CN212758487U - Full-automatic release agent proportioning and recycling environmental protection equipment - Google Patents

Abstract

The utility model relates to the technical field of the recycling of a release agent, in particular to a full-automatic release agent ratio recycling environmental protection device, which comprises a floating oil filtering unit, an aeration impurity removing unit and a proportioning unit; the aeration impurity removal unit comprises a first box body, a foaming mechanism and an impurity removal mechanism, wherein the foaming mechanism is used for communicating the first box body and aerating the liquid in the first box body; the impurity removing mechanism comprises a driving assembly and an impurity removing piece connected with the output end of the driving assembly, bubbles formed by the foaming mechanism aerating the first box body adhere to impurities in the liquid and float to the top surface of the liquid, and the impurity removing piece scrapes the impurities carried by the bubbles to the top surface of the liquid; the floating oil in the mixed liquid of the release agent is filtered by the floating oil filtering unit, secondary impurity removal of the liquid filtered by the floating oil filtering unit is realized by the aeration impurity removal unit, automatic mixing and proportioning of the aeration impurity removal unit and the new release agent are realized by the proportioning unit, and recovery, impurity removal and automatic proportioning treatment of the release agent are realized.

Description

Full-automatic release agent proportioning and recycling environmental protection equipment

Technical Field

The utility model relates to a release agent recycle technical field especially discloses a full-automatic release agent ratio recovery environmental protection equipment.

Background

The release agent is one of the basic materials commonly used in the use process of the die, and when a workpiece is manufactured by using the die, in order to facilitate the smooth separation of the workpiece and the die, the release agent is often required to be coated on the inner surface of a die cavity of the die. After a workpiece is manufactured by the mold, the inner surface of the mold cavity needs to be cleaned by using a cleaning agent or clear water, and then the mold release agent is coated in the cleaned mold cavity again so as to facilitate the reuse of the mold. In the process of cleaning the die, oil stains such as lubricating oil used by the die, machine equipment and the like are inevitably mixed, and the direct discharge of oil stains formed by cleaning agents (or clear water), release agents, lubricating oil and the like can cause environmental pollution.

SUMMERY OF THE UTILITY MODEL

In order to overcome shortcoming and not enough that exist among the prior art, the utility model aims to provide a full-automatic release agent ratio recovery environmental protection equipment, with the help of the oil slick in the mixed liquid of oil slick filter unit filtering release agent, realize the secondary edulcoration to the liquid after the oil slick filter unit filters with the help of aeration edulcoration unit, realize the automatic mixing ratio of aeration edulcoration unit and new release agent with the help of proportioning unit, realize the recovery of release agent, the automated processing of edulcoration and ratio, promote release agent recovery efficiency.

In order to achieve the purpose, the utility model discloses a full-automatic release agent ratio recovery environmental protection equipment, including oil slick filter unit, aeration edulcoration unit and ratio unit, oil slick filter unit is used for filtering the oil slick in the external release agent mixed liquid, and aeration edulcoration unit is used for filtering debris in the liquid after oil slick filter unit handles, and ratio unit is used for mixing the liquid ratio after new release agent and aeration edulcoration unit filter; the aeration impurity removal unit comprises a first box body communicated with the floating oil filtering unit and the proportioning unit, and a foaming mechanism and an impurity removal mechanism which are matched with the first box body, wherein the foaming mechanism is used for communicating the first box body and aerating liquid in the first box body; impurity removal mechanism includes drive assembly and the impurity removal piece of being connected with drive assembly's output, and the debris in the bubble adhesion liquid that foaming mechanism formed to the internal aeration of first box and float to the top surface of liquid on, and drive assembly drive impurity removal piece scrapes the debris that the bubble brought to the top surface of liquid.

The aeration impurity removing unit further comprises an impurity collecting plate and an inclined guide plate, the impurity collecting plate is located in the first box body, the inclined guide plate is matched with the impurity collecting plate to be used, an impurity collecting groove used for containing impurities scraped by the impurity removing pieces is formed by the impurity collecting plate and the side wall of the first box body in a surrounding mode, the inclined guide plate is located outside the first box body and located outside the impurity collecting groove, and the inclined guide plate is used for guiding the impurities scraped by the impurity removing pieces to the impurity collecting groove.

