CN210259895U - Multi-layer parallel tray material conveying mechanism for material temperature processing box - Google Patents

Abstract

The utility model provides a parallel tray material transport mechanism of multilayer for material temperature handles case, include: the conveying device comprises a first conveying unit, a second conveying unit, a plurality of rectangular trays, a plurality of first connecting units, a plurality of second connecting units, a plurality of horizontal running guide units and a plurality of turning running guide units. The first conveying unit and the second conveying unit are identical in structure and are of a multi-layer transmission structure opposite to each other, the plurality of rectangular trays are driven to move by the first conveying unit and the second conveying unit, the horizontal operation guiding unit ensures that the trays of the rectangular trays cannot tilt during horizontal operation, and the turning operation guiding unit ensures that the trays of the rectangular trays cannot tilt during turning operation again, so that the rectangular trays can stably move in the whole temperature processing and conveying process.

Description

Multi-layer parallel tray material conveying mechanism for material temperature processing box

Technical Field

The utility model relates to a material transfer equipment technical field, in particular to a parallel tray material transport mechanism of multilayer for material temperature handles case.

Background

The multilayer material temperature processing box is a device for baking materials such as food, medicines, electronic components and the like at high temperature or cooling the materials at low temperature. Because it has the multilayer transmission space, make the case of handling have whole small, the energy consumption is little, advantage that the treatment effeciency is high. In most multilayer temperature treatment box at present, its material transport mechanism comprises a plurality of closed loop conveyer belts that are multilayer setting from top to bottom, and the material is carried along with the conveyer belt, falls the mode by the freedom and conveys from the upper strata to the lower floor, and this kind of transport mechanism makes the material cause the damage in falling the in-process easily. At present, materials are conveyed through a suspension type tray conveying mechanism in a multi-layer material temperature processing box to avoid falling of the materials, however, when the materials are laid unevenly in the suspension tray, the tray is prone to inclining, and if the distance between a plurality of trays is small, the trays are mutually clamped and bumped to influence the running condition.

SUMMERY OF THE UTILITY MODEL

The utility model relates to a solve above-mentioned problem and go on, aim at provides a parallel tray material transport mechanism of multilayer for material temperature handles case.

The utility model provides a parallel tray material transport mechanism of multilayer for material temperature handles case has such characteristic, include: the device comprises a first conveying unit, a second conveying unit, a plurality of rectangular trays, a plurality of first connecting units, a plurality of second connecting units, a plurality of horizontal running guide units and a plurality of turning running guide units, wherein the first conveying unit and the second conveying unit are the same in structure and are arranged at the same horizontal position, and each conveying unit comprises a plurality of conveying wheels which are arranged in an up-down multilayer manner and a conveying chain which forms a multilayer closed-loop structure around the plurality of conveying wheels; the plurality of rectangular trays are driven by the first conveying unit and the second conveying unit to move, each rectangular tray is provided with two parallel length sides and a first width side and a second width side, the first width sides are connected with the conveying chains of the first conveying unit through the first connecting unit in a hinged mode, and the second width sides are connected with the conveying chains of the second conveying unit through the second connecting unit in a hinged mode; the horizontal operation guide units are used for limiting when the rectangular tray moves horizontally, and the plurality of horizontal operation guide units are correspondingly arranged at the lower position of each layer of the conveying chain of the first conveying unit; the turning operation guide units are used for limiting when the rectangular tray turns and moves, and the turning operation guide units are correspondingly arranged on one side of each conveying wheel of the second conveying unit.

The utility model provides an among the parallel tray material transport mechanism of multilayer for material temperature handles case, can also have such characteristic: the first connecting unit comprises a first square guide rod and a first shaft pin, the first square guide rod is fixedly connected to the lower surface of the rectangular tray and extends along a first width edge, a first through hole is formed in the middle of the first square guide rod, one end of the first shaft pin is fixed to a conveying chain of the first conveying unit, and the other end of the first shaft pin penetrates through the first through hole.

The utility model provides an among the parallel tray material transport mechanism of multilayer for material temperature handles case, can also have such characteristic: wherein, the first square guide rod is a hollow square tube structure.

The utility model provides an among the parallel tray material transport mechanism of multilayer for material temperature handles case, can also have such characteristic: the horizontal running guide unit is a support plate which is horizontally and fixedly connected to the inner surface of the material temperature processing box, and the width of the support plate is larger than the distance between the outer side surface of the conveying chain of the first conveying unit and the end face of the first shaft pin.

