CN203612524U - Tunnel kiln carrying disc cyclic conveying mechanism - Google Patents

Abstract

The utility model discloses a tunnel kiln carrying disc cyclic conveying mechanism. The tunnel kiln carrying disc cyclic conveying mechanism comprises a carrying disc, a horizontal reciprocating motion mechanism, a drying box, a cooling box, a lifting mechanism, a rotating and carrying rail, an upper discharging mechanism and a synchronous rotation mechanism. According to the tunnel kiln carrying disc cyclic conveying mechanism, the horizontal reciprocating motion mechanism, the drying box, the cooling box, the lifting mechanism, the rotating and carrying rail, the upper discharging mechanism and the synchronous rotation mechanism are ingeniously combined, and when passing through a tunnel to dry and cool a product, the carrying disc can achieve cyclic conveying, and an automatic production line can be used conveniently.

Description

Continuous tunnel furnace load plate cyclic transfer mechanism

Technical field

The utility model relates to the connecting gear of continuous tunnel furnace load plate, particularly relates to a kind of continuous tunnel furnace load plate and sends mechanism in cycles.

Background technology

A kind of continuous tunnel furnace of prior art refers to that this continuous tunnel furnace has generally included drying unit and cooling mechanism for product being dried and cooling device.The drying unit of this continuous tunnel furnace and cooling mechanism are all designed to strip shape,, at product along realizing oven dry to product and cooling processing in the transport process of straight line, the drying unit of this continuous tunnel furnace and cooling mechanism are normally arranged on transmission track, move on transmission track by product, thereby realize oven dry to product and cooling processing.In the oven dry to product and cooling treating process, normally needs oven dry and cooling product are placed on load plate, then load plate is placed on transmission track, on transmission track, move through drying unit by load plate and realize the drying and processing to product, then on transmission track, move through cooling mechanism by load plate and realize the cooling processing to product.In this continuous tunnel furnace, due to the transmission of load plate is not realized to circulation, therefore, be not easy to the automated production to product.

Utility model content

The purpose of this utility model is to overcome the deficiency of prior art, provide a kind of continuous tunnel furnace load plate to send mechanism in cycles, by the Combination application to various mechanisms, load plate is realized in oven dry to product and cooling treating process at process of passing through tunnel stove, can realize the cyclic transfer of load plate, thereby be conducive to the use of automatic production line.

The utility model solves the technical scheme that its technical matters adopts: a kind of continuous tunnel furnace load plate cyclic transfer mechanism, comprising:

Load plate;

A horizontal reciprocating travel mechanism, the load plate bearing plate that there is horizontal rail and can move back and forth in horizontal rail, described horizontal rail is sequentially with primary importance, the second place and the 3rd position;

A drying baker, is arranged on the position suitable with the 3rd position of described horizontal rail, and this drying baker is provided with along vertical drying cavity, and the 3rd position of described horizontal rail puts in the bottom of described drying cavity;

A cold chamber, is arranged on the position suitable with the second place of described horizontal rail, and this cold chamber is provided with along vertical cooling chamber, and the second place of described horizontal rail puts in the bottom of described cooling chamber;

Two lifting mechanisms, be arranged on respectively the below of drying baker, cold chamber, two lifting mechanisms have respectively the lifting bar that can move up and down along corresponding drying cavity, cooling chamber, the load plate that enters the 3rd position can be moved to drying cavity the inside, make the load plate of cooling chamber the inside can drop to second place place;

Track is carried in a rotation, is arranged on the top of drying baker and cold chamber, is used for moving up and down of load plate to provide and step down and provide rail supported to the parallel motion of load plate; With

A top discharge mechanism, is arranged on the top of cold chamber and matches with described rotation carrying track, in order to the load plate in rail supported is moved to the top of cold chamber from the top of drying baker.

Further, also comprise two synchronous rotating mechanisms, and described load plate is multiple, several pillar stiffeners that load plate is upwards protruded out by chassis and chassis periphery form; Described two synchronous rotating mechanisms are arranged on respectively the bottom of drying baker, cold chamber, and respectively with two corresponding matching of lifting mechanism; Described two synchronous rotating mechanisms are respectively equipped with and can, along the piece of accepting of horizontal surface rotary oscillation, accept piece and replace by rotation, to realize, load plate are supported or are stepped down.

