CN107150881B - Anti-sticking conveying belt and conveying strip of frying machine - Google Patents

Abstract

The utility model provides a conveyer belt and conveying strip that fryer is prevented being stained with glutinous, this conveyer belt contains relative first transmission shaft and a second transmission shaft, two chains, a plurality of connecting rod and a plurality of conveying strip that sets up. Each conveying strip is made of high-temperature-resistant anti-sticking materials and comprises a conveying belt surface used for conveying fried food, a conveying bottom surface far away from each conveying belt surface, and two sides between each conveying belt surface and each conveying bottom surface are respectively provided with a channel outwards. Each conveying strip passes through each conveying belt surface and is larger than each conveying bottom surface, and when each conveying strip is matched with each chain to keep the water parallel and then the conveying strips move to the bent arcs of the first transmission shaft and the second transmission shaft, each conveying bottom surface cannot be collided, so that the arrangement gaps among the conveying belt surfaces are small, and the smoothness of a conveying plane can be obtained.

Description

Anti-sticking conveying belt and conveying strip of frying machine

Technical Field

The invention relates to an anti-sticking conveyer belt and a conveyer strip thereof for a frying machine, in particular to an anti-sticking conveyer belt and a conveyer strip which are beneficial to continuously conveying fried food.

Background

The conveyor belt of the present conveyor is used for conveying various fried foods, generally, the conveyor belt is formed by each conveyor strip, each conveyor strip is usually made of teflon which is high temperature resistant and anti-sticking, therefore, most of the surfaces of the conveyor strips are coated with teflon layers or strip-shaped teflon strips or are made of teflon entirely. As explained below, the conventional conveyor has not only the following three types of conveyor belts, and refer to fig. 1 to 3 at the same time:

A first prior art conveyor belt: the conveyor belt 1 is formed by pivotally connecting a plurality of circular rods 11 each having a thin teflon layer 12 coated on the surface thereof, and the circular rods 11 each having a circular arc surface on the surface thereof for conveying the fried food. However, the thin layer of the teflon layer 12 on the surface of each round rod 11 of the conveyor belt 1 is usually exposed to the high temperature of frying, and after a period of use, the thin layer of the teflon layer 12 on the surface of each round rod 11 is easily peeled off, exposing each round rod 11. And,

1. When the conveyor belt 1 conveys the fried food, the surface of each circular rod 11, which has come off the Teflon sheet 12, is easily stained with the fried food, particularly meat, which is most easily stained, and the conveyor belt 1 deteriorates the surface appearance of the fried food.

2. Since the gaps 13 between the circular rods 11 are large (see fig. 1), when the conveyor belt 1 conveys the fried food by each circular rod 11, the surface of the large fried food is likely to be uneven.

The second type of existing two conveyor belts: the conveyer belt 2 has a plurality of arc-shaped slots 22 staggered up and down to form a curved Teflon belt 21, and a plurality of arc-shaped slots 22 of the Teflon belt 21 shuttle up and down with a connecting rod 23 without Teflon arranged on the surface. And,

1. When the conveyor belt 2 conveys the fried food, the surface of each connecting rod 23 without the shuttle of the Teflon tape 21 is more easily stained with the fried food, which not only damages the surface appearance of the fried food, but also makes the conveyor belt 2 always cleaned, causing inconvenience in use.

2. Since the gap 24 between each of the connecting rods 23 is large (see fig. 2), when the conveyor belt 2 conveys the fried food by each of the connecting rods 23, the surface of the large fried food is easily uneven.

3. Since the teflon tape 21 is shuttled up and down between each of the connecting rods 23 and is in a collapsed state, the teflon tape 21 is easily deteriorated and broken after a period of high temperature, which is not ideal for the conveyor belt 2.