The utility model provides an among the parallel tray material transport mechanism of multilayer for material temperature handles case, can also have such characteristic: wherein, the second linkage unit contains L type connecting plate, the square guide arm of second, the second axle round pin, L type connecting plate comprises looks vertically first board and second board, the internal surface fixed connection of first board is at the lower surface of rectangle tray, the vertical setting of the square guide arm of second and fixed connection are at the surface of second board, the second through hole has been seted up at the middle part of the square guide arm of second, the one end of second axle round pin is fixed on the conveying chain of second conveying unit, the other end passes the second through hole.

The utility model provides an among the parallel tray material transport mechanism of multilayer for material temperature handles case, can also have such characteristic: wherein, the second square guide rod is a hollow square tube structure.

The utility model provides an among the parallel tray material transport mechanism of multilayer for material temperature handles case, can also have such characteristic: wherein, turn operation guide unit contains the fixing base, at least one axle sleeve, at least one guiding axle, at least one L type deflector, at least a set of connecting bolt, at least one spring, the box fixed connection of fixing base and material temperature processing case, at least one installation through-hole has been seted up on the fixing base, the axle sleeve gomphosis just runs through the installation through-hole, spring fixed connection is at the terminal surface of axle sleeve, L type deflector comprises mutually vertically installation board and deflector, the guiding axle runs through the installation board of axle sleeve and spring and L type deflector and passes through a set of connecting bolt fixed connection.

The utility model provides an among the parallel tray material transport mechanism of multilayer for material temperature handles case, can also have such characteristic: when the second square guide rod is positioned at the upper top point position or the lower top point position of the conveying wheel of the second conveying unit, the spring is in an original long state, and the guide plate part of the L-shaped guide plate is in contact with the second square guide rod.

The utility model provides an among the parallel tray material transport mechanism of multilayer for material temperature handles case, can also have such characteristic: the fixed seat is provided with two mounting through holes, the horizontal positions of the two mounting through holes are respectively the same as the horizontal positions of the upper vertex and the lower vertex of the corresponding transmission wheel of the second transmission unit, the number of the shaft sleeves is two, the number of the guide shafts is two, the number of the connecting bolts is two, the number of the springs is two, and the two mounting through holes are respectively matched and mounted correspondingly.

The utility model provides an among the parallel tray material transport mechanism of multilayer for material temperature handles case, can also have such characteristic: wherein, two length limits and the second width limit of rectangle tray all are provided with vertical ascending border, and the first width limit of rectangle tray is provided with vertical decurrent border down, goes up the border and for turning over the bending plate that forms two-layer structure toward turning over outward, and the border is dull and stereotyped for the individual layer of seting up a plurality of fretwork bleeder vents down.

The utility model has the advantages that:

the utility model discloses an among the parallel tray material transport mechanism of multilayer for material temperature handles case, first conveying unit all constructs relative multilayer transmission structure with the same of second conveying unit structure, and a plurality of rectangle trays are driven by first conveying unit and second conveying unit and are removed, have realized that rectangle tray multilayer conveying fully accepts thermal treatment or cold treatment in the box. The horizontal running guide unit ensures that the rectangular tray cannot incline when running horizontally; the turn operation guide unit has guaranteed that the tray can not incline when the rectangle tray turns the operation again, the utility model discloses an among the parallel tray material transport mechanism of multilayer, horizontal operation guide unit cooperatees with turn operation guide unit and has guaranteed the stability of rectangle tray operation, avoids the mutual card between the tray to bump, therefore the rectangle tray keeps steady removal at the in-process of whole temperature processing conveying.

Drawings

FIG. 1 is a schematic structural diagram of a material temperature processing box in an embodiment of the present invention;

fig. 2 is a side view of a rectangular tray in an embodiment of the invention;

fig. 3 is a top view of a rectangular tray according to an embodiment of the present invention

FIG. 4 is a cross-sectional view of FIG. 2 at B-B;

FIG. 5 is a cross-sectional view at A-A of FIG. 2;

fig. 6 is a schematic view of a rectangular pallet in an embodiment of the present invention, illustrating connection between the conveyor chain of the first conveyor unit and the conveyor chain of the second conveyor unit from a top view;

FIG. 7 is a schematic view of FIG. 6 as seen from direction C;

fig. 8 is a schematic view of a turning operation guide unit in a top view according to an embodiment of the present invention (a state in which a guide plate portion of an L-shaped guide plate is in contact with a second square guide bar);

fig. 9 is a schematic view of a turning operation guide unit in a side view according to an embodiment of the present invention (a state in which a guide plate portion of an L-shaped guide plate is in contact with a second square guide bar);

fig. 10a to 10g are schematic diagrams of the turning and moving process of the rectangular pallet in the embodiment of the present invention.