Described horizontal reciprocating travel mechanism also comprises the first motor, the first synchronizing wheel and the first Timing Belt, and described the first motor, the first synchronizing wheel and the first Timing Belt correspondence match; Described horizontal rail is two, and described load plate bearing plate is slidably connected in described horizontal rail and with the first Timing Belt and fixes.

Described lifting mechanism also comprises the second motor, worm and gear assembly, bracing frame and orienting sleeve, described orienting sleeve is fixed on the first preset platen place, described the second motor and worm and gear assembly are connected, support frame as described above and described worm and gear assembly fix, described lifting bar is and is vertically slidably socketed in described orienting sleeve, and the bottom of described lifting bar is fixed on bracing frame.

Described rotation carrying track comprises two groups of rotary cylinders, coupler, S. A. and load plate rolling support part, described rotary cylinder is connected with S. A. by coupler, described rolling support part is multiple, multiple load plate rolling support parts are evenly distributed on described S. A., and are radially fixed on described S. A. along same respectively; Described rotation carrying track provides and steps down as load plate rolling support part rotates and is vertical position along S. A. moving up and down of load plate, and it is that load plate rolling support part rotates and is level attitude and contacts with the bottom surface of described load plate along S. A. that described rotation carrying track provides rail supported to the parallel motion of load plate.

Described top discharge mechanism comprises the 3rd motor, the 3rd synchronizing wheel, the 3rd Timing Belt, guide rail and drag hook component, and described the 3rd motor, the 3rd synchronizing wheel and the 3rd Timing Belt correspondence match; Described guide rails assembling is at the top of cold chamber, and described drag hook component is slidably connected on described guide rail and with the 3rd Timing Belt and fixes.

Described synchronous rotating mechanism also comprises the 4th motor, drive sprocket, chain, driven sprocket and turning cylinder, rotating shaft and the drive sprocket of described the 4th motor fix, described drive sprocket is connected by chain and multiple driven sprocket, each driven sprocket connects a turning cylinder, turning cylinder is vertical setting, described in the top of turning cylinder connects, accepts piece.

A kind of continuous tunnel furnace load plate of the present utility model sends mechanism in cycles, in the time only having a load plate cyclic transfer, comprises the steps:

A. horizontal reciprocating travel mechanism is sent to load plate the 3rd position of horizontal rail by the primary importance of horizontal rail;

B. the lifting mechanism of drying baker is raised to load plate at the top of drying baker;

C. rotation carrying track forms and supports load plate, and moving track is provided; The lifting mechanism of drying baker starts to return initial bit;

D. top discharge mechanism moves the load plate at drying baker top at the top of cold chamber;

E. the lifting mechanism of cold chamber is raised to the top of cold chamber and load plate is formed and supported;

F. rotation carrying track forms and steps down load plate, and the lifting mechanism of cold chamber drops to load plate the second place of horizontal rail;

G. horizontal reciprocating travel mechanism is sent to load plate the primary importance of horizontal rail by the second place of horizontal rail.

A kind of continuous tunnel furnace load plate of the present utility model sends mechanism in cycles, in the time having multiple load plates cyclic transfer, comprises the steps:

A. horizontal reciprocating travel mechanism is sent to load plate the 3rd position of horizontal rail by the primary importance of horizontal rail;

B. the lifting mechanism of drying baker is raised to load plate the position of the synchronous rotating mechanism of drying baker, this load plate is contacted with a upper load plate that obtains synchronous rotating mechanism support, and continue the height and position of a load plate of rising, make the load plate of the top of drying baker one deck enter the correspondence position of rotation carrying track;

C. the synchronous rotating mechanism of drying baker forms and supports this load plate; The lifting mechanism of drying baker starts to return initial bit;

D. the load plate of rotation carrying track top one deck to drying baker forms and supports, and moving track is provided;

E. the top that top discharge mechanism moves the load plate of the top of drying baker one deck to cold chamber;

F. the lifting mechanism of cold chamber is raised to the load plate place of one deck of the end of cold chamber, and load plate is formed and supported;

