CN117245916A - Circulation is directly drenched formula 3D and is printed idiosome cleaning equipment - Google Patents

Abstract

The invention discloses circulating direct-spraying type 3D printing blank cleaning equipment which comprises a box frame assembly, a spraying assembly, a fixing assembly, a filtering assembly and a recovery assembly, wherein the spraying assembly is arranged in the box frame assembly, the spraying assembly comprises spraying pipes, the nozzles of the spraying pipes face to the fixing assembly, the fixing assembly comprises a supporting plate, a plurality of evenly arranged meshes are arranged on the supporting plate, the blank is placed on the supporting plate, the filtering assembly comprises filtering cotton, the filtering cotton is arranged below the supporting plate, the recovery assembly comprises a collecting hopper and a collecting barrel, the collecting hopper is arranged below the filtering cotton, the collecting barrel is arranged below the collecting hopper and is communicated with the spraying pipes, the number of the spraying pipes is at least 2, and the recovery assembly further comprises a recovery pump. By adopting the invention, the cleaning liquid can be recycled, and the waste of the cleaning liquid is reduced.

Description

Circulation is directly drenched formula 3D and is printed idiosome cleaning equipment

Technical Field

The invention relates to the technical field of cleaning equipment, in particular to circulating direct-spraying type 3D printing embryo cleaning equipment.

Background

Currently, 3D printing technology has been widely used in various fields, and is an essential part of manufacturing industry. During 3D printing, the printing embryo body typically requires cleaning to remove support structures, uncured material, or other impurities that may remain. Currently, equipment for cleaning a 3D printing embryo body generally adopts a solution soaking or spraying cleaning mode to clean the embryo body. The solution soaking mode is to put the printing embryo body into a container, soak the printing embryo body in a cleaning solution, and then realize cleaning by means of mechanical stirring or ultrasonic wave, etc., the cleaning mode may not thoroughly clean the complex structural shape, and because the container occupied by the embryo body is larger, more cleaning solution is needed; the spraying mode is to spray the cleaning liquid on the surface of the printing blank by using the nozzle so as to achieve the purpose of cleaning, and the spraying mode can more accurately position the cleaning area, but most of the cleaning liquid can be lost after the liquid in the existing 3D printing blank cleaning equipment is sprayed on the surface of the blank, so that a large amount of cleaning liquid is wasted. Therefore, the existing 3D printing blank cleaning equipment is easy to waste cleaning liquid and does not meet the requirements of energy conservation and emission reduction.

Disclosure of Invention

The invention aims to solve the technical problem of providing the circulating direct-spraying type 3D printing blank cleaning equipment which can recycle cleaning liquid and reduce waste of the cleaning liquid.

In order to solve the technical problems, the invention provides circulating direct-spraying type 3D printing blank cleaning equipment which comprises a box frame assembly, a spraying assembly, a fixing assembly, a filtering assembly and a recycling assembly, wherein the spraying assembly, the fixing assembly, the filtering assembly and the recycling assembly are arranged in the box frame assembly, the box frame assembly comprises a box body, the spraying assembly is arranged above the fixing assembly, the filtering assembly is arranged below the fixing assembly, and the recycling assembly is arranged below the filtering assembly.

The spray assembly comprises a spray pipe, the nozzle of the spray pipe faces the fixed assembly, the fixed assembly comprises a supporting plate, a plurality of evenly arranged meshes are formed in the supporting plate, a blank body is placed on the supporting plate, the filter assembly comprises filter cotton, the filter cotton is arranged below the supporting plate, the recovery assembly comprises a collection bucket and a collection bucket, the collection bucket is arranged below the filter cotton, and the collection bucket is arranged below the collection bucket and is communicated with the spray pipe.

As an improvement of the scheme, a cleaning cavity is arranged on the upper portion of the box body, a baffle is arranged at the top of the cleaning cavity, the spray pipe is arranged on the lower portion of the baffle, and the supporting plate and the filter cotton are arranged in the cleaning cavity.

The lower part of box is equipped with retrieves the chamber, retrieve the chamber with wash and be equipped with the collecting plate between the chamber, be equipped with the collecting hole on the collecting plate, collect fill seal link up in collect hole bottom, collect the cross-sectional area of fighting from the top down and narrow gradually.

As the improvement of above-mentioned scheme, the baffle with be equipped with the drawer between the collecting plate, the drawer is equipped with the notch that sets up, filter pulp place in the drawer, the drawer both sides are equipped with slide rail and spout, the slide rail is fixed in on the drawer, the spout is located the both sides in washing chamber, the drawer can follow wash the chamber and take out.