Detailed Description

In order to make the utility model discloses the technical means, creation characteristic, reach purpose and efficiency that realize are easily understood and are known, and following embodiment combines the attached drawing right the utility model discloses a parallel tray material transport mechanism of multilayer for material temperature handles case does specifically expoundly.

Fig. 1 shows a material temperature processing box 1 equipped with a multi-layer parallel tray material transfer mechanism 100 for the material temperature processing box.

As shown in fig. 1, the material temperature processing box 1 includes a box body 2, the box body 2 is provided with a conventional box body, and a heating component or a refrigerating component is correspondingly arranged in the box body 2, so that a high-temperature space or a cooling space is formed in an area (as shown in fig. 3) in the box body 2, and the material temperature processing box can be used for high-temperature baking processing or low-temperature cooling processing of materials such as material food, medicines, electronic components and the like.

The multi-layered parallel tray material transfer mechanism 100 for the material temperature processing box of the present embodiment includes a first transfer unit, a second transfer unit, a plurality of rectangular trays 30, a plurality of first connection units 40, a plurality of second connection units 50, a plurality of turn travel guide units 60, and a plurality of horizontal travel guide units 70.

The first conveying unit and the second conveying unit have the same structure, are oppositely arranged and are arranged at the same horizontal position. The first transfer unit includes a plurality of transfer wheels 11 arranged in a plurality of stages up and down, and a transfer chain 12 forming a multi-stage closed loop structure around the plurality of transfer wheels 11 (the first transfer unit is illustrated in fig. 1, and the second transfer unit is not illustrated). The second transfer unit includes a plurality of transfer wheels (fig. 9 illustrates a central shaft 21 of one transfer wheel of the second transfer unit) arranged in a plurality of stages up and down, and a transfer chain 22 (fig. 6, 9 illustrates a transfer chain 22 of the second transfer unit) forming a multi-stage closed loop structure around the plurality of transfer wheels. In this embodiment, conveying chain 12 and conveying chain 22 all set up to six closed loop construction, locate the top feeding from X, accomplish temperature treatment in the box, locate the below ejection of compact from Y, and feed inlet and discharge gate setting have made things convenient for staff's centralized operation in same one side.

The driving wheels of the first and second conveying units are driven by motors, and the plurality of rectangular trays 30 are moved by the first and second conveying units. The rectangular tray 30 is made of metal for heat conduction, as shown in fig. 2 to 4, the rectangular tray 30 has a rectangular bottom surface, and the rectangular bottom surface has two parallel length sides L1 and L2, and a first width side W1 and a second width side W2. As shown in fig. 2 to 4, two length sides L1, L2 and a second width side W2 of the rectangular bottom surface are provided with an upper edge 34 that is vertically upward, and the upper edge 34 is a bending plate that is folded outward to form a two-layer structure. As shown in fig. 2 and 5, the first width side W1 of the rectangular tray 30 is provided with a vertically downward lower edge 31, the lower edge 31 is a single-layer flat plate provided with a plurality of hollow vents 32, and a latch hole 33 is provided at the center of the lower edge 31. Such a configuration of rectangular tray 30 facilitates placement and removal of material from second width side W2, and the provision of hollowed out apertures 32 facilitates ventilation of the bottom of the tray so that the bottom of the tray can uniformly receive hot or cold airflow.

As shown in fig. 6 to 7, the first width side W1 of the rectangular tray 30 is hinged to the conveying chain 12 of the first conveying unit by the first connecting unit 40, and the second width side W2 is hinged to the conveying chain 22 of the second conveying unit by the second connecting unit 50. The two enlarged partial chain sections of fig. 6 only show the parts connected thereto, the rest of the chain being omitted from the figure.

