CN211353757U - Bean curd flower distribution equipment - Google Patents

Abstract

The present disclosure provides a tofu pudding distribution apparatus, comprising: the flower-dropping barrel is used for preparing the tofu pudding and is provided with a flower-dropping barrel outlet used for outputting the tofu pudding; the first end of the first discharging pipe is connected with the outlet of the flower dotting barrel; the blanking valve is configured to control the on-off of the first blanking pipe; the quantitative device comprises a quantitative barrel and a quantitative valve, the quantitative barrel is provided with a quantitative barrel inlet used for receiving the tofu pudding and a quantitative barrel outlet used for outputting the tofu pudding, the second end of the first discharging pipe is connected with the quantitative barrel inlet, and the quantitative valve is configured to control the quantitative barrel outlet to be switched on and off; the first end of the second discharging pipe is connected with the outlet of the quantitative barrel; and the second end of the second feeding pipe is connected with the distribution head, and the distribution head is configured to distribute the tofu pudding output by the second feeding pipe. The tofu pudding distribution equipment is beneficial to improving the mechanization degree of the tofu pudding processing procedure during the processing of the tofu pudding, and reduces the labor intensity of operators.

Description

Bean curd flower distribution equipment

Technical Field

The disclosure relates to bean product processing equipment, in particular to bean curd jelly distribution equipment.

Background

In the field of bean product processing, such as fermented bean curd processing, before the milk embryo is shaped, the tofu pudding is usually scooped into a molding box by a manual tool such as a gourd ladle or a spoon, operators need to continuously bend over and scoop the tofu pudding, the labor intensity is quite high, the tofu pudding is completely operated by manual force, the amount of the tofu pudding in the molding box is unstable, and the time is long and short, so that the thickness of the squeezed milk embryo is uneven.

SUMMERY OF THE UTILITY MODEL

An object of the present disclosure is to provide a tofu pudding distribution apparatus, comprising:

the flower-dropping barrel is used for preparing the tofu pudding and is provided with a flower-dropping barrel outlet used for outputting the tofu pudding;

the first end of the first discharging pipe is connected with the outlet of the flower dotting barrel;

the blanking valve is configured to control the first blanking pipe to be switched on and off;

the quantitative device comprises a quantitative barrel and a quantitative valve, the quantitative barrel is provided with a quantitative barrel inlet used for receiving the tofu pudding and a quantitative barrel outlet used for outputting the tofu pudding, the second end of the first discharging pipe is connected with the quantitative barrel inlet, and the quantitative valve is configured to control the quantitative barrel outlet to be switched on and off;

the first end of the second discharging pipe is connected with the outlet of the quantitative barrel; and

the second end of the second discharging pipe is connected with the distribution head, and the distribution head is configured to distribute the tofu pudding output by the second discharging pipe.

In some embodiments of the present invention, the,

the second down tube is configured such that a height of the second end is variably set;

the tofu pudding distribution equipment comprises a lifting device, wherein the lifting device is in driving connection with the distribution head to drive the distribution head to lift.

In some embodiments, the dosing device comprises an exhaust tube connected to the top end of the dosing barrel and in communication with the dosing barrel.

In some embodiments, the dosing device comprises a level detection device configured to detect the amount of tofu pudding within the dosing barrel.

In some embodiments, the level detecting device comprises a tuning fork sensor.

In some embodiments, the quantitative device comprises a mounting tube connected to the top end of the quantitative barrel and communicating with the quantitative barrel, and the tuning fork sensor is mounted in the mounting tube.

In some embodiments, the dosing device comprises a vent pipe connected to the mounting tube and configured to introduce compressed gas into the mounting tube, and a control valve configured to control the vent pipe to be on or off.

In some embodiments, the dosing device comprises an exhaust tube connected to the top end of the dosing barrel and communicating with the dosing barrel, the exhaust tube further being connected to the exhaust tube.

In some embodiments, a conveyor device is further included, configured to carry and transport the molding boxes that receive the tofu pudding dispensed by the distribution head.

In some embodiments, a lift table is further included having a height adjustable bearing surface for bearing a molding box that receives the tofu pudding dispensed by the distribution head.

