CN109969618B

CN109969618B - Special powder coating device of engineering

Info

Publication number: CN109969618B
Application number: CN201910310137.XA
Authority: CN
Inventors: 张名秋; 陈希文
Original assignee: Individual
Current assignee: Zhang Mingqiu
Priority date: 2019-04-17
Filing date: 2019-04-17
Publication date: 2020-06-09
Anticipated expiration: 2039-04-17
Also published as: CN109969618A

Abstract

The invention discloses a special powder coating device for engineering, which comprises a coating storage box, wherein a feeding box is fixedly arranged on the coating storage box, a feeding cavity is arranged in the feeding box, a discharging box positioned below the feeding box is fixedly arranged in the coating storage box, a discharging cavity is arranged in the discharging box, a siphon mechanism is arranged in the coating storage box, the siphon mechanism comprises a heating block and a siphon, and the heating block can heat water in the discharging cavity; the device has a simple structure, is convenient to operate, carries out quantitative output of the coating by using a mechanical mode, has a liquid storage function, can be used conveniently by outputting the coating or not by opening and closing the heating block, and fully utilizes the characteristics of siphon and differential pressure to process or flow out the coating.

Description

Special powder coating device of engineering

Technical Field

The invention relates to the technical field of coating processing, in particular to a powder coating device special for engineering.

Background

The powder coating preparation equipment in the market at present is generally high in cost, complicated in use steps and not practical, and the problem that the powder coating cannot be quantitatively discharged after being processed exists, so that the device disclosed by the invention is designed aiming at the situations.

Disclosure of Invention

The invention aims to provide a special powder coating device for engineering, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a special powder coating device of engineering, includes the coating bin, the fixed workbin that is equipped with of coating bin, be equipped with the material loading chamber in the material loading bin, the coating bin internal fixation is equipped with and is located the workbin of material loading bin below, be equipped with the unloading chamber in the workbin, be equipped with siphon mechanism in the coating bin, siphon mechanism includes heating block and siphon, the heating block can be right the water in the unloading chamber heats, the intraductal water of siphon accessible pressure difference gets into to the material loading intracavity, siphon mechanism has utilized the aquatic product's after the heating vapor to drive the atmospheric pressure grow in the unloading chamber to the atmospheric pressure difference that leads to drives water upflow, what upflow was hot water, and what upflow was equipped with the abundant coating processing raw and other materials in the material loading bin, siphon mechanism right side is equipped with drive mechanism, drive mechanism includes floater and rack, the floating ball can rotate upwards according to the rising of the water level, the rotation of the floating ball drives the rack to slide rightwards, thereby driving the device below to move, a cavity changing mechanism is arranged below the transmission mechanism and comprises a sliding block, the sliding blocks can slide in the front-back direction, the sliding blocks on the two sides can be matched to introduce water in the feeding cavity to the outside of the device, a sliding door mechanism is arranged below the cavity changing mechanism and can control the water in the siphon mechanism to flow out, the sliding door mechanism comprises a sliding door, the sliding door slides rightwards to enable the coating in the feeding cavity to flow out of the device, the cavity changing mechanism separates the air pressure in the blanking cavity from the air pressure in the feeding cavity, so that the feeding cavity is communicated with the outside, the well-foamed coating in the feeding cavity flows out of the device along with the siphon pipe due to the action of gravity and air pressure.

As preferred, siphon mechanism including fixed set up in just be located in the coating bin the workbin of going up the workbin below, the fixed heating block that is equipped with the symmetry of terminal surface about the workbin, the terminal surface is equipped with the apopore under the workbin, go up the workbin with fixed being equipped with between the workbin extends to the siphon of unloading intracavity, be equipped with the water pipe chamber in the siphon, material loading chamber right-hand member wall is equipped with the litter groove that is linked together, litter groove right-hand member wall is equipped with the curved bar groove that is linked together, curved bar groove right-hand member wall is equipped with the rotation chamber that is linked together.

