CN214067093U

CN214067093U - Environmental monitoring device of moon cake production

Info

Publication number: CN214067093U
Application number: CN202023177168.XU
Authority: CN
Inventors: 潘汉宁
Original assignee: Wuxuan Rice Factory Food Co ltd
Current assignee: Wuxuan Rice Factory Food Co ltd
Priority date: 2020-12-25
Filing date: 2020-12-25
Publication date: 2021-08-27
Anticipated expiration: 2030-12-25

Abstract

The utility model relates to a moon cake production facility field specifically discloses an environmental monitoring device of moon cake production, through setting up the humidity monitor for the humidity of moon cake production environment realizes real-time detection, accords with suitable environmental requirement with the production of guaranteeing the moon cake, avoids the too high problem that leads to moon cake shaping difficulty of humidity, improves the efficiency and the production quality of moon cake production.

Description

Environmental monitoring device of moon cake production

Technical Field

The utility model belongs to moon cake production facility field, in particular to environment monitoring device of moon cake production.

Background

In the moon cake production line, the production environment of moon cakes influences the quality of finished products of the moon cakes, but the existing moon cake production equipment lacks a specific device for monitoring the production environment of the moon cakes, for example, the humidity of the environment for producing the moon cakes cannot be too high, and when the humidity is too high, the adhesion of materials is insufficient, so that the moon cakes are difficult to form, and the quality of the moon cakes is reduced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an environmental monitoring device of moon cake production to overcome and lack the environmental monitoring device and lead to the unable defect of guaranteeing of moon cake quality in present moon cake production facility.

In order to achieve the purpose, the utility model provides an environment monitoring device for moon cake production, which comprises an environment monitoring mechanism, wherein the environment monitoring mechanism comprises a humidity monitor; the environment monitoring mechanism further comprises a vertical rod, the vertical rod is connected with the cooling mechanism, and the vertical rod extends to the cooling mechanism; the humidity monitor is arranged at one end of the vertical rod.

Preferably, the cooling device further comprises a temperature monitor, wherein the temperature monitor is arranged at one end of the vertical rod and is used for detecting the ambient temperature and/or the temperature of moon cakes in the cooling mechanism.

Preferably, the device further comprises a particulate matter monitor, wherein the particulate matter monitor is arranged at one end of the vertical rod and is used for detecting the level of environmental particulate matter.

Preferably, environmental monitoring mechanism connects one and cures the mechanism, it includes baking house and baking lamp to cure the mechanism, baking lamp locates baking house top.

Preferably, the inner surface of the baking room is provided with a reflecting layer, and the reflecting layer is used for reflecting baking light rays emitted by the baking lamps.

Compared with the prior art, the utility model provides an environment monitoring device of moon cake production has following advantage:

1. through setting up the humidity monitor for the humidity of moon cake production environment realizes real-time detection, accords with suitable environmental requirement with the production of guaranteeing the moon cake, avoids the problem that the humidity too high leads to the moon cake shaping difficulty, improves the efficiency and the production quality of moon cake production.

2. Through setting up temperature monitor and particulate matter monitor extend in the cooling body top for can real-time supervision moon cake production facility environment's temperature and particulate matter level, for example, strictly monitor the floating particulate matter of air, avoid the particulate matter can be attached to and lead to the moon cake on the moon cake to stick dirt, improve moon cake production quality in order to guarantee that the production of moon cake accords with suitable environmental requirement.

Drawings

Fig. 1 is a block diagram of a moon cake production facility according to a first embodiment of the present invention.

Fig. 2 is a schematic structural view of a forming mechanism in moon cake production equipment according to a first embodiment of the present invention.

Fig. 3 is a schematic structural view of a stuffing making mechanism in moon cake production equipment according to a first embodiment of the present invention.

Fig. 4 is a schematic structural view of a baking mechanism in the moon cake production equipment according to the first embodiment of the present invention.

Fig. 5 is a schematic structural view of a packaging mechanism in moon cake production equipment according to a first embodiment of the present invention.

Fig. 6 is a schematic structural view of an environment monitoring mechanism in moon cake production equipment according to a first embodiment of the present invention.

Description of the main reference numerals:

1-moon cake production equipment, 100-conveying belt,

11-a dough kneading mechanism, wherein the dough kneading mechanism,

12-stuffing making mechanism, 121-stirrer, 1211-shell, 1212-rotating roller, 1213-connecting rod, 1214-stirring plate, 12141-toothed plate,

13-forming mechanism, 131-pressing rod, 132-die pressing warehouse, 1321-die, 13211-pressing part, 13212-abutting part, 1322-sliding track, 1323-pushing rod,

14-baking mechanism, 141-baking room, 142-baking lamp, 143-image recognition device,

15-cooling mechanism, 16-packaging mechanism, 161-guide groove, 162-bagging machine, 1621-rotating disk, 1622-bagging part, 163-hot cutting machine,

17-environmental monitoring means, 171-humidity monitor, 172-temperature monitor, 173-particle monitor, 174-vertical rod.