G. rotation carrying track forms and steps down load plate, the synchronous rotating mechanism of cold chamber also forms and steps down load plate, the height and position of a load plate of lifting mechanism decline of cold chamber, make the load plate of the top of cold chamber one deck depart from the correspondence position of rotation carrying track, the load plate of one deck of the end of cold chamber departs from the correspondence position of synchronous rotating mechanism;

H. the synchronous rotating mechanism of cold chamber forms and supports the load plate of the second layer of the end;

I. the lifting mechanism of cold chamber drops to the load plate of one deck of the end second place of horizontal rail;

J. horizontal reciprocating travel mechanism is sent to the load plate of one deck of the end of cold chamber the primary importance of horizontal rail by the second place of horizontal rail.

Compared with prior art, the beneficial effects of the utility model are:

Owing to having adopted, horizontal reciprocating travel mechanism, drying baker, cold chamber, lifting mechanism, rotation carrying track, top discharge mechanism and synchronous rotating mechanism are combined cleverly, load plate is realized in oven dry to product and cooling treating process at process of passing through tunnel stove, can realize the cyclic transfer of load plate, thereby be conducive to the use of automatic production line.

Below in conjunction with drawings and Examples, the utility model is described in further detail; But a kind of continuous tunnel furnace load plate of the present utility model sends mechanism in cycles and is not limited to embodiment.

Accompanying drawing explanation

Fig. 1 is the structural representation that continuous tunnel furnace load plate of the present utility model sends mechanism in cycles;

Fig. 2 is the structural representation that continuous tunnel furnace load plate of the present utility model sends the horizontal reciprocating travel mechanism of mechanism in cycles;

Fig. 3 is the birds-eye view of the travel mechanism of horizontal reciprocating shown in Fig. 2;

Fig. 4 is the structural representation that continuous tunnel furnace load plate of the present utility model sends the lifting mechanism of mechanism in cycles;

Fig. 5 is the birds-eye view of lifting mechanism shown in Fig. 4;

Fig. 6 is the structural representation that continuous tunnel furnace load plate of the present utility model sends the rotation carrying track of mechanism in cycles;

Fig. 7 is the birds-eye view of the carrying of rotation shown in Fig. 5 track;

Fig. 8 is the structural representation that continuous tunnel furnace load plate of the present utility model sends the top discharge mechanism of mechanism in cycles;

Fig. 9 is the birds-eye view of the mechanism of top discharge shown in Fig. 8;

Figure 10 is the structural representation that continuous tunnel furnace load plate of the present utility model sends the synchronous rotating mechanism of mechanism in cycles;

Figure 11 is the upward view of synchronous rotating mechanism shown in Figure 10;

Figure 12 is the birds-eye view of synchronous rotating mechanism shown in Figure 10;

Figure 13 is the structural representation of synchronous rotating mechanism of the present utility model (holding state);

Figure 14 is the structural representation that continuous tunnel furnace load plate of the present utility model sends the load plate of mechanism in cycles;

Figure 15 is the birds-eye view of load plate shown in Figure 14.

The specific embodiment

Embodiment,

Referring to shown in Fig. 1 to Figure 15, a kind of continuous tunnel furnace load plate of the present utility model sends mechanism in cycles, comprising:

Load plate 1;

A horizontal reciprocating travel mechanism 2, the load plate bearing plate 22 that there is horizontal rail 21 and can move back and forth in horizontal rail, described horizontal rail is sequentially with primary importance M1, second place M2 and the 3rd position M3;

A drying baker 3, is arranged on the position suitable with the 3rd position M3 of described horizontal rail, and this drying baker 3 is provided with along vertical drying cavity, and the 3rd position M3 of described horizontal rail puts in the bottom of described drying cavity;

A cold chamber 4, is arranged on the position suitable with the second place M2 of described horizontal rail, and this cold chamber 4 is provided with along vertical cooling chamber, and the second place M2 of described horizontal rail puts in the bottom of described cooling chamber;

Two lifting mechanisms 5, be arranged on respectively the below of drying baker 3, cold chamber 4, two lifting mechanisms 5 have respectively the lifting bar 51 that can move up and down along corresponding drying cavity, cooling chamber, the load plate 1 that enters the 3rd position can be moved to drying cavity the inside, make the load plate 1 of cooling chamber the inside can drop to second place place;

Track 6 is carried in a rotation, is arranged on the top of drying baker 3 and cold chamber 4, is used for moving up and down of load plate 1 to provide and step down and provide rail supported to the parallel motion of load plate; With

A top discharge mechanism 7, is arranged on the top of cold chamber 4 and matches with described rotation carrying track 6, in order to the load plate in rail supported 1 is moved to the top of cold chamber 4 from the top of drying baker 3.