As an improvement of the scheme, the fixing assembly further comprises side plates, wherein the side plates are arranged on two side edges of the supporting plate and extend downwards to the edges of the collecting plate, one side of each side plate is fixed on the side wall of the cleaning cavity, and the other side of each side plate is connected with the corresponding sliding groove.

As an improvement of the scheme, inclined plates are arranged at the upper edges of the two sides of the drawer, the inclined plates extend outwards from bottom to top towards the two sides of the drawer, and the inclined plates can cover the sliding rail.

As the improvement of above-mentioned scheme, fixed subassembly still includes the locating part, the locating part is from the bottom up for inserting portion, handle portion and equipment portion in proper order, the cross section of inserting portion with the size of mesh hole is corresponding, insert portion can insert in the mesh, handle portion with be equipped with the clearance between the top of inserting portion, insert portion bottom is equipped with the mounting groove of indent, equipment portion up protrusion and with the size of mounting groove corresponds.

As the improvement of above-mentioned scheme, the locating part still includes the stopper, the stopper is located one side of insert portion and protrusion in the lateral wall of insert portion, the cross section of stopper is fan-shaped, the edge of stopper both sides is the butt limit.

As the improvement of above-mentioned scheme, the shower is 2 at least, spray the subassembly still including inlet tube and distributive pipe, the inlet tube with the collecting vessel intercommunication, the one end of distributive pipe with the inlet tube intercommunication, the other end respectively with 2 at least the shower intercommunication, 2 the shower is located respectively the both sides above the layer board, the shower is equipped with a plurality of nozzles, the nozzle slope sets up and downward towards the middle part of layer board.

As the improvement of above-mentioned scheme, retrieve the subassembly still includes the recovery pump, the lateral part of box is equipped with the electric tank, the box frame subassembly still includes the side door lid, the recovery pump is fixed in the electric tank, the side door lid hinge in the edge of electric tank and can cover the electric tank, the one end of recovery pump with the collecting vessel intercommunication, the other end with the inlet tube intercommunication.

As an improvement of the above scheme, the box frame assembly further comprises an upper door cover and a front door cover, wherein the upper door cover comprises a hinged plate, an upper cover plate and a side cover plate, the upper cover plate is vertically connected with the side cover plate, the hinged plate is hinged to the rear side of the box body, the upper cover plate can cover a space above the baffle, and the side cover plate can cover a space on the side part of the supporting plate; the front door cover is arranged on the side part of the recycling cavity, one side of the front door cover is hinged to the box body, and the front door cover can cover the recycling cavity.

The implementation of the invention has the following beneficial effects:

the circulating direct-spraying type 3D printing blank cleaning equipment is provided with a box frame assembly, a spraying assembly, a fixing assembly, a filtering assembly and a recycling assembly, wherein the spraying assembly comprises a spraying pipe, a nozzle of the spraying pipe faces the fixing assembly, a blank to be cleaned is placed on a supporting plate for fixing the fixing assembly, a plurality of meshes are formed in the supporting plate, cleaning liquid is sprayed to the blank from the spraying pipe during cleaning, the blank can be cleaned, then the cleaning liquid falls into filtering cotton below the supporting plate through the meshes of the supporting plate, the filtering cotton filters the cleaning liquid, the filtered cleaning liquid falls into a collecting bucket through a collecting bucket, the collecting bucket is communicated with the spraying pipe, the collected cleaning liquid can be conveyed to the spraying pipe again and sprayed to the blank again, and therefore recycling is formed, waste of the cleaning liquid is reduced, the circulating type printing blank cleaning equipment is suitable for large-scale application, and the effects of energy conservation and emission reduction are achieved.

Drawings

FIG. 1 is a schematic view of a first view angle of a cyclic direct-showering type 3D printing embryo cleaning device according to the present invention;

FIG. 2 is a schematic cross-sectional view of a cyclic direct-showering type 3D printing embryo cleaning device according to the present invention;

FIG. 3 is a schematic view of the structure of the drawer of the present invention;

FIG. 4 is a schematic view of the structure of the pallet and the stop member of the present invention;

FIG. 5 is a schematic view of the structure of the stopper of the present invention;

FIG. 6 is a schematic diagram of a second view of the cyclic direct showering type 3D printing embryo cleaning device according to the present invention;

fig. 7 is a schematic structural diagram of a third view angle of the cyclic direct-showering type 3D printing embryo cleaning device according to the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings, for the purpose of making the objects, technical solutions and advantages of the present invention more apparent. It is only stated that the terms of orientation such as up, down, left, right, front, back, inner, outer, etc. used in this document or the imminent present invention, are used only with reference to the drawings of the present invention, and are not meant to be limiting in any way.