Detailed Description

The following detailed description of the present invention is provided in conjunction with the accompanying drawings, but it should be understood that the scope of the present invention is not limited by the following detailed description.

Please combine fig. 1 and fig. 2, a first embodiment of the present invention provides a moon cake production apparatus 1, which comprises a dough kneading mechanism 11, a stuffing making mechanism 12, a forming mechanism 13, a baking mechanism 14, a cooling mechanism 15 and a packaging mechanism 16, which are connected in sequence, and a conveyor belt is arranged to communicate in sequence, wherein a material for making moon cakes passes through the dough kneading mechanism 11, the stuffing making mechanism 12, the forming mechanism 13, the baking mechanism 14, the cooling mechanism 15 and the packaging mechanism 16 in sequence, so as to complete an automatic production process from the making of moon cakes to the output of finished products.

The forming mechanism 13 comprises a pressing rod 131 and a die storage 132, the die storage 132 comprises a plurality of dies 1321 which are arranged in sequence, the pressing rod 131 is arranged above the conveyor belt 100, and the pressing rod 131 drives one corresponding die 1321 to move towards the conveyor belt 100 to press moon cakes for forming.

It can be understood, through setting up a plurality of different moulds 1321 among the forming mechanism 13, when the adjustment that needs carried out the mould is changed, the accessible removes mould 1321 and will need the mould 1321 that uses and remove the adjustment to the position that lower pressure plate 131 corresponds can, and lower pressure bar 131 removes to push down on the moon cake with drive mould 1321, also changes different moulds through the mode that removes mould 1321, makes the utility model discloses moon cake production facility 1 that the first embodiment provided can change different die mould immediately to adapt to different moon cake shaping requirements, avoided the loaded down with trivial details of step that the manual change brought, the problem of installation difficulty, improved production efficiency, reduced the cost of labor.

The die library 132 includes a slide rail 1322 and two pushing rods 1323, and the two pushing rods 1323 are respectively disposed at two ends of the slide rail 1322. The mold 1321 includes a pressing portion 13211 and a supporting portion 13212, which are oppositely disposed, the supporting portion 13212 extends to a side surface of one end of the mold 1321, the other end of the supporting portion 13211 is disposed, and the supporting portion 13212 is supported on the sliding rail 1322. When the mold 1321 needs to be moved, the pushing rod 1323 pushes the outermost mold 1321 to move the sequentially arranged molds 1321, so as to push the mold 1321 to be used to the position of the lower pressing plate 131, at this time, the lower pressing rod 131 moves to be connected with the mold 1321, the lower pressing rod 131 rotates the mold 1321, so that the abutting portion 13212 rotates to be separated from the sliding rail 1322, and at this time, the lower pressing plate 131 can drive the mold 1321 downwards to be pressed and molded. On the contrary, when the mold 1321 needs to be replaced again, after the mold 1321 is lifted above the sliding rails 1322, the mold 1321 is rotated so that the abutting portions 13212 correspond to the sliding rails 1322, and the mold 1321 is put down to abut and position the mold 1321 on the sliding rails 1322, so that the operation is completed.

It will be appreciated that the pushing rods 1323 located on the left and right sides of the sliding rail 1322 correspondingly push in different directions, and the user can drive the pushing rods 1323 to push the mold leftwards or rightwards as required.

It can be understood that, by providing the slide rails 1322, the mold 1321 is provided with the abutting portion 13212 abutting against the slide rails 1322, so that the mold 1321 can slide on the slide rails 1322 based on the abutting portion 13212, and can be separated from or abut against the slide rails 1322 based on rotation, thereby simplifying the connection structure for automatically replacing the mold 1321, facilitating the replacement of the mold 1321, and improving the replacement efficiency.

Further, a magnet (not shown) is disposed at one end of the mold 1321 corresponding to the abutting portion 13212, an electromagnet is disposed at an end of the lower pressing rod 131, and the lower pressing rod 131 is magnetically connected to the mold 1321.

The lower pressing rod 131 is magnetically attracted and fixed to the corresponding mold 1321 after being energized by the electromagnet, and the mold 1321 is driven to rotate by rotation, so that the abutting portion 13212 moves to be separated from the sliding rail 1322, and the mold 1321 is driven to move towards the conveying belt direction to press and mold the moon cake.

