CN213192636U - A two reverse filter equipment of high efficiency for liquid filling machine - Google Patents

Abstract

The utility model relates to a two reverse filter equipment of high efficiency for liquid filling machine, its characteristics lie in including just imitating filter assembly, well effect filter assembly, high-efficient filter assembly, inlet pipe, discharging pipe, on the output of inlet pipe was arranged in well effect filter assembly's input, on the output of well effect filter assembly was arranged in to the input of discharging pipe, just imitate filter assembly and dock on well effect filter assembly's input with dismantling to make just imitate filter assembly and well effect filter assembly and dock the intercommunication mutually, still make just imitate filter assembly and overlap on the output of inlet pipe in, high-efficient filter assembly can dock on well effect filter assembly's output with dismantling, and make high-efficient filter assembly and well effect filter assembly dock the intercommunication mutually, still make high-efficient filter assembly overlap and arrange in on the input of discharging pipe. The utility model has the advantages of convenient maintenance, high reliability, good filtering effect, strong applicability and the like.

Description

A two reverse filter equipment of high efficiency for liquid filling machine

Technical Field

The utility model relates to a filling technical field, especially a filter equipment for liquid filling machine.

Background

With the development of economy, liquid commodities are full of liquid commodities, and filling equipment is needed for the liquid commodities. Although the filling industry is also continuously innovated, the problem of the filtering device can not be well solved, and the filter screen of the general conventional liquid filling machine is mainly arranged at the three-way position of the storage barrel and the blanking position of the liquid storage cylinder of the filling machine to play a role in filtering. The impurity granularity of different liquid all has the difference, and the producer generally only disposes general stainless steel net sieve, when needs special filtration, and the user can only be in external filter equipment of filling head department, nevertheless because the space is limited, is difficult to install efficient filter equipment, and the filter equipment that can use at present generally only has the filter of single filter core, filters thoroughly, does not play fine filter effect. And the existing filter has the problem of high maintenance difficulty.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to solve above-mentioned problem and not enough, provide a two high-efficient reverse filter device for liquid filling machine, this two high-efficient reverse filter device have maintain advantages such as convenient, the reliability is high, the filter effect is good, the suitability is strong.

The technical scheme of the utility model is realized like this:

the utility model provides a two reverse filter equipment of high efficiency for liquid filling machine, its characteristics lie in including the primary filter subassembly, well effect filtering component, high-efficient filtering component, inlet pipe, discharging pipe, wherein the output of inlet pipe is arranged in on the input of well effect filtering component, the input of discharging pipe is arranged in on the output of well effect filtering component, the primary filter subassembly can dock on the input of well effect filtering component with dismantling to make the primary filter subassembly and well effect filtering component dock the intercommunication mutually, still make the primary filter subassembly suit on the output of inlet pipe, high-efficient filtering component can dock on the output of well effect filtering component with dismantling, and make high-efficient filtering component and well effect filtering component dock the intercommunication mutually, still make high-efficient filtering component suit on the input of discharging pipe.

Preferably, just imitate the filter assembly and include first casing, just imitate the filter pulp setting in first casing, the output cartridge of inlet pipe is just imitating in the filter pulp, well imitate the filter assembly and include second casing, medical stone filter media, the medical stone filter media sets up in the second casing, high efficiency filter assembly includes third casing, high efficiency filter pulp, the high efficiency filter pulp sets up in the third casing, the input cartridge of discharging pipe is in the high efficiency filter pulp.

Preferably, the first shell, the second shell and the third shell are all made of transparent modified PA engineering plastics.

Preferably, the primary filter cotton is 25ppi synthetic fiber cotton.

Preferably, the medical stone filter material is 40-70 meshes.

Preferably, the high-efficiency filter cotton is 80ppi synthetic fiber cotton.

Preferably, first inner chamber has been seted up on the left surface of first casing, the primary filter cotton inlays the dress in first inner chamber, set up the second inner chamber that transversely runs through on the second casing, be equipped with left filter plate, the right filter plate that arranges side by side about being in the second inner chamber, the medical stone filter media arranges in the second inner chamber between left filter plate and right filter plate, the third inner chamber has been seted up on the right surface of third casing, the high-efficient filter cotton inlays the dress in the third inner chamber, first casing can be connected on the right end of second casing with dismantling to make the right accent of first inner chamber and second inner chamber dock the intercommunication mutually, the third casing can be connected on the left end of second casing with dismantling to make the left accent of third inner chamber and second inner chamber dock the intercommunication mutually.