Preferably, the transmission mechanism comprises a floating ball, the floating ball is slidably connected to the feeding cavity, the right end wall of the rotating cavity is provided with a slider cavity communicated with the rotating cavity, a slider is slidably arranged in the slider cavity, the left end surface of the slider is provided with a matching groove, the right end surface of the floating ball is fixedly provided with a floating rod, the floating rod is hinged to the matching groove, the floating rod is fixedly provided with a water baffle plate positioned in the crank groove, the water baffle plate is slidably connected to the crank groove, the right end wall of the slider cavity is provided with a communicated rack cavity, a rack is slidably arranged in the rack cavity, the left end surface of the rack is fixedly connected with the slider, the lower end wall of the rack cavity is provided with a communicated transmission cavity, the rear end wall of the transmission cavity is rotatably provided with a gear rotating shaft, the gear rotating shaft is fixedly provided with a straight gear, the straight gear is meshed with the rack, and the front, the end wall rotates around the transmission chamber and is equipped with the connecting rod pivot, the fixed rotatory connecting rod that is equipped with in the connecting rod pivot, rotatory connecting rod with main connecting rod is articulated, it has vice connecting rod to articulate on the rotatory connecting rod, transmission chamber lower extreme wall is equipped with the perpendicular slider chamber that is linked together, the slip is equipped with perpendicular slider in the perpendicular slider chamber, perpendicular slider is equipped with opening up's connecting rod cooperation chamber, vice connecting rod with connecting rod cooperation chamber is articulated.

Preferably, the cavity changing mechanism comprises a sliding space, the sliding space is communicated with the lower end wall of the trapezoidal block, a sliding plate is arranged in the sliding space in a sliding mode, the left end of the sliding plate extends into the blanking cavity, a matching block is fixedly arranged on the front end surface of the sliding plate on the rear side and the rear end surface of the sliding plate on the front side, a matched insertion groove and an insertion block which can be matched are fixedly arranged on the matching block, a water through cavity is arranged in the middle of the matching block after the matching block is matched, a water blocking block is fixedly arranged on the front end surface of the sliding plate on the rear side, a water blocking groove is arranged in the water blocking block, an insertion plate is fixedly arranged on the rear end surface of the sliding plate on the front side, the insertion plate is connected in the water blocking groove in a sliding mode, a sliding block is arranged between the sliding plates, the trapezoidal block is arranged in the sliding block in a vertical sliding, the novel automatic water distribution device is characterized in that a sector gear is arranged in the sliding space in a sliding mode, a sector gear cavity is formed in the sector gear, inner racks are symmetrically arranged on the front end wall and the rear end wall of the sector gear cavity, a rotating rod cavity is arranged on the lower end wall of the sliding space, an upper rotating rod is arranged between the rotating rod cavity and the sliding space in a rotating mode, a rotating gear located in the sliding space is fixedly arranged on the upper rotating rod, the rotating gear is meshed with the sector gear cavity, a matching plate which is bilaterally symmetrical is fixedly arranged on the discharging box, a sliding groove is formed in the matching plate, a water distribution plate is fixedly arranged on the outer end face of the sliding plate, the water distribution plate is slidably connected in the sliding groove, and an elastic spring is fixedly arranged between the sliding space and.

Preferably, the sliding door mechanism comprises a sliding door, a sliding door outflow slot is arranged in the sliding door, an upper rotating plate positioned in the rotating rod cavity is fixedly arranged on the upper rotating rod, a lower rotating rod is rotatably arranged on the lower end surface of the rotating rod cavity, a lower rotating plate is fixedly arranged on the lower rotating rod, a rotating shaft is rotatably arranged between the lower rotating plate and the upper rotating plate, a long rotating rod positioned between the upper rotating plate and the lower rotating plate is fixedly arranged on the rotating shaft, a sliding door cavity communicated with the rotating rod cavity is arranged on the left end wall of the rotating rod cavity, the sliding door is connected in the sliding door cavity in a sliding way, the right end face of the sliding door is fixedly provided with a connecting rod frame, the connecting rod frame is hinged with the long rotating rod, the lower end wall of the sliding door cavity is provided with a liquid storage tank communicated with the sliding door cavity, the lower end wall of the liquid storage groove is fixedly provided with a liquid outlet valve, and the water pipe cavity, the water through cavity, the water outlet hole, the sliding door outflow groove and the liquid storage groove can be communicated with each other.