The third existing three belts: the conveyor belt 3 is made of a plurality of rectangular teflon strips 30, an opening 31 is formed below each teflon strip 30, and a connecting rod 32 is respectively penetrated through and pivoted at two sides of the interior of each teflon strip 30. Since the conveyor belt 3 has a flat surface by each of the teflon strips 30, the conveyor belt has a better conveying plane than the conveyor belts 1 and 2 of the first and second types. In addition, the three prior conveyor belts 3 are easy to cause the following defects in the process of conveying the fried food:

1. In the prior art, each teflon strip 30 of the three conveyor belts 3 is matched with a chain to facilitate the rotation of the turning part, so that the corner ends 301 at both sides of each teflon strip 30 of the conveyor belt 3 do not collide with each other for turning (as shown in fig. 3), and a very large gap 33 is formed between each teflon strip 30, which also causes the surface of large-sized fried food to be uneven.

2. When the conveyor belt 3 conveys the fried food, the openings 31 formed below each teflon strip 30 of the conveyor belt 3 are hollowed out and located inside the chain, so that sundries are easily left in each teflon strip 30, and the conveyor belt is not easy to clean, thereby causing a sanitary problem.

Disclosure of Invention

accordingly, the present invention is directed to a conveyor belt and conveyor strip for preventing fried food from sticking to a fryer, which can keep the fried food horizontally moving during the conveying process, thereby solving the problems of the existing three conveyor belts, such as uneven surfaces of the fried food, difficulty in cleaning the conveyor belt, etc., due to the large gaps between the teflon strips for turning without collision.

In order to achieve the above objects, the present invention provides an anti-sticking conveyor belt for a deep fryer, the conveyor belt includes a first transmission shaft and a second transmission shaft, two chains, a plurality of connecting rods and a plurality of conveying strips, which are oppositely disposed. Wherein, one end of the first transmission shaft is externally engaged with a power unit. Each chain is sleeved on the first transmission shaft and the second transmission shaft respectively and meshed with the first transmission shaft and the second transmission shaft, and the power unit provides power to drive each chain to rotate and drive the second transmission shaft to rotate. The two ends of each connecting rod are respectively pivoted and linked with each chain. Each conveying strip is made of high-temperature-resistant anti-sticking materials, each conveying strip comprises a conveying belt surface for conveying fried food, a conveying bottom surface far away from each conveying belt surface, and two outwards-arranged channels are respectively arranged on two sides between each conveying belt surface and each conveying bottom surface, each connecting rod is respectively provided in each channel to penetrate through, two ends of each connecting rod are respectively pivoted and linked with each chain, each chain drives each conveying strip to run, when each conveying strip passes through each conveying belt surface and is larger than each conveying bottom surface, and each chain is matched with each conveying belt surface to keep the water parallel and further move to the bent arc positions of the first transmission shaft and the second transmission shaft, the conveying bottom surfaces are not collided, so that the arrangement gaps between the conveying belt surfaces are small, and the flatness of the conveying plane can be obtained.

Furthermore, the two opposite outer ends of the first transmission shaft are respectively pivoted with a first bearing and a first gear for providing the first transmission shaft with rotation, and the two opposite outer ends of the second transmission shaft are respectively pivoted with a second bearing and a second gear for providing the second transmission shaft with rotation.

Furthermore, each connecting portion has an inner connecting section and an outer connecting section pivoted to one end of the inner connecting section, each inner connecting section includes two wheel rods having a first axle hole, and an engaging space located between the two wheel rods and engaged with the first gear and the second gear to form transmission, each outer connecting section has two second axle holes, and the two second axle holes provide one of the wheel rods of each inner connecting section for linkage.

