors 2 are both provided with heat preservation layers; a chassis notch extending to the window 44 is arranged on the lower side surface of the box body shell 1; the movable chassis 4 is longitudinally and slidably arranged on the notch of the chassis; each auxiliary support is arranged on the movable chassis 4 in a stacked mode and used for placing workpieces in a stacked mode; the chassis translation mechanism is arranged below the box body shell 1 and used for driving the movable chassis 4 to drive each auxiliary bracket to longitudinally move for loading and unloading; the feeding mechanism is arranged on the box body shell 1 and used for taking and placing each auxiliary support to feed; the drying mechanism is arranged on the box body shell 1 and used for drying the workpieces on the auxiliary supports in a hot air circulation mode.

The auxiliary supports are installed in a stacked mode, so that workpieces can be conveniently placed in the stacked mode, and the drying mechanism circularly blows hot air for drying, so that the workpieces are efficiently dried, and meanwhile, the energy consumption for heating air is reduced; the two box doors 2 are used for sealing the window 44, so that the drying effect is prevented from being influenced by the escape of hot air in the drying box 3; the chassis translation mechanism is used for driving the movable chassis 4 to translate longitudinally to drive each auxiliary bracket to move out of the drying box 3, so that the feeding mechanism can conveniently feed or discharge materials; each auxiliary support is taken down by the feeding mechanism, and the auxiliary support is moved to a feeding point or a discharging point, so that the workpiece can be conveniently fed and discharged, and feeding and discharging are realized under the condition of not contacting the workpiece; the window 44 is used for facilitating the translation of the movable chassis 4 and the auxiliary support out of the drying box 3, and facilitating the taking and placing of the auxiliary support by a feeding mechanism; the heat preservation layer is utilized to prevent the temperature in the box body shell 1 from dissipating, and the drying effect is enhanced.

Furthermore, a sliding strip 33 is longitudinally arranged on the left and right groove surfaces of the notch of the chassis; the left and right sides of the movable chassis 4 are provided with a sliding groove 34 which is matched with the corresponding side sliding strip 33.

The longitudinal sliding installation of the mobile chassis 4 is achieved by means of the cooperation between the slide 33 and the slide groove 34.

Further, a fixed barrier strip 24 is longitudinally arranged on the lower side of the inner walls of the left side and the right side of the drying box 3; a movable barrier strip 25 is longitudinally hinged at the left edge and the right edge of the upper side surface of the movable chassis 4; a pressing spring 26 for pressing the movable barrier 25 against the fixed barrier 24 is provided on the moving chassis 4.

Utilize hold-down spring 26 to sticis activity blend stop 25 on fixed blend stop 24 to realized removing the sealed between chassis 4 and the stoving case 3, prevented that steam from removing the gap loss between chassis 4 and the stoving case 3, thereby further reinforcing stoving effect.

Further, the auxiliary support comprises a support plate 19, a docking sleeve 22 and a docking support 20; the butt-joint sleeve 22 is fixed at the center of the upper side of the support flat plate 19; the butt-joint support column 20 is fixed on the lower side surface of the support flat plate 19 and is used for being inserted into a butt-joint sleeve 22 on the support flat plate 19 on the lower side; a bottom layer pipe sleeve 42 is fixed at the center of the upper side of the movable chassis 4; the lowest butt-joint support column 20 is inserted on the bottom layer pipe sleeve 42; a positioning notch 23 is vertically arranged at the lower side of the circumferential side surface of the butt joint strut 20; positioning inserting strips matched with the corresponding positioning notches 23 are vertically arranged on the bottom layer pipe sleeve 42 and the butt joint sleeve 22; a suspension block 21 is arranged at the center of the front, rear, left and right edges of the upper side surface of each supporting flat plate 19; each of the suspension blocks 21 is provided with a suspension hole.

The auxiliary supports are installed in a stacked mode, so that different numbers of auxiliary supports can be stacked according to the drying boxes 3 with different heights or the number of workpieces to be dried, and the universality is enhanced; the stable stacked installation among the supporting flat plates 19 is realized by the matching among the supporting flat plates 19, the butt joint sleeves 22, the butt joint pillars 20 and the bottom layer pipe sleeves 42; the stability of the support plate 19 is enhanced by preventing the docking strut 20 from rotating within the docking sleeve 22 by the cooperation between the locating notches 23 and the locating slips.