The first connecting unit 40 includes a first square guide 41 and a first axis pin 42. The first square guide rod 41 is a hollow square tube structure, and a first through hole is formed in the middle of the first square guide rod. The first square guide bar is fixed to the lower surface of the tray by a plurality of screws 411 and extends along a first width side W1. One end (right end as shown in fig. 7) of the first shaft pin 42 is fixed to the conveying chain 12 of the first conveying unit and also serves as a shaft pin of the chain, and the other end (left end as shown in fig. 7) of the first shaft pin 42 passes through the shaft pin hole 33 (shaft pin hole 33 is shown in fig. 5) on the lower edge 31 of the rectangular tray 30 and the first through hole on the first square guide rod 41 in sequence. The left end of the first shaft pin is provided with a clamp spring limiting structure or a split pin limiting structure, in this embodiment, as shown in fig. 7, the left end of the first shaft pin 42 adopts the clamp spring limiting structure, a clamp spring groove formed in the first shaft pin 42 is illustrated in fig. 7, and a clamp spring retaining ring is not illustrated in the drawing.

A plurality of horizontally running guide units 70 are correspondingly provided at positions below each layer of the conveying chains 12 of the first conveying unit for limiting when the rectangular tray 30 moves horizontally. In the present embodiment, the conveying chains 12 of the first conveying unit form a conveying structure of six layers, and therefore, the number of the horizontally traveling guide units 70 is correspondingly set to six, and the six horizontally traveling guide units 70 are respectively disposed at positions below the conveying chains 12 forming the six-layer conveying layer. Fig. 7 illustrates one of the horizontal movement guide units 70, as shown in fig. 7, the horizontal movement guide unit 70 is horizontally disposed and welded on the inner wall of the box body, the horizontal movement guide unit 70 is a support plate made of metal, the width of the support plate (b shown in fig. 7) is larger than the distance between the outer side surface of the conveying chain of the first conveying unit and the end surface of the first pivot (a shown in fig. 7), and the distance between the lower surface of the conveying chain 12 in a stationary state and the upper surface of the support plate is 1mm to 2mm, so that the up-and-down vibration amplitude of the conveying chain 12 and the first square guide bar 41 is limited when the pallet is horizontally moved, even if the conveying chain 12 vibrates up and down, the vibration can be limited within a reasonable range, and in an extreme case, only the lower surface of the conveying chain 12 contacts with the support plate, and thus is limited by the support plate, tilting of the rectangular tray 30 is avoided. The arrangement of the horizontally running guide unit 70 ensures smooth progress of the horizontal transfer process of the rectangular tray 30.

As shown in fig. 6 to 7, the second connecting unit 50 includes an L-shaped connecting plate 51, a second square guide rod 52, and a second shaft pin 53. The L-shaped connecting plate 51 is composed of a first plate 51a and a second plate 51b perpendicular to each other, and the inner surface of the first plate 51a is fixedly attached to the lower surface of the rectangular tray by a plurality of screws 511. The second square guide rod 52 is of a hollow square tube structure, a second through hole is formed in the middle of the second square guide rod, and the second square guide rod 52 is vertically arranged and fixedly connected to the outer surface of the second plate part 51b of the L-shaped connecting plate 51 in a welding mode. One end (left end as shown in fig. 7) of the second shaft pin 53 is fixed to the conveying chain 22 of the second conveying unit and also serves as a shaft pin of the chain, and the other end (right end as shown in fig. 7) of the second shaft pin 53 passes through a second through hole of the second square guide bar 52. The right end of the second shaft pin 53 is provided with a clamp spring limiting structure or a cotter pin limiting structure, in this embodiment, as shown in fig. 7, the right end of the second shaft pin 53 adopts the clamp spring limiting structure, a clamp spring groove formed in the second shaft pin 53 is shown in fig. 7, and a clamp spring retainer ring is not shown in the drawing.

A plurality of turning travel guide units 60 are correspondingly provided beside each transfer wheel of the second transfer unit for limiting when the rectangular pallet 30 turns (i.e., moves from the lower layer of the chain to the upper layer or from the upper layer to the lower layer). In the present embodiment, the number of the second transfer unit is seven, the number of the turning travel guide units 60 is seven, and the seven turning travel guide units 60 are correspondingly disposed to the sides of the seven transfer wheels.