In conclusion, the beneficial effects of the invention are as follows: the device has a simple structure, is convenient to operate, can output the coating quantitatively by using a mechanical mode, has a liquid storage function, can be used conveniently by outputting the coating or not by switching the heating block, fully utilizes the characteristics of siphon and pressure difference to process or flow the coating, has high linkage, controls the device and the device by the change of the height of the liquid level, and reduces the transmission cost.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic overall cross-sectional front view of a powder coating apparatus for engineering;

FIG. 2 is a schematic top view of the powder coating apparatus A-A of the present invention.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

Any feature disclosed in this specification (including any accompanying claims, abstract and drawings), may be replaced by alternative features serving equivalent or similar purposes, unless expressly stated otherwise. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

Referring to fig. 1-2, an embodiment of the present invention is shown: a special powder coating device for engineering comprises a coating storage box 10, wherein a feeding box 12 is fixedly arranged on the coating storage box 10, a feeding cavity 11 is arranged in the feeding box 12, a discharging box 54 positioned below the feeding box 12 is fixedly arranged in the coating storage box 10, a discharging cavity 59 is arranged in the discharging box 54, a siphon mechanism 90 is arranged in the coating storage box 10, the siphon mechanism 90 comprises a heating block 71 and a siphon 56, the heating block 71 can heat water in the discharging cavity 59, the water in the siphon 56 can enter the feeding cavity 11 through pressure difference, the siphon mechanism 90 utilizes steam generated by the heated water to drive the air pressure in the discharging cavity 59 to be increased, so that the air pressure difference drives the water to flow upwards, the upward flowing water is all hot water, and a sufficient amount of coating processing raw materials are arranged in the feeding box 12, the right side of the siphon mechanism 90 is provided with a transmission mechanism 91, the transmission mechanism 91 comprises a floating ball 13 and a rack 20, the floating ball 13 can upwards rotate according to the rising of the water level, the rotation of the floating ball 13 drives the rack 20 to slide rightwards, so as to drive the device below the rack to move, a cavity changing mechanism 93 is arranged below the transmission mechanism 91, the cavity changing mechanism 93 comprises a sliding block 34, the sliding block 34 can upwards slide in the front and back direction, the sliding blocks 34 on the two sides can guide the water in the feeding cavity 11 to the outside of the device after being matched, a sliding door mechanism 92 is arranged below the cavity changing mechanism 93, the sliding door mechanism 92 can control the water in the siphon mechanism 90 to flow out, the sliding door mechanism 92 comprises a sliding door 49, the sliding door 49 can slide rightwards to allow the coating in the feeding cavity 11 to flow out of the device, the cavity changing mechanism 93 separates the air pressure in the discharging cavity 59 from the air pressure in the feeding cavity 11, the feeding cavity 11 is communicated with the outside, and the well-soaked coating in the feeding cavity 11 flows out of the device along with the siphon 56 due to the action of gravity and air pressure.

Beneficially, siphon mechanism 90 includes lower bin 54 that sets up fixedly in coating storage box 10 and be located material loading box 12 below, the fixed heating piece 71 that is equipped with the symmetry of terminal surface about lower bin 54, the terminal surface is equipped with apopore 50 under the lower bin 54, material loading box 12 with fixed being equipped with between the lower bin 54 extends to siphon 56 in the material loading chamber 59, be equipped with water pipe chamber 58 in the siphon 56, material loading chamber 11 right-hand member wall is equipped with the litter groove 15 that is linked together, litter groove 15 right-hand member wall is equipped with the curved bar groove 17 that is linked together, curved bar groove 17 right-hand member wall is equipped with the rotation chamber 72 that is linked together.