Furthermore, two ends of each connecting rod extend a shaft rod respectively, the outer diameters of the two shaft rods are smaller than the outer diameter of each connecting rod, and the two shaft holes respectively face the two second shaft holes of each external section of each connecting part to be respectively penetrated and pivoted, or the two shaft holes respectively face the two first shaft holes of each internal section of each connecting part to be respectively penetrated and pivoted, the shaft rods at the two ends of each connecting rod are respectively provided with a vertical hole, and a clamping piece is respectively utilized to penetrate into each vertical hole of each shaft rod to be clamped.

furthermore, the conveyor belt further comprises two rails respectively arranged towards the outer side of each chain, a guide bracket for supporting each chain is respectively arranged at the upper section and the lower section of the inner side of each rail to guide each chain to be stable on a rotating track, each rail is respectively provided with a first hole for respectively penetrating through two ends of the first transmission shaft and a slotted hole far away from one end of the first hole, two ends of the second transmission shaft are respectively penetrated through the slotted hole in each slotted hole, and a plurality of fixing holes are respectively arranged at the peripheral position of each slotted hole of each rail.

Furthermore, the conveyer belt further comprises a pair of adjusting devices, the adjusting devices are respectively arranged at the periphery of each track correspondingly and are respectively pivoted with the two ends of the second transmission shaft so as to adjust the tightness between the conveyer belts.

Furthermore, each adjusting device comprises two fixing pieces correspondingly fixed towards the periphery of each track and an adjusting rod which is respectively screwed with the two fixing pieces and adjusts the tightness between the two ends of the second transmission shaft and each chain.

Furthermore, the two fixing pieces are arranged in a vertical angle shape, one end of each fixing piece is correspondingly provided with a plurality of second holes towards each fixing hole of each rail, and a fixing piece is respectively penetrated into a gasket and fixed between each corresponding second hole and each fixing hole of each rail.

Furthermore, each track further comprises at least one access opening for accessing each conveyor strip of the conveyor belt.

Furthermore, the anti-sticking material is Teflon.

The conveying strip is made of high-temperature-resistant anti-sticking materials and comprises a conveying belt surface used for conveying fried food, a conveying bottom surface far away from each conveying belt surface, and two sides between each conveying belt surface and each conveying bottom surface are respectively provided with an outward channel, and the conveying strip is larger than each conveying bottom surface through each conveying belt surface.

Furthermore, the anti-sticking material is Teflon.

Therefore, the anti-sticking conveyor belt and the conveyor strip thereof for the fryer have the following practical effects and industrial values:

1. The width of each conveying belt surface of each conveying strip is larger than that of each conveying bottom surface, when the conveying belts rotate and turn, the conveying bottom surfaces cannot collide, the arrangement gaps between the conveying belt surfaces are small, the flatness of a conveying plane can be obtained, the conveying belts cannot generate concave-convex and uneven surfaces on the surface for conveying fried food, and the conveying belts have better appearance.

2. When each conveying strip rotates to turn, the two channels which are arranged outwards can be used for conveniently cleaning the fried dirt.

Drawings

FIG. 1: is a partial side view of a prior art conveyor belt.

FIG. 2: is a partial side view of the two conveyor belts of the prior art.

FIG. 3: is a partial side view of the prior art triple conveyor belt.

FIG. 4: is a three-dimensional exploded view of the conveyor belt of the present invention.

FIG. 5A: is an assembled perspective view of the conveyor belt of fig. 4.

FIG. 5B: is a cross-sectional view of fig. 5A at a-a.

FIG. 6: an enlarged view of a portion of the conveyor belt conveyor bar and chain combination of fig. 4.

FIG. 7: is an exploded perspective view of the conveyor bar and chain of fig. 4.

FIG. 8: a side view of the conveyor bar and chain combination of fig. 7.

FIG. 9: a schematic diagram of the conveyor belt conveying donuts according to the present invention.

FIG. 10: is a partial enlarged schematic view of the conveyor belt of fig. 9 during conveyance.

FIG. 11: the schematic diagram of the invention for adjusting the tightness of the conveying strip is shown.