Further, also comprise two synchronous rotating mechanisms 8, and described load plate 1 is multiple, several pillar stiffeners 12 that load plate is upwards protruded out by chassis 11 and chassis periphery form, four corners and middle, front and back on chassis 11 are provided with 6 square steel supporting posts 12, chassis 11 is provided with well-distributed deflation hole, and chassis 11 is also evenly distributed and is provided with a point groove sliver; Described two synchronous rotating mechanisms 8 are arranged on respectively the bottom of drying baker 3, cold chamber 4, and respectively with two corresponding matching of lifting mechanism 5; Described two synchronous rotating mechanisms 8 be respectively equipped with can along horizontal surface rotary oscillation accept piece 81, accept piece 81 and replace by rotation, to realize, load plate 1 is supported or is stepped down.

Described horizontal reciprocating travel mechanism 2 also comprises the first motor 23, the first synchronizing wheel and the first Timing Belt 24, and described the first motor 23, the first synchronizing wheel and the first Timing Belt 24 correspondences match; Described horizontal rail 21 is two, and described load plate bearing plate 22 is slidably connected in described horizontal rail 21 and with the first Timing Belt 24 and fixes.Load plate 1 can be placed in load plate bearing plate 22 tops, by the first motor 23, load plate bearing plate 22 is moved, and makes load plate 1 arrive assigned address.

Described lifting mechanism 5 also comprises the second motor 52, worm and gear assembly 53, bracing frame 54 and orienting sleeve 55, described orienting sleeve 55 is fixed on the first preset platen 91 places, described the second motor 52 and worm and gear assembly 53 are connected, support frame as described above 54 fixes with described worm and gear assembly 53, described lifting bar 51 is and is vertically slidably socketed in described orienting sleeve 55, and the bottom of described lifting bar 51 is fixed on bracing frame 54.The second motor 52 has driven worm and gear assembly 53 to move while action, and worm and gear assembly 53 drives bracing frame 54 to move up and down, and bracing frame 54 drives lifting bar 51 to move up and down along orienting sleeve 55.

Described rotation carrying track 6 comprises two groups of rotary cylinders 61, coupler 62, S. A. 63 and load plate rolling support part 64, described rotary cylinder 61 is connected with S. A. 63 by coupler 62, described rolling support part 64 is multiple, multiple load plate rolling support parts 64 are evenly distributed on described S. A. 63, and are radially fixed on described S. A. 63 along same respectively; Described rotation carrying track 6 provides to step down to moving up and down of load plate and rotates and be vertical position along S. A. for load plate rolling support part 64, it is that load plate rolling support part 64 rotates and is level attitude and contacts with the bottom surface of described load plate along S. A. that described rotation carrying track 6 provides rail supported to the parallel motion of load plate, now, load plate rolling support part 64 forwards the direction of inner side to.In the time that load plate rolling support part 64 rotates to vertical position, load plate in drying baker 3 can rise, after rising puts in place, rotation carrying track 6 moves, load plate rolling support part 64 is rotated to level attitude, load plate is just placed on load plate rolling support part 64, the lifting mechanism of drying baker 3 declines, load plate 1 is drawn out to cold chamber 4 positions by top discharge mechanism 7, the lifting mechanism of cold chamber 4 rises to top, rotation carrying track 6 moves again, load plate rolling support part 64 is rotated to vertical position, cold chamber 4 load plate topmost departs from the support of load plate rolling support part 64, the lifting mechanism of cold chamber 4 declines, load plate is sent.

