CN116287483B - Drying equipment with reciprocating motion structure - Google Patents

Abstract

The invention provides a drying device with a reciprocating motion structure, which relates to the technical field of drying devices and comprises: the drying device comprises a frame body, a conveying part, a drying part, a turnover part and an auxiliary part; two connecting blocks are fixedly connected to the frame body through bolts. An elastic telescopic rod is arranged on the sliding seat, and one end of the right side of the elastic telescopic rod is fixed on the left end face of the sliding block; the bottom end face of the connecting arm is in contact with the top end face of the second conveying belt, when the second conveying belt moves, the bulge and the connecting arm are in an elastic contact state, at the moment, the connecting arm is in a reciprocating motion state under the stirring of the bulge, at the moment, the second heating pipe is also in a reciprocating motion state, at the moment, the drying quality of a drying piece can be improved, the problem that the drying quality is lower is solved, the contact time of heat flow and the drying piece is shorter in the drying process, and at the moment, the drying quality is reduced; in the drying process, the structure is too single, and the synchronous drying of the multiple structures cannot be realized through structural improvement, so that the aim of improving the drying efficiency is achieved.

Description

Drying equipment with reciprocating motion structure

Technical Field

The invention relates to the technical field of drying equipment, in particular to drying equipment with a reciprocating motion structure.

Background

The water in the leather needs to be removed in the leather processing process, and the water can be removed by drying.

Regarding the existing drying equipment at present:

the drying quality is low, and the contact time between the heat flow and the drying piece is short in the drying process, so that the drying quality is reduced; in the drying process, the structure is too single, and the synchronous drying of the multiple structures cannot be realized through structural improvement, so that the aim of improving the drying efficiency is fulfilled.

Disclosure of Invention

In view of the above, the present invention provides a drying apparatus having a reciprocating structure, which has a drying part, a flipping part, and an auxiliary part, and can improve drying quality by the arrangement of the drying part, the flipping part, and the auxiliary part.

The invention discloses a drying device with a reciprocating motion structure, which is characterized by comprising the following specific technical means:

the invention provides a drying device with a reciprocating motion structure, which specifically comprises: the drying device comprises a frame body, a conveying part, a drying part, a turnover part and an auxiliary part; two connecting blocks are fixedly connected to the frame body through bolts; the frame body is rotatably connected with two first rolling shafts, a first conveying belt is sleeved on the two first rolling shafts, and a drying piece is conveyed on the first conveying belt; the first conveyor belt is welded with bulges in an array shape, and the bulges are of a semi-cylindrical structure; the conveying part consists of two second rolling shafts, a second conveying belt and an incomplete gear, wherein the two second rolling shafts are rotatably connected to the frame body; the drying part consists of a sliding seat, a sliding block, a connecting arm, a mounting seat, a second heating pipe and an elastic telescopic rod, and the sliding seat is fixed on the top end surface of the frame body; the turnover part consists of a first rotating shaft, a turnover plate, a supporting plate, rubber ribs and a second gear, and the first rotating shaft is rotatably connected to the frame body; the auxiliary parts are two in total and consist of a second rotating shaft, an impeller and a third gear, and the second rotating shaft is rotatably connected to the frame body.

Further, the two second rollers are sleeved with a second conveying belt, the second conveying belt is welded with bulges in an array shape, and the bulges are of a semi-cylindrical structure;

the connecting blocks are concave structures, first heating pipes are arranged on each connecting block in an array mode, the first heating pipes are located below the first conveying belt and the second conveying belt, and the first heating pipes are heating structures of the first conveying belt and the second conveying belt.

Further, sliding connection has a sliding block, and the welding has the linking arm on the sliding block, and the terminal surface welding has the mount pad before the linking arm, is the linear array form on the mount pad and installs the second heating pipe, and the second heating pipe is located the 10cm department of second conveyer belt top, and the second heating pipe of linear array form setting has constituteed the stoving structure of stoving spare on the second conveyer belt jointly.