Wherein, the reference numbers:

[ conventional ]

Conveyer belt 1 round rod 11

Teflon layer.12 gap.13, 24, 33

conveyer belt 2 Teflon belt 21

Arc-shaped groove 22 connecting rod 23

Conveyer belt, 3 Teflon strip, 30

301 open at two side corner ends 31

Connecting rod 32

[ invention ]

Conveyer belt.4 first transmission shaft.5

First bearing 51, first gear 52

Second drive shaft.6 second bearing.61

the second gear 62 extends through the hole 63

Adjustment device, 64 second hole, 640

Fixing piece, 641 adjusting rod, 642

643 washer 644 fastener

Nut 645 chain 7

Connecting part 70 inner connecting section 71

First shaft hole, 710 wheel rod and 711

Engaging space 712 external segment 72

Second shaft hole 721 connecting rod 73

Shaft lever, 731 vertical hole, 732

733 parts for conveying strip 8

Conveyor face 81 conveyor bottom face 812

813 slot 814

Track 9 guide bracket 90

First hole, 91 slotted hole, 92

fixed hole 921 access hole 93

Width W, W1

Detailed Description

The following detailed description is provided to explain how the structures of the present invention are combined and used, so as to more easily understand the objects, technical contents, features, and effects achieved by the present invention.

referring to fig. 4 and fig. 5A to 10, the present invention provides a conveyor belt and conveyor strip for conveying fried food and preventing sticking.

The conveyor belt 4 includes a first transmission shaft 5 and a second transmission shaft 6 disposed opposite to each other, two chains 7, a plurality of connecting rods 73, and a plurality of conveyor strips 8. Wherein,

The two opposite outer ends of the first transmission shaft 5 are respectively pivoted to provide a first bearing 51 and a first gear 52 for smooth rotation of the first transmission shaft 5, and one end of the first transmission shaft 5 is externally engaged with a power unit (not shown) serving as a power motor, so as to provide a power source for driving the two chains 7 to advance along the rotation track and drive the second transmission shaft 6 to rotate.

the two opposite outer ends of the second transmission shaft 6 are respectively pivoted to provide a second bearing 61 and a second gear 62 for the second transmission shaft 6 to rotate smoothly, and two opposite outer ends of the second transmission shaft 6 far away from the two second bearings 61 are respectively provided with a through hole 63.

Each chain 7 is respectively sleeved on the first gear 52 of the first transmission shaft 5 and the second gear 62 of the second transmission shaft 6 and meshed therewith to form transmission. More specifically, each of the chains 7 includes a plurality of connecting portions 70, and each of the connecting portions 70 has an inner section 71 and an outer section 72 pivotally connected to the inner section 71. In this embodiment, each of the inner links 71 includes two wheel rods 711 having a first axle hole 710 respectively, and an engaging space 712 located between the two wheel rods 711 and engaged with the first gear 52 and the second gear 62 respectively to form a transmission, so that each of the inner links 71 drives each of the chains 7 to rotate. Each of the outer segments 72 has two second shaft holes 721, and the two second shaft holes 721 provide a pivotal connection for one of the wheel bars 711 of each of the inner segments 71.

A shaft 731 extends from each end of each of the connecting rods 73, the outer diameter of the two shaft 731 is smaller than the outer diameter of each of the connecting rods 73, and the two shaft 731 is pivotally connected to the two second shaft holes 721 of each of the external segments 72, or pivotally connected to the two first shaft holes 710 of each of the internal segments 71. In the embodiment of the present invention, the shaft 731 at both ends of each connecting rod 73 has a vertical hole 732, and a locking member 733 is respectively inserted into each vertical hole 732 of each shaft 731, and the end of each locking member 733 is respectively pulled open and locked without falling out from each vertical hole 732.

each of the conveyor belts 8 is made of a high-temperature resistant anti-sticking material. More specifically, the anti-sticking material is teflon. Each conveyor strip 8 comprises a conveyor belt surface 81 for conveying the fried food, a conveyor bottom surface 812 far away from each conveyor belt surface 81, and a channel 813 respectively formed between each conveyor belt surface 81 and each conveyor bottom surface 812 and facing outwards. Wherein, each channel 813 of each conveying strip 8 is provided for each connecting rod 73 to penetrate through, and the shaft 731 at both ends of each connecting rod 73 is respectively linked with each chain 7, and each conveying strip 8 is driven by each chain 7 to run, so as to convey the fried food.

