阅读说明：本技术 基于烤鸭制作的大储量杀菌设备 (Large-reserve sterilization equipment based on roast duck preparation ) 是由 刘建刚 于 2020-03-09 设计创作，主要内容包括：本发明提供了一种基于烤鸭制作的大储量杀菌设备,包括：杀菌罐以及蒸汽发生器；杀菌罐铰接有罐门,罐门上设置有用于密封杀菌罐的机械闭锁装置；杀菌罐内转动连接有内筒,内筒上密布有通孔；内筒的内壁周向分布有夹板,任意相邻的两个夹板之间相距形成放置腔；放置腔内沿其长度方向设置有梯形滑槽；还包括有滑杆,滑杆上等距间隔设置有挂钩,且滑杆上设置有梯形滑块；还包括有旋转电机,旋转电机的输出轴贯穿杀菌管的侧壁后连接内筒的圆心。本发明中,通过机械闭锁装置快速实现密封杀菌罐,设置的放置腔加大鸭胚的杀菌储量,并放置以及拿取便捷；在内筒旋转过程中,使鸭胚周身与过热蒸汽相接触,达到最佳的杀菌效果。(The invention provides a large-reserve sterilization device based on roast duck production, which comprises: a sterilization tank and a steam generator; the sterilization tank is hinged with a tank door, and a mechanical locking device for sealing the sterilization tank is arranged on the tank door; the inner cylinder is rotatably connected in the sterilization tank, and through holes are densely distributed on the inner cylinder; the inner wall of the inner cylinder is circumferentially distributed with clamping plates, and a placing cavity is formed between any two adjacent clamping plates at a distance; a trapezoidal sliding chute is arranged in the placing cavity along the length direction of the placing cavity; the hook-type sliding door is characterized by also comprising sliding rods, wherein hooks are arranged on the sliding rods at equal intervals, and trapezoidal sliding blocks are arranged on the sliding rods; the output shaft of the rotating motor penetrates through the side wall of the sterilizing tube and then is connected with the circle center of the inner barrel. According to the invention, the sterilization tank is quickly sealed by the mechanical locking device, the sterilization reserve of the duck embryos is increased by the arranged placing cavity, and the placing and taking are convenient and fast; in the rotating process of the inner cylinder, the whole body of the duck embryo is contacted with the superheated steam, so that the optimal sterilization effect is achieved.)

1. The utility model provides a big reserves sterilizing installation based on roast duck preparation which characterized in that includes: a sterilization tank and a steam generator;

wherein the steam generator is connected with the sterilization tank through a steam high-pressure valve; one end of the sterilization tank is hinged with a tank door, and a mechanical locking device for sealing the sterilization tank is arranged on the tank door;

an inner cylinder is rotatably connected in the sterilization tank, and through holes are densely distributed in the inner cylinder; the inner wall of the inner cylinder is circumferentially provided with clamping plates, and a placing cavity is formed between any two adjacent clamping plates at a distance; a trapezoidal sliding groove is formed in the placing cavity along the length direction of the placing cavity;

the duck embryo picking device is characterized by further comprising a slide bar, hooks for hanging duck embryos are arranged on the slide bar at equal intervals, and a trapezoidal slide block matched with the trapezoidal slide groove is arranged on the slide bar;

the sterilization device is characterized by further comprising a rotating motor arranged at the other end of the sterilization tank, and an output shaft of the rotating motor penetrates through the side wall of the sterilization pipe and then is connected with the circle center of the inner cylinder.

2. The roast duck producing-based mass storage sterilization apparatus of claim 1, wherein a sealing strip is provided on an inner side of the tank door, and the tank door has a hollow installation cavity.

3. The roast duck-based bulk sterilization apparatus of claim 2, wherein the mechanical latching means comprises: the hand wheel is arranged on the tank door, and the two gear assemblies are arranged in a crossed manner;

each group gear assembly all includes: the racks are arranged in the hollow mounting cavity in a relatively sliding manner, and the end part of each rack is connected with a wedge-shaped locking block;

the hand wheel is characterized by further comprising a gear rod connected with the hand wheel, and a double-layer gear meshed with the two racks corresponding to the gear assembly is sleeved on the gear rod.

4. The roast duck-based mass storage sterilization apparatus of claim 3, wherein the inner wall of the sterilization tank is provided with locking holes which are in one-to-one correspondence with the four wedge-shaped locking pieces.

5. The roast duck-based mass storage sterilization apparatus of claim 1, wherein the inner cylinder is mounted inside the sterilization can by a bearing.

6. The roast duck-making-based high-volume sterilization apparatus according to claim 1, wherein the inner cylinder has an opening at one end facing the tank door and a baffle plate at the other end, and an output shaft of the rotating motor is fixedly connected to the baffle plate.

