CN219077555U - Food processing filling device - Google Patents

Abstract

The utility model relates to the technical field of food filling, in particular to a food processing and filling device; the discharging ring is arranged at the bottom of the filling pipe, and the liquid drops can flow into the feeding hole through the cavity arranged in the discharging ring and the feeding hole communicated with the cavity on the inner wall of the discharging ring, and finally are sucked into the connecting pipe assembly communicated with the upper part of the cavity and the quantifying mechanism along with the upward sliding of the first piston assembly, so that the collection and storage of the dropped liquid drops are realized, and in the filling process, the liquid drops are refilled into the container through the downward sliding of the first piston assembly, so that the waste is avoided, the collection and storage of the liquid drops in the pipe orifice at the bottom of the filling mechanism are realized, and the environmental pollution or the waste caused by the dropping of the liquid drops are avoided; the problem of plunger type liquid filling machine drop liquid food easily in filling clearance in-process, cause pollution and cause extravagant to operational environment is solved.

Description

Food processing filling device

Technical Field

The utility model relates to the technical field of food filling, in particular to a food processing and filling device.

Background

When filling liquid food, generally, a plunger type filling machine is adopted for filling, but certain problems still exist in the filling process, when a production line stops, residual liquid food on the inner wall of a filling port of the plunger type filling machine is easy to drop under the action of gravity and pollute a working site, the waste of raw materials is also caused, and particularly in summer, mosquitoes are possibly attracted and even spoiled to give off peculiar smell, so that workers are required to clean the liquid food, and the time of the workers is wasted.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the utility model provides a food processing and filling device, which solves the problems that a plunger type filling machine is easy to drop liquid food in the filling gap process, pollutes the working environment and wastes the working environment.

(II) technical scheme

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a food processing filling device, includes the support that is the installation carrier, installs the filling mechanism that is used for filling liquid food on the support vertically, installs the ration mechanism with filling mechanism lateral wall intercommunication on the support, is equipped with the antidrip mechanism that is used for preventing liquid food whereabouts on the filling mechanism.

The anti-drip mechanism comprises a conical discharging ring fixed at the pipe orifice at the bottom of the filling mechanism, an annular cavity is formed in the discharging ring, an annular feeding port communicated with the cavity is formed in the inner wall of the discharging ring, a connecting pipe assembly communicated with the cavity is fixed on the outer wall of the discharging ring, the other end of the connecting pipe assembly is communicated with the upper part of the quantifying mechanism, and a first piston assembly is arranged in the upper part of the quantifying mechanism in a vertical sliding manner.

Preferably, the filling mechanism comprises a filling pipe fixed on the support, a feeding piston is arranged in the filling pipe in a vertical sliding mode, a cylinder for controlling the upper and lower sliding of the piston is arranged at the top of the filling pipe, and a feeding pipe for guiding raw materials is communicated with the upper portion of the filling pipe.

Preferably, the quantifying mechanism comprises a material storage pipe assembly communicated with the side wall of the filling mechanism, a quantifying pipe is communicated with the other end of the material storage pipe assembly, a partition plate is fixed in the middle of the quantifying pipe, a second piston which is arranged at the lower part of the quantifying pipe in a sliding manner is fixed at the bottom of the first piston assembly, and the second piston is in sliding connection with the partition plate.

Preferably, the storage tube assembly comprises a storage tube body used for communicating the filling mechanism and the bottom wall of the quantitative tube, the middle of the storage tube body is sunken downwards, and the lowest part of the storage tube body is communicated with an openable discharge tube.

Preferably, the connecting pipe assembly comprises a connecting pipe body used for communicating the chamber and the upper part of the quantifying mechanism, and the leak-proof pipe is provided with a temporary storage pipe with the diameter larger than that of the leak-proof pipe.

Preferably, the first piston assembly comprises a first piston head which is arranged on the upper portion of the quantitative pipe in a sliding mode, an avoidance pipe is fixed at the top of the first piston head, a driving block is fixed at the top of the avoidance pipe, a threaded rod which is in threaded transmission with the driving block is arranged in the center of the driving block, and a motor for driving the threaded rod to rotate is fixed on the bracket.

