CN214801958U - Tunnel type oven - Google Patents

Abstract

The application relates to a tunnel type oven, which comprises an oven body, wherein a cavity capable of baking food is formed in the oven body; the first conveying belt penetrates through the cavity, and the end parts of the two ends of the first conveying belt respectively extend out of the end parts of the two ends of the furnace body; and the first sensor is arranged on the first conveying belt, the first sensor can detect baking trays on the first conveying belt, and the first sensor is in signal connection with a power device of the first conveying belt. This application has the effect of the material loading of convenience of food and receipts material.

Description

Tunnel type oven

Technical Field

The application relates to the field of food processing equipment, in particular to a tunnel type oven.

Background

Ovens are devices that cook food products with hot air, typically in a closed or semi-closed configuration. Baking equipment in large use in the market at present mainly includes tunnel ovens, baking ovens, and multi-layer automatic ovens that take materials by mechanical hands.

Tunnel ovens are often used in the processing of baked goods because of their high automation and baking efficiency. Tunnel ovens generally have an internal cavity and are heated by hot air passing through special blast openings provided on the inner wall of the tunnel.

In view of the above-mentioned related art, the inventor believes that when food to be roasted is sent into the tunnel oven for roasting, the food to be roasted needs to be placed on a conveyor belt used by the tunnel oven and conveyed by the conveyor belt to the inner cavity of the tunnel oven for roasting, and the transportation of the food to be roasted and the roasted food is inconvenient.

SUMMERY OF THE UTILITY MODEL

In order to conveniently send into the food of waiting to roast and toast in the tunnel type oven, also conveniently collect the good food of baking, the application provides a tunnel type oven.

The application provides a pair of tunnel type oven adopts following technical scheme:

a tunnel oven comprises an oven body, wherein a cavity capable of baking food is formed in the oven body;

the first conveying belt penetrates through the cavity, and the two end parts of the first conveying belt respectively extend out of the two end parts of the furnace body;

and the first sensor is arranged on the first conveying belt, the first sensor can detect baking trays on the first conveying belt, and the first sensor is in signal connection with the power device of the first conveying belt.

Through adopting above-mentioned technical scheme, the overware of first inductor on to first conveyer belt detects, when detecting first conveyer belt feed end on have the overware, first conveyer belt is carried the overware towards its discharge end, the overware passes through the cavity during, food on the overware is baked, then obtain the good food that the dish cures from the discharge end of first conveyer belt, can be with directly will treat the food that cures one-tenth dish and send to first conveyer belt on, then directly will cure good one-tenth dish food and transport, the baking efficiency of food is high, the transfer efficiency is high.

Optionally, the number of the first inductors is a plurality, the first inductors are uniformly distributed in a direction perpendicular to the conveying direction of the first conveying belt, and the distance between every two adjacent first inductors is greater than the length of the baking tray.

Through adopting above-mentioned technical scheme, can detect a plurality of overware simultaneously to just open the power device of first conveyer belt when there are a plurality of overware at the feed end of first conveyer belt, then a plurality of overware can be transported simultaneously to first conveyer belt, and food in a plurality of overware can toast simultaneously, and it is efficient to bake.

Optionally, still include a positioning mechanism, a positioning mechanism includes first dog and first driving piece, first dog is located first conveyer belt, the long avris of first dog is perpendicular with the direction of delivery of first conveyer belt, first driving piece is located the bottom of first conveyer belt, first driving piece can drive first dog and remove the overware on the top interception first conveyer belt to first conveyer belt, first driving piece and first inductor signal connection.

Through adopting above-mentioned technical scheme, the overware on first conveyer belt can be intercepted to first dog, and when each first inductor all sensed first conveyer belt feed end department and had the overware, first driving piece received the signal and can drive first dog and remove, and first dog withdraws and carries towards first conveyer belt discharge end each overware behind the first conveyer belt directly over, can ensure to bake the homoenergetic at every turn and bake the food in a plurality of overware and bake.

Optionally, still include second conveyer belt and third conveyer belt, the direction of delivery of second conveyer belt and third conveyer belt all is perpendicular with the direction of delivery of first conveyer belt, wherein one end of second conveyer belt is connected on the feed end of first conveyer belt, the feed end of third conveyer belt and the discharge end coincidence of second conveyer belt form the transition district, the regional coincidence of the feeding region of discharge area and the first conveyer belt of third conveyer belt.