Technical Field

The invention relates to the technical field of roast duck sterilization, in particular to a large-reserve sterilization device based on roast duck manufacturing.

Background

Along with the improvement of living standard of people, people pay more and more attention to food safety, and the food is necessary to be sterilized in processing.

Roast duck is for being prepared for the food that masses liked, and roast duck need carry out pasteurization before toasting, but present roast duck sterilizing installation single holds the reserves little, and a large amount of free spaces can not utilized, causes the waste of the energy to it is loaded down with trivial details to seal the mode shutting process of disinfecting, can't realize quick sealing.

Disclosure of Invention

In view of the above, the invention provides a large-storage-capacity sterilization device based on roast duck manufacturing, which can be used for carrying out bilateral grinding on plate glass and enhancing the grinding effect.

The invention provides a large-reserve sterilization device based on roast duck manufacturing, which comprises: a sterilization tank and a steam generator;

wherein the steam generator is connected with the sterilization tank through a steam high-pressure valve; one end of the sterilization tank is hinged with a tank door, and a mechanical locking device for sealing the sterilization tank is arranged on the tank door;

an inner cylinder is rotatably connected in the sterilization tank, and through holes are densely distributed in the inner cylinder; the inner wall of the inner cylinder is circumferentially provided with clamping plates, and a placing cavity is formed between any two adjacent clamping plates at a distance; a trapezoidal sliding groove is formed in the placing cavity along the length direction of the placing cavity;

the duck embryo picking device is characterized by further comprising a slide bar, hooks for hanging duck embryos are arranged on the slide bar at equal intervals, and a trapezoidal slide block matched with the trapezoidal slide groove is arranged on the slide bar;

the sterilization device is characterized by further comprising a rotating motor arranged at the other end of the sterilization tank, and an output shaft of the rotating motor penetrates through the side wall of the sterilization pipe and then is connected with the circle center of the inner cylinder.

Preferably, the inner side of the tank door is provided with a sealing strip, and the tank door is provided with a hollow installation cavity.

Preferably, the mechanical latching device comprises: the hand wheel is arranged on the tank door, and the two gear assemblies are arranged in a crossed manner;

each group gear assembly all includes: the racks are arranged in the hollow mounting cavity in a relatively sliding manner, and the end part of each rack is connected with a wedge-shaped locking block;

the hand wheel is characterized by further comprising a gear rod connected with the hand wheel, and a double-layer gear meshed with the two racks corresponding to the gear assembly is sleeved on the gear rod.

Preferably, the inner wall of the sterilization tank is provided with locking holes which are matched with the four wedge-shaped locking blocks in a one-to-one correspondence manner.

Preferably, the inner cylinder is assembled inside the sterilization can through a bearing.

Preferably, the inner cylinder faces to an opening at one end of the tank door, a baffle is plugged at the other end of the inner cylinder, and an output shaft of the rotating motor is fixedly connected with the baffle.

According to the invention, the sterilization tank is quickly sealed by the mechanical locking device, the sterilization reserve of the duck embryos is increased by the arranged placing cavity, and the placing and taking are convenient and fast; in the rotating process of the inner cylinder, the whole body of the duck embryo is contacted with the superheated steam, so that the optimal sterilization effect is achieved.

Drawings

Fig. 1 is a schematic structural diagram of a large-reserve sterilization device based on roast duck production according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of a mechanical latching apparatus provided in accordance with an embodiment of the present invention;

fig. 3 is a schematic structural diagram of an inner barrel according to an embodiment of the present invention.

Reference numerals:

the sterilization pot comprises a sterilization pot, a steam generator, a 2-steam high-pressure valve, a 3-inner cylinder, a 4-pot door, a 5-hand wheel, a 6-double-layer gear, a 7-slide rod, a 8-hook, a 9-rotating motor, a 10-baffle, a 11-first rack, a 12A-second rack, a 12B-wedge-shaped locking block, a 13-through hole, a 14-clamp plate, a 15-trapezoidal sliding groove, and a 16-bearing, and the like, wherein.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Firstly, in order to conveniently understand the large-reserve sterilization equipment based on roast duck manufacture provided by the embodiment of the application, the application scene is explained firstly, the large-reserve sterilization equipment based on roast duck manufacture in the embodiment of the application increases the single sterilization duck embryo reserve, the defect that the previous energy can not be fully utilized is improved, and the sterilization tank is sealed by adopting a high-efficiency and quick locking device, so that the operation is simple and quick.

The following describes a large-reserve sterilization device based on roast duck production according to an embodiment of the present application with reference to the accompanying drawings.