Preferably, the output end of the feed pipe penetrates between the left filter plate and the right filter plate from the top surface of the second shell and then penetrates outside the second inner cavity after transversely penetrating through the right filter plate, and the input end of the discharge pipe penetrates between the left filter plate and the right filter plate from the bottom surface of the second shell and then penetrates outside the second inner cavity after transversely penetrating through the left filter plate.

Preferably, the first housing is screwed to the second housing, and the third housing is screwed to the second housing.

Preferably, the junction of the primary filter component and the intermediate filter component is provided with a first sealing ring, and the junction of the high-efficiency filter component and the intermediate filter component is provided with a second sealing ring.

The utility model has the advantages that: the utility model discloses in, just imitate filter assembly and high-efficient filter assembly homoenergetic dock on well imitate filter assembly with dismantling, this can satisfy the demand of dismantling just imitate filter assembly, high-efficient filter assembly. Because just imitate the filter assembly only the cover put on the output of inlet pipe, high efficiency filter assembly only overlaps and puts on the input of discharging pipe, this can avoid the inlet pipe to interfere the dismantlement of just imitating filter assembly to and can avoid the discharging pipe to interfere the dismantlement to high efficiency filter assembly, just imitate filter assembly like this and high efficiency filter assembly's dismantlement with convenience very, this helps improving the convenience that this filter equipment is clean, safeguarded. Through adopting first effect filtering component, well effect filtering component, high-efficient filtering component, can play cubic filtering, filter very thoroughly, it can reach very good filter effect, helps improving filter equipment's suitability and reliability like this.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the split structure of the present invention.

Fig. 3 is a schematic view of a part of the structure of the present invention.

Fig. 4 is a schematic structural diagram of the usage state of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in figure 1, the high-efficiency double-reverse filtering device for the filling machine comprises a primary filtering component 1, a medium-efficiency filtering component 2, a high-efficiency filtering component 3, a feeding pipe 4 and a discharging pipe 5, wherein the output end of the feeding pipe 4 is arranged on the input end of the medium-effect filtering component 2, the input end of the discharging pipe 5 is arranged on the output end of the medium-effect filtering component 2, the primary-effect filtering component 1 is detachably butted on the input end of the medium-effect filtering component 2, the primary filter component 1 is connected with the middle filter component 2, the primary filter component 1 is sleeved on the output end of the feeding pipe 4, the high-efficiency filter component 3 is detachably connected with the output end of the middle filter component 2, and the high-efficiency filtering component 3 is communicated with the medium-efficiency filtering component 2 in a butt joint way, and the high-efficiency filtering component 3 is sleeved on the input end of the discharge pipe 5. The utility model discloses in, just imitate filter assembly 1 and high efficiency filter assembly 3 homoenergetic dock on well imitate filter assembly 2 with dismantling, this can satisfy the demand of dismantling just imitate filter assembly 1, high efficiency filter assembly 3. Because primary filter assembly 1 only overlaps and puts on the output of inlet pipe 4, high efficiency filter assembly 3 only overlaps and puts on the input of discharging pipe 5, this can avoid inlet pipe 4 to interfere primary filter assembly 1's dismantlement, and can avoid discharging pipe 5 to interfere high efficiency filter assembly 3's dismantlement, primary filter assembly 1 like this with high efficiency filter assembly 3's dismantlement with convenience very, this helps improving the convenience that this filter equipment is clean, maintain. Through adopting first effect filtering component 1, well effect filtering component 2, high efficiency filtering component 3, can play the cubic filtering action, filter very thoroughly, it can reach very good filter effect, helps improving filter equipment's suitability and reliability like this.

As shown in FIG. 4, the high-efficiency double-reverse-direction filtering device can be used for filtering various plant extracts or hydrolat. When the filter core is used specifically, the feeding pipe 4 is connected to the output head 101 of the filling machine 10, so that the problem of single filter core is solved. The high-efficiency double-reverse-direction filtering device can effectively prevent impurities or coagulates from being output, and finally obtain high-purity plant extracting solution or hydrolat. The high-efficiency double-reverse filtering device is quite simple in structure, applicable to various cosmetic filling machines, plant extract filling machines, daily chemical raw material filling machines and the like, capable of being installed once, capable of being reused permanently, easy to clean and good in stability.