(III) beneficial effects

Compared with the prior art, the utility model provides a food processing and filling device, which comprises the following components

The beneficial effects are that:

the discharging ring is arranged at the bottom of the filling pipe, the liquid which drops can flow into the feeding hole through the cavity arranged in the discharging ring and the feeding hole communicated with the cavity on the inner wall of the cavity, and the liquid drops are finally sucked into the connecting pipe component communicated with the upper part of the cavity and the quantifying mechanism along with the upward sliding of the first piston component, so that the dropped liquid drops are collected and stored, and the liquid drops are refilled into the container by the downward sliding of the first piston component during filling, so that the waste is avoided, the collection and the storage of the liquid drops in the pipe orifice at the bottom of the filling mechanism are realized, and the environmental pollution or the waste caused by the dropping of the liquid drops are avoided.

The drive block and the threaded rod are in threaded transmission arrangement, the rotation of the motor controls the rotation direction and the number of turns of the threaded rod, so that the moving distance of the drive block is controlled, the moving distance of the second piston is finally controlled, the quick adjustment of the suction amount and the filling amount is realized, and simplicity and convenience are realized.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiments of the application and together with the description serve to explain the application and do not constitute an undue limitation to the application. In the drawings:

FIG. 1 is a schematic view of a three-dimensional structure of the present utility model;

FIG. 2 is a cross-sectional view of the present utility model;

FIG. 3 is a cross-sectional view of a first piston assembly of the present utility model;

FIG. 4 is a schematic view of a discharge ring of the present utility model.

In the figure: 1. a bracket; 2. a filling mechanism; 21. filling tubes; 22. a feed piston; 23. a cylinder; 24. a feed pipe; 3. a dosing mechanism; 31. a storage tube assembly; 311. a storage tube body; 312. a discharge pipe; 32. a metering tube; 33. a partition plate; 34. a second piston; 4. an anti-drip mechanism; 41. a discharge ring; 42. a chamber; 43. a feed inlet; 44. a connecting tube assembly; 441. a connecting pipe body; 442. a temporary storage tube; 45. a first piston assembly; 451. a first piston head; 452. an avoidance tube; 453. a driving block; 454. a threaded rod; 455. and a motor.

Detailed Description

The embodiments of the present application will be described in detail below with reference to the accompanying drawings and examples, so that the implementation process of how the technical means are applied to solve the technical problems and achieve the technical effects of the present application can be fully understood and implemented accordingly.

Fig. 1-4 show an embodiment of the present utility model, in which the related structure is provided to collect the droplets on the inner wall of the filling opening of the plunger type filling machine, so as to prevent the droplets from falling down to pollute the environment and cause waste.

The utility model provides a food processing filling device, including support 1 as the installation carrier, the vertical filling mechanism 2 that is used for filling liquid food that installs on support 1, install on support 1 with the quantitative mechanism 3 of filling mechanism 2 lateral wall intercommunication, quantitative mechanism 3 realizes quantitative filling with filling mechanism 2 cooperation, is equipped with the antidrip mechanism 4 that is used for preventing liquid food drippage on the filling mechanism 2, antidrip mechanism 4 is used for collecting the food liquid droplet in the mouth of pipe of filling mechanism 2 bottom to prevent its drippage.