Described top discharge mechanism 7 comprises the 3rd motor 71, the 3rd synchronizing wheel, the 3rd Timing Belt 72, guide rail 73 and drag hook component 74, and described the 3rd motor 71, the 3rd synchronizing wheel and the 3rd Timing Belt 72 correspondences match; Described guide rail 73 is arranged on the top of cold chamber 4, and described drag hook component 74 is slidably connected on described guide rail 73 and with the 3rd Timing Belt 72 and fixes.Under normal condition, the 3rd motor 71 revert to the drag hook component with drag hook 74 in cold chamber 4, in the time that the load plate of drying baker 3 is carried on track 6 in rotating, the 3rd motor 71 moves, drag hook component 74 with drag hook moves to drying baker 3 directions, when putting in place, the drag hook of drag hook component 74 is just held load plate, is then pulled to the top of cold chamber 4.Two drag hook components 74 have been shown in Fig. 8, Fig. 9, and one of them represents the drag hook component 74 in initial position, the drag hook component 74 after another expression is mobile.

Described synchronous rotating mechanism 8 also comprises the 4th motor 82, drive sprocket, chain 83, driven sprocket 84 and turning cylinder 85, rotating shaft and the drive sprocket of described the 4th motor 82 fix, described drive sprocket is connected by chain 83 and multiple driven sprockets 84, each driven sprocket 84 connects a turning cylinder 85, turning cylinder 85 is vertical setting, described in the top of turning cylinder connects, accepts piece 81.The 4th motor 82 is with drive sprocket to rotate, and drive sprocket drives 4 driven sprockets 84 to rotate through chain 83, and driven sprocket 84 is installed on turning cylinder 85, and turning cylinder 85 tops are connected to one and accept piece 81.Utilization is accepted piece 81 swingings and is reached the object of accepting multilayer load plate 1.Turning cylinder 85 is to be fixed on two preset platens by rotating shaft cover, between two platens, connects with pillar stiffener.By the control to the 4th motor 82, make to accept piece 81 and have two positions, in the time accepting piece 81 and forward as shown in figure 12 position S1 to, the piece 81 of accepting in Figure 12 has been expressed two positions, accepting piece 81 formation steps down, load plate can lifting, in the time accepting piece 81 and forward as shown in figure 12 position S2 to, accepts piece 81 and supports load plate.

A kind of continuous tunnel furnace load plate of the present utility model sends mechanism in cycles, in the time only having a load plate cyclic transfer, comprises the steps:

A. load plate 1 is placed on load plate bearing plate 22 and fills product, the primary importance M1 of load plate bearing plate 22 in horizontal rail 21, and horizontal reciprocating travel mechanism 2 is sent to load plate 1 the 3rd position M3 of horizontal rail by the primary importance M1 of horizontal rail 21; In the time that load plate 1 will enter drying baker 3, the Xiamen open-and-close mechanism of drying baker 3 need to be opened Xiamen;

B. the lifting mechanism 5 of drying baker 3 is raised to load plate 1 at the top of drying baker 3; When the load plate 1 in horizontal reciprocating travel mechanism 2 leaves after the 3rd position M3 of horizontal rail, horizontal reciprocating travel mechanism 2 returns to load plate bearing plate 22 second place M2 of horizontal rail 21, and the Xiamen open-and-close mechanism of drying baker 3 is closed Xiamen;

C. rotation carrying track 6 forms and supports load plate 1, and moving track is provided; The lifting mechanism 5 of drying baker 3 starts to return initial bit;

D. the top that top discharge mechanism 7 moves the load plate 1 at drying baker 3 tops to cold chamber 4; In the time that top discharge mechanism 7 will move, the open-and-close mechanism of visiting of drying baker 3 need to be opened visiting, and makes the drag hook of top discharge mechanism 7 can enter drying baker 3 tops;

E. the lifting mechanism 5 of cold chamber 4 forms and supports the load plate 1 at cold chamber top; Enter after cold chamber 4 at load plate 1, the open-and-close mechanism of visiting of drying baker 3 will be visited and be closed;

F. rotation carrying track 6 forms and steps down load plate 1, and the lifting mechanism 5 of cold chamber 4 drops to load plate 1 second place M2 of horizontal rail, is put on the load plate bearing plate 22 of second place M2 of horizontal rail;

G. horizontal reciprocating travel mechanism 2 is sent to load plate 1 the primary importance M1 of horizontal rail by the second place M2 of horizontal rail.