The foaming mechanism comprises an air pump positioned outside the first box body and a micropore air floatation device positioned in the first box body, the air pump is communicated with the micropore air floatation device, and air pumped into the micropore air floatation device by the air pump is aerated by the micropore air floatation device to form bubbles entering the liquid in the first box body; the drive assembly comprises two rotating rollers which are rotatably arranged, an annular belt which is sleeved on the outer sides of the two rotating rollers and a drive motor which is used for driving the rotating rollers to rotate, and the impurity removing part is arranged on the annular belt.

Wherein, aeration edulcoration unit still includes the hollow tube with first box intercommunication and installs a plurality of liquid level detector in the hollow tube, the hollow tube include the elbow portion and with the straight tube portion of elbow portion intercommunication, the bottom of elbow portion intercommunication straight tube portion and first box, straight tube portion extends the setting along vertical direction, the length direction arrangement setting of straight tube portion is followed to a plurality of liquid level detector.

The floating oil filtering unit comprises a second box body, a first pump body and a second pump body, wherein a first partition plate and a second partition plate which are parallel to each other are arranged in the second box body; the second box is internally provided with a pore plate, the lateral wall and the first baffle of second box are connected to the pore plate, the second baffle is located the both sides of first baffle, the pore plate is equipped with a plurality of weeping holes that run through the perforated plate, the pore plate, the second baffle, the lateral wall of second box encloses to establish and is formed with the feed liquor groove, the mixed liquid injection feed liquor inslot of external release agent, the drawing liquid head of the first pump body is connected with the floater board that is located the feed liquor inslot, the first pump body is used for taking away the oil slick of feed liquor inslot, the second pump body is with the interior liquid suction first box after filtering of second box in.

The floating oil filtering unit further comprises an oil stain separator and a waste oil barrel, the oil stain separator is used for communicating the waste oil barrel and the second box body, the communicating positions of the pore plate, the oil stain separator and the second box body are located on two sides of the first partition plate, the first pump body sucks floating oil in the liquid inlet groove into the oil stain separator for automatic separation, the floating oil separated by the oil stain separator enters the waste oil barrel, and liquid separated by the oil stain separator enters the second box body.

The proportioning unit comprises a feeding barrel and a third pump body, the feeding barrel is used for accommodating a new release agent, and the feeding barrel and an external water supply system are communicated with the first box body through the third pump body respectively.

The feed tank comprises a first tank body, a feed barrel, a feed tank, a water supply system, a second pump body, a first tank body, a second tank body, a third tank body, a filter, a proportioning device, a feed tank, a third tank body and a water supply system, wherein the second pump body is communicated with the proportioning device through the filter, the proportioning device is communicated with the first tank body, and.

Wherein, still include the fourth pump body and disinfect the case, the fourth pump body is used for the mixed liquid suction that accomplishes the ratio back with the ratio unit in the first box in disinfect the incasement, disinfect the incasement and dispose the sterilizer that is used for disinfecting to the mixed liquid that gets into the incasement that disinfects.

Wherein, still include with the agitator tank of the incasement that disinfects intercommunication, be located the rabbling mechanism of agitator tank, the mixed liquid of the incasement sterilizer that disinfects of agitator tank appearance, the rabbling mechanism stirs the mixed liquid in the agitator tank, the agitator tank is used for communicateing external feed pipe.

The utility model has the advantages that: by means of the oil slick in the mixed liquid of the filtering release agent of the oil slick filtering unit, the secondary edulcoration to the liquid after the filtering of the oil slick filtering unit is realized by means of the aeration edulcoration unit, the automatic mixing ratio of the aeration edulcoration unit and the new release agent is realized by means of the proportioning unit, the recovery of the release agent, the edulcoration and the automatic processing of the proportioning are realized, the recovery efficiency of the release agent is improved, and the recovery cost of the release agent is reduced.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic structural view of the present invention;

FIG. 3 is a schematic structural view of the aeration and impurity removal unit of the present invention;

fig. 4 is a partially enlarged structural view of a portion a in fig. 2.