The tofu pudding distribution equipment provided based on the present disclosure has at least one of the following advantages:

is beneficial to improving the mechanization degree of the flower-forming process in bean product processing and reducing the labor intensity of operators.

The quantitative determination of the tofu pudding in the molding box is realized through the quantitative device, and the tofu pudding amount can be adjusted, so that the thickness of the milk embryo can be adjusted.

The quality of the squeezed milk embryo is improved, the milk embryo is more uniform in thickness, and the peripheral corners of the milk embryo are more complete.

Other features of the present disclosure and advantages thereof will become apparent from the following detailed description of exemplary embodiments thereof, which proceeds with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the disclosure and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the disclosure and together with the description serve to explain the disclosure and not to limit the disclosure. In the drawings:

fig. 1 is a schematic structural diagram of a tofu pudding distribution apparatus according to an embodiment of the present disclosure.

Fig. 2 is a schematic structural diagram of a dosing device of the tofu pudding distribution apparatus of the embodiment shown in fig. 1.

Fig. 3 is a schematic structural diagram of a lifting device of the tofu pudding distribution equipment shown in fig. 1.

Detailed Description

The technical solutions in the embodiments of the present disclosure will be clearly and completely described below with reference to the drawings in the embodiments of the present disclosure, and it is obvious that the described embodiments are only a part of the embodiments of the present disclosure, and not all of the embodiments. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the disclosure, its application, or uses. All other embodiments, which can be derived by a person skilled in the art from the embodiments disclosed herein without making any creative effort, shall fall within the protection scope of the present disclosure.

The relative arrangement of the components and steps, the numerical expressions, and numerical values set forth in these embodiments do not limit the scope of the present disclosure unless specifically stated otherwise. Meanwhile, it should be understood that the sizes of the respective portions shown in the drawings are not drawn in an actual proportional relationship for the convenience of description. Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail but are intended to be part of the specification where appropriate. In all examples shown and discussed herein, any particular value should be construed as merely illustrative, and not limiting. Thus, other examples of the exemplary embodiments may have different values. It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, further discussion thereof is not required in subsequent figures.

In the description of the present disclosure, it should be understood that the terms "first", "second", etc. are used to define the components, and are used only for convenience of distinguishing the corresponding components, and if not otherwise stated, the terms have no special meaning, and thus, should not be construed as limiting the scope of the present disclosure.

In the description of the present disclosure, it is to be understood that the orientation or positional relationship indicated by the orientation terms is generally based on the orientation or positional relationship shown in the drawings, and is for convenience only to facilitate the description of the present disclosure and to simplify the description, and in the case of not having been stated to the contrary, these orientation terms do not indicate and imply that the device or element being referred to must have a particular orientation or be constructed and operated in a particular orientation, and therefore should not be taken as limiting the scope of the present disclosure; the terms "inner and outer" refer to the inner and outer relative to the profile of the respective component itself.

As shown in fig. 1-3, embodiments of the present disclosure provide a tofu pudding distribution apparatus. The tofu pudding distribution equipment mainly comprises a tofu pudding barrel 1, a first discharging pipe 3, a discharging valve 2, a quantifying device 4, a second discharging pipe 5 and a distribution head 6.

The flower-dropping barrel 1 is used for preparing the tofu pudding, and the flower-dropping barrel 1 has a flower-dropping barrel outlet for outputting the tofu pudding. The first end of the first blanking pipe 3 is connected with the outlet of the flower dotting barrel. The blanking valve 2 is configured to control the first blanking pipe 3 to be on and off. The dosing device 4 comprises a dosing barrel 46 and a dosing valve 47. The dosing barrel 46 has a dosing barrel inlet for receiving the tofu pudding and a dosing barrel outlet for outputting the tofu pudding. The second end of the first blanking pipe 3 is connected with the inlet of the quantitative barrel. The dosing valve 47 is configured to control the dosing barrel outlet on-off. The first end of the second blanking pipe 5 is connected with the outlet of the quantitative barrel. The second end of the second blanking pipe 5 is connected with the distribution head 6. The distribution head 6 is configured to distribute the tofu pudding output by the second feeding pipe 5.