Primary importance M1 in horizontal rail 21 will be dried, cooled product takes out, and then puts into new product, repeating step A to G.

A kind of continuous tunnel furnace load plate of the present utility model sends mechanism in cycles, in the time having multiple load plates cyclic transfer, comprises the steps:

A. load plate 1 is placed on load plate bearing plate 22 and fills product, the primary importance M1 of load plate bearing plate 22 in horizontal rail 21, and horizontal reciprocating travel mechanism 2 is sent to load plate 1 the 3rd position M3 of horizontal rail by the primary importance M1 of horizontal rail 21; In the time that load plate 1 will enter drying baker 3, the Xiamen open-and-close mechanism of drying baker 3 need to be opened Xiamen;

B. the lifting mechanism 5 of drying baker 3 is raised to load plate 1 position of the synchronous rotating mechanism 8 of drying baker, this load plate is contacted with the upper load plate that acquisition synchronous rotating mechanism 8 supports, and continue the height and position of a load plate of rising, make the load plate of the top of drying baker one deck enter the correspondence position of rotation carrying track 6; When load plate 1 leaves after the 3rd position M3 of horizontal rail, horizontal reciprocating travel mechanism 2 returns to load plate bearing plate 22 second place M2 of horizontal rail 21, and the Xiamen open-and-close mechanism of drying baker 3 is closed Xiamen;

C. the synchronous rotating mechanism 8 of drying baker 3 forms and supports this load plate; The lifting mechanism 5 of drying baker 3 starts to return initial bit;

D. the load plate 1 of rotation carrying track 6 top one deck to drying baker 3 forms and supports, and moving track is provided;

E. the top that top discharge mechanism 7 moves the load plate 1 of drying baker 3 top one decks to cold chamber 4; In the time that top discharge mechanism 7 will move, the open-and-close mechanism of visiting of drying baker 3 need to be opened visiting, and makes the drag hook of top discharge mechanism 7 can enter drying baker 3 tops;

F. the lifting mechanism 5 of cold chamber 4 is raised to load plate 1 place of one deck of the end of cold chamber 5, and load plate 1 is formed and supported; Enter after cold chamber 4 at load plate 1, the open-and-close mechanism of visiting of drying baker 3 will be visited and be closed;

G. rotation carrying track 6 forms and steps down load plate, the synchronous rotating mechanism 8 of cold chamber 4 also forms and steps down load plate, the decline height and position of a load plate of the lifting mechanism 5 of cold chamber 4, make the load plate of the top of cold chamber 4 one deck depart from the correspondence position of rotation carrying track 6, the load plate of one deck of the end of cold chamber departs from the correspondence position of synchronous rotating mechanism 8;

H. the synchronous rotating mechanism 8 of cold chamber 4 forms and supports the load plate of the second layer of the end;

I. the lifting mechanism 5 of cold chamber 4 drops to the load plate 1 of one deck of the end second place M2 of horizontal rail, is put on the load plate bearing plate 22 of second place M2 of horizontal rail;

J. horizontal reciprocating travel mechanism is sent to the load plate of one deck of the end of cold chamber the primary importance M1 of horizontal rail by the second place M2 of horizontal rail.

Primary importance M1 in horizontal rail 21 will be dried, cooled product takes out, and then puts into new product, repeating step a to j.

Above-described embodiment is only used for further illustrating a kind of continuous tunnel furnace load plate of the present utility model and sends mechanism in cycles; but the utility model is not limited to embodiment; any simple modification, equivalent variations and modification that every foundation technical spirit of the present utility model is done above embodiment, all fall in the protection domain of technical solutions of the utility model.