The reference numerals include:

1-floating oil filtering unit 2-aeration impurity removing unit 3-proportioning unit

4-frame 5-first box 6-foaming mechanism

7-impurity removal mechanism 8-drive assembly 9-impurity removal piece

11-impurity collecting plate 12-inclined guide plate 13-impurity collecting groove

14-air pump 15-micropore air floatation device 16-hollow pipe

17-liquid level detector 18-elbow part 19-straight pipe part

21-second box 22-first pump 23-second pump

24-first partition 25-second partition 26-orifice plate

27-liquid inlet groove 28-floating ball plate 29-oil dirt separator

31-waste oil barrel 32-feeding barrel 33-third pump body

34-filter 35-proportioning device 36-fourth pump body

37-sterilization box 38-sterilizer 39-stirring box

41-stirring mechanism.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and accompanying drawings, which are not intended to limit the present invention.

Please refer to fig. 1 to 4, the utility model discloses a full-automatic release agent ratio recovery environmental protection equipment, including oil slick filter unit 1, aeration edulcoration unit 2 and ratio unit 3, preferably, full-automatic release agent ratio recovery environmental protection equipment disposes frame 4, and oil slick filter unit 1, aeration edulcoration unit 2 and ratio unit 3 are all installed and are fixed in frame 4, and of course, during the in-service use, full-automatic release agent ratio recovery environmental protection equipment disposes the control box in oil slick filter unit 1, aeration edulcoration unit 2 and ratio unit 3 electric connection respectively.

The oil slick filtering unit 1 is used for filtering oil slick in the external release agent mixed liquid, the aeration impurity removing unit 2 is used for filtering sundries in the liquid processed by the oil slick filtering unit 1, and the proportioning unit 3 is used for proportioning and mixing the new release agent and the liquid filtered by the aeration impurity removing unit 2.

The aeration impurity removal unit 2 comprises a first box body 5 communicated with the floating oil filtering unit 1 and the proportioning unit 3, a foaming mechanism 6 matched with the first box body 5 for use and an impurity removal mechanism 7, wherein the foaming mechanism 6 is used for communicating the first box body 5 and aerating the liquid in the first box body 5; impurity removal mechanism 7 includes drive assembly 8 and the edulcoration piece 9 of being connected with drive assembly 8's output, and the foaming mechanism 6 is to the debris in the bubble adhesion liquid that the internal aeration of first box 5 formed and float to the top surface of liquid on, and drive assembly 8 drive impurity removal piece 9 scrapes the debris that the bubble brought to the top surface of liquid.

During practical use, liquid filtered by the floating oil filtering unit 1 enters the first box body 5, the foaming mechanism 6 aerates the liquid in the first box body 5, bubbles formed by aeration automatically float up in the liquid in the first box body 5, and the bubbles adhere to impurities in the liquid and carry the impurities to the top surface of the liquid in the first box body 5 in the floating process of the bubbles. The driving component 8 drives the impurity removing component 9 to reciprocate, and then impurities carried to the top surface of the liquid in the first box body 5 by the bubbles are scraped.

By means of the oil slick in the mixed liquid of the filtering release agent of oil slick filter unit 1, realize the secondary edulcoration to the liquid after oil slick filter unit 1 filters with the help of aeration edulcoration unit 2, realize the automatic mixing ratio of aeration edulcoration unit 2 and new release agent with the help of proportioning unit 3, realize the recovery of release agent, the automated processing of edulcoration and ratio, promote the recovery efficiency of release agent, reduce the recovery cost of release agent.