Further, the feeding mechanism comprises a top disc 5, a rotary driving motor 43, a rotary driving worm wheel 13, a rotary driving worm 45, an overhanging sleeve 6, a telescopic driving motor 7, a telescopic driving screw rod 10, an overhanging rod 11, an electric hoist 14, a hanging steel rope 15 and a cross bracket 16;

the top disc 5 is fixed on the upper side surface of the box body shell 1; a rotating shaft is rotatably and vertically arranged at the center of the top disk 5; the near end of the cantilever sleeve 6 is fixed on the rotating shaft; the rotary driving motor 43 is installed on the upper side surface of the box body casing 1; the rotation driving worm 45 is butted on an output shaft of the rotation driving motor 43; the rotary driving worm wheel 13 is arranged on the rotating shaft, and the rotary driving worm wheel 13 is meshed with the rotary driving worm 45; a top roller 8 running on the upper side surface of the top disc 5 is arranged on the cantilever sleeve 6; the near end of the cantilever rod 11 is inserted on the far end of the cantilever sleeve 6; a strip hole is arranged on the upper side wall of the cantilever sleeve 6 along the length direction; a telescopic driving seat 9 extending out through the strip hole is arranged on the cantilever rod 11; the telescopic driving screw rod 10 is rotatably arranged on the cantilever sleeve 6, and the telescopic driving screw rod 10 is screwed on the telescopic driving seat 9; the telescopic driving motor 7 is used for driving the telescopic driving screw rod 10 to rotate; the electric hoist 14 is arranged at the far end of the cantilever rod 11 and used for retracting and releasing a suspension steel rope 15; the lower end of the suspension steel rope 15 is fixed at the center of the cross bracket 16; a branch steel rope 17 is cantilevered on each of the four branch ends of the cross bracket 16; a hook 18 for being engaged with the hanging hole is provided on the lower end of each of the branch steel ropes 17.

The rotary driving motor 43 is used for driving the cantilever sleeve 6 to rotate through the matching between the rotary driving worm wheel 13 and the rotary driving worm 45, so that the cross-shaped bracket 16 can move around the box body shell 1, and the auxiliary bracket is convenient to move for loading; the friction is reduced by the top roller 8, so that the rotation stability of the cantilever sleeve 6 is enhanced; by utilizing the matching between the long-strip hole and the telescopic driving seat 9 and the matching between the guide sliding block and the telescopic sliding chute 12, the telescopic guide of the cantilever rod 11 is realized, the cantilever rod 11 is prevented from rotating in the cantilever sleeve 6, and the telescopic stability of the cantilever rod 11 is enhanced; the telescopic driving motor 7 is used for driving the telescopic driving screw rod 10 to rotate, the extending length of the suspension rod 11 is adjusted, and the electric hoist 14 receives and releases the suspension steel rope 15, so that the height position and the horizontal position of the cross-shaped support 16 are coordinately controlled and adjusted, the auxiliary support can be stably taken down or installed by the lifting hook 18 through the suspension hole, and the auxiliary support is moved to a feeding point or a discharging point for feeding and discharging.

Further, the chassis translation mechanism comprises a translation driving motor 28, a bottom plate 27, two chain wheels 29 and two slide rails 31;

the bottom plate 27 is arranged below the box body shell 1; a plurality of sliding seats 46 are arranged on the lower side surface of the movable chassis 4; two translation driving screw rods are rotatably and longitudinally arranged on the upper side surface of the bottom plate 27, and the two translation driving screw rods are respectively screwed on the sliding seats 46 on the corresponding sides in a threaded manner; two chain wheels 29 are respectively arranged on the front ends of the two translation driving screw rods; two chain wheels 29 are in chain transmission through a chain 30; the translation driving motor 28 is used for driving one of the translation driving screw rods to rotate; the two slide rails 31 are respectively and longitudinally arranged at the left side and the right side of the bottom plate 27; a plurality of bottom rollers 32, which respectively run on the corresponding side rails 31, are mounted on the lower side surface of the moving chassis 4.

The two translation driving screw rods synchronously rotate by utilizing the chain 30 and the two chain wheels 29, so that the moving stability of the moving chassis 4 is enhanced; the translation driving motor 28 is used for driving the two translation driving screw rods to rotate, so that the sliding seat 46 drives the moving chassis 4 to move longitudinally, the position of the moving chassis 4 is adjusted, and loading and unloading are facilitated; the friction is reduced by the matching between the slide rail 31 and the bottom roller 32, and the moving stability of the moving chassis 4 is improved.

Further, the drying mechanism comprises a circulating fan 38, an electric heater 39, a return air pipe 40 and two air outlet pipes 37;

the circulating fan 38 is installed in the box body shell 1, one end of the air return pipe 40 is butted on an air inlet of the circulating fan 38, the other end of the air return pipe penetrates through the upper side wall of the drying box 3 and then extends into the drying box 3, and an air return opening 41 is formed in the extending end of the air return pipe 40; the electric heater 39 is connected in series with the return air duct 40; the two air outlet pipes 37 are in butt joint with an air outlet of the circulating fan 38; a plurality of air blowing openings 36 extending into the drying box 3 are vertically arranged on the left side surface and the right side surface of the drying box 3 at intervals, and two air outlet pipes 37 are communicated with the air blowing openings 36 on the corresponding sides.