Referring to fig. 1 and 2, the embodiment of the invention discloses a circulation direct-spraying type 3D printing blank cleaning device, which comprises a box frame assembly 1, a spraying assembly 2, a fixing assembly 3, a filtering assembly 4 and a recovery assembly 5, wherein the spraying assembly 2 is arranged in the box frame assembly 1, the box frame assembly 1 comprises a box body 11, the spraying assembly 2 is arranged above the fixing assembly 3 and is used for spraying and cleaning a blank on the fixing assembly 3, the filtering assembly 4 is arranged below the fixing assembly 3 and is used for filtering cleaning liquid, and the recovery assembly 5 is arranged below the filtering assembly 4 and is used for recovering the cleaning liquid.

Specifically, the spray assembly 2 includes the spray pipe 21, the nozzle 211 of spray pipe 21 is towards fixed subassembly 3, fixed subassembly 3 includes layer board 31, be equipped with a plurality of mesh 311 that evenly set up on the layer board 31, the idiosome is placed on the layer board 31, in the use, the spray pipe 21 can be towards the idiosome spray washing liquid on the layer board 31 to wash the idiosome, filter assembly 4 includes filter pulp 41, filter pulp 41 locates the layer board 31 below, after the washing liquid washs the idiosome, can get into through mesh 311 in the filter pulp 41, filter pulp 41 filters remaining bearing structure, uncured material or other impurity, recovery unit 5 includes collection fill 51 and collecting vessel 52, collection fill 51 is located the below filter pulp 41, and the washing liquid after the filtration can fall into collection fill 51 to fall into collecting vessel 52 from collection fill 51, collection fill 51 can be with the washing liquid and is collected, prevents that the washing liquid from falling into directly in the collecting vessel 52 produces the big sputtering area. The collecting barrel 52 is arranged below the collecting hopper 51 and is communicated with the spray pipe 21, and can convey the collected cleaning liquid to the spray pipe 21 so as to recycle the cleaning liquid.

The embodiment of the invention has the following beneficial effects:

the circulating direct spraying type 3D printing blank cleaning equipment is provided with a box frame assembly 1, a spraying assembly 2, a fixing assembly 3, a filtering assembly 4 and a recycling assembly 5 which are arranged in the box frame assembly 1, wherein the spraying assembly 2 comprises a spraying pipe 21, a nozzle 211 of the spraying pipe 21 faces the fixing assembly 3, a blank to be cleaned is placed on a supporting plate 31 which fixes the fixing assembly 3, a plurality of meshes 311 are arranged on the supporting plate 31, cleaning liquid is sprayed from the spraying pipe 21 to the blank during cleaning, the blank can be cleaned, then the cleaning liquid falls into a filtering cotton 41 below the supporting plate 31 through the meshes 311 of the supporting plate 31, the filtering cotton 41 filters the cleaning liquid, the filtered cleaning liquid falls into a collecting bucket 52 through a collecting bucket 51, the collecting bucket 52 is communicated with the spraying pipe 21, the collected cleaning liquid can be conveyed onto the spraying pipe 21 again, and the blank is sprayed again, so that the cleaning liquid is recycled, the waste is reduced, the energy is suitable for application, and the energy saving and the effect of reducing the scale is achieved.

Specifically, referring to fig. 2, a cleaning cavity 111 is provided on the upper portion of the box 11, the blank is placed in the cleaning cavity 111 for cleaning, a baffle 12 is provided on the top of the cleaning cavity 111, the baffle 12 can block water sprayed from the spray pipe 21, an air gun 24 and a water gun 25 are provided on the baffle 12, the water gun 25 can be taken out for assisting in cleaning the blank, and the air gun 24 can blow air to the blank after cleaning the blank so as to blow the residual cleaning liquid on the surface to dry. The shower pipe 21 is arranged at the lower part of the baffle 12, and the supporting plate 31 and the filter cotton 41 are arranged in the cleaning cavity 111. The mesh holes 311 on the supporting plate 31 can filter impurities with larger volume, and the filter cotton 41 can filter impurities with smaller volume.