Beneficially, the transmission mechanism 91 includes a floating ball 13, the floating ball 13 is slidably connected to the feeding cavity 11, the right end wall of the rotating cavity 72 is provided with a slider cavity 21 communicated with each other, a slider 19 is slidably arranged in the slider cavity 21, the left end surface of the slider 19 is provided with a matching groove 18, the right end surface of the floating ball 13 is fixedly provided with a floating rod 14, the floating rod 14 is hinged to the matching groove 18, the floating rod 14 is fixedly provided with a water baffle 16 located in the crank groove 17, the water baffle 16 is slidably connected to the crank groove 17, the right end wall of the slider cavity 21 is provided with a rack cavity 24 communicated with each other, the rack cavity 24 is slidably provided with a rack 20, the left end surface of the rack 20 is fixedly connected with the slider 19, the lower end wall of the rack cavity 24 is provided with a transmission cavity 73 communicated with each other, the rear end wall of the transmission cavity 73 is rotatably provided with a gear rotating shaft 23, the gear rotating shaft 23 is, straight-teeth gear 22 with the meshing of rack 20, the terminal surface articulates before straight-teeth gear 22 has main connecting rod 25, the end wall rotates around transmission chamber 73 and is equipped with connecting rod pivot 26, the fixed rotatory connecting rod 27 that is equipped with on the connecting rod pivot 26, rotatory connecting rod 27 with main connecting rod 25 is articulated, it has vice connecting rod 28 to articulate on the rotatory connecting rod 27, transmission chamber 73 lower extreme wall is equipped with the perpendicular slider chamber 31 that is linked together, it is equipped with perpendicular slider 30 to slide in the perpendicular slider chamber 31, perpendicular slider 30 is equipped with opening connecting rod cooperation chamber 29 up, vice connecting rod 28 with connecting rod cooperation chamber 29 is articulated.

Beneficially, the cavity changing mechanism 93 includes a sliding space 74, the sliding space 74 is communicated with the lower end wall of the trapezoidal block 32, a sliding plate 75 is slidably disposed in the sliding space 74, the left end of the sliding plate 75 extends into the blanking cavity 59, a front end surface of the sliding plate 75 at the rear side and a rear end surface of the sliding plate 75 at the front side are fixedly provided with a matching block 66, a slot 67 and an insertion block 68 which can be matched are fixedly provided on the matching block 66, a water passing cavity 55 is provided in the middle after matching of the matching block 66, a water blocking block 65 is fixedly provided on the front end surface of the sliding plate 75 at the rear side, a water blocking groove 88 is provided in the water blocking block 65, an insertion plate 70 is fixedly provided on the rear end surface of the sliding plate 75 at the front side, the insertion plate 70 is slidably connected in the water blocking groove 88, a sliding block 34 is provided between the sliding plates 75, and, the lower end wall of the sliding space 74 is provided with a spring cavity 44 communicated with each other, a compression spring 45 is fixedly arranged between the lower end surface of the trapezoidal block 32 and the spring cavity 44, a sector gear 36 is slidably arranged in the sliding space 74, the sector gear 36 is slidably connected in the sliding block 34, a sector gear cavity 35 is arranged in the sector gear 36, inner racks 60 are symmetrically arranged on the front end wall and the rear end wall of the sector gear cavity 35, a rotating rod cavity 41 is arranged on the lower end wall of the sliding space 74, an upper rotating rod 37 is rotatably arranged between the rotating rod cavity 41 and the sliding space 74, a rotating gear 61 positioned in the sliding space 74 is fixedly arranged on the upper rotating rod 37, the rotating gear 61 is meshed with the sector gear cavity 35, a matching plate 62 which is bilaterally symmetrical is fixedly arranged on the blanking box 54, a sliding groove 63 is arranged in the matching plate 62, and a water distribution plate 64 is fixedly arranged on the outer end, the water diversion plate 64 is slidably connected in the sliding groove 63, and an elastic spring 76 is fixedly arranged between the sliding plate 75 and the sliding space 74.