The air blown out by the circulating fan 38 is heated by the electric heater 39, and hot air enters the two air outlet pipes 37 and is blown out through the air blowing openings 36, so that the coverage area of the hot air is increased, and the workpieces on each layer of the supporting flat plate 19 can be dried; air is returned through the air return opening 41, the air in the drying box 3 is gathered into the air return pipe 40 through the air return opening 41, and is blown out by the circulating fan 38 after being heated, so that circulating air blowing is realized, the drying efficiency is improved, the energy consumption of heating the air is reduced, and the cost is saved.

The utility model provides an among the hot-blast baking equipment of range upon range of formula, flexible driving motor 7, rotary driving motor 43 and translation driving motor 28 all adopt current step motor.

The utility model provides a hot-blast baking equipment of range upon range of formula when installing and use, at first adjust the position of cross support 16, rotary driving motor 43 drives overhanging sleeve 6 through chain drive and rotates, flexible driving motor 7 drives flexible drive lead screw 10 and rotates, adjusts the extension length of cantilever bar 11, electric hoist 14 receive and releases suspension steel cable 15, coordinated control cross support 16 moves to support the dull and stereotyped 19 top, collude four lifting hooks 18 on the suspension hole on the suspension block 21 of corresponding side, later electric hoist 14 rotates and lifts up support dull and stereotyped 19, rotary overhanging sleeve 6 will support dull and stereotyped 19 and put the material loading point and carry out the material loading; repeating the steps until the feeding is completed, then suspending the supporting flat plate 19 after the feeding is completed above the moving chassis 4, releasing the hoisting rope 15 by the electric hoist 14, and inserting the butt joint strut 20 on the bottom layer pipe sleeve 42; repeating until the auxiliary support is installed; finally, the translation driving motor 28 drives the two translation driving screw rods to rotate, and the two translation driving screw rods synchronously rotate under the coordination of the chain 30 and the two chain wheels 29, so that the moving chassis 4 drives the auxiliary supports to return into the drying box 3, and the two box doors 2 are closed for drying; the circulating fan 38 continuously blows air, the hot air enters the two air outlet pipes 37 and is blown out through the air blowing ports 36, the air in the drying box 3 is converged into the air return pipe 40 through the air return port 41, and is heated and then blown out by the circulating fan 38, so that the circulation is completed.

As mentioned above, although the present invention has been shown and described with reference to certain preferred embodiments, it should not be construed as limiting the invention itself. Various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. The utility model provides a range upon range of formula hot-blast baking equipment which characterized in that: the drying oven comprises an oven body shell (1), a drying oven (3), a movable chassis (4), a chassis translation mechanism, a plurality of auxiliary supports, a feeding mechanism, a drying mechanism and two oven doors (2);

four top corners of the lower side surface of the box body shell (1) are respectively provided with a supporting leg (35); the drying box (3) is arranged in the box body shell (1), and the front side and the lower side of the drying box (3) are both opened; a window (44) extending to the lower side surface is arranged on the front side surface of the box body shell (1); the two box doors (2) are respectively arranged on the box body shells (1) at the left side and the right side of the window (44) and are used for sealing the window (44); a chassis notch extending to the window (44) is arranged on the lower side surface of the box body shell (1); the movable chassis (4) is longitudinally and slidably arranged on the notch of the chassis; each auxiliary support is arranged on the movable chassis (4) in a stacking manner and used for placing workpieces in a stacking manner; the chassis translation mechanism is arranged below the box body shell (1) and used for driving the movable chassis (4) to drive each auxiliary support to longitudinally move for loading and unloading; the feeding mechanism is arranged on the box body shell (1) and used for taking and placing each auxiliary support to feed; the drying mechanism is arranged on the box body shell (1) and used for drying the workpieces on the auxiliary supports in a hot air circulation mode.

2. The stacked hot air baking apparatus as claimed in claim 1, wherein: a sliding strip (33) is longitudinally arranged on the groove surface at the left side and the right side of the notch of the chassis; the left side and the right side of the movable chassis (4) are respectively provided with a sliding chute (34) matched with the corresponding side sliding strip (33).

3. The stacked hot air baking apparatus as claimed in claim 1, wherein: the lower sides of the inner walls of the left side and the right side of the drying box (3) are longitudinally provided with a fixed barrier strip (24); a movable barrier strip (25) is longitudinally hinged at the left edge and the right edge of the upper side surface of the movable chassis (4); a pressing spring (26) which tightly presses the movable barrier strip (25) on the fixed barrier strip (24) is arranged on the movable chassis (4).