More specifically, each of the conveyor belt surfaces 81 and each of the conveyor bottom surfaces 812 of each of the conveyor strips 8 have an asymmetric elongated appearance, the width W of each of the conveyor belt surfaces 81 of each of the conveyor strips 8 is greater than the width W1 of each of the conveyor bottom surfaces 812, and each of the chains 7 is configured to keep moving horizontally, when each of the conveyor strips 8 moves to the curved arc of the first transmission shaft 5 and the second transmission shaft 6, a gap 814 is formed between each of the conveyor bottom surfaces 812 of each of the conveyor strips 8 without interference (see fig. 9 and 10), so that the arrangement gap between each of the conveyor belt surfaces 81 is small, thereby achieving flatness in the conveying plane, making the surface of each of the conveyor strips 8 conveying fries smoother, and making the surface of fries have a better appearance without generating unevenness. Moreover, when each conveying strip 8 rotates and turns, the two grooves 813 opened outwards can be used for conveniently cleaning the fried dirt.

In addition, referring to fig. 5A and 5B, the conveyor 4 of the present invention further includes two rails 9 respectively disposed toward the outer sides of the chains 7, and each rail 9 is formed in a vertical u-shape. In this embodiment, each of the rails 9 includes a first hole 91 for allowing two ends of the first transmission shaft 5 to respectively penetrate therethrough, and a slot 92 far away from one end of the first hole 91, two ends of the second transmission shaft 6 provided in each of the slots 92 respectively penetrate therethrough, and a plurality of fixing holes 921 are respectively formed at peripheral positions of each of the slots 92 of each of the rails 9. Each of the rails 9 further includes at least one access opening 93 for facilitating access to each of the conveyor strips 8 of the conveyor belt 4, wherein the number of the access openings 93 is two in the present embodiment, and each of the access openings 93 can be disposed at two inner sides facing each of the first holes 91 and each of the slots 92. In this embodiment, a guiding bracket 90 is disposed at the upper and lower sections of the inner side of each track 9 to support each wheel 711 of each inner link 71 of each chain 7, so as to guide each inner link 71 of each chain 7 to have better stability in the rotation track and prevent the conveyor belt 4 from sagging during the transportation of the fries, thereby keeping the conveyor belt 4 flat during the transportation process.

More specifically, if each of the conveyor strips 8 of the conveyor belt 4 is damaged after a period of use, each of the access holes 93 is used to assemble each of the locking members 733 on the damaged conveyor strip 8, the damaged conveyor strip 8 can be pulled out of each of the vertical holes 732, each of the chains 7 and each of the connecting rods 73 are loosened, the new conveyor strip 8 can be replaced, each of the connecting rods 73 and each of the chains 7 are assembled one by one, each of the locking members 733 is inserted into each of the vertical holes 732, and the tail end of each of the locking members 733 is respectively pulled out and locked, so that the conveyor strip cannot fall out of each of the vertical holes 732, and the maintenance is facilitated for a user.

In addition, referring to fig. 4 and 5A, the conveyor belt 4 of the present invention further includes a pair of adjusting devices 64, the adjusting devices 64 are disposed toward the periphery of each slot 92 of each track 9, and are respectively pivoted to two ends of the second transmission shaft 6 to adjust the tightness between each conveyor strip 8. More specifically, one of the adjusting devices 64 includes two fixing plates 641 respectively fixed to the periphery of each slot 92 of each track 9, and an adjusting rod 642 respectively screwed to the two fixing plates 641 for adjusting the tightness between the two ends of the second transmission shaft 6 and each chain 7. The two fixing plates 641 are configured to have a vertical angle shape, one end of the two fixing plates 641 is respectively opened with a plurality of second holes 640 corresponding to the fixing holes 921 of each rail 9, and each fixing member 643 is respectively inserted into one pad 644 and each corresponding second hole 640 and each fixing hole 921 for fixing. The adjusting rod 642 penetrates through the through hole 63 of the second transmission shaft 6, and then is screwed towards the other end of the two fixing pieces 641 by a nut 645 respectively, so as to adjust the tightness between each of the conveying strips 8 (see fig. 11), which is beneficial for smooth pivot transmission between each of the conveying strips 8 and each of the chains 7.