Claims (7)

1. a continuous tunnel furnace load plate cyclic transfer mechanism, is characterized in that: comprising:

Load plate;

A horizontal reciprocating travel mechanism, the load plate bearing plate that there is horizontal rail and can move back and forth in horizontal rail, described horizontal rail is sequentially with primary importance, the second place and the 3rd position;

A drying baker, is arranged on the position suitable with the 3rd position of described horizontal rail, and this drying baker is provided with along vertical drying cavity, and the 3rd position of described horizontal rail puts in the bottom of described drying cavity;

A cold chamber, is arranged on the position suitable with the second place of described horizontal rail, and this cold chamber is provided with along vertical cooling chamber, and the second place of described horizontal rail puts in the bottom of described cooling chamber;

Two lifting mechanisms, be arranged on respectively the below of drying baker, cold chamber, two lifting mechanisms have respectively the lifting bar that can move up and down along corresponding drying cavity, cooling chamber, the load plate that enters the 3rd position can be moved to drying cavity the inside, make the load plate of cooling chamber the inside can drop to second place place;

Track is carried in a rotation, is arranged on the top of drying baker and cold chamber, is used for moving up and down of load plate to provide and step down and provide rail supported to the parallel motion of load plate; With

A top discharge mechanism, is arranged on the top of cold chamber and matches with described rotation carrying track, in order to the load plate in rail supported is moved to the top of cold chamber from the top of drying baker.

2. continuous tunnel furnace load plate according to claim 1 cyclic transfer mechanism, is characterized in that: further, also comprise two synchronous rotating mechanisms, and described load plate is multiple, several pillar stiffeners that load plate is upwards protruded out by chassis and chassis periphery form; Described two synchronous rotating mechanisms are arranged on respectively the bottom of drying baker, cold chamber, and respectively with two corresponding matching of lifting mechanism; Described two synchronous rotating mechanisms are respectively equipped with and can, along the piece of accepting of horizontal surface rotary oscillation, accept piece and replace by rotation, to realize, load plate are supported or are stepped down.

3. continuous tunnel furnace load plate according to claim 1 and 2 sends mechanism in cycles, it is characterized in that: described horizontal reciprocating travel mechanism also comprises the first motor, the first synchronizing wheel and the first Timing Belt, and described the first motor, the first synchronizing wheel and the first Timing Belt correspondence match; Described horizontal rail is two, and described load plate bearing plate is slidably connected in described horizontal rail and with the first Timing Belt and fixes.

4. continuous tunnel furnace load plate according to claim 1 and 2 sends mechanism in cycles, it is characterized in that: described lifting mechanism also comprises the second motor, worm and gear assembly, bracing frame and orienting sleeve, described orienting sleeve is fixed on the first preset platen place, described the second motor and worm and gear assembly are connected, support frame as described above and described worm and gear assembly fix, described lifting bar is and is vertically slidably socketed in described orienting sleeve, and the bottom of described lifting bar is fixed on bracing frame.

5. continuous tunnel furnace load plate according to claim 1 and 2 sends mechanism in cycles, it is characterized in that: described rotation carrying track comprises two groups of rotary cylinders, coupler, S. A. and load plate rolling support part, described rotary cylinder is connected with S. A. by coupler, described rolling support part is multiple, multiple load plate rolling support parts are evenly distributed on described S. A., and are radially fixed on described S. A. along same respectively; Described rotation carrying track provides and steps down as load plate rolling support part rotates and is vertical position along S. A. moving up and down of load plate, and it is that load plate rolling support part rotates and is level attitude and contacts with the bottom surface of described load plate along S. A. that described rotation carrying track provides rail supported to the parallel motion of load plate.

6. continuous tunnel furnace load plate according to claim 1 and 2 sends mechanism in cycles, it is characterized in that: described top discharge mechanism comprises the 3rd motor, the 3rd synchronizing wheel, the 3rd Timing Belt, guide rail and drag hook component, and described the 3rd motor, the 3rd synchronizing wheel and the 3rd Timing Belt correspondence match; Described guide rails assembling is at the top of cold chamber, and described drag hook component is slidably connected on described guide rail and with the 3rd Timing Belt and fixes.

7. continuous tunnel furnace load plate according to claim 1 and 2 sends mechanism in cycles, it is characterized in that: described synchronous rotating mechanism also comprises the 4th motor, drive sprocket, chain, driven sprocket and turning cylinder, rotating shaft and the drive sprocket of described the 4th motor fix, described drive sprocket is connected by chain and multiple driven sprocket, each driven sprocket connects a turning cylinder, turning cylinder is vertical setting, described in the top of turning cylinder connects, accepts piece.

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