The high-efficiency double-reverse filtering device is used in the field of liquid filling, and comprises a cosmetic filling machine, a plant extract filling machine, a daily chemical raw material filling machine and the like.

As shown in fig. 1, the primary filter assembly 1 includes a first casing 11, primary filter cotton 12, the primary filter cotton 12 is disposed in the first casing 11, the output end of the feeding pipe 4 is inserted in the primary filter cotton 12, the secondary filter assembly 2 includes a second casing 21 and a medical stone filter material 22, the medical stone filter material 22 is disposed in the second casing 21, the high-efficiency filter assembly 3 includes a third casing 31 and a high-efficiency filter cotton 32, the high-efficiency filter cotton 32 is disposed in the third casing 31, and the input end of the discharging pipe 5 is inserted in the high-efficiency filter cotton 32. The structure can play a very good filtering role, so that the filtering performance of the high-efficiency double-reverse filtering device can be further improved.

The first shell 11, the second shell 21 and the third shell 31 are all made of transparent modified PA engineering plastics. By using transparent materials for the first housing 11, the second housing 21 and the third housing 31, the state of the filter material can be easily observed, so that the filter material can be replaced or cleaned in time, which is helpful for improving the convenience of maintenance.

When the visible impurity particles detained on the primary filter cotton 12, the medical stone filter material 22 and the high-efficiency filter cotton 32 are too much, the primary filter assembly 1 and the high-efficiency filter assembly 3 can be detached, the primary filter cotton 12 and the high-efficiency filter cotton 32 are washed or replaced, and the medical stone filter material 22 on the intermediate filter assembly 2 only needs to be washed, so that the high-efficiency double-reverse filter device can be repeatedly used, and the maintenance is very simple and convenient.

The primary filter cotton 12 is 25ppi synthetic fiber cotton. This further improves the filtration performance of the primary filter cotton 12, thereby contributing to further improving the reliability of the high-efficiency double-reverse filtration device.

The medical stone filter material 22 is a 40-70 mesh medical stone filter material. Therefore, the filtering performance of the medical stone filtering material 22 can be further improved, and the reliability of the high-efficiency double-reverse filtering device is further improved.

The high-efficiency filter cotton 32 is 80ppi synthetic fiber cotton. This further improves the filtration performance of the high efficiency filter pulp 32, thereby contributing to further improving the reliability of the high efficiency double reverse filtration apparatus.

As shown in fig. 1 and 3, a first inner cavity 111 is formed on the left surface of the first housing 11, the primary filter cotton 12 is embedded in the first inner cavity 111, the second shell 21 is provided with a second inner cavity 211 which transversely penetrates through, a left filter plate 212 and a right filter plate 213 which are arranged side by side from left to right are arranged in the second inner cavity 211, the medical stone filter material 22 is arranged in the second inner cavity 211 between the left filter plate 212 and the right filter plate 213, a third inner cavity 311 is opened on the right surface of the third shell 31, the high-efficiency filter cotton 32 is embedded in the third inner cavity 311, the first shell 11 is detachably connected on the right end of the second shell 21, the first inner cavity 111 is in butt communication with the right port of the second inner cavity 211, the third housing 31 is detachably connected to the left end of the second housing 21, and the third inner cavity 311 is in butt communication with the left port of the second inner cavity 211. Such structural design not only can make things convenient for the manufacturing of each casing, can also improve filterable stability.

The left filter plate 212 and the right filter plate 213 mainly function to block and limit the medical stone filter 22, so that the medical stone filter 22 is stably confined in the second housing 21. This improves the reliability of the intermediate efficiency filter assembly 2.

As shown in fig. 3, the left filter plate 212 and the right filter plate 213 are made of a plate material with a plurality of through holes 201 on the surface. This allows for the passage of liquid.