Advantageously, the sliding door mechanism 92 includes a sliding door 49, a sliding door outflow slot 53 is provided in the sliding door 49, an upper rotating plate 38 located in the rotating rod cavity 41 is fixedly provided on the upper rotating rod 37, a lower rotating rod 43 is rotatably provided on the lower end surface of the rotating rod cavity 41, a lower rotating plate 42 is fixedly provided on the lower rotating rod 43, a rotating shaft 40 is rotatably provided between the lower rotating plate 42 and the upper rotating plate 38, a long rotating rod 39 located between the upper rotating plate 38 and the lower rotating plate 42 is fixedly provided on the rotating shaft 40, a sliding door cavity 46 communicated with the left end wall of the rotating rod cavity 41 is provided on the left end wall of the rotating rod cavity 41, the sliding door 49 is slidably connected in the sliding door cavity 46, a connecting rod rack 48 is fixedly provided on the right end surface of the sliding door 49, the connecting rod rack 48 is hinged to the long rotating rod 39, a liquid storage slot 51 communicated with the lower end wall of the sliding door cavity 46 is provided on the lower end wall of the liquid storage slot 51, a valve, the water pipe chamber 58, the water passing chamber 55, the water outlet hole 50, the sliding door outflow slot 53 and the liquid storage slot 51 may communicate with each other.

The applicant will now describe in detail an engineering specific powder coating device of the present application with reference to the accompanying figures 1-2 and the specific composition of an engineering specific powder coating device of the present application described above:

firstly, in an initial state, the sliding door 49 is positioned at the leftmost end of the sliding door cavity 46, the compression spring 45 is in a natural state, the blanking cavity 59 is empty, the heating block 71 is closed, the distance between the sliding plates 75 is at the maximum, the sector gear 36 is positioned at the leftmost end of the sliding block 34, and the floating ball 13 is in a natural drooping state;

during the work of the invention, a user firstly adds water into the blanking cavity 59, pours the raw material for processing the coating into the feeding cavity 11, opens the heating block 71, the heating block 71 heats and drives the water in the blanking cavity 59 to evaporate, the evaporated water increases the pressure in the blanking cavity 59, the heated water but not evaporated is squeezed into the water cavity 58 and enters the feeding cavity 11 due to the pressure difference, the water contacts the raw material for processing the coating to be brewed, simultaneously, the floating ball 13 floats upwards and drives the floating rod 14 to rotate, the floating rod 14 drives the sliding block 19 to slide rightwards, the sliding block 19 drives the rack 20 to slide rightwards, the rack 20 drives the straight gear 22 to rotate, the straight gear 22 drives the main connecting rod 25 to rotate, the main connecting rod 25 drives the rotating connecting rod 27 to rotate, the rotating link 27 drives the secondary link 28 to rotate, the secondary link 28 drives the vertical slide block 30 to slide downwards, the vertical slide block 30 drives the trapezoidal blocks 32 to slide downwards, the trapezoidal blocks 32 are pressed downwards, the distance between the sliding plates 75 is narrowed due to the shape and the elastic force of the elastic spring 76, the matching blocks 66 are matched with each other to cut off the air pressure in the blanking cavity 59, and the water in the feeding cavity 11 flows downwards into the water outlet hole 50 through the water pipe cavity 58;