Further, an elastic telescopic rod is arranged on the sliding seat, and one end of the right side of the elastic telescopic rod is fixed on the left end face of the sliding block;

the bottom end face of the connecting arm is contacted with the top end face of the second conveying belt, when the second conveying belt moves, the bulge and the connecting arm are in an elastic contact state, at the moment, the connecting arm is in a reciprocating motion state under the poking of the bulge, and at the moment, the second heating pipe is also in a reciprocating motion state.

Further, the first rotating shaft is rotatably connected with a turnover plate, and the turnover plate is of an L-shaped structure;

the inside welding of support body has a backup pad, backup pad terminal surface and upset board contact, and upset board and second conveyer belt are aligned this moment.

Further, the backup pad is spill platy structure, installs two rubber muscle in the backup pad, and two rubber muscle top one end is connected with upset board bottom end face, and reset structure of upset board has been constituteed jointly to two rubber muscle.

Further, an incomplete gear is arranged on the second rolling shaft on the left side;

the first rotating shaft is provided with a second gear, when the second rolling shaft rotates, the incomplete gear is meshed with the second gear, the first rotating shaft is in a rotating state, and the overturning plate is in an overturning state.

Further, through holes are formed in the first conveying belt in a rectangular array shape, the through holes are of cylindrical hole-shaped structures, and the through holes formed in the rectangular array shape jointly form a ventilation structure of the first conveying belt.

Further, each first rolling shaft is provided with a first gear;

an impeller is arranged on the second rotating shaft and is positioned in the middle of the first conveying belt;

and a third gear is arranged on the second rotating shaft and meshed with the first gear.

Further, the drying section is not limited to one.

Advantageous effects

The setting of this application through stoving part can realize reciprocal stoving, and is specific as follows: the first is that a sliding block is connected in a sliding way in the sliding seat, a connecting arm is welded on the sliding block, an installation seat is welded on the front end face of the connecting arm, a second heating pipe is arranged on the installation seat in a linear array mode, the second heating pipe is positioned at a position 10cm above the second conveying belt, the second heating pipes arranged in the linear array mode form a drying structure of a drying piece on the second conveying belt together, and in the using process, rapid drying of objects on the second conveying belt can be achieved through the second heating pipe; secondly, because the sliding seat is provided with the elastic telescopic rod, one end of the right side of the elastic telescopic rod is fixed on the left end face of the sliding block; the bottom end face of the connecting arm is contacted with the top end face of the second conveying belt, when the second conveying belt moves, the bulge and the connecting arm are in an elastic contact state, the connecting arm is in a reciprocating motion state under stirring of the bulge, the second heating pipe is also in the reciprocating motion state, the drying quality of a drying piece can be improved, and the practicability is high.

In addition, through the setting of upset part, can make things convenient for the stoving spare to carry out the positive and negative stoving, need not to manually overturn, specifically as follows: firstly, because the first rotating shaft is rotationally connected with a turnover plate, the turnover plate is of an L-shaped structure; a supporting plate is welded in the frame body, the top end surface of the supporting plate is in contact with the overturning plate, and the overturning plate is aligned with the second conveying belt at the moment, so that the drying piece is convenient to move onto the overturning plate at the moment; secondly, because the supporting plate is of a concave plate-shaped structure, two rubber ribs are arranged on the supporting plate, one end above the two rubber ribs is connected with the bottom end face of the turnover plate, the two rubber ribs jointly form a reset structure of the turnover plate, and the reset of the turnover plate can be realized through the two rubber ribs in the use process; an incomplete gear is arranged on one second rolling shaft on the left side; install the second gear in the first pivot, incomplete gear and second gear engagement when the second roller bearing rotates, first pivot this moment is rotation state, and the turnover plate is the turnover state this moment, can accomplish the turnover of stoving spare through the turnover plate then, and the stoving spare after the turnover can drop on first conveyer belt, can conveniently be to the stoving of stoving spare back this moment.