The drip-proof mechanism 4 comprises a conical discharging ring 41 fixed at the bottom pipe orifice of the filling mechanism 2, liquid drops left in the bottom pipe orifice of the filling mechanism 2 can flow downwards to the inner wall of the discharging ring 41 under the action of self gravity, an annular cavity 42 is formed in the discharging ring 41, the cavity 42 is used for collecting the dropped liquid drops, an annular feeding port 43 communicated with the cavity 42 is formed in the inner wall of the discharging ring 41, the liquid drops left in the bottom pipe orifice of the filling mechanism 2 can flow into the feeding port 43 first during dripping so as to enter the cavity 42 for storage, a connecting pipe assembly 44 communicated with the cavity 42 is fixed on the outer wall of the discharging ring 41, the other end of the connecting pipe assembly 44 is communicated with the upper part of the quantifying mechanism 3, a first piston assembly 45 is arranged in the upper part of the quantifying mechanism 3 in a sliding manner up and down, the first piston assembly 45 enables the air pressure in the upper part of the quantifying mechanism 3 to change when sliding up and down, so that in a filling gap, the first piston assembly 45 slides upwards to enable the feeding port 43, the residual food liquid drops are actively sucked into the cavity 42 and stored in the connecting pipe assembly 44 temporarily, so that the liquid drops left in the bottom of the filling mechanism 2 can not flow into the cavity 42 or flow out of the cavity 42 again, even if the liquid drops cannot flow out of the cavity 42 due to the suction of the inner wall of the connecting pipe assembly, and the residual liquid drops cannot flow into the cavity or the cavity, and the air pressure cannot be polluted by the pressure drop, and the residual drops cannot flow into the cavity 43.

As a preferred technical scheme of the embodiment, the filling mechanism 2 comprises a filling tube 21 fixed on a bracket 1, a feeding piston 22 is arranged in the filling tube 21 in a vertically sliding manner, a cylinder 23 for controlling the piston to vertically slide is arranged at the top of the filling tube 21, a feeding pipe 24 for guiding raw materials is communicated with the upper part of the filling tube 21, the cylinder 23 controls the feeding piston 22 to vertically slide, so that liquid is controlled to flow out of the quantitative mechanism 3 and flow out of the filling mechanism 2, or flow into the filling tube 21 from the feeding pipe 24 and finally flow into the quantitative mechanism 3, so that liquid food is sucked into the quantitative mechanism 3 before filling, and the liquid food in the quantitative mechanism 3 is filled into a container during filling, so that filling is realized.

As a preferred technical solution of the present embodiment, the dosing mechanism 3 includes a storage tube assembly 31 that is communicated with a sidewall of the filling mechanism 2, the feeding piston 22 slides up and down at the storage tube assembly 31, so as to control the flow direction of the liquid food, the other end of the storage tube assembly 31 is communicated with a dosing tube 32, a partition 33 is fixed in the middle of the dosing tube 32, a second piston 34 that is slidably disposed at the lower portion of the dosing tube 32 is fixed at the bottom of the first piston assembly 45, the second piston 34 is slidably connected with the partition 33, an air hole for air circulation or other air circulation is preferably disposed between the lower portion of the partition 33 and the limit position of the second piston 34 that moves upward, and the up and down movement of the second piston 34 is realized to draw in the liquid food in the filling mechanism 2, at this time, the feeding piston 22 is located below the orifice of the Chu Liaoguan assembly 31, then the feeding piston 22 moves above the orifice of the storage tube assembly 31, and the second piston 34 flows downward to fill the food into the container through the orifice at the bottom of the filling mechanism 2, so as to realize the dosing.

As a preferred technical scheme of this embodiment, the storage tube assembly 31 includes a storage tube body 311 for communicating the filling mechanism 2 with the bottom wall of the quantifying tube 32, the middle of the storage tube body 311 is concave downwards, when filling, the redundant liquid in the storage tube body 311 is prevented from flowing into the container, through the storage tube body 311 which is arranged obliquely, the second piston 34 can flow out the quantified liquid food through the storage tube body 311 when sliding downwards, the lowest part of the storage tube body 311 is communicated with an openable discharging tube 312, when changing food, the discharging tube 312 is opened to discharge the residual food liquid, so as to be convenient for loading other liquid foods and cleaning.

As a preferred technical solution of this embodiment, the connecting tube assembly 44 includes a connecting tube body 441 for communicating the chamber 42 with the upper portion of the dosing mechanism 3, and the leak-proof tube is provided with a temporary storage tube 442 with a diameter larger than that of the leak-proof tube, so that a single drop of food can be accommodated due to the relatively smaller tube diameter of the connecting tube body 441, and the first piston assembly 45 can enter the connecting tube body 441 and finally enter the temporary storage tube 442 when moving upwards, and the temporary storage tube 442 has a larger tube diameter and is larger than that of a single drop of food, so that the drops entering the temporary storage tube 442 are concentrated at the bottom thereof, and can be discharged from the bottom tube orifice of the filling mechanism 2 when the first piston assembly 45 moves downwards, thereby avoiding waste.