Referring to fig. 1-2 together, the apparatus for sterilizing a large reserve based on roast duck production in the embodiment of the present application includes: the sterilization tank 1, the sterilization tank 1 is used as a supporting body in the embodiment of the application, and superheated steam is adopted to sterilize the duck embryos in the sterilization tank 1; specifically, a steam generator 2 is arranged on the outer side of the sterilization tank 1, the steam generator 2 can adopt a boiler, the steam generator 2 is connected with the sterilization tank 1 through a steam high-pressure valve 3, and superheated steam is conveyed into the sterilization tank 1 for sterilization;

meanwhile, in order to realize a sealing state of the sterilization tank 1 and to make the duck embryo placement and taking more rapid, a tank door 5 is hinged to one end of the sterilization tank 1 through a hinge, a sealing strip is arranged on the inner side of the tank door 5, and a hollow installation cavity is arranged in the tank door 5, so that a mechanical locking device is convenient to install; specifically, the mechanical latching device includes: a hand wheel 6 arranged on the tank door 5 and two gear assemblies arranged in a cross way;

each group gear assembly all includes: the racks are arranged in the hollow mounting cavity in a relatively sliding manner, and the end part of each rack is connected with a wedge-shaped locking block 13; for convenience of understanding, the two racks on the same straight line are a first rack 12A and a second rack 12B respectively, the two racks of the first rack 12A extend towards two ends on the same straight line, and the two racks of the second rack 12B are crossed with the first rack 12A and extend towards two ends on the other straight line; the gear rack is characterized by further comprising a gear rod connected with the hand wheel 6, and a double-layer gear 7 meshed with the two racks of the corresponding gear assembly is sleeved on the gear rod. The inner wall of the sterilization tank 1 is provided with locking holes which are correspondingly matched with the four wedge-shaped locking blocks 13 one by one.

It can be seen from the above-mentioned structure that through rotatory hand wheel 6, double-deck gear 7 meshes the drive with first rack 12A and second rack 12B mutually simultaneously, and in the pivoted, wedge locking piece 13 gets into in the locking hole, compresses tightly the sealing strip simultaneously, and the shutting mode is simple swift, realizes sterilizing tank 1's sealed fast.

With continuing reference to fig. 1 and 3, in order to increase the storage capacity of the single-sterilization duck embryos, in the embodiment of the application, the inner cylinder 4 is rotatably connected inside the sterilization tank 1, the inner cylinder 4 is rotatably connected with the sterilization pipe through the bearing 17, and as the diameter of the inner cylinder 4 is larger, the outer wall of the inner cylinder 4 can be pressed through the smaller bearing 17, the manufacturing cost is reduced, and the inner cylinder 4 and the sterilization tank 1 are ensured to be at the same circle center;

through holes 14 are densely distributed on the inner cylinder 4, and the through holes 14 are used for allowing superheated steam to enter the inner cylinder 4; the inner barrel 4 is a barrel body for placing duck embryos, the clamping plates 15 are circumferentially distributed on the inner wall of the inner barrel 4, and a placing cavity is formed between any two adjacent clamping plates 15 at a distance; a trapezoidal sliding groove 16 is arranged in the placing cavity along the length direction; the clamping plate 15 is also densely provided with through holes 14, and the internal space of the inner barrel 4 can be equally divided at equal intervals according to different demands in a dividing mode, so that the duck embryos can not be randomly turned over when being positioned in the placing cavity;

the duck embryo picking device also comprises a slide bar 8, hooks 9 for hanging duck embryos are arranged on the slide bar 8 at equal intervals, and a trapezoidal sliding block matched with the trapezoidal sliding groove 16 is arranged on the slide bar 8; when the duck embryos are placed specifically, the duck embryos can be hung on the hook 9 firstly, the slide rod 8 is pushed into the placing cavity at the highest position, and then the inner cylinder 4 is rotated to enable the placing cavities to be located at the highest position in sequence, so that the duck embryos can be placed simply and conveniently;

in addition, the inner barrel 4 in the embodiment of the application is driven to rotate by power, so that the whole body of the duck embryo is contacted with superheated steam in the rotating process of the inner barrel 4, and the sterilization effect is enhanced; specifically, the sterilizing device further comprises a rotating motor 10 arranged at the other end of the sterilizing tank 1, and an output shaft of the rotating motor 10 penetrates through the side wall of the sterilizing pipe and then is connected with the circle center of the inner cylinder 4. One end of the inner cylinder 4 facing the tank door 5 is opened, the other end is plugged with a baffle plate 11, and an output shaft of the rotating motor 10 is fixedly connected with the baffle plate 11. The rotary motor 10 drives the inner barrel 4 to rotate, so that the sterilization effect is enhanced, and the operation is simple and convenient.

According to the invention, the sterilization tank 1 is quickly sealed by the mechanical locking device, the sterilization reserve of the duck embryos is increased by the arranged placing cavity, and the placing and taking are convenient and fast; in the rotating process of the inner barrel 4, the whole body of the duck embryo is contacted with the superheated steam, so that the optimal sterilization effect is achieved.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.