Aeration edulcoration unit 2 still includes the miscellaneous board of collection 11 that is located first box 5, the slope baffle 12 that uses with the cooperation of the miscellaneous board of collection 11, and the miscellaneous board of collection 11 forms via the welding of a plurality of rectangle flat boards, and the miscellaneous board of collection 11 encloses with the lateral wall of first box 5 and establishes the miscellaneous groove 13 of collection that is used for holding the debris that remove miscellaneous 9 and strike off, and the miscellaneous groove 13 of collection upwards is uncovered setting. The inclined guide plate 12 is connected with the top end of the impurity collecting plate 11, an included angle between the inclined guide plate 12 and the horizontal plane is an acute angle, the inclined guide plate 12 is positioned outside the impurity collecting groove 13 and the first box body 5, and the inclined guide plate 12 is used for guiding impurities scraped by the impurity removing piece 9 into the impurity collecting groove 13.

Through the arrangement of the inclined guide plate 12, the sundries scraped by the impurity removing mechanism 7 can easily enter the impurity collecting groove 13 under the guiding action of the inclined guide plate 12, and the recovery efficiency of the sundries in the first box 5 is further improved in an auxiliary manner. Preferably, the angle between the inclined guide 12 and the horizontal plane is 28-35 °, preferably the angle between the inclined guide and the horizontal plane is 33 °.

The foaming mechanism 6 comprises an air pump 14 located outside the first box 5 and a micropore air floatation device 15 located inside the first box 5, the micropore air floatation device 15 is the prior art and is not described herein any more, the air pump 14 is communicated with the micropore air floatation device 15, and air pumped into the micropore air floatation device 15 by the air pump 14 is aerated by the micropore air floatation device 15 to form air bubbles entering the liquid inside the first box 5.

The driving assembly 8 comprises two rotating rollers which are rotatably arranged, an annular belt which is sleeved on the outer sides of the two rotating rollers and a driving motor which is used for driving the rotating rollers to rotate, and the impurity removing piece 9 is connected and arranged on the annular belt. Preferably, the axes of rotation of the two rollers are spaced from and parallel to each other and the axes of rotation of the two rollers are parallel to the horizontal plane.

During the in-service use, driving motor drive changes the roller and rotates, and the pivoted changes the roller and drives the endless belt and rotate, and the pivoted endless belt drives except that sundries 9 and remove together, utilizes the edulcoration piece 9 that removes to carry the debris of bubble to the liquid top surface via slope baffle 12 automatic scraping to in the collection miscellaneous groove 13, realizes the automatic recovery to debris in the liquid.

The aeration impurity removing unit 2 further comprises a hollow pipe 16 communicated with the first box body 5 and a plurality of liquid level detectors 17 installed in the hollow pipe 16, the hollow pipe 16 is approximately L-shaped, the hollow pipe 16 comprises an elbow part 18 and a straight pipe part 19 communicated with the elbow part 18, the elbow part 18 is communicated with the straight pipe part 19 and the bottom end of the first box body 5, the straight pipe part 19 extends in the vertical direction, and the liquid level detectors 17 are arranged in the length direction of the straight pipe part 19.

During actual use, the liquid level in the straight pipe portion 19 is the same as the liquid level in the first box 5, and the straight pipe portion 19 is arranged outside the first box 5, so that the straight pipe portion 19 is prevented from occupying the space in the first box 5, and a user can directly watch the actual liquid level value detected by the liquid level detector 17 in the straight pipe portion 19. Preferably, the hollow tube 16 is made of transparent material, and according to actual needs, the hollow tube 16 can be made of transparent toughened glass and transparent plastic, so that a user can directly observe the liquid level of the hollow tube 16 to know the size of the liquid level value.

The floating oil filtering unit 1 comprises a second box body 21, a first pump body 22 and a second pump body 23, wherein a first partition plate 24 and a second partition plate 25 which are parallel to each other are arranged in the second box body 21, the second partition plate 25 is positioned between the communication positions of the first partition plate 24 and the second pump body 23 and the second box body 21, the first partition plate 24 extends downwards from the upper end of the second box body 21, the second partition plate 25 extends upwards from the lower end of the second box body 21, the first partition plate 24 and the second partition plate 25 are arranged in an extending mode in the vertical direction, and a liquid passing gap is formed between the bottom wall of the first partition plate 24 and the bottom wall of the second box body 21 and between the top wall of the second partition plate 25 and the top wall of the second box body 21.