The lower part of the box 11 is provided with a recovery cavity 112, a collection plate 13 is arranged between the recovery cavity 112 and the cleaning cavity 111, a collection hole 131 is formed in the collection plate 13, the collection hole 131 is formed in the middle of the collection plate 13, the collection plate 13 is gradually recessed from edge to center, so that a gradient is formed, when cleaning liquid falls onto the collection plate 13, the cleaning liquid can flow into the collection hole 131 along a recessed flow channel, the collection bucket 51 is connected to the bottom of the collection hole 131 in a sealing manner, and the cross-sectional area of the collection bucket 51 is gradually narrowed from top to bottom so as to collect the cleaning liquid.

After the filter cotton 41 has long service time, the filter efficiency is reduced and the filter cotton 41 is likely to be blocked, in order to facilitate the inspection and replacement of the filter cotton 41, a drawer 14 is arranged between the baffle 12 and the collecting plate 13, the drawer 14 is provided with an upward notch 141, the filter cotton 41 is placed in the drawer 14, the drawer 14 can be pulled out from the side of the box 11, after the filter cotton 41 is pulled out, the notch 141 can be placed in the drawer 14, and then the drawer 14 is inserted into the cleaning cavity 111, and at this time, the filter cotton 41 is positioned below the supporting plate 31. The bottom of the drawer 14 is provided with perforations 145, and washing liquid filtered by the filter cotton 41 can enter the collecting plate 13 from the perforations 145.

Referring to fig. 3, in order to facilitate the movement of the drawer 14, both sides of the drawer 14 are provided with a sliding rail 143 and a sliding groove 144, the sliding rail 143 is fixed on the drawer 14, the sliding groove 144 is provided on both sides of the cleaning chamber 111, and the drawer 14 can be drawn out from the cleaning chamber 111 by using the sliding groove 144 and the sliding rail 143. The fixing assembly 3 further comprises side plates 32, the side plates 32 are arranged at two side edges of the supporting plate 31 and extend downwards to the edges of the collecting plate 13, the side plates 32 and the supporting plate 31 form a door-shaped structure, the supporting plate 31 is supported by the side plates 32, one sides of the side plates 32 are fixed on the side wall of the cleaning cavity 111, and the other sides of the side plates 32 are connected with the sliding grooves 144.

The side plate 32 is provided to enable the liquid falling on the pallet 31 to flow down from one side of the side plate 32 along the joint between the pallet 31 and the side plate 32, and the side of the flowing-down cleaning liquid is opposite to the side where the sliding groove 144 is fixed, so that the sliding groove 144 can be isolated from the cleaning liquid, and the cleaning liquid is prevented from corroding the sliding groove 144, thereby affecting the sliding of the sliding rail 143. On the other hand, the upper edges of both sides of the drawer 14 are respectively provided with a sloping plate 142, the sloping plates 142 extend outwards from bottom to top towards both sides of the drawer 14, the sloping plates 142 can cover the sliding rails 143, and the sloping plates 142 can guide the cleaning liquid falling from the supporting plate 31 to the side parts of the sliding rails 143 and the sliding grooves 144, so that the cleaning liquid cannot drop onto the sliding rails 143 and the sliding grooves 144, corrosion to the sliding rails 143 and the sliding grooves 144 is avoided, and normal sliding of the sliding rails 143 and the sliding grooves 144 is further ensured.

Referring to fig. 4 and 5, in order to enable cleaning of blanks of various sizes, the fixing assembly 3 further includes a plurality of stoppers 33, and the plurality of stoppers 33 can be fixed on the mesh holes 311 at different positions, so that the blanks on the pallet 31 can be fixed in various directions, and prevented from being washed away by the high-pressure cleaning liquid. Specifically, the limiting member 33 comprises an insertion portion 331, a handle portion 332 and an assembly portion 333 from bottom to top, the insertion portion 331 protrudes downwards, the cross section of the insertion portion 331 corresponds to the size of the mesh 311, the insertion portion 331 can be inserted into the mesh 311 to form fixation, the handle portion 332 and the assembly portion 333 above the insertion portion 331 can form limiting fixation on the bottom of the blank, and the limiting member 33 can be inserted into the mesh 311 at any position to fix the bottom of the blank with different sizes. The gap 334 is arranged between the handle 332 and the top of the insertion 331, the handle 332 protrudes outwards to facilitate gripping by hand, the gap 334 between the handle 332 and the top of the insertion 331 facilitates taking the limiting piece 33, further, the bottom of the insertion 331 is provided with a concave mounting groove 335, the assembly 333 protrudes upwards and corresponds to the size of the mounting groove 335, so that the two limiting pieces 33 can be connected up and down, and in particular, the limiting piece 33 located below can be inserted into the mounting groove 335 of the limiting piece 33 located above by using the assembly 333 thereof, thereby being connected. After the plurality of limiting members 33 are connected, limiting structures with different heights can be assembled, and the peripheries of the blanks with different shapes are limited.