wherein, the sliding plate 75 slides the sector gear 36 to the right, the sector gear 36 rotates the rotating gear 61, the rotating gear 61 rotates the upper rotating rod 37, the upper rotating rod 37 rotates the upper rotating plate 38, the upper rotating plate 38 rotates the rotating shaft 40, the rotating shaft 40 rotates the lower rotating plate 42 around the lower rotating rod 43, the rotating shaft 40 rotates the long rotating rod 39 to the right, the long rotating rod 39 rotates the sliding door 49 to the right, and the paint in the water outlet hole 50 flows into the liquid storage tank 51 through the sliding door outflow slot 53 and flows out from the liquid outlet valve 52, which is a unit of paint outflow, if more paint outflow is needed, only the water in the blanking chamber 59 needs to be heated continuously to complete the obtaining process;

the invention has the beneficial effects that: the device has a simple structure, is convenient to operate, can output the coating quantitatively by using a mechanical mode, has a liquid storage function, can be used conveniently by outputting the coating or not by switching the heating block, fully utilizes the characteristics of siphon and pressure difference to process or flow the coating, has high linkage, controls the device and the device by the change of the height of the liquid level, and reduces the transmission cost.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims

1. The utility model provides a special powder coating device of engineering, includes the coating bin, its characterized in that: the coating storage box is fixedly provided with a feeding box, a feeding cavity is arranged in the feeding box, a discharging box positioned below the feeding box is fixedly arranged in the coating storage box, a discharging cavity is arranged in the discharging box, a siphon mechanism is arranged in the coating storage box and comprises a heating block and a siphon, the heating block can heat water in the discharging cavity, the water in the siphon can enter the feeding cavity through pressure difference, the siphon mechanism utilizes vapor generated by the heated water to drive the air pressure in the discharging cavity to be increased, so that the air pressure difference drives the water to flow upwards, the upward flowing water is hot water, sufficient coating processing raw materials are filled in the feeding box, the right side of the siphon mechanism is provided with a transmission mechanism, the transmission mechanism comprises a floating ball and a rack, and the floating ball can rotate upwards according to the rising of the water level, the rotation of the floating ball drives the rack to slide rightwards, thereby driving the device below to move, a cavity changing mechanism is arranged below the transmission mechanism and comprises sliding blocks which can slide in the front and back directions, the sliding blocks on the two sides can be matched to introduce water in the feeding cavity to the outside of the device, a sliding door mechanism is arranged below the cavity changing mechanism and can control the water in the siphon mechanism to flow out, the sliding door mechanism comprises a sliding door, the sliding door slides rightwards to enable the coating in the feeding cavity to flow out of the device, the cavity changing mechanism separates the air pressure in the blanking cavity from the air pressure in the feeding cavity, so that the feeding cavity is communicated with the outside, the well-foamed coating in the feeding cavity flows out of the device along with the siphon pipe due to the action of gravity and air pressure; the siphon mechanism comprises a blanking box which is fixedly arranged in the coating storage box and is positioned below the feeding box, symmetrical heating blocks are fixedly arranged on the left end face and the right end face of the blanking box, a water outlet hole is formed in the lower end face of the blanking box, a siphon extending into the blanking cavity is fixedly arranged between the feeding box and the blanking box, a water pipe cavity is arranged in the siphon, a slide rod groove communicated with the right end wall of the feeding cavity is formed in the right end wall of the slide rod groove, a curved rod groove communicated with the right end wall of the slide rod groove is formed in the right end wall of the curved rod groove, and a rotating cavity communicated with the; the transmission mechanism comprises a floating ball, the floating ball is connected in the feeding cavity in a sliding manner, a slider cavity communicated with the right end wall of the rotating cavity is arranged in the slider cavity, a slider is arranged in the slider cavity in a sliding manner, a matching groove is formed in the left end surface of the slider, a floating rod is fixedly arranged on the right end surface of the floating