Second box 21 internal fixation is provided with orifice plate 26, the parallel horizontal plane setting of orifice plate 26, the lateral wall and the first baffle 24 of second box 21 are connected to orifice plate 26, second baffle 25 is located the left and right sides of first baffle 24 respectively, orifice plate 26 is equipped with a plurality of weeping holes that run through orifice plate 26, second baffle 25, the lateral wall of second box 21 encloses to be established and is formed with feed liquor groove 27, external release agent mixed liquid pours into feed liquor groove 27 in, the liquid of release agent mixed liquid gets into in second box 21 automatically under the action of gravity via the weeping hole. The second partition plate 25, the bottom wall of the second box 21 and the side wall of the second box 21 are surrounded to form a dust collecting groove, heavy sediments mixed in the liquid entering the second box 21 through the liquid leakage hole automatically fall into the dust collecting groove under the action of gravity, and the liquid in the second box 21 flows across the second partition plate 25 through a gap between the second partition plate 25 and the top wall of the second box 21.

The liquid extraction head of the first pump body 22 is connected with a floating ball plate 28 located in the liquid inlet groove 27, the floating ball plate 28 drives the liquid extraction head of the first pump body 22 to enable the liquid extraction head to be located at the upper end of the releasing agent mixed liquid in the liquid inlet groove 27 all the time, the floating oil floats at the upper end of the releasing agent mixed liquid in the liquid inlet groove 27, during actual use, the first pump body 22 is used for extracting the floating oil in the liquid inlet groove 27, automatic removal of the floating oil in the releasing agent mixed liquid is achieved, and the second pump body 23 is used for pumping the filtered liquid in the second box body 21 into the first box body 5.

The floating oil filtering unit 1 further comprises an oil-dirt separator 29 and a waste oil barrel 31, the oil-dirt separator 29 is used for communicating the waste oil barrel 31 with the second box body 21, the communication positions of the pore plate 26, the oil-dirt separator 29 and the second box body 21 are located on the left side and the right side of the first partition plate 24, the first pump body 22 sucks floating oil in the liquid inlet groove 27 into the oil-dirt separator 29 for automatic separation, the floating oil separated by the oil-dirt separator 29 enters the waste oil barrel 31, and liquid separated by the oil-dirt separator 29 enters the second box body 21. The automatic separation of the mixture of the floating oil pumped by the first pump body 22 is realized by means of the oil dirt separator 29, the separated floating oil is directly discharged into the waste oil barrel 31, and the separated liquid is discharged into the second tank body 21.

The proportioning unit 3 comprises a feeding barrel 32 and a third pump body 33, the feeding barrel 32 is used for accommodating a new release agent, and the feeding barrel 32 and an external water supply system are respectively communicated with the first box body 5 through the third pump body 33. According to actual needs, the liquid treated by the aeration impurity removal unit 2 is automatically proportioned and mixed with a new release agent supplied by the supply barrel 32 and clear water supplied by a water supply system, and then the mixed release agent proportioning liquid is recycled, so that the water consumption is reduced, and the cost is saved.

The second pump body 23 is communicated with the proportioning device 35 through the filter 34, preferably, the filter 34 is a PP cotton melt-blown filter, and the liquid filtered by the floating oil filtering unit 1 is secondarily filtered by the filter 34, so that the purity of the liquid is improved. The proportioner 35 is communicated with the first box 5, and the feeding barrel 32 and an external water supply system are respectively communicated with the proportioner 35 through the third pump body 33. Through the setting of proportioner 35, the liquid filtered by floating oil filter unit 1, new release agent and external clear water are accurately mixed, and then the mixed liquid with the required proportion is proportioned.