In addition, through the setting of auxiliary part, can realize the air current stoving of stoving spare, concretely as follows: because each first rolling shaft is provided with a first gear; an impeller is arranged on the second rotating shaft and is positioned in the middle of the first conveying belt; the third gear is arranged on the second rotating shaft and meshed with the first gear, in the use process, when the first rolling shaft rotates, the impeller can rotate through the meshing of the third gear and the first gear, wind power generated by rotation of the impeller can be sprayed out through the through hole, and at the moment, air flow is in contact with the drying piece to finish air flow drying of the drying piece.

In addition, through the setting of connecting block and first heating pipe, at this moment, because of the connecting block is concave structure, all be array-shaped installs first heating pipe on every connecting block, first heating pipe is located the below position of first conveyer belt and second conveyer belt, first heating pipe is the heating structure of first conveyer belt and second conveyer belt, can realize the bellied heating on first conveyer belt and second conveyer belt and first conveyer belt and the second conveyer belt through first heating pipe in the use, when the stoving piece is placed on the arch on first conveyer belt and second conveyer belt, can realize the auxiliary drying of stoving piece bottom through the heat that first conveyer belt and second conveyer belt give off.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings described below are only for illustration of some embodiments of the invention and are not intended to limit the invention.

In the drawings:

fig. 1 is a schematic view showing an isometric view of a drying apparatus having a reciprocating structure according to the present invention.

Fig. 2 is a schematic top view of a drying apparatus having a reciprocating structure according to the present invention.

Fig. 3 is a schematic front view of a drying apparatus having a reciprocating structure according to the present invention.

Fig. 4 is a schematic diagram of the rotated isometric view of fig. 1 according to the present invention.

Fig. 5 is a left-hand structural schematic view of the drying apparatus having the reciprocating structure of the present invention.

Fig. 6 is a schematic view showing an isometric view of a drying apparatus having a reciprocating structure according to the present invention, with parts removed.

Fig. 7 is a schematic diagram of the front view of fig. 6 according to the present invention.

Fig. 8 is a schematic diagram showing an isometric view of a drying section according to the present invention.

Fig. 9 is a schematic diagram of an isometric view of the flip portion of the present invention.

Fig. 10 is a schematic diagram of an isometric view of an auxiliary portion of the present invention.

Map marker list

1. A frame body; 101. a first roller; 102. a first conveyor belt; 103. a first gear; 104. a through hole; 105. a connecting block; 106. a first heating pipe; 2. a protrusion; 3. a conveying section; 301. a second roller; 302. a second conveyor belt; 303. an incomplete gear; 4. a drying part; 401. a sliding seat; 402. a sliding block; 403. a connecting arm; 404. a mounting base; 405. a second heating pipe; 406. an elastic telescopic rod; 5. a flipping portion; 501. a first rotating shaft; 502. a turnover plate; 503. a support plate; 504. rubber ribs; 505. a second gear; 6. an auxiliary portion; 601. a second rotating shaft; 602. an impeller; 603. and a third gear.

Detailed Description

Embodiments of the present invention are described in further detail below with reference to the accompanying drawings and examples.

Please refer to fig. 1 to 10:

embodiment one:

the present invention provides a drying apparatus having a reciprocating structure, comprising: a frame body 1, a conveying part 3 and a drying part 4;

two connecting blocks 105 are fixedly connected to the frame body 1 through bolts;

the conveying part 3 consists of two second rollers 301, a second conveying belt 302 and an incomplete gear 303, wherein the number of the second rollers 301 is two, and the two second rollers 301 are both rotatably connected to the frame body 1;

the drying part 4 is composed of a sliding seat 401, a sliding block 402, a connecting arm 403, a mounting seat 404, a second heating pipe 405 and an elastic telescopic rod 406, and the sliding seat 401 is fixed on the top end face of the frame body 1.