As shown in fig. 1, when the liquid material enters the feeding pipe 4, the liquid material directly flows into the primary filter assembly 1 at the right end, visible impurities in the liquid material are intercepted by the primary filter cotton 12, then the liquid material flows through the right filter plate 213 and enters the middle secondary filter assembly 2, fine impurities in the liquid material are intercepted by the medical stone filter material 22, then the liquid material flows through the left filter plate 212 and enters the high-efficiency filter assembly 3 at the left end, and fine impurities in the liquid material are intercepted by the high-efficiency filter cotton 32. Thus, a three-stage filtering effect can be formed, and the purity of the liquid material is ensured by three-stage high-efficiency filtering, namely the quality of the filled product is ensured; the double-reverse filtering device increases the filtering area in a limited space and improves the filtering efficiency.

As shown in fig. 1 and 2, the output end of the inlet pipe 4 penetrates from the top surface of the second housing 21 to between the left filter plate 212 and the right filter plate 213, then transversely penetrates through the right filter plate 213, and then penetrates through the second inner cavity 211, and the input end of the outlet pipe 5 penetrates from the bottom surface of the second housing 21 to between the left filter plate 212 and the right filter plate 213, then transversely penetrates through the left filter plate 212, and then penetrates through the second inner cavity 211. This can not only make things convenient for inlet pipe 4 to be connected with the liquid filling machine, can also make things convenient for by the drainage of filtered liquid, and its water conservancy diversion effect is very good to help improving filtration efficiency and quality.

As shown in fig. 1 and 2, the inlet end of the inlet pipe 4 is arranged vertically above the second housing 21, and the outlet end of the outlet pipe 5 is arranged vertically below the second housing 21. The feeding pipe 4 and the discharging pipe 5 are both L-shaped, so that the structure is very simple and reliable, and the liquid can flow conveniently. This helps to improve the smoothness of liquid inlet and outlet, so as to achieve the effect of high-efficiency filtration.

As shown in fig. 1, 2 and 4, the input end of the feeding pipe 4 is provided with a connector 41. By means of the connector 41, the feeding pipe 4 can be conveniently butted with the output head 101 of the filling machine 10, so that the applicability of the high-efficiency double-reverse filtering device is improved.

As shown in fig. 1 and 2, the first housing 11 is screwed to the second housing 21, and the third housing 31 is screwed to the second housing 21. By adopting the mode, the assembly is convenient, and the connection reliability can be ensured.

As shown in fig. 1 and 2, a first internal thread 214 and a second internal thread 215 are respectively disposed on the left and right openings of the second inner cavity 211, a first external thread 112 is disposed on the left end of the first housing 11, the first external thread 112 is screwed to the second internal thread 215, a second external thread 312 is disposed on the right end of the third housing 31, and the second external thread 312 is screwed to the first internal thread 214. The structure is very simple and reliable, and the assembly and disassembly convenience of the high-efficiency double-reverse filtering device can be improved.

As shown in fig. 1 to 4, the first casing 11, the second casing 21 and the third casing 31 are all cylindrical structures. This contributes to an improvement in the ease of manufacture of the housing.

As shown in fig. 1 and fig. 3, a first sealing ring 6 is disposed at a joint of the primary filter assembly 1 and the intermediate filter assembly 2, and a second sealing ring 7 is disposed at a joint of the high-efficiency filter assembly 3 and the intermediate filter assembly 2. Through the arrangement of the first sealing ring 6 and the second sealing ring 7, the sealing performance of the corresponding connection part is improved, and the reliability of the high-efficiency double-reverse filtering device is further improved.

The first sealing ring 6 and the second sealing ring 7 are both silicon rubber sealing rings. This ensures that they have a very good seal, which contributes to the reliability of the high-efficiency double reverse filter device.

As shown in fig. 1 and 3, the first sealing ring 6 is inserted into the second inner cavity 211, and the first sealing ring 6 is pressed against the right surface of the right filter plate 213, and the left end of the first housing 11 is pressed against the first sealing ring 6; the second seal ring 7 is fitted in the second inner cavity 211, and the second seal ring 7 is pressed against the left surface of the left filter plate 212, and the right end of the third housing 31 is also pressed against the second seal ring 7. Such a structure can play very good sealed effect to can avoid the condition that high-efficient two inverted filter device the seepage appears, this helps improving this high-efficient two inverted filter device's reliability.