ball and is hinged with the matching groove, a water baffle plate positioned in the crank groove is fixedly arranged on the floating rod and is connected in the crank groove in a sliding manner, a communicated rack cavity is formed in the right end wall of the slider cavity, a rack is arranged in the rack cavity in a sliding manner, the left end surface of the rack is fixedly connected with the slider, a transmission cavity communicated with the lower end wall of the rack cavity is formed in the lower end wall of the rack cavity, a gear rotating shaft is arranged on the rear end wall of the transmission cavity in a rotating manner, a straight gear is fixedly arranged, a connecting rod rotating shaft is rotatably arranged on the front end wall and the rear end wall of the transmission cavity, a rotating connecting rod is fixedly arranged on the connecting rod rotating shaft, the rotating connecting rod is hinged with the main connecting rod, an auxiliary connecting rod is hinged on the rotating connecting rod, a vertical sliding block cavity communicated with the lower end wall of the transmission cavity is arranged on the lower end wall of the transmission cavity, a vertical sliding block is slidably arranged in the vertical sliding block cavity, the vertical sliding block is provided with a connecting rod matching cavity with an upward opening, and the auxiliary connecting rod is hinged with the connecting; the cavity changing mechanism comprises a sliding space, the sliding space is communicated with the lower end wall of the trapezoidal block, a sliding plate is arranged in the sliding space in a sliding mode, the left end of the sliding plate extends into the blanking cavity, a matching block is fixedly arranged on the front end face of the sliding plate on the rear side and the rear end face of the sliding plate on the front side, a matched insertion groove and an insertion block which can be matched are fixedly arranged on the matching block, a water through cavity is arranged in the middle of the matching block after the matching block is matched, a water blocking block is fixedly arranged on the front end face of the sliding plate on the rear side, a water blocking groove is arranged in the water blocking block, an insertion plate is fixedly arranged on the rear end face of the sliding plate on the front side and is connected in the water blocking groove in a sliding mode, a sliding block is arranged between the sliding plates, the trapezoidal block is arranged in the sliding block in an up-and-, a sector gear is arranged in the sliding space in a sliding mode, the sector gear is connected in the sliding block in a sliding mode, a sector gear cavity is arranged in the sector gear, inner racks are symmetrically arranged on the front end wall and the rear end wall of the sector gear cavity, a rotating rod cavity is arranged on the lower end wall of the sliding space, an upper rotating rod is arranged between the rotating rod cavity and the sliding space in a rotating mode, a rotating gear located in the sliding space is fixedly arranged on the upper rotating rod, the rotating gear is meshed with the sector gear cavity, matching plates which are symmetrical left and right are fixedly arranged on the blanking box, a sliding groove is formed in the matching plates, a water distribution plate is fixedly arranged on the outer end face of the sliding plate, the water distribution plate is connected in the sliding groove in a sliding mode, and an elastic spring is fixedly; the sliding door mechanism comprises a sliding door, a sliding door outflow slot is arranged in the sliding door, an upper rotating plate positioned in the rotating rod cavity is fixedly arranged on the upper rotating rod, a lower rotating rod is rotatably arranged on the lower end surface of the rotating rod cavity, a lower rotating plate is fixedly arranged on the lower rotating rod, a rotating shaft is rotatably arranged between the lower rotating plate and the upper rotating plate, a long rotating rod positioned between the upper rotating plate and the lower rotating plate is fixedly arranged on the rotating shaft, a sliding door cavity communicated with the rotating rod cavity is arranged on the left end wall of the rotating rod cavity, the sliding door is connected in the sliding door cavity in a sliding way, the right end face of the sliding door is fixedly provided with a connecting rod frame, the connecting rod frame is hinged with the long rotating rod, the lower end wall of the sliding door cavity is provided with a liquid storage tank communicated with the sliding door cavity, the lower end wall of the liquid storage groove is fixedly provided with a liquid outlet valve, and the water pipe cavity, the water through cavity, the water outlet hole, the sliding door outflow groove and the liquid storage groove can be communicated with each other.