4. The stacked hot air baking apparatus as claimed in claim 1, wherein: the auxiliary bracket comprises a support flat plate (19), a butt joint sleeve (22) and a butt joint support column (20); the butt joint sleeve (22) is fixed at the center of the upper side surface of the support flat plate (19); the butt joint support column (20) is fixed on the lower side surface of the support flat plate (19) and is used for being inserted into a butt joint sleeve (22) on the support flat plate (19) on the lower side; a bottom layer pipe sleeve (42) is fixed at the center of the upper side surface of the movable chassis (4); the butt joint support (20) at the lowest side is inserted on the bottom layer pipe sleeve (42); a positioning notch (23) is vertically arranged at the lower side of the circumferential side surface of the butt joint strut (20); positioning inserting strips matched with the corresponding positioning notches (23) are vertically arranged on the bottom layer pipe sleeve (42) and the butt joint sleeve (22); the centers of the front, the rear, the left and the right edges of the upper side surface of each supporting flat plate (19) are respectively provided with a suspension block (21); each suspension block (21) is provided with a suspension hole.

5. The stacked hot air baking apparatus as claimed in claim 4, wherein: the feeding mechanism comprises a top disc (5), a rotary driving motor (43), a rotary driving worm wheel (13), a rotary driving worm (45), an overhanging sleeve (6), a telescopic driving motor (7), a telescopic driving screw rod (10), an overhanging rod (11), an electric hoist (14), a hanging steel rope (15) and a cross-shaped bracket (16);

the top disc (5) is fixed on the upper side surface of the box body shell (1); a rotating shaft is rotatably and vertically arranged at the center of the top disc (5); the near end of the cantilever sleeve (6) is fixed on the rotating shaft; the rotary driving motor (43) is arranged on the upper side surface of the box body shell (1); the rotary driving worm (45) is butted on an output shaft of the rotary driving motor (43); the rotary driving worm wheel (13) is arranged on the rotating shaft, and the rotary driving worm wheel (13) is meshed with the rotary driving worm (45); a top roller (8) walking on the upper side surface of the top disc (5) is arranged on the cantilever sleeve (6); the near end of the cantilever rod (11) is inserted into the far end of the cantilever sleeve (6); a long hole is arranged on the upper side wall of the cantilever sleeve (6) along the length direction; a telescopic driving seat (9) extending out through the strip hole is arranged on the cantilever rod (11); the telescopic driving screw rod (10) is rotatably arranged on the cantilever sleeve (6), and the telescopic driving screw rod (10) is screwed on the telescopic driving seat (9) in a threaded manner; the telescopic driving motor (7) is used for driving the telescopic driving screw rod (10) to rotate; the electric hoist (14) is arranged at the far end of the cantilever rod (11) and is used for retracting and releasing the suspension steel rope (15); the lower end of the suspension steel rope (15) is fixed at the center of the cross bracket (16); a branch steel rope (17) is cantilevered on the end parts of the four branches of the cross bracket (16); the lower end of each branch steel rope (17) is provided with a lifting hook (18) matched with the suspension hole.

6. The stacked hot air baking apparatus as claimed in claim 1, wherein: the chassis translation mechanism comprises a translation driving motor (28), a bottom plate (27), two chain wheels (29) and two sliding rails (31);

the bottom plate (27) is arranged below the box body shell (1); two sliding seats (46) are arranged on the lower side surface of the movable chassis (4); two translation driving screw rods are rotatably and longitudinally arranged on the upper side surface of the bottom plate (27), and the two translation driving screw rods are respectively screwed on the two sliding seats (46) in a threaded manner; two chain wheels (29) are respectively arranged at the front ends of the two translation driving screw rods; the two chain wheels (29) are in chain transmission through a chain (30); the translation driving motor (28) is used for driving one translation driving screw rod to rotate; the two sliding rails (31) are respectively and longitudinally arranged at the left side and the right side of the bottom plate (27); a plurality of bottom rollers (32) which respectively run on corresponding side sliding rails (31) are arranged on the lower side surface of the movable chassis (4).

7. The stacked hot air baking apparatus as claimed in claim 1, wherein: the drying mechanism comprises a circulating fan (38), an electric heater (39), a return air pipe (40) and two air outlet pipes (37);

the circulating fan (38) is arranged in the box body shell (1), one end of the air return pipe (40) is butted with an air inlet of the circulating fan (38), the other end of the air return pipe penetrates through the upper side wall of the drying box (3) and then extends into the drying box (3), and an air return opening (41) is formed in the extending end of the air return pipe (40); the electric heater (39) is connected in series with the return air pipe (40); the two air outlet pipes (37) are butted on an air outlet of the circulating fan (38); a plurality of air blowing openings (36) extending into the drying box (3) are vertically arranged on the left side surface and the right side surface of the drying box (3) at intervals, and the two air outlet pipes (37) are communicated with the air blowing openings (36) on the corresponding sides.