The tofu pudding distribution equipment of the embodiment has at least one of the following advantages: is beneficial to improving the mechanization degree of the flower-forming process in bean product processing and reducing the labor intensity of operators. The quantitative determination of the tofu pudding in the molding box is realized through the quantitative device, and the tofu pudding amount can be adjusted, so that the thickness of the milk embryo can be adjusted. The quality of the squeezed milk embryo is improved, the milk embryo is more uniform in thickness, and the peripheral corners of the milk embryo are more complete.

In the tofu pudding distribution apparatus of some embodiments, the second blanking pipe 5 is configured such that the height of the second end is variably set; the tofu pudding distribution equipment comprises a lifting device 7, and the lifting device 7 is in driving connection with the distribution head 6 to drive the distribution head 6 to lift.

In some embodiments, the second down pipe 5 may be a hose. In some embodiments, not shown, the second feeding pipe 5 may be a telescopic pipe.

In some embodiments of the tofu pudding distribution apparatus, the lifting device comprises a motor 72, a lead screw 73, and a nut 74. The motor 72 is drivingly connected to the lead screw 73 to drive the lead screw 73 in rotation about its own axis. The nut 74 is screw-engaged with the lead screw 73. The distribution head 6 is fixedly connected with a nut 74.

The driving mechanism comprising the motor 72, the screw rod 73 and the nut 74 is adopted to drive the distribution head 6 to ascend and descend, so that the height of the distribution head 6 can be accurately adjusted, for example, the ascending and descending distance of the distribution head 6 can be controlled by controlling the revolution number of the motor 72, and therefore, the height of the distribution head 6 can be controlled, and the distribution head is favorably matched with the molding box 8 below the distribution head 6 better.

In the tofu pudding distribution equipment of the present disclosure, the specific configuration of the lifting device is not limited to the foregoing embodiment, and various types of lifting devices capable of driving the distribution head 6 to lift may be adopted, for example, a mode of matching the motor with the gear rack device, a mode of driving the oil cylinder, and the like may be adopted.

As shown in fig. 1 and 2, in the tofu pudding distribution apparatus according to some embodiments, the metering device 4 includes an exhaust pipe 41, and the exhaust pipe 41 is connected to the top end of the metering tank 46 and communicates with the metering tank 46.

As shown in fig. 1 and 2, in the tofu pudding distribution apparatus of some embodiments, the dosing device 4 includes a level detecting device configured to detect the amount of tofu pudding in the measuring tub 46. The amount of the tofu pudding contained in the quantitative bucket 49 can be controlled more accurately by using the material level detecting device.

As shown in fig. 1 and 2, in the tofu pudding distribution apparatus of some embodiments, the level detecting means includes a tuning fork sensor 44. As shown in fig. 1 and 2, in the tofu pudding distribution apparatus according to some embodiments, the quantitative device 4 includes a mounting pipe 45, the mounting pipe 45 is connected to the top end of the quantitative bucket 46 and communicates with the quantitative bucket 46, and the tuning fork sensor 44 is mounted in the mounting pipe 45. The quantifying device 4 of the embodiment adopts the tuning fork sensor 44 to detect the amount of the tofu pudding in the quantifying barrel 46, and has high detection sensitivity and accurate quantification.

As shown in fig. 1 and 2, in some embodiments of the tofu pudding distribution apparatus, the quantitative device 4 includes a vent pipe 42 and a control valve 43, the vent pipe 42 is connected to the mounting pipe 45 and configured to introduce compressed gas into the mounting pipe 45, and the control valve 43 is configured to control the on/off of the vent pipe 42. Compressed gas can be blown into the mounting pipe 45 through the vent pipe 42, so that the tuning fork sensor 44 is kept clean, and the detection sensitivity of the tuning fork sensor is favorably maintained.

As shown in fig. 1 and 2, in some embodiments of the tofu pudding distribution apparatus, the air pipe 42 is further connected to the air discharge pipe 41. This setting makes when the tofu pudding gets into quantitative bucket 46, the gas in installation pipe fitting 45 can be discharged through blast pipe 41 to do benefit to the accurate tofu pudding quantity that detects of tuning fork sensor.