In addition, referring to fig. 9 and 10, when assembling the conveyor belt 4, firstly, each chain 7 is sleeved on the first gear 52 of the first transmission shaft 5 and the second gear 62 of the second transmission shaft 6 respectively and engaged with them to form transmission, and then, each conveying strip 8 is respectively pivotally connected with each chain 7 at both sides of the conveying belt 4 and is positioned between the inner sides of each chain 7, and then each track 9 is formed to be arranged towards the outer side of each chain 7, then the pair of adjusting devices 64 are respectively pivoted toward the second transmission shaft 6 extending out of each slot 92 of each track 9, meanwhile, the pair of adjusting devices 64 is utilized to adjust the tightness between the two ends of the second transmission shaft 6 and each chain 7, which is beneficial to smooth pivot transmission between each conveying strip 8 and each chain 7, and thus the assembly of the conveying belt 4 is completed.

In addition, referring to fig. 9 and 10, the present invention pivots each conveyor strip 8 via the conveyor belt 4, such that each conveyor strip 8 forms each conveyor surface 81 for conveying the fries and each conveyor bottom surface 812 away from each conveyor surface 81. When the conveyor belt 4 of the present invention is driven by the power unit of the power motor to start operation, each conveyor belt 8 pivoted to each chain 7 can keep moving horizontally in cooperation with each chain 7. Moreover, when each conveyor strip 8 passes through the curved portion of the first transmission shaft 5 and the second transmission shaft 6, the width W of each conveyor belt surface 81 of each conveyor strip 8 is larger than the width W1 of each conveyor bottom surface 812, and the gap 814 is formed between each conveyor bottom surfaces 812 without interference, so that the arrangement gap between each conveyor belt surface 81 is small, thereby obtaining the smoothness on the conveying plane and facilitating the continuous conveying of the fried food by each conveyor belt surface 81 of each conveyor strip 8. Furthermore, each of the conveyor strips 8 is made of a high-temperature-resistant anti-sticking material, which is teflon, so that the fried food is prevented from sticking to each of the conveyor belt surfaces 81 and each of the conveyor bottom surfaces 812, and the flowability of the fried food during conveying is increased, thereby improving the stability of the conveyed fried food.

Claims (12)

1. A sticking-proof conveyer belt for frying machine is characterized in that it is a conveyer belt for conveying fried food, and the conveyer belt comprises

The first transmission shaft and the second transmission shaft are arranged oppositely, and one end of the first transmission shaft is externally engaged with a power unit;

Each chain comprises a plurality of connecting parts, each chain is sleeved on the first transmission shaft and the second transmission shaft respectively and is meshed with the first transmission shaft and the second transmission shaft, and the power unit provides power to drive each chain to move forwards along a rotating track and drive the second transmission shaft to rotate;

A plurality of connecting rods, wherein two ends of each connecting rod are respectively pivoted and linked with each chain; and

Each conveying strip is made of high-temperature-resistant anti-sticking materials, each conveying strip comprises a conveying belt surface used for conveying fried food, a conveying bottom surface far away from each conveying belt surface, and two sides between each conveying belt surface and each conveying bottom surface are respectively provided with a channel outwards, wherein the two channels are respectively provided for each connecting rod to penetrate through, two ends of each connecting rod are respectively in pivot linkage with each chain and drive each conveying strip to run, each conveying strip passes through each conveying belt surface and is larger than each conveying bottom surface, and when each chain is matched with each chain to keep horizontal running and then runs to the bent arcs of the first transmission shaft and the second transmission shaft, each conveying bottom surface cannot be abutted, so that arrangement gaps between each conveying belt surface are small, and therefore smoothness on the conveying plane is achieved.