Wherein, the frame body 1 is rotatably connected with two first rollers 101, a first conveying belt 102 is sleeved on the two first rollers 101, and a drying piece is conveyed on the first conveying belt 102;

the first conveyer belt 102 is provided with the bulges 2 in an array welding way, the bulges 2 are of a semi-cylindrical structure, and at the moment, the contact area between the first conveyer belt 102 and a drying piece can be reduced through the support of the bulges 2, so that the drying effect of the bottom of the drying piece is ensured.

Wherein, the two second rollers 301 are sleeved with a second conveying belt 302, the second conveying belt 302 is welded with bulges 2 in an array shape, and the bulges 2 are of a semi-cylindrical structure;

the connecting blocks 105 are of concave structures, each connecting block 105 is provided with a first heating pipe 106 in an array mode, the first heating pipes 106 are located below the first conveying belt 102 and the second conveying belt 302, the first heating pipes 106 are of heating structures of the first conveying belt 102 and the second conveying belt 302, in the use process, the first conveying belt 102, the second conveying belt 302 and the bulges 2 on the first conveying belt 102 and the second conveying belt 302 can be heated through the first heating pipes 106, and when a drying piece is placed on the bulges 2 on the first conveying belt 102 and the second conveying belt 302, auxiliary drying of the bottom of the drying piece can be achieved through heat emitted by the first conveying belt 102 and the second conveying belt 302.

Wherein, sliding connection has a sliding block 402 in the sliding seat 401, has welded the linking arm 403 on the sliding block 402, and linking arm 403 front end face welding has mount pad 404, is linear array form on the mount pad 404 and installs second heating pipe 405, and second heating pipe 405 is located the 10cm department of second conveyer belt 302 top, and the second heating pipe 405 of linear array form setting constitutes the stoving structure of stoving piece on the second conveyer belt 302 jointly, can realize the quick drying of article on the second conveyer belt 302 through second heating pipe 405 in the use.

Wherein, an elastic telescopic rod 406 is arranged on the sliding seat 401, and one end of the right side of the elastic telescopic rod 406 is fixed on the left end face of the sliding block 402;

the bottom end face of the connecting arm 403 contacts with the top end face of the second conveying belt 302, when the second conveying belt 302 moves, the bulge 2 and the connecting arm 403 are in an elastic contact state, at the moment, the connecting arm 403 is in a reciprocating motion state under the stirring of the bulge 2, at the moment, the second heating pipe 405 is also in a reciprocating motion state, and at the moment, the drying quality of a drying piece can be improved.

Through holes 104 are formed in the first conveying belt 102 in a rectangular array shape, the through holes 104 are in a cylindrical hole-shaped structure, the through holes 104 formed in the rectangular array shape jointly form a ventilation structure of the first conveying belt 102, and at the moment, the air drying effect of drying pieces on the first conveying belt 102 can be improved.

The drying part 4 is not limited to one, and the drying part 4 may be installed at a position corresponding to the first conveyor 102 for re-drying during use.

Specific use and action of the embodiment:

when the drying device is used, when the first roller 101 and the second roller 301 rotate, the first conveying belt 102 and the second conveying belt 302 move, at the moment, a sliding block 402 is connected in a sliding way in the sliding seat 401, a connecting arm 403 is welded on the sliding block 402, an installation seat 404 is welded on the front end face of the connecting arm 403, a second heating pipe 405 is arranged on the installation seat 404 in a linear array shape, the second heating pipe 405 is positioned at a position 10cm above the second conveying belt 302, the second heating pipes 405 arranged in the linear array shape form a drying structure of a drying part on the second conveying belt 302 together, and in the use process, the rapid drying of objects on the second conveying belt 302 can be realized through the second heating pipe 405; because the sliding seat 401 is provided with the elastic telescopic rod 406, one end of the right side of the elastic telescopic rod 406 is fixed on the left end face of the sliding block 402; the bottom end surface of the connecting arm 403 contacts with the top end surface of the second conveying belt 302, when the second conveying belt 302 moves, the bulge 2 and the connecting arm 403 are in an elastic contact state, at the moment, the connecting arm 403 is in a reciprocating motion state under the stirring of the bulge 2, at the moment, the second heating pipe 405 is also in a reciprocating motion state, and at the moment, the drying quality of a drying piece can be improved;