Through adopting above-mentioned technical scheme, the overware can be transported to the feed end of first conveyer belt via the third conveyer belt on the second conveyer belt, and second conveyer belt and third conveyer belt cooperation are perpendicular with first conveyer belt, not only can ensure that the overware smoothly and evenly carries to first conveyer belt on, have saved the space moreover.

Optionally, the baking tray conveyor further comprises a second inductor and a second positioning mechanism, the second inductor is located in the transition area, the second positioning mechanism comprises a second stop block and a second driving piece, the second stop block is located on the second conveyor belt, the second driving piece drives the second stop block to move to the position above the second conveyor belt to stop a baking tray on the second conveyor belt, and the second driving piece is in signal connection with the second inductor.

By adopting the technical scheme, the second sensor detects the baking tray in the transition area, and when the baking tray exists in the transition area, the second driving piece drives the second blocking piece to move to the position right above the second conveying belt to intercept the baking tray on the second conveying belt, so that the baking tray can be temporarily stored on the second conveying belt; when no baking tray is arranged in the transition area, the second stop block is withdrawn from the position right above the second conveying belt, so that the baking tray on the second conveying belt can be smoothly conveyed to the first conveying belt.

Optionally, the second conveying belt comprises two chain plate conveying belts, the two chain plate conveying belts are symmetrically arranged, and the distance between the two adjacent side of the chain plate conveying belts is smaller than the length of the baking tray.

Through adopting above-mentioned technical scheme, the overware bottom is placed on the link joint conveyer belt, and along with the transmission of link joint conveyer belt and carry towards first conveyer belt feed end, the link joint conveyer belt can provide the abundant support of overware, and the overware can carry smoothly on the second conveyer belt.

Optionally, a plurality of reinforcing rods are uniformly distributed between the two chain plate conveying belts, and the distance between every two adjacent reinforcing rods is smaller than the width of the baking tray.

Through adopting above-mentioned technical scheme, the stiffener not only can support the link joint conveyer belt, can provide the safety guarantee for the overware moreover, and the overware is difficult to directly fall to ground from the link joint conveyer belt.

Optionally, the furnace body includes a first ignition region and a second ignition region, the first ignition region is located above the first conveyor belt, and the second ignition region is located below the first conveyor belt.

Through adopting above-mentioned technical scheme, first ignition district and second ignition district can be followed the upper and lower both sides of first conveyer belt and toasted the food on the overware, make the food on the overware heated evenly, toast effectually, toast efficiently.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through the matching of the first conveying belt and the furnace body, the baking tray passes through the furnace body in the conveying process on the first conveying belt, so that the baking of food on the baking tray is completed, the baking efficiency is high, and the food loading and unloading steps can be carried by the baking tray, so that the food is conveniently loaded and unloaded;

2. the baking trays at the feeding end of the first conveying belt can be detected through the matching of the first inductor, the first stop block and the first driving piece, and the first conveying belt is driven to transmit when the baking trays are arranged on the first conveying belt, so that energy is saved;

3. through the setting of second conveyer belt and third conveyer belt, the material loading of overware of being convenient for, and save space.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present application;

FIG. 2 is a top view of an embodiment of the present application;

FIG. 3 is a cross-sectional view of an embodiment of the present application;

fig. 4 is a schematic structural diagram of a first positioning mechanism and a second positioning mechanism in an embodiment of the present application.

Reference numerals: 1. a furnace body; 11. a first ignition region; 12. a second ignition region; 13. a chamber; 2. a first conveyor belt; 3. a second conveyor belt; 31. a chain plate conveyor belt; 32. a reinforcing bar; 4. a third conveyor belt; 5. a first inductor; 6. a first positioning mechanism; 61. a first stopper; 62. a first driving member; 7. a transition zone; 8. a second inductor; 9. a second positioning mechanism; 91. a second stopper; 92. a second driving member.

Detailed Description

The present application is described in further detail below with reference to figures 4-4.

The embodiment of the application discloses tunnel type oven, refer to fig. 1, including furnace body 1, first conveyer belt 2, second conveyer belt 3 and third conveyer belt 4, the overware that is equipped with the food of waiting to cure carries to third conveyer belt 4 from second conveyer belt 3, then carries to first conveyer belt 2 on, first conveyer belt 2 passes furnace body 1, the overware passes furnace body 1 and cures in furnace body 1 under the transport of first conveyer belt 2, obtains the food that cures at the discharge end of first conveyer belt 2.