2. The anti-stick conveyor of claim 1, wherein said first drive shaft is pivotally connected at opposite outer ends thereof to a first bearing and a first gear for rotation of said first drive shaft, and said second drive shaft is pivotally connected at opposite outer ends thereof to a second bearing and a second gear for rotation of said second drive shaft.

3. The anti-sticking conveyor belt for deep fryers of claim 2, wherein each of said connecting portions has an inner connecting section and an outer connecting section pivotally connected to one end of said inner connecting section, each of said inner connecting sections includes two wheel rods having a first shaft hole, and an engaging space disposed between said two wheel rods and engaged with said first gear and said second gear to form a transmission, and each of said outer connecting sections has two second shaft holes, said two second shaft holes providing a pivotal connection with one of said wheel rods of each of said inner connecting sections.

4. The conveyor belt according to claim 3, wherein a shaft rod extends from each end of each connecting rod, the two shaft rods have an outer diameter smaller than the outer diameter of each connecting rod and are pivotally connected to the two second axial holes of each outer connecting section of each connecting portion, respectively, or are pivotally connected to the two first axial holes of each inner connecting section of each connecting portion, respectively, and the shaft rods at each end of each connecting rod have a vertical hole therein, respectively, and are engaged with each vertical hole of each shaft rod by a engaging member.

5. The anti-sticking conveyor belt for deep fryer according to claim 1, wherein said conveyor belt further comprises two rails disposed toward the outside of each of said chains, respectively, and a guide bracket disposed at the upper and lower sections of the inside of each of said rails for supporting each of said chains to guide each of said chains to be stable in the rotating track, each of said rails having a first hole for allowing the two ends of said first transmission shaft to be inserted, respectively, and a slot hole disposed at an end away from said first hole, and each of said slot holes for allowing the two ends of said second transmission shaft to be inserted, respectively, and having a plurality of fixing holes at the peripheral position of each of said slot holes of each of said rails, respectively.

6. The anti-sticking conveyor belt for deep fryer according to claim 5, wherein said conveyor belt further comprises a pair of adjusting means disposed around each of said tracks and pivotally connected to both ends of said second transmission shaft for adjusting the tightness between each of said conveyor belts.

7. The anti-sticking conveyor belt for deep fryer according to claim 6, wherein each of said adjusting means comprises two fixed pieces fixed correspondingly toward the periphery of each of said rails, and an adjusting rod screwed to said two fixed pieces and adjusting the tightness between the two ends of said second transmission shaft and each of said chains.

8. The anti-sticking conveyor belt for deep fryer according to claim 7, wherein said two fixed pieces are formed in a vertical angle, one end of said two fixed pieces is opened with a plurality of second holes toward each of said fixing holes of each of said tracks, respectively, and a fixing member is inserted into a gasket and fixed between each of said second holes and each of said fixing holes of each of said tracks.

9. The anti-stick conveyor of claim 5, wherein each of said tracks further comprises at least one access opening for accessing each of said conveyor strips of said conveyor.

10. The conveyor belt of claim 1 wherein the anti-stick material is teflon.

11. The conveying strip is characterized in that the conveying strip is used for conveying fried food, the conveying strip is made of high-temperature-resistant anti-sticking materials, the conveying strip comprises a conveying strip surface used for conveying the fried food, a conveying bottom surface far away from each conveying strip surface, and two sides between each conveying strip surface and each conveying bottom surface are respectively provided with a channel outwards so as to provide the conveying strip with one connecting rod penetrating through, and the conveying strip is larger than each conveying bottom surface through each conveying strip surface.

12. The stick resistant conveyor bar of a fryer of claim 11, wherein the stick resistant material is teflon.