meanwhile, as the connecting blocks 105 are of concave structures, the first heating pipes 106 are arranged on each connecting block 105 in an array mode, the first heating pipes 106 are located below the first conveying belt 102 and the second conveying belt 302, the first heating pipes 106 are of heating structures of the first conveying belt 102 and the second conveying belt 302, in the using process, the first conveying belt 102, the second conveying belt 302, the bulges 2 on the first conveying belt 102 and the second conveying belt 302 can be heated through the first heating pipes 106, and when a drying piece is placed on the bulges 2 on the first conveying belt 102 and the second conveying belt 302, auxiliary drying of the bottom of the drying piece can be achieved through heat emitted by the first conveying belt 102 and the second conveying belt 302.

Embodiment two:

the invention provides a drying device with a reciprocating motion structure, which further comprises: a flipping section 5;

the turning part 5 is composed of a first rotation shaft 501, a turning plate 502, a supporting plate 503, a rubber rib 504 and a second gear 505, and the first rotation shaft 501 is rotatably connected to the frame body 1.

Wherein, a turnover plate 502 is rotatably connected to the first rotating shaft 501, and the turnover plate 502 has an L-shaped structure;

the support plate 503 is welded inside the frame body 1, the top end surface of the support plate 503 is in contact with the overturning plate 502, at this time, the overturning plate 502 is aligned with the second conveying belt 302, and at this time, the drying part is convenient to move onto the overturning plate 502.

Wherein, backup pad 503 is spill platy structure, installs two rubber muscle 504 on the backup pad 503, and two rubber muscle 504 top one end is connected with the bottom face of upset board 502, and reset structure of upset board 502 has been constituteed jointly to two rubber muscle 504, can realize the reset of upset board 502 through two rubber muscle 504 in the use.

Wherein, the left second roller 301 is provided with an incomplete gear 303;

the second gear 505 is installed on the first rotating shaft 501, when the second roller 301 rotates, the incomplete gear 303 is meshed with the second gear 505, the first rotating shaft 501 is in a rotating state, the overturning plate 502 is in an overturning state, then overturning of the drying piece can be completed through the overturning plate 502, the overturning drying piece can fall on the first conveying belt 102, and drying of the back surface of the drying piece can be facilitated.

Specific use and action of the embodiment:

when the second roller 301 rotates, at this time, since the first rotating shaft 501 is rotatably connected with a turnover plate 502, the turnover plate 502 has an L-shaped structure; a supporting plate 503 is welded in the frame body 1, the top end surface of the supporting plate 503 is in contact with the overturning plate 502, at the moment, the overturning plate 502 is aligned with the second conveying belt 302, and at the moment, the drying piece is convenient to move onto the overturning plate 502; the supporting plate 503 is of a concave plate-shaped structure, two rubber ribs 504 are mounted on the supporting plate 503, one end above the two rubber ribs 504 is connected with the bottom end surface of the turnover plate 502, the two rubber ribs 504 together form a reset structure of the turnover plate 502, and reset of the turnover plate 502 can be realized through the two rubber ribs 504 in the use process; the left second roller 301 is provided with an incomplete gear 303; the second gear 505 is installed on the first rotating shaft 501, when the second roller 301 rotates, the incomplete gear 303 is meshed with the second gear 505, the first rotating shaft 501 is in a rotating state, the overturning plate 502 is in an overturning state, then overturning of the drying piece can be completed through the overturning plate 502, the overturning drying piece can fall on the first conveying belt 102, and drying of the back surface of the drying piece can be facilitated.