As shown in fig. 8 to 9, the turning operation guide unit 60 includes a fixing base 61, at least one shaft sleeve 62, at least one guide shaft 63, at least one L-shaped guide plate 64, at least one set of connecting bolts 65, and at least one spring 66. The fixing seat 61 is fixed on the box body 2 of the material temperature processing box 1 in a conventional fixing mode. At least one mounting through hole is formed in the fixing seat 61, and the hole extending direction of the mounting through hole is the horizontal direction. In order to ensure better guiding effect of the turning operation, in this embodiment, two mounting through holes are formed in the fixing base 61, the positions of the two mounting through holes are respectively the same as the horizontal positions of the upper vertex and the lower vertex of the corresponding second conveying unit, and two shaft sleeves 62, two guiding shafts 63, two sets of connecting bolts 65 and two L-shaped guiding plates 64 are correspondingly arranged in the turning operation guiding unit 60. Fixing base 61 vertically sets up fixed connection on the box of material temperature processing case, and two axle sleeves 62 run through and the gomphosis is two mounting hole from top to bottom, and the one end (as the left end shown in fig. 8) of axle sleeve 62 is provided with the flange, has seted up the screw hole on the flange, and two axle sleeves 62 after the gomphosis pass through flange and screw further fix on fixing base 61. Two springs 66 are fixedly connected to end surfaces of the two bushings 62, respectively. The L-shaped guide plate 64 is composed of a perpendicular mounting plate portion and a guide plate portion. The two guide shafts 63 penetrate the two bushings and the spring 66, respectively, and are connected to the upper end and the lower end of the mounting plate portion of the L-shaped guide plate 64 by a set of connecting bolts 56 (each set of connecting bolts is composed of two connecting bolts), respectively. The positions of the components in the turning operation guide unit 60 are set as follows: when the second square guide bar 52 is at the upper apex position or the lower apex position of the conveying wheel of the second conveying unit, the spring 66 is in the original long state, and the guide plate portion of the L-shaped guide plate 64 is just in contact with the second square guide bar 52, i.e., the contact state shown in fig. 7 to 8.

In the process of turning the rectangular tray 30, the vertically arranged L-shaped guide plate 64 in the turning operation guide unit 60 is always in contact with the vertically arranged second square guide rod 52, so as to ensure that the second square guide rod 52 is in a vertical state, i.e. ensure that the rectangular tray 30 is in a horizontal state and cannot be inclined. In the process of turning the rectangular tray 30, the motor drives the first transmission unit and the first transmission unit to work synchronously, the transmission chain is driven by the transmission wheel to run, and the rectangular tray 30 connected with the transmission chain is driven by the chain to move. 10 a-10 g illustrate the turning of a rectangular tray 30 moving from the lower layer of the chain to the upper layer of the chain, the illustrated conveying wheel is a clockwise-running conveying wheel, during the turning movement of the rectangular tray 30, as shown in FIGS. 10 a-10 b, the second square guide rod 52 gradually approaches the guide plate portion of the L-shaped guide plate 64 until contacting, as shown in FIGS. 10 b-10 c, the chain continues to run, which drives the rectangular tray 30 to move to the left, the second square guide rod 52 gradually applies force to the L-shaped guide plate 64 after contacting the L-shaped guide plate 64, the L-shaped guide plate 64 is forced to move to the left, so that the spring 66 compresses, and the guide shaft 63 moves to the left; as shown in fig. 10 d-10 f, the chain continues to run, which drives the rectangular tray 30 to move rightwards to reach the upper layer of the chain, the spring 66 gradually returns, as shown in fig. 10 f-10 g, and finally the chain continues to run, when the second square guide rod 52 is separated from the L-shaped guide plate 64 and is not contacted any more (as shown in fig. 10 g), namely, the turning guide limit is completed. During the whole turning process, the L-shaped guide plate 64 is always in contact with the second square guide rod 52, so that the second square guide rod 52 is ensured to be in a vertical state, namely, the rectangular tray 30 is ensured to be in a horizontal state and not to be inclined.

The above embodiments are only preferred embodiments of the present invention, and are not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention shall fall within the protection scope of the present invention.

Claims (10)

1. A multi-level parallel tray material transfer mechanism for a material temperature processing bin, comprising:

a first transfer unit, a second transfer unit, a plurality of rectangular trays, a plurality of first connection units, a plurality of second connection units, a plurality of horizontal running guide units, and a plurality of turning running guide units,

the first conveying unit and the second conveying unit are identical in structure and arranged at the same horizontal position, and each conveying unit comprises a plurality of conveying wheels which are arranged in an up-down multilayer mode and a plurality of conveying chains which form a multilayer closed-loop structure around the plurality of conveying wheels;

the plurality of rectangular trays are driven by the first conveying unit and the second conveying unit to move, each rectangular tray is provided with two parallel length sides and a first width side and a second width side, the first width side is hinged with the conveying chain of the first conveying unit through the first connecting unit, and the second width side is hinged with the conveying chain of the second conveying unit through the second connecting unit;

the horizontal operation guide units are used for limiting when the rectangular tray moves horizontally, and the horizontal operation guide units are correspondingly arranged at the lower position of each layer of the conveying chain of the first conveying unit;

the turning operation guide units are used for limiting when the rectangular tray turns and moves, and the turning operation guide units are correspondingly arranged on one side of each conveying wheel of the second conveying unit.