Further, referring to fig. 5, the limiting member 33 further includes a limiting block 336, the limiting block 336 is disposed on one side of the insertion portion 331 and protrudes from a side wall of the insertion portion 331, a cross section of the limiting block 336 is fan-shaped, edges on two sides of the limiting block 336 are abutting edges 337, the limiting block 336 can rotate to different directions, the limiting block 336 of the limiting member 33 can swing to different directions, the abutting edges 337 can abut against different positions of the blank, and limiting of different complex structures inside different blanks can be performed. The limiting piece 33 located on the supporting plate 31 can limit the bottom of the blank on the horizontal plane, the assembled limiting piece 33 can limit the middle and upper parts of the blank in the longitudinal direction, and the limiting piece 336 swinging to different directions can limit different complex shapes of different blanks. In addition, the stopper 336 can prevent the insertion portion 331 from being inserted too deeply and being difficult to be pulled out.

Referring to fig. 6, the number of spray pipes 21 is at least 2, the spray assembly 2 further comprises a water inlet pipe 22 and a water diversion pipe 23, the water inlet pipe 22 is communicated with the collecting barrel 52, one end of the water diversion pipe 23 is communicated with the water inlet pipe 22, the other end of the water diversion pipe is respectively communicated with at least 2 spray pipes 21, cleaning liquid is divided into 2 from the water inlet pipe 22 to the water diversion pipes 23, then the 2 water diversion pipes 23 respectively lead the cleaning liquid to 2 spray pipes 21,2 spray pipes 21 are respectively arranged on two sides above the supporting plate 31, the spray pipes 21 are provided with a plurality of nozzles 211, the nozzles 211 are obliquely arranged and downwards face the middle part of the supporting plate 31, and the blank can be cleaned from different directions, so that the cleaning effect is good.

Referring to fig. 7, the recovery assembly 5 further includes a recovery pump 53, an electric tank 113 is disposed at a side portion of the case 11, the case frame assembly 1 further includes a side door cover 15, the recovery pump 53 is fixed in the electric tank 113, the recovery pump 53 provides power for the flow of the cleaning solution, the side door cover 15 is hinged to an edge of the electric tank 113 and can cover the electric tank 113 to protect the electric tank 113, one end of the recovery pump 53 is communicated with the collecting tank 52, the other end is communicated with the water inlet pipe 22, and the recovery pump 53 can pump the cleaning solution collected in the collecting tank 52 to the water inlet pipe 22. The electric tank 113 is also provided with a power supply piece 26 and a pneumatic controller 27, the power supply piece 26 supplies electric energy to the recovery pump 53, and the pneumatic controller 27 is communicated with the air gun 24 and can supply high-pressure air to the air gun 24.

The box frame assembly 1 further comprises an upper door cover 16 and a front door cover 17, the upper door cover 16 comprises a hinge plate 161, an upper cover plate 162 and a side cover plate 163, the upper cover plate 162 is vertically connected with the side cover plate 163, the hinge plate 161 is hinged to the rear side of the box 11, the upper cover plate 162 can cover the space above the baffle 12, the side cover plate 163 can cover the space on the side of the supporting plate 31, and when the upper door cover 16 is retracted and a blank is washed, the upper cover plate 162 and the side cover plate 163 can prevent cleaning liquid from splashing out of the cleaning cavity 111. The front door cover 17 is arranged at the side part of the recovery cavity 112, one side of the front door cover 17 is hinged to the box body 11, and the front door cover 17 can cover the recovery cavity 112 to prevent liquid from splashing when cleaning liquid falls into the collection barrel 52.

The foregoing is a preferred embodiment of the present invention and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present invention and are intended to be comprehended within the scope of the present invention.

Claims (10)

1. The circulating direct-spraying type 3D printing blank cleaning device is characterized by comprising a box frame assembly, a spraying assembly, a fixing assembly, a filtering assembly and a recycling assembly, wherein the spraying assembly, the fixing assembly, the filtering assembly and the recycling assembly are arranged in the box frame assembly;

the spray assembly comprises a spray pipe, the nozzle of the spray pipe faces the fixed assembly, the fixed assembly comprises a supporting plate, a plurality of evenly arranged meshes are formed in the supporting plate, a blank body is placed on the supporting plate, the filter assembly comprises filter cotton, the filter cotton is arranged below the supporting plate, the recovery assembly comprises a collection bucket and a collection bucket, the collection bucket is arranged below the filter cotton, and the collection bucket is arranged below the collection bucket and is communicated with the spray pipe.