It can be understood that the electromagnet is arranged at the end of the lower pressing rod 131, and the connection and disconnection between the circuit on-off control based on the electromagnet and the die 1321 are convenient for the connection control between the lower pressing rod 131 and the die 1321, so that the structure is further simplified, and the connection efficiency between the lower pressing rod 131 and the die 1321 is improved.

Referring to fig. 3, the stuffing preparing mechanism 12 includes a stirrer 121, and the stirrer 121 stirs the raw materials for production. The agitator 121 includes a housing 1211, a rotating roller 1212, a connecting rod 1213, and an agitating plate 1214, wherein the rotating roller 1212, the connecting rod 1213, and the agitating plate 1214 are disposed in the housing 1211, the rotating roller 1212 is rotatably connected to the housing 1211, one end of the connecting rod 1213 is connected to the surface of the rotating roller, and the other end is connected to the agitating plate 1214. A plurality of the connecting rods 1213 are provided at different positions on the surface of the rotating roller 1212.

The user drives the rotating roller 1212 to rotate by putting powdered sugar, oil and various auxiliary materials required for making the moon cake stuffing into the casing 1211, so that the rotating roller 1212 drives the connecting rod 1213 to rotate, and the material put into the casing 1211 is stirred by the rotating of the connecting rod 1213 and the stirring plate 1214, and the connecting rod 1213 and the stirring plate 1214 can simultaneously stir.

It can be understood that the rotating roller 1212 is arranged to drive the connecting rod 1213 to rotate, so that the connecting rod 1213 and the stirring plate 1214 can perform stirring operation simultaneously, and the stuffing for moon cakes put into the casing 1211 can be stirred based on the connecting rod 1213 and the stirring plate 1214, and the simultaneous stirring operation of the two structures can accelerate the stirring effect of the materials and improve the stirring efficiency.

Optionally, as an embodiment, the connecting rod 1213 is rotatably connected to the turning roller 1212, and the connecting rod 1213 may rotate on the surface of the turning roller 1212, so that the connecting rod 1213 may rotate while being rotated by the turning roller 1212 to rotate itself, so as to rotate the agitating plate 1214, thereby further improving the stirring efficiency and the production efficiency.

Optionally, with continuing reference to fig. 3, as another embodiment, the surface of the stirring plate 1214 is provided with a plurality of raised tooth plates 12141, and the tooth plate 12141 forms a guiding groove structure on the surface of the stirring plate 1214, so that the material stirred by the stirring plate 1214 can fall off from the tooth plate 12141 under the guiding action of the tooth plate 12141 under the stirring action of the material stirred by the stirring plate 1214 through the tooth plate 12141, thereby reducing the amount of the material adhering to the stirring plate 1214 and ensuring the stirring quality and the stirring efficiency.

Referring to fig. 4, the baking mechanism 14 includes a baking room 141 and a baking lamp 142, the top of the baking room 141 is a cone-shaped structure, and the baking lamp 142 is disposed at the top of the baking room 141. Specifically, the conical structure of the baking chamber 141 is divided into two inclined planes, and the baking lamp 142 is disposed on the two inclined planes.

The bakery 141 medial surface is equipped with the reflection stratum, the reflection stratum is used for reflecting the toasting light that toasts lamp 142 and send to improve toasting efficiency. Simultaneously, will bake out lamp 142 and combine the reflection stratum in the setting on inclined plane for when the lamp 142 that toasts that the slant set up can shine bigger toasting region, the reflection stratum also can guarantee to bake out effective the shining of lamp 142, further improves the efficiency of toasting of moon cake.

It is understood that the conveyor 100 passes through the baking room 141, so that the moon cakes can be automatically baked by the conveyor 100 into the baking room 141.

Optionally, as an embodiment, an image recognition device 143 is further disposed in the baking room 141, the image recognition device 143 is disposed at a position corresponding to the conical tip of the top of the baking room 141, and the image recognition device 143 acquires an image of a moon cake in the baking room.

It can be understood that the image recognition device 143 can be set to the image recognition structure based on the camera, and after it acquires the image of the current frame through the camera, the toasting condition of the current moon cake is recognized based on the image recognition technology, so as to determine the toasting degree based on the preset toasting standard, and control the start and stop of the toasting lamp 142, so as to ensure the toasting quality.

It can be understood that, by setting the image recognition device 143, the baking room 141 can monitor the baking degree of the moon cake in real time based on the image recognition technology, so as to control the baking based on the color change of the moon cake surface during the baking, thereby ensuring the baking quality.

Referring to fig. 5, the packaging mechanism 16 includes a guide slot 161, a bagging machine 162 and a thermal cutting machine 163 sequentially disposed, the guide slot 161 is connected to the conveyor belt, the bagging machine 162 is disposed at the bottom of the guide slot 161, and the thermal cutting machine 163 is disposed at the top of the guide slot 161.