2. The multi-level parallel tray material transfer mechanism for a material temperature processing box of claim 1, wherein:

wherein the first connecting unit comprises a first square guide rod and a first shaft pin,

the first square guide rod is fixedly connected to the lower surface of the rectangular tray and extends along the first width edge,

the middle part of the first square guide rod is provided with a first through hole,

one end of the first shaft pin is fixed on the conveying chain of the first conveying unit, and the other end of the first shaft pin penetrates through the first through hole.

3. The multi-level parallel tray material transfer mechanism for a material temperature processing box of claim 2, wherein:

wherein, the first square guide rod is of a hollow square cylinder structure.

4. The multi-level parallel tray material transfer mechanism for a material temperature processing box of claim 2, wherein:

wherein the horizontal running guide unit is a support plate which is horizontally arranged and fixedly connected with the inner surface of the material temperature processing box,

the width of the supporting plate is larger than the distance between the outer side surface of the conveying chain of the first conveying unit and the end surface of the first shaft pin.

5. The multi-level parallel tray material transfer mechanism for a material temperature processing box of claim 1, wherein:

wherein the second connecting unit comprises an L-shaped connecting plate, a second square guide rod and a second shaft pin,

the L-shaped connecting plate consists of a first plate part and a second plate part which are perpendicular to each other, the inner surface of the first plate part is fixedly connected to the lower surface of the rectangular tray,

the second square guide rod is vertically arranged and fixedly connected with the outer surface of the second plate part,

the middle part of the second square guide rod is provided with a second through hole,

one end of the second shaft pin is fixed on the conveying chain of the second conveying unit, and the other end of the second shaft pin penetrates through the second through hole.

6. The multi-level parallel tray material transfer mechanism for a material temperature processing box of claim 5, wherein:

wherein, the second square guide rod is of a hollow square cylinder structure.

7. The multi-level parallel tray material transfer mechanism for a material temperature processing box of claim 5, wherein:

wherein, the turning operation guide unit comprises a fixed seat, at least one shaft sleeve, at least one guide shaft, at least one L-shaped guide plate, at least one group of connecting bolts and at least one spring,

the fixed seat is fixedly connected with the box body of the material temperature processing box,

the fixed seat is provided with at least one mounting through hole,

the shaft sleeve is embedded and penetrates through the mounting through hole,

the spring is fixedly connected with the end surface of the shaft sleeve,

the L-shaped guide plate consists of a mounting plate part and a guide plate part which are vertical to each other,

the guide shaft penetrates through the shaft sleeve and the mounting plate part of the spring and the L-shaped guide plate and is fixedly connected with the mounting plate part of the L-shaped guide plate through a group of connecting bolts.

8. The multi-level parallel tray material transfer mechanism for a material temperature processing box of claim 7, wherein:

when the second square guide rod is located at the upper top point position or the lower top point position of the conveying wheel of the second conveying unit, the spring is in an original long state, and the guide plate part of the L-shaped guide plate is in contact with the second square guide rod.

9. The multi-level parallel tray material transfer mechanism for a material temperature processing box of claim 7, wherein:

wherein the fixed seat is provided with two mounting through holes, the horizontal positions of the two mounting through holes are respectively the same as the horizontal positions of the upper vertex and the lower vertex of the corresponding transmission wheel of the second transmission unit,

the number of the shaft sleeves is two, the number of the guide shafts is two, the number of the connecting bolts is two, the number of the springs is two, and the springs are respectively matched and installed corresponding to the two installation through holes.

10. The multi-level parallel tray material transfer mechanism for a material temperature processing box of claim 1, wherein:

wherein, the two length sides and the second width side of the rectangular tray are both provided with an upper edge which is vertically upward, the first width side of the rectangular tray is provided with a lower edge which is vertically downward,

the upper edge is a bending plate which is folded outwards to form a two-layer structure,

the lower edge is a single-layer flat plate provided with a plurality of hollowed-out air holes.

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