As shown in fig. 1, in some embodiments, the tofu pudding distribution apparatus can comprise a conveyor 11, the conveyor 11 being configured to carry and transfer the molding boxes 8 receiving the tofu pudding dispensed by the distribution head 6. In fig. 1, a plurality of molding boxes 8 are shown placed one above the other on a conveyor 11. The conveying device 11 in this embodiment is specifically a conveying trolley. In some embodiments, not shown, the conveying means may also take other forms, such as belt conveyors, chain conveyors, roller conveyors, etc.

In some embodiments, not shown, the tofu pudding distribution device can further comprise an elevator table having a height-adjustable bearing surface for bearing the molding box 8 that receives the tofu pudding dispensed by the distribution head 6.

The lifting of the carrying surface of the lifting table can be realized in various ways, for example. For example, the scissors structure can be implemented by matching with a driving mechanism such as an oil cylinder, an air cylinder or a motor, or can be implemented by directly driving the oil cylinder, and the like.

The lifting platform can be arranged simultaneously with the lifting device, or only one of the lifting platform and the lifting device can be arranged. The lifting platform and the lifting device are beneficial to the tofu pudding distribution equipment to distribute tofu pudding to the molding boxes stacked in multiple layers, so that the tofu pudding distribution equipment has better performance.

If the lifting device and the lifting platform are not arranged, a continuous conveying device, such as a belt conveyor, a chain conveyor or a roller conveyor, can be arranged, the molding boxes 8 can move on the continuous conveying device, and after one molding box is distributed, the molding boxes move forwards, and the next molding box is conveyed, so that the assembly line operation is realized.

The tofu pudding distribution device and the operation process thereof according to the embodiment of the present disclosure will be further described with reference to fig. 1 to 3.

As shown in fig. 1, the tofu pudding distribution equipment mainly comprises a tofu pudding barrel 1, a discharge valve 2, a first discharge pipe 3, a dosing device 4, a second discharge pipe 5, a distribution head 6, a lifting device 7, a workbench 10 and a conveying device 11.

Fig. 1 also shows a plurality of superimposed molding boxes 8 placed on a conveyor 11. The molding box 8 is used for receiving the tofu pudding distributed by the distribution head 6.

The table 10 is installed on the ground G. The conveyor 11 is provided on the table 10. A support frame 9 is further provided on the table 10, and the weighing device 4 is supported on the support frame 9. The lifting device 7 is mounted on the table 10.

As shown in fig. 2, the dosing device 4 includes an exhaust pipe 41, a vent pipe 42, a control valve 43, a tuning fork sensor 44, a mounting pipe 45, a dosing barrel 46, and a dosing valve 47.

The dosing barrel 46 has a dosing barrel inlet for receiving the tofu pudding and a dosing barrel outlet for outputting the tofu pudding. The second end of the first blanking pipe 3 is connected with the inlet of the quantitative barrel. The dosing valve 47 is configured to control the dosing barrel outlet on-off. The first end of second unloading pipe 5 is connected with the ration bucket exit linkage, and the second end is connected with distribution head 6. The second blanking pipe 5 is a flexible hose.

The exhaust pipe 41 is connected to the top end of the measuring cylinder 46 and communicates with the measuring cylinder 46.

The tuning fork sensor 44 serves as a material level detecting device of the weighing device 4 for detecting the amount of the tofu pudding in the measuring vessel 46.

In this embodiment, the fitting 45 of the dosing device 4 is a tee. The first of the three nozzles of the tee is connected to the top end of the dosing barrel 46 and communicates with the dosing barrel 46. And a second one for the tuning fork sensor 44 to extend into for mounting the tuning fork sensor 44. And a third in communication with the vent tube 42.

As shown in fig. 1 and 2, the control valve 43 is an electromagnetic valve, and is disposed on the vent pipe 42 to control the on/off of the vent pipe 42. In this embodiment, the vent tube 42 is a hose. The vent pipe 42 is used for introducing compressed gas into the installation pipe 45. The vent pipe 42 is also connected to the exhaust pipe 41.