Claims (10)

1. The utility model provides a two reverse filter equipment of high efficiency for liquid filling machine which characterized in that: comprises a primary filtering component (1), a medium-efficiency filtering component (2), a high-efficiency filtering component (3), a feeding pipe (4) and a discharging pipe (5), wherein the output end of the feed pipe (4) is arranged on the input end of the medium-efficiency filter component (2), the input end of the discharge pipe (5) is arranged on the output end of the medium-efficiency filter component (2), the primary filter component (1) can be detachably butted on the input end of the intermediate filter component (2), the primary filter component (1) is communicated with the intermediate filter component (2) in a butt joint way, the primary filter component (1) is sleeved on the output end of the feeding pipe (4), the high-efficiency filter component (3) can be detachably butted on the output end of the medium-efficiency filter component (2), and the high-efficiency filtering component (3) is communicated with the medium-efficiency filtering component (2) in a butt joint way, and the high-efficiency filtering component (3) is sleeved on the input end of the discharge pipe (5).

2. A high efficiency dual back-filtration unit for filling machines as defined in claim 1 wherein: just imitate filter assembly (1) including first casing (11), just imitate filter pulp (12) and set up in first casing (11), the output cartridge of inlet pipe (4) is just imitating in filter pulp (12), well imitate filter assembly (2) including second casing (21), medical stone filter material (22) set up in second casing (21), high-efficient filter assembly (3) include third casing (31), high-efficient filter pulp (32) set up in third casing (31), the input cartridge of discharging pipe (5) is in high-efficient filter pulp (32).

3. A high efficiency dual back-filtration unit for filling machines as defined in claim 2 wherein: the first shell (11), the second shell (21) and the third shell (31) are all made of transparent modified PA engineering plastics.

4. A high efficiency dual back-filtration unit for filling machines as defined in claim 2 wherein: the primary filter cotton (12) is 25ppi synthetic fiber cotton.

5. A high efficiency dual back-filtration unit for filling machines as defined in claim 2 wherein: the medical stone filter material (22) is a 40-70 mesh medical stone filter material.

6. A high efficiency dual back-filtration unit for filling machines as defined in claim 2 wherein: the high-efficiency filter cotton (32) is 80ppi synthetic fiber cotton.

7. A high efficiency dual back-filtration unit for filling machines as defined in claim 2 wherein: the left surface of the first shell (11) is provided with a first inner cavity (111), the primary filter cotton (12) is embedded in the first inner cavity (111), the second shell (21) is provided with a second inner cavity (211) which transversely penetrates through the primary filter cotton, the second inner cavity (211) is internally provided with a left filter plate (212) and a right filter plate (213) which are arranged side by side from left to right, the medical stone filter material (22) is arranged in the second inner cavity (211) between the left filter plate (212) and the right filter plate (213), the right surface of the third shell (31) is provided with a third inner cavity (311), the high-efficiency filter cotton (32) is embedded in the third inner cavity (311), the first shell (11) can be detachably connected to the right end of the second shell (21) and enables the right ports of the first inner cavity (111) and the second inner cavity (211) to be in butt joint communication, and the third shell (31) can be detachably connected to the left end of the second shell (21), and the third inner cavity (311) is in butt joint communication with the left cavity opening of the second inner cavity (211).

8. A high efficiency dual back-filtration unit for filling machines as defined in claim 7 wherein: the output end of inlet pipe (4) penetrates to and wears to arrange outside second inner chamber (211) after left filter plate (212), right filter plate (213) from the top surface of second casing (21), again after transversely passing right filter plate (213), the input of discharging pipe (5) penetrates to and wears to arrange outside second inner chamber (211) after left filter plate (212), right filter plate (213) from the bottom surface of second casing (21), again transversely passes left filter plate (212).

9. A high efficiency dual back-filtration unit for filling machines as claimed in claim 2 or 7 wherein: the first shell (11) is screwed on the second shell (21), and the third shell (31) is screwed on the second shell (21).

10. A high efficiency dual back-filtration unit for filling machines as defined in claim 1 wherein: the joint of the primary filter assembly (1) and the intermediate filter assembly (2) is provided with a first sealing ring (6), and the joint of the high-efficiency filter assembly (3) and the intermediate filter assembly (2) is provided with a second sealing ring (7).

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