The liquid mixing pump further comprises a fourth pump body 36 and a sterilization box 37, wherein the fourth pump body 36 is used for pumping mixed liquid which is mixed in the first box body 5 by the mixing unit 3 into the sterilization box 37, and a sterilizer 38 which is used for sterilizing the mixed liquid which enters the sterilization box 37 is arranged in the sterilization box 37. The mixed liquid entering the sterilization box 37 is automatically sterilized by the sterilizer 38, so that bacteria in the mixed liquid are prevented from interfering the normal use of the subsequent mold release agent proportioning liquid. Preferably, the sterilizer 38 is an ultraviolet sterilizer. The sterilizer 38 is installed in the sterilization tank 37 as needed, that is, the sterilizer 38 is installed in a submerged manner, and the sterilization function of the sterilizer 38 is fully utilized.

The sterilizing box further comprises a stirring box 39 communicated with the sterilizing box 37 and a stirring mechanism 41 positioned in the stirring box 39, the stirring box 39 contains mixed liquid sterilized by the sterilizer 38 in the sterilizing box 37, the stirring mechanism 41 stirs the mixed liquid in the stirring box 39, and the stirring box 39 is used for being communicated with an external liquid supply pipe.

After the sterilizer 38 completes sterilization of the mixed liquid in the sterilization box 37, the mixed liquid flows into the stirring box 39, the stirring mechanism 41 automatically stirs the mold release agent proportioning liquid in the stirring box 39, so that the new mold release agent, the externally injected clean water and the liquid treated by the aeration impurity removal unit 2 are uniformly mixed, and then the proportioning liquid stirred by the stirring mechanism 41 can be output for use through the liquid supply pipe. According to actual needs, the stirring mechanism 41 may include a motor and a stirring blade connected to an output shaft of the motor, and the motor drives the stirring blade to rotate so as to automatically stir the proportioning liquid in the stirring tank.

The utility model discloses a full-automatic release agent ratio recovery environmental protection equipment is successful for the difficult and complicated problem of die-casting trade solution sewage discharge, not only thoroughly solves die-casting workshop sewage discharge problem to have functions such as automatic deoiling, disinfect, deodorization, microfiltration, concentration detection, automatic ratio, greasy dirt, impurity etc. in the mixed liquid of effective filtration, the product of producing is bright and clean more beautiful, and pure physics method divides the processing release agent active ingredient and retrieves from workshop sewage and recycles.

The above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.

Claims (10)

1. A full-automatic release agent proportioning and recycling environment-friendly device comprises a floating oil filtering unit, an aeration impurity removal unit and a proportioning unit, wherein the floating oil filtering unit is used for filtering floating oil in external release agent mixed liquid, the aeration impurity removal unit is used for filtering impurities in liquid treated by the floating oil filtering unit, and the proportioning unit is used for proportioning and mixing a new release agent and the liquid filtered by the aeration impurity removal unit; the method is characterized in that: the aeration impurity removal unit comprises a first box body communicated with the floating oil filtering unit and the proportioning unit, and a foaming mechanism and an impurity removal mechanism which are matched with the first box body, wherein the foaming mechanism is used for communicating the first box body and aerating liquid in the first box body; impurity removal mechanism includes drive assembly and the impurity removal piece of being connected with drive assembly's output, and the debris in the bubble adhesion liquid that foaming mechanism formed to the internal aeration of first box and float to the top surface of liquid on, and drive assembly drive impurity removal piece scrapes the debris that the bubble brought to the top surface of liquid.

2. The full-automatic environment-friendly mold release agent proportioning recycling device as claimed in claim 1, wherein: the aeration impurity removing unit also comprises an impurity collecting plate and an inclined guide plate, wherein the impurity collecting plate is positioned in the first box body, the inclined guide plate is matched with the impurity collecting plate for use, the impurity collecting plate and the side wall of the first box body are surrounded to form an impurity collecting groove used for containing impurities scraped by the impurity removing piece, the inclined guide plate is positioned in the first box body and is positioned outside the impurity collecting groove, and the inclined guide plate is used for guiding the impurities scraped by the impurity removing piece into the impurity collecting groove.