Referring to fig. 2, the feed end and the discharge end of the first conveyor belt 2 both extend to the outside of the end parts of the two ends of the furnace body 1, the feed end of the first conveyor belt 2 is arranged in the baking tray, and the baking tray is recovered from the discharge end of the first conveyor belt 2, so that the baking tray is convenient to feed and receive materials.

Referring to fig. 3, the furnace body 1 includes a first ignition region 11 and a second ignition region 12. First ignition region 11 is located the top of first conveyer belt 2, and second ignition region 12 is located the below of first conveyer belt 2, forms the cavity 13 that can bake food between first ignition region 11 and the second ignition region 12, and first ignition region 11 and second ignition region 12 can be respectively for the top and the below of cavity 13 provide the heat for food on the first conveyer belt 2 can be abundant and thermally equivalent.

Referring to fig. 4, the first conveyor belt 2 is provided with a first sensor 5 and a first positioning mechanism 6. Wherein, first inductor 5 is provided with at least one, and first conveyer belt 2 adopts the roll-type conveyer belt, and first inductor 5 is arranged in first conveyer belt 2 below, and first inductor 5 can monitor the overware on first conveyer belt 2, and first inductor 5 and first conveyer belt 2 signal connection, and when first inductor 5 monitored first conveyer belt 2 and gone up the overware, first conveyer belt 2 starts to drive the overware and removes.

When the first inductors 5 are provided with a plurality of first inductors 5, the first inductors 5 are uniformly distributed along the width direction of the first conveying belt 2, the distance between every two adjacent first inductors 5 is greater than the length of the baking tray, and each first inductor 5 correspondingly detects one baking tray.

The first positioning mechanism 6 includes a first stopper 61 and a first driving member 62. The length direction of the first stop block 61 is perpendicular to the transmission direction of the first conveyor belt 2, the first driving member 62 is located below the first conveyor belt 2, the first driving member 62 is provided with an air cylinder, the first air cylinder is connected with the first stop block 61, and the first driving member 62 is in signal connection with the first sensor 5. When the first sensor 5 detects that the baking trays on the first conveyor belt 2 are not in place, the first driving piece 62 drives the first stop block 61 to move to a position right above the first conveyor belt 2 to intercept the baking trays on the first conveyor belt 2; when the first sensor 5 monitors that all baking trays on the first conveyor belt 2 are in place, the first driving piece 62 drives the first stop block 61 to withdraw from the position right above the first conveyor belt 2, and the baking trays at the feeding end of the first conveyor belt 2 can be conveyed towards the discharging end of the first conveyor belt 2.

The first stoppers 61 may be disposed below the first conveyor belt 2, or may be disposed on both sides of the first conveyor belt 2.

The conveying direction of the second conveying belt 3 is vertical to that of the first conveying belt 2, and one end of the second conveying belt 3 is connected to the feeding end of the first conveying belt 2; the feeding area of the third conveying belt 4 and the discharging area of the second conveying belt 3 are overlapped to form a transition area 7, the discharging area of the third conveying belt 4 and the feeding area of the first conveying belt 2 are overlapped, and the baking tray is conveyed to the first conveying belt 2 from the second conveying belt 3 through the third conveying belt 4.

The second conveyor belt 3 comprises two link-plate conveyor belts 31 and a number of reinforcing bars 32. Wherein, two chain plate conveyer belts 31 are symmetrically arranged, and the distance between the close side edges of the two chain plate conveyer belts 31 is smaller than the length of the baking tray, the distance between the back side edges of the two chain plate conveyer belts 31 is larger than the length of the baking tray, then the two ends of the baking tray are arranged on the chain plate conveyer belts 31 and are conveyed towards the third conveyer belt 4 along with the chain plate conveyer belts 31.

The two ends of each reinforcing rod 32 are respectively fixed on the two chain plate conveying belts 31, the length direction of each reinforcing rod 32 is vertical to the conveying direction of the chain plate conveying belts 31, the distance between every two adjacent reinforcing rods 32 is smaller than the width of the baking tray, and the baking tray is not easy to fall onto the ground from the gap between every two adjacent reinforcing rods 32.

The third conveyer belt 4 is arranged as a chain conveyer belt, and a second inductor 8 and a second positioning mechanism 9 are arranged in the transition area 7. Wherein, the second inductor 8 can monitor whether the transition area 7 has a baking tray.