Embodiment III:

the invention provides a drying device with a reciprocating motion structure, which further comprises: an auxiliary portion 6;

the auxiliary parts 6 are provided with two in total, the auxiliary parts 6 consist of a second rotating shaft 601, an impeller 602 and a third gear 603, and the second rotating shaft 601 is rotatably connected to the frame body 1.

Wherein, each first roller 101 is provided with a first gear 103;

an impeller 602 is arranged on the second rotating shaft 601, and the impeller 602 is positioned in the middle of the first conveying belt 102;

the third gear 603 is arranged on the second rotating shaft 601, the third gear 603 is meshed with the first gear 103, in the use process, when the first roller 101 rotates, the impeller 602 can rotate through the meshing of the third gear 603 and the first gear 103, wind power generated by rotation of the impeller 602 can be sprayed out through the through hole 104, and at the moment, air flow is in contact with the drying piece, so that air flow drying of the drying piece is completed.

Specific use and action of the embodiment:

when the first roller 101 rotates, at this time, the impeller 602 is installed on the second rotating shaft 601, and the impeller 602 is located in the middle position of the first conveying belt 102; the third gear 603 is arranged on the second rotating shaft 601, the third gear 603 is meshed with the first gear 103, in the use process, when the first roller 101 rotates, the impeller 602 can rotate through the meshing of the third gear 603 and the first gear 103, wind power generated by rotation of the impeller 602 can be sprayed out through the through hole 104, and at the moment, air flow is in contact with the drying piece, so that air flow drying of the drying piece is completed.

Claims (2)

1. A method of using a drying apparatus having a reciprocating structure, comprising: the drying device comprises a frame body (1), a conveying part (3), a drying part (4), a turnover part (5) and an auxiliary part (6); two connecting blocks (105) are fixedly connected to the frame body (1) through bolts; two first rollers (101) are rotatably connected to the frame body (1), a first conveying belt (102) is sleeved on the two first rollers (101), and drying parts are conveyed on the first conveying belt (102); the first conveyor belt (102) is welded with bulges (2) in an array manner, and the bulges (2) are of a semi-cylindrical structure; the conveying part (3) consists of two second rollers (301), a second conveying belt (302) and an incomplete gear (303), wherein the two second rollers (301) are arranged in total, and the two second rollers (301) are both rotatably connected to the frame body (1); the drying part (4) consists of a sliding seat (401), a sliding block (402), a connecting arm (403), a mounting seat (404), a second heating pipe (405) and an elastic telescopic rod (406), wherein the sliding seat (401) is fixed on the top end surface of the frame body (1); the turnover part (5) consists of a first rotating shaft (501), a turnover plate (502), a supporting plate (503), rubber ribs (504) and a second gear (505), and the first rotating shaft (501) is rotatably connected to the frame body (1); the auxiliary parts (6) are arranged in two, the auxiliary parts (6) consist of a second rotating shaft (601), an impeller (602) and a third gear (603), and the second rotating shaft (601) is rotatably connected to the frame body (1);

the two second rollers (301) are sleeved with a second conveying belt (302), the second conveying belt (302) is welded with bulges (2) in an array shape, and the bulges (2) are of a semi-cylindrical structure;

the connecting blocks (105) are of concave structures, first heating pipes (106) are arranged on each connecting block (105) in an array mode, the first heating pipes (106) are located below the first conveying belt (102) and the second conveying belt (302), and the first heating pipes (106) are of heating structures of the first conveying belt (102) and the second conveying belt (302);

a sliding block (402) is connected in a sliding manner in the sliding seat (401), a connecting arm (403) is welded on the sliding block (402), an installation seat (404) is welded on the front end face of the connecting arm (403), a second heating pipe (405) is arranged on the installation seat (404) in a linear array mode, the second heating pipe (405) is located at a position 10cm above the second conveying belt (302), and the second heating pipes (405) arranged in the linear array mode jointly form a drying structure of a drying piece on the second conveying belt (302);

an elastic telescopic rod (406) is arranged on the sliding seat (401), and one end of the right side of the elastic telescopic rod (406) is fixed on the left end face of the sliding block (402);