As shown in fig. 3, the lifting device 7 includes a mounting bracket 71, a motor 72, a lead screw 73, a nut 74, and a connecting rod 75. The motor 72 is drivingly connected to the lead screw 73 to drive the lead screw 73 in rotation about its own axis. The nut 74 is screw-engaged with the lead screw 73. The distribution head 6 is fixedly connected with a nut 74. The mount 71 is mounted on the table 10. The motor 72 is mounted above the mounting bracket 71. The lead screw 73 is rotatably mounted on the mount 71 with respect to the mount 71. The distribution head 6 is fixedly connected with the nut 74 through a connecting rod 75.

In addition, the blanking valve 2, the proportional valve 47, and the control valve 43 may all be electric control valves, and a console may be provided on the console, and a plurality of operation buttons may be provided on the console to be electrically connected to the blanking valve 2, the proportional valve 47, the control valve 43, the motor 72, and the like, respectively, and the corresponding devices may be controlled by the operation buttons. This setting can improve the degree of automation of tofu pudding distribution equipment.

Soybean milk and coagulant (such as acid water) are added into the dot flower barrel 1 according to the proportion ration and are stirred and mixed, and after the soybean milk coagulates into the tofu pudding, through the unloading valve 2, the first unloading pipe 3 arrives in the dosing unit 4, and after the quantitative required tofu pudding volume is good, the tofu pudding is uniformly distributed in the molding box 8 through the second unloading pipe 5 and the distribution head 6, and the distribution of the tofu pudding is completed. The distribution head 6 is driven by the lifting device 7 to lift up and down, and the tofu puddings can be distributed in the molding box 8 on each layer.

The operation of the tofu pudding distribution apparatus of this example is described as follows:

when a discharging operation button electrically connected with the discharging valve 2 is pressed, the discharging valve 2 below the flower-dotting barrel 1 is opened, the tofu pudding enters the quantitative barrel 46 below the flower-dotting barrel 1 through the first discharging pipe 3, and at the moment, the quantitative valve 47 is in a closed state. The air discharge pipe 41 disposed above the quantitative tub 46 can discharge air in the quantitative tub 46 to smoothly enter the quantitative tub 46.

The quantity of the tofu pudding in the measuring barrel 46 is detected by the tuning fork sensor 44, and the blanking valve 2 is closed after the quantity of the tofu pudding in the measuring barrel 46 is detected to meet the requirement. The two opposite ends of the tee joint are arranged up and down, the tuning fork sensors 44 are arranged at the upper ends of the tee joint, the lower ends of the tee joint are arranged on the quantitative barrel 46, one end of the middle of the tee joint is connected with the exhaust pipe 41 and the electromagnetic valve serving as the control valve 43 through hoses, and the other end of the electromagnetic valve is communicated with compressed air. When the tofu pudding enters the quantitative bucket 46, the air near the tuning fork sensor 44 can be discharged in time. After the quantification of the tofu pudding is completed, the electromagnetic valve is opened, and compressed air is introduced to blow away the tofu pudding attached to the tuning fork sensor 44, so that the detection of the tuning fork sensor 44 is kept sensitive, and the quantification accuracy of each time is ensured.

The distribution operation button electrically connected with the dosing valve 47 is pressed, the dosing valve 47 below the dosing barrel 46 is opened, the tofu pudding is conveyed to the distribution head 6 through the second discharging pipe 5, and is output from the distribution head 6 and distributed into the molding box 8. The quantitative valve 47 can be controlled by a time delay device, and the quantitative valve 47 is controlled to be closed in a delayed mode to achieve fine adjustment of the falling amount of the tofu pudding, so that thickness requirements of bean products (such as fermented bean curd) with different specifications can be met.