The bagger 162 provides a bag having an open end, and the heat cutter 163 heat-cuts and seals the bag. The moon cakes enter the guide slot 161 from the conveyor belt and then fall into the bagging machine 162, and the seal is thermally cut by the thermal cutting machine 163.

The hot cutting direction of the hot cutting machine 163 is perpendicular to the moving direction of the moon cakes, the hot cutting position of the hot cutting machine 163 is arranged at the tail end of the guide groove 161, namely the starting end of the guide groove 161 is connected with the conveyor belt 100, the opposite tail end is connected with the bagging machine 162, and when the moon cakes fall into the packaging bags from the guide groove 161, the hot cutting machine 163 thermally cuts and seals the corresponding packaging bags.

The bagging machine 162 comprises a rotary table 1621 and a plurality of bagging parts 1622, the rotary table 1621 is arranged at the bottom of the guide groove 161, the plurality of bagging parts 1622 are circumferentially and uniformly arranged on the outer peripheral side of the rotary table 1621, each of the packaging bags with one end opened at the position where the bagging part 1622 is positioned, the rotary table 1621 is rotated to drive the bagging parts 1622, so that each bagging part 1622 sequentially and alternately enters the tail end position of the guide groove 161 to alternately feed the bags.

It can be understood that, through setting up carousel 1621 and a plurality of bagging-off portion 1622, carousel 1621 rotates and gets into a plurality of bagging-off portions 1622 in proper order in turn the terminal position of guiding groove 161 send the bag in turn for toast and can automatic packaging and hot cut seal operation after the cooling moon cake after accomplishing gets into guiding groove 161, realize the automatic packaging step of moon cake, improve equipment's automation level reduces the cost of labor, improves the production efficiency of moon cake.

Referring to fig. 1 and 6, the moon cake production facility further includes an environment monitoring mechanism 17, and the environment monitoring mechanism 17 includes a humidity monitor 171, a temperature monitor 172 and a particulate monitor 173.

The environment monitoring mechanism 17 further includes a vertical rod 174, the vertical rod 174 is connected to the cooling mechanism 15, and the vertical rod 174 extends to the cooling mechanism 15. The humidity monitor 171, the temperature monitor 172 and the particle monitor 173 are disposed at one end of the vertical rod 174, such that the humidity monitor 171, the temperature monitor 172 and the particle monitor 173 extend to the top of the cooling mechanism 15, so as to monitor the humidity level, the temperature level and the particle level of the moon cake production environment through the humidity monitor 171, the temperature monitor 172 and the particle monitor 173, respectively.

It can be understood that the humidity monitor 171, the temperature monitor 172 and the particle monitor 173 are arranged to extend to the top of the cooling mechanism 15, so that the humidity, the temperature and the particle level of the environment of the moon cake production equipment can be monitored in real time, the production of moon cakes is ensured to meet the appropriate environmental requirements, for example, the floating particles in the air are strictly monitored, the particles are prevented from being attached to the moon cakes to cause the dust adhesion of the moon cakes, and the production quality of the moon cakes is improved.

The foregoing descriptions of specific exemplary embodiments of the present invention have been presented for purposes of illustration and description. It is not intended to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain certain principles of the invention and its practical application to enable one skilled in the art to make and use various exemplary embodiments of the invention and various alternatives and modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the claims and their equivalents.

Claims

1. The utility model provides an environmental monitoring device of moon cake production which characterized in that: the environment monitoring mechanism comprises a humidity monitor;

the environment monitoring mechanism further comprises a vertical rod, the vertical rod is connected with the cooling mechanism, and the vertical rod extends to the cooling mechanism;

the humidity monitor is arranged at one end of the vertical rod.

2. An environmental monitoring device for moon cake production as claimed in claim 1, wherein: the temperature monitoring device is arranged at one end of the upright rod and used for detecting the ambient temperature and/or the temperature of moon cakes in the cooling mechanism.

3. An environmental monitoring device for moon cake production as claimed in claim 1, wherein: still include the particulate matter monitor, the particulate matter monitor is located pole setting one end, the particulate matter monitor is used for detecting environment particulate matter level.

4. An environmental monitoring device for moon cake production as claimed in claim 1, wherein: the environment monitoring mechanism is connected with a baking mechanism, the baking mechanism comprises a baking room and a baking lamp, and the baking lamp is arranged at the top of the baking room.

5. An environmental monitoring device for moon cake production as claimed in claim 4, wherein: the internal surface of the baking room is provided with a reflecting layer which is used for reflecting baking light rays emitted by the baking lamp.