the bottom end surface of the connecting arm (403) is in contact with the top end surface of the second conveying belt (302), when the second conveying belt (302) moves, the bulge (2) and the connecting arm (403) are in an elastic contact state, at the moment, the connecting arm (403) is in a reciprocating motion state under the stirring of the bulge (2), and at the moment, the second heating pipe (405) is also in a reciprocating motion state;

the first rotating shaft (501) is rotatably connected with a turnover plate (502), and the turnover plate (502) is of an L-shaped structure;

a supporting plate (503) is welded in the frame body (1), the top end surface of the supporting plate (503) is contacted with the overturning plate (502), and the overturning plate (502) is aligned with the second conveying belt (302);

the supporting plate (503) is of a concave plate-shaped structure, two rubber ribs (504) are arranged on the supporting plate (503), one end above the two rubber ribs (504) is connected with the bottom end surface of the turnover plate (502), and the two rubber ribs (504) jointly form a reset structure of the turnover plate (502);

an incomplete gear (303) is arranged on the second roller (301) on the left side;

the first rotating shaft (501) is provided with a second gear (505), when the second rolling shaft (301) rotates, the incomplete gear (303) is meshed with the second gear (505), the first rotating shaft (501) is in a rotating state, and the overturning plate (502) is in an overturning state;

the first conveyor belt (102) is provided with through holes (104) in a rectangular array shape, the through holes (104) are of a cylindrical hole-shaped structure, and the through holes (104) in the rectangular array shape jointly form a ventilation structure of the first conveyor belt (102);

each first roller (101) is provided with a first gear (103);

an impeller (602) is arranged on the second rotating shaft (601), and the impeller (602) is positioned in the middle of the first conveying belt (102);

a third gear (603) is arranged on the second rotating shaft (601), and the third gear (603) is meshed with the first gear (103);

when the device is used, when the first roller 101 and the second roller 301 rotate, the first conveyor belt 102 and the second conveyor belt 302 move, and the second heating pipe 405 can be used for realizing rapid drying of objects on the second conveyor belt 302; the bottom end surface of the connecting arm 403 contacts with the top end surface of the second conveying belt 302, when the second conveying belt 302 moves, the bulge 2 and the connecting arm 403 are in an elastic contact state, at the moment, the connecting arm 403 is in a reciprocating motion state under the stirring of the bulge 2, at the moment, the second heating pipe 405 is also in a reciprocating motion state, and at the moment, the drying quality of a drying piece can be improved; the first and second conveyor belts 102 and 302 and the protrusions 2 on the first and second conveyor belts 102 and 302 can be heated by the first heating pipe 106, and when the drying parts are placed on the protrusions 2 on the first and second conveyor belts 102 and 302, the auxiliary drying of the bottoms of the drying parts can be realized by the heat emitted by the first and second conveyor belts 102 and 302;

when the second roller 301 rotates, the top end surface of the supporting plate 503 contacts with the overturning plate 502, and at this time, the overturning plate 502 is aligned with the second conveying belt 302, so that the drying piece is convenient to move onto the overturning plate 502; the reset of the turnover plate 502 can be realized through two rubber ribs 504; when the second roller 301 rotates, the incomplete gear 303 is meshed with the second gear 505, at this time, the first rotating shaft 501 is in a rotating state, at this time, the overturning plate 502 is in an overturning state, so that overturning of the drying piece can be completed through the overturning plate 502, the overturning drying piece can fall on the first conveying belt 102, and at this time, drying on the back surface of the drying piece can be facilitated; when the first roller 101 rotates, the impeller 602 can rotate through the engagement of the third gear 603 and the first gear 103, and at the moment, wind generated by the rotation of the impeller 602 can be sprayed out through the through hole 104, and at the moment, air flow contacts with the drying member to finish the air flow drying of the drying member.

2. A method of using a drying apparatus having a reciprocating structure as claimed in claim 1, wherein: the drying section (4) is not limited to one.