The second positioning mechanism 9 includes a second stopper 91 and a second driving member 92. The second stop block 91 is located on the second conveyor belt 3, the second stop block 91 is close to the transition area 7, the second driving member 92 is arranged as an air cylinder, the second driving member 92 is connected with the second stop block 91, the second driving member 92 is in signal connection with the second inductor 8, and when the second inductor 8 monitors that a baking tray is arranged in the transition area 7, the second driving member 92 receives a signal and drives the second stop block 91 to move above the second conveyor belt 3 to intercept the baking tray moving towards the transition area 7 on the second conveyor belt 3.

The second stoppers 91 may be disposed on both sides of the second conveyor belt 3, or may be disposed below the second conveyor belt 3.

The implementation principle of tunnel type oven of the embodiment of this application does: the overware that is equipped with and treats to bake food is arranged in 3 feed ends of second conveyer belt, carry to when being close to 4 feed ends of third conveyer belt, shift to on the third conveyer belt 4, and carry to the feed end of first conveyer belt 2 through third conveyer belt 4, the overware has been sensed to the inductor on the first conveyer belt 2, then first conveyer belt 2 starts to carry the overware to toast in the cavity 13 of furnace body 1, food cures and removes to the discharge end of first conveyer belt 2 under the drive of first conveyer belt 2 after finishing, the recovery is equipped with the overware that cures good food can.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A tunnel oven which characterized in that: comprises a furnace body (1), wherein a cavity (13) capable of baking food is formed in the furnace body (1); the first conveying belt (2) penetrates through the cavity (13), and the end parts of the two ends of the first conveying belt (2) respectively extend out of the end parts of the two ends of the furnace body (1); and the first sensor (5), the first sensor (5) is arranged on the first conveying belt (2), the first sensor (5) can detect baking trays on the first conveying belt (2), and the first sensor (5) is in signal connection with a power device of the first conveying belt (2).

2. The tunnel oven of claim 1 wherein: the first inductors (5) are provided with a plurality of first inductors, the first inductors (5) are uniformly distributed in the direction perpendicular to the conveying direction of the first conveying belt (2), and the distance between every two adjacent first inductors (5) is larger than the length of the baking tray.

3. The tunnel oven of claim 1 wherein: still include first positioning mechanism (6), first positioning mechanism (6) include first dog (61) and first driving piece (62), first dog (61) are located first conveyer belt (2), the long avris of first dog (61) is perpendicular with the direction of delivery of first conveyer belt (2), first driving piece (62) are located the bottom of first conveyer belt (2), first driving piece (62) can drive first dog (61) and remove the overware on the top interception first conveyer belt (2) of first conveyer belt (2), first driving piece (62) and first inductor (5) signal connection.

4. The tunnel oven of claim 1 wherein: still include second conveyer belt (3) and third conveyer belt (4), the direction of delivery of second conveyer belt (3) and third conveyer belt (4) all is perpendicular with the direction of delivery of first conveyer belt (2), wherein one end of second conveyer belt (3) is connected on the feed end of first conveyer belt (2), the feed end of third conveyer belt (4) and the discharge end coincidence of second conveyer belt (3) form transition district (7), the regional coincidence of the feeding region of discharge area and first conveyer belt (2) of third conveyer belt (4).

5. The tunnel oven of claim 4 wherein: the automatic baking device is characterized by further comprising a second inductor (8) and a second positioning mechanism (9), wherein the second inductor (8) is located in the transition area (7), the second positioning mechanism (9) comprises a second stop block (91) and a second driving piece (92), the second stop block (91) is located on the second conveying belt (3), the second driving piece (92) drives the second stop block (91) to move to the position above the second conveying belt (3) to intercept baking trays on the second conveying belt (3), and the second driving piece (92) is in signal connection with the second inductor (8).

6. The tunnel oven of claim 4 wherein: the second conveying belt (3) comprises two chain plate conveying belts (31), the two chain plate conveying belts (31) are symmetrically arranged, and the distance between the two adjacent sides of the chain plate conveying belts (31) is smaller than the length of the baking tray.

7. The tunnel oven of claim 6 wherein: a plurality of reinforcing rods (32) which are uniformly distributed are arranged between the two chain plate conveying belts (31), and the distance between every two adjacent reinforcing rods (32) is smaller than the width of the baking tray.

8. The tunnel oven of claim 1 wherein: the furnace body (1) comprises a first ignition region (11) and a second ignition region (12), the first ignition region (11) is located above the first conveying belt (2), and the second ignition region (12) is located below the first conveying belt (2).

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