As a preferred technical scheme of the embodiment, the first piston assembly 45 includes a first piston head 451 slidably disposed on an upper portion of the metering tube 32, an avoiding tube 452 is fixed on a top portion of the first piston head 451, a driving block 453 is fixed on a top portion of the avoiding tube 452, a threaded rod 454 driven by threads is disposed in a center of the driving block 453, a motor 455 for driving the threaded rod 454 to rotate is fixed on the bracket 1, and through controlling a rotation direction and a rotation number of the motor 455, the second piston 34 can be controlled to move a certain distance, so that liquid foods with corresponding amounts can be sucked or discharged, and quantitative output of liquid foods with different volumes is realized.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a food processing filling device, is including support (1) as the installation carrier, and vertical filling mechanism (2) that are used for filling liquid food of installing on support (1), install quantitative mechanism (3) with filling mechanism (2) lateral wall intercommunication on support (1), its characterized in that: the filling mechanism (2) is provided with an anti-drip mechanism (4) for preventing liquid food from dripping;

the drip-proof mechanism (4) comprises a conical discharging ring (41) fixed at the pipe orifice at the bottom of the filling mechanism (2), an annular cavity (42) is formed in the discharging ring (41), an annular feeding port (43) communicated with the cavity (42) is formed in the inner wall of the discharging ring (41), a connecting pipe assembly (44) communicated with the cavity (42) is fixed on the outer wall of the discharging ring (41), the other end of the connecting pipe assembly (44) is communicated with the upper portion of the quantifying mechanism (3), and a first piston assembly (45) is arranged in the upper portion of the quantifying mechanism (3) in a vertical sliding mode.

2. A food processing filling device according to claim 1, wherein: the filling mechanism (2) comprises a filling pipe (21) fixed on the support (1), a feeding piston (22) is arranged in the filling pipe (21) in a vertical sliding mode, a cylinder (23) for controlling the piston to slide up and down is arranged at the top of the filling pipe (21), and a feeding pipe (24) for guiding raw materials is communicated with the upper portion of the filling pipe (21).

3. A food processing filling device according to claim 1, wherein: the quantitative mechanism (3) comprises a storage tube assembly (31) communicated with the side wall of the filling mechanism (2), a quantitative tube (32) is communicated with the other end of the storage tube assembly (31), a partition plate (33) is fixed in the middle of the quantitative tube (32), a second piston (34) arranged at the lower part of the quantitative tube (32) in a sliding mode is fixed at the bottom of the first piston assembly (45), and the second piston (34) is in sliding connection with the partition plate (33).

4. A food processing filling device according to claim 3, wherein: the storage pipe assembly (31) comprises a storage pipe body (311) used for communicating the bottom walls of the filling mechanism (2) and the quantitative pipe (32), the middle of the storage pipe body (311) is sunken downwards, and the lowest part of the storage pipe body (311) is communicated with an openable discharge pipe (312).

5. A food processing filling device according to claim 1, wherein: the connecting pipe assembly (44) comprises a connecting pipe body (441) used for communicating the chamber (42) with the upper part of the quantifying mechanism (3), and a temporary storage pipe (442) with the diameter larger than that of the leakage-proof pipe is arranged on the leakage-proof pipe.

6. A food processing filling device according to claim 3, wherein: the first piston assembly (45) comprises a first piston head (451) arranged on the upper portion of the quantitative pipe (32) in a sliding mode, an avoidance pipe (452) is fixed at the top of the first piston head (451), a driving block (453) is fixed at the top of the avoidance pipe (452), a threaded rod (454) in threaded transmission with the driving block (453) is arranged in the center of the driving block (453), and a motor (455) for driving the threaded rod (454) to rotate is fixed on the support (1).

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