3. The full-automatic environment-friendly mold release agent proportioning recycling device as claimed in claim 1, wherein: the foaming mechanism comprises an air pump positioned outside the first box body and a micropore air floatation device positioned in the first box body, the air pump is communicated with the micropore air floatation device, and air pumped into the micropore air floatation device by the air pump is aerated by the micropore air floatation device to form bubbles entering the liquid in the first box body; the drive assembly comprises two rotating rollers which are rotatably arranged, an annular belt which is sleeved on the outer sides of the two rotating rollers and a drive motor which is used for driving the rotating rollers to rotate, and the impurity removing part is arranged on the annular belt.

4. The full-automatic environment-friendly mold release agent proportioning recycling device as claimed in claim 1, wherein: the aeration impurity removal unit further comprises a hollow pipe communicated with the first box body and a plurality of liquid level detectors arranged in the hollow pipe, the hollow pipe comprises an elbow part and a straight pipe part communicated with the elbow part, the elbow part is communicated with the bottom end of the straight pipe part and the bottom end of the first box body, the straight pipe part extends along the vertical direction, and the liquid level detectors are arranged along the length direction of the straight pipe part.

5. The full-automatic environment-friendly mold release agent proportioning recycling device as claimed in claim 1, wherein: the floating oil filtering unit comprises a second box body, a first pump body and a second pump body, wherein a first partition plate and a second partition plate which are parallel to each other are arranged in the second box body, the second partition plate is positioned among the communication positions of the first partition plate, the second pump body and the second box body, the first partition plate extends downwards from the upper end of the second box body, the second partition plate extends upwards from the lower end of the second box body, and liquid passing gaps are formed between the first partition plate and the bottom wall of the second box body and between the second partition plate and the top wall of the second box body; the second box is internally provided with a pore plate, the lateral wall and the first baffle of second box are connected to the pore plate, the second baffle is located the both sides of first baffle, the pore plate is equipped with a plurality of weeping holes that run through the perforated plate, the pore plate, the second baffle, the lateral wall of second box encloses to establish and is formed with the feed liquor groove, the mixed liquid injection feed liquor inslot of external release agent, the drawing liquid head of the first pump body is connected with the floater board that is located the feed liquor inslot, the first pump body is used for taking away the oil slick of feed liquor inslot, the second pump body is with the interior liquid suction first box after filtering of second box in.

6. The full-automatic environment-friendly mold release agent proportioning recycling device of claim 5, characterized in that: the floating oil filtering unit further comprises an oil stain separator and a waste oil barrel, the oil stain separator is used for communicating the waste oil barrel and the second box body, the communicating positions of the pore plate, the oil stain separator and the second box body are located on two sides of the first partition plate, the first pump body pumps floating oil in the liquid inlet groove into the oil stain separator for automatic separation, the floating oil separated by the oil stain separator enters the waste oil barrel, and liquid separated by the oil stain separator enters the second box body.

7. The full-automatic environment-friendly mold release agent proportioning recycling device of claim 5, characterized in that: the proportioning unit comprises a feeding barrel and a third pump body, the feeding barrel is used for accommodating a new release agent, and the feeding barrel and an external water supply system are respectively communicated with the first box body through the third pump body.

8. The full-automatic environment-friendly mold release agent proportioning recycling device of claim 7, characterized in that: the feed tank is characterized by further comprising a filter and a proportioner, the second pump body is communicated with the proportioner through the filter, the proportioner is communicated with the first tank body, and the feed tank and an external water supply system are communicated with the proportioner through the third pump body respectively.

9. The full-automatic environment-friendly mold release agent proportioning recycling device as claimed in claim 1, wherein: still include the fourth pump body and disinfect the case, the fourth pump body is used for the mixed liquid suction that accomplishes after the ratio with the internal proportioning unit of first box in disinfect the incasement, disinfect the incasement and dispose the sterilizer that is used for disinfecting to getting into the mixed liquid that disinfects the incasement.

10. The full-automatic environment-friendly mold release agent proportioning recycling device of claim 9, characterized in that: still include with the agitator tank of sterilization case intercommunication, be located the rabbling mechanism of agitator tank, the mixed liquid after the sterilizer disinfects in the agitator tank is held to the agitator tank, and the rabbling mechanism stirs the mixed liquid in the agitator tank, and the agitator tank is used for communicateing external feed pipe.

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