2. The circulating direct-spraying type 3D printing embryo cleaning device according to claim 1, wherein a cleaning cavity is arranged at the upper part of the box body, a baffle is arranged at the top of the cleaning cavity, the spray pipe is arranged at the lower part of the baffle, and the supporting plate and the filter cotton are arranged in the cleaning cavity;

the lower part of box is equipped with retrieves the chamber, retrieve the chamber with wash and be equipped with the collecting plate between the chamber, be equipped with the collecting hole on the collecting plate, collect fill seal link up in collect hole bottom, collect the cross-sectional area of fighting from the top down and narrow gradually.

3. The circulation direct-spraying type 3D printing blank cleaning device according to claim 2, wherein a drawer is arranged between the baffle plate and the collecting plate, the drawer is provided with an upward notch, the filter cotton is placed in the drawer, two sides of the drawer are provided with sliding rails and sliding grooves, the sliding rails are fixed on the drawer, the sliding grooves are arranged on two sides of the cleaning cavity, and the drawer can be pulled out from the cleaning cavity.

4. The cyclic direct-showering type 3D printing embryo body cleaning device according to claim 3 wherein the fixing assembly further comprises side plates, wherein the side plates are arranged at two side edges of the supporting plate and extend downwards to the edge of the collecting plate, one side of each side plate is fixed on the side wall of the cleaning cavity, and the other side of each side plate is connected with the sliding groove.

5. The circulation direct-spraying type 3D printing blank cleaning device according to claim 4, wherein inclined plates are arranged at the upper edges of two sides of the drawer, the inclined plates extend outwards from bottom to top towards two sides of the drawer, and the inclined plates can cover the sliding rails.

6. The circulation direct-spraying type 3D printing blank cleaning device according to claim 1, wherein the fixing assembly further comprises a limiting piece, the limiting piece comprises an insertion portion, a handle portion and an assembly portion from bottom to top, the cross section of the insertion portion corresponds to the size of the mesh hole, the insertion portion can be inserted into the mesh hole, a gap is formed between the handle portion and the top of the insertion portion, a concave mounting groove is formed in the bottom of the insertion portion, and the assembly portion protrudes upwards and corresponds to the size of the mounting groove.

7. The circulating direct-spraying type 3D printing blank cleaning device according to claim 6, wherein the limiting piece further comprises a limiting block, the limiting block is arranged on one side of the insertion portion and protrudes out of the side wall of the insertion portion, the cross section of the limiting block is fan-shaped, and the edges of the two sides of the limiting block are abutting edges.

8. The circulation direct-spraying type 3D printing blank cleaning device according to claim 1, wherein the number of spraying pipes is at least 2, the spraying assembly further comprises a water inlet pipe and a water diversion pipe, the water inlet pipe is communicated with the collecting barrel, one end of the water diversion pipe is communicated with the water inlet pipe, the other end of the water diversion pipe is respectively communicated with at least 2 spraying pipes, the 2 spraying pipes are respectively arranged on two sides above the supporting plate, the spraying pipes are provided with a plurality of nozzles, and the nozzles are obliquely arranged and face downwards towards the middle of the supporting plate.

9. The cyclic direct-showering type 3D printing embryo cleaning device according to claim 8, wherein the recovery assembly further comprises a recovery pump, an electric groove is arranged on the side portion of the box body, the box frame assembly further comprises a side door cover, the recovery pump is fixed in the electric groove, the side door cover is hinged to the edge of the electric groove and can cover the electric groove, one end of the recovery pump is communicated with the collecting barrel, and the other end of the recovery pump is communicated with the water inlet pipe.

10. The cyclic direct-showering type 3D printing embryo body cleaning device according to claim 2, the box frame assembly further comprises an upper door cover and a front door cover, the upper door cover comprises a hinged plate, an upper cover plate and a side cover plate, the upper cover plate is vertically connected with the side cover plate, the hinged plate is hinged to the rear side of the box body, the upper cover plate can cover a space above the baffle plate, and the side cover plate can cover a space on the side part of the supporting plate; the front door cover is arranged on the side part of the recycling cavity, one side of the front door cover is hinged to the box body, and the front door cover can cover the recycling cavity.