The distributing head 6 is fixed on the lifting device 7 and can move up and down under the driving of the lifting device 7. After the distribution head 6 finishes distributing the first layer of molding boxes 8, the lifting device 7 drives the distribution head 6 to lift the distance of about the height of the first layer of molding boxes 8, the second layer of molding boxes 8 are placed on the first layer of molding boxes 8, the tofu puddings are distributed into the second layer of molding boxes 8 according to the steps, and the like until all layers of molding boxes 8 are distributed, and the conveying device 11 removes the finished molding boxes 8. Then, the lifting device 7 drives the distributing head 6 to descend to the lowest position to start distributing the tofu pudding for the next group of molding boxes 8 from the first molding box 8, and the circulation is carried out, so that the tofu pudding is continuously distributed.

Finally, it should be noted that: the above examples are intended only to illustrate the technical solutions of the present disclosure and not to limit them; although the present disclosure has been described in detail with reference to preferred embodiments, those of ordinary skill in the art will understand that: modifications to the embodiments of the disclosure or equivalent replacements of parts of the technical features may be made, which are all covered by the technical solution claimed by the disclosure.

Claims (10)

1. A tofu pudding distribution apparatus, comprising:

the tofu pudding barrel (1) is used for preparing tofu pudding, and the tofu pudding barrel (1) is provided with a tofu pudding barrel outlet used for outputting the tofu pudding;

the first end of the first discharging pipe (3) is connected with the outlet of the flower dotting barrel;

a blanking valve (2) configured to control the first blanking pipe (3) to be switched on and off;

the quantitative device (4) comprises a quantitative barrel (46) and a quantitative valve (47), the quantitative barrel (46) is provided with a quantitative barrel inlet used for receiving the tofu pudding and a quantitative barrel outlet used for outputting the tofu pudding, the second end of the first discharging pipe (3) is connected with the quantitative barrel inlet, and the quantitative valve (47) is configured to control the quantitative barrel outlet to be switched on and off;

the first end of the second discharging pipe (5) is connected with the outlet of the quantitative barrel; and

a distribution head (6), the second end of the second blanking pipe (5) is connected with the distribution head (6), the distribution head (6) is configured to distribute the tofu pudding output by the second blanking pipe (5).

2. Tofu pudding distribution apparatus according to claim 1,

the second discharge pipe (5) is configured such that the height of the second end is variably set;

tofu pudding distribution equipment includes elevating gear (7), elevating gear (7) with distribution head (6) drive connection is in order to drive distribution head (6) go up and down.

3. A tofu pudding distribution apparatus according to claim 1, characterized in that said dosing means (4) comprises an exhaust duct (41), said exhaust duct (41) being connected to the top end of said dosing tank (46) and communicating with said dosing tank (46).

4. A tofu pudding distribution apparatus according to claim 1, characterized in that said dosing means (4) comprises level detection means configured to detect the amount of tofu pudding inside said dosing tub (46).

5. A tofu pudding distribution apparatus according to claim 4, characterized in that said level detection means comprises a tuning fork sensor (44).

6. A tofu pudding distribution apparatus according to claim 5, characterized in that said dosing means (4) comprises a mounting tube (45), said mounting tube (45) being connected to the top end of said dosing tub (46) and communicating with said dosing tub (46), said tuning fork sensor (44) being mounted inside said mounting tube (45).

7. A tofu pudding distribution apparatus according to claim 6, characterized in that said dosing means (4) comprises a vent pipe (42) and a control valve (43), said vent pipe (42) being connected to said mounting tube (45) and configured to let compressed gas into said mounting tube (45), said control valve (43) being configured to control said vent pipe (42) to be opened and closed.

8. A tofu pudding distribution apparatus according to claim 7, characterized in that said dosing means (4) comprises an exhaust pipe (41), said exhaust pipe (41) being connected to the top end of said dosing tank (46) and communicating with said dosing tank (46), said vent pipe (42) being further connected to said exhaust pipe (41).

9. A tofu pudding distribution apparatus according to any one of claims 1 to 8, characterized in that it further comprises a conveying device (11), said conveying device (11) being configured to carry and transfer the molding boxes (8) receiving the tofu pudding distributed by said distribution head (6).

10. A tofu pudding distribution apparatus according to any one of claims 1 to 8, further comprising a lifting table having a height adjustable bearing surface for bearing the molding box (8) receiving the tofu pudding dispensed by the distribution head (6).

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