CN215878620U - Novel coating forming device - Google Patents

Abstract

The utility model relates to the technical field of inspection and detection equipment, in particular to a novel coating forming device which comprises a bottom plate, wherein a forming assembly is fixed on the top surface of the bottom plate, and a leveling assembly is fixed on the bottom surface of the bottom plate; a level gauge is fixed on the top surface of the bottom plate and is positioned outside the forming frame; the leveling component consists of four adjusting bolts fixed at four corners of the bottom plate. Utilize shaping subassembly and altitude mixture control board, can freely adjust according to the needs that coating detected, can not only control the area after the coating shaping, also can the thickness after the accurate control coating shaping, make the shaping frame can be applicable to multiple coating and detect the scene.

Description

Novel coating forming device

Technical Field

The utility model relates to the technical field of inspection and detection equipment, in particular to a novel coating forming device.

Background

The preparation and the forming of the coating are the first and the key steps for detecting the product performance, and only a formed sample meeting the standard requirements can be subjected to relevant detection activities, otherwise, the performance of the formed sample cannot be judged. According to the coating test method, different requirements are required for preparing different samples, particularly the size, the thickness and the like, and the preparation quantity, the related performance and the like of the product are directly determined.

However, the existing coating forming has the problems that the frame style is single, the operation is inconvenient, the size of the forming frame is fixed, the thickness is uncontrollable during the coating forming, a horizontal measuring device is not available, the forming frame is polluted by redundant samples in the sample preparation process, the cleaning is difficult, and the like, and the sample preparation process is inconvenient.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provide a novel coating forming device, wherein one side of a forming frame is arranged to be movable, so that the coating forming area is effectively controlled, and meanwhile, the coating thickness is precisely controlled by using a height adjusting plate, so that the forming frame can meet the requirements of various national standards on properties (thickness, area size and the like) during coating detection.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a novel coating forming device comprises a bottom plate, wherein a forming assembly is fixed on the top surface of the bottom plate, a leveling assembly is fixed on the bottom surface of the bottom plate, the forming assembly comprises two first forming plates, a second forming plate and a third forming plate, the first forming plates, the second forming plates and the third forming plates are enclosed to form a square forming frame, the two first forming plates are arranged in a mirror symmetry mode, the first forming plates and the third forming plates are fixed, and the second forming plates can horizontally move between the two first forming plates; a level gauge is fixed on the top surface of the bottom plate and is positioned outside the forming frame; the leveling component consists of four adjusting bolts fixed at four corners of the bottom plate.

The novel coating forming device provided by the utility model utilizes the fixed first forming plate, the third forming plate and the movable second forming plate to adjust the internal area of the surrounded forming frame as required, so as to ensure that the area of the formed coating meets the size required by detection; meanwhile, the level gauge can visually assist an operator to observe the horizontal state of the bottom plate, so that the operator can conveniently adjust the bottom leveling assembly of the bottom plate.

The side surface of the second molding plate is provided with a liquid storage device, the liquid storage device is connected with the second molding plate through fastening ends arranged at two sides, the second molding plate is also provided with an overflow port for the outflow of redundant coating, the side surface of the liquid storage device, which is in contact with the second molding plate, is provided with a liquid accumulation port, the position of which corresponds to the overflow port, and the size of the liquid accumulation port is matched with that of the overflow port, so that the coating flowing out of the overflow port can flow into the liquid storage device from the liquid accumulation port, and the other parts of the molding frame cannot be polluted by the coating due to the excessive coating added into the molding frame; the reservoir can reciprocate in the side of second shaping board, and when the reservoir was located the top or the bottom of shift position, the hydrops mouth corresponded the top and the bottom that are located overflow mouth respectively, guaranteed that the overflow mouth can be with the whole water conservancy diversion of the coating that overflow mouth flowed to the reservoir in.

The hydrops mouth least significant end is on same water flat line with the least significant end of fastening end, and the operating personnel of being convenient for is to the regulation of hydrops mouth height to it is accurate to guarantee to coat thickness in the shaping frame.

When the existing coating forming frame is used, the injection amount of the coating can be judged only according to experience, and if the injection amount is less than an expected value, the thickness of the formed coating cannot reach a value required by inspection, so that the development of subsequent inspection work is influenced; if the injection amount is larger than the desired amount, the excess coating may overflow the molding frame and contaminate other portions of the molding frame. The application provides a shaping frame utilizes the overflow mouth and the hydrops mouth of reservoir and the unnecessary coating of water conservancy diversion that can adjust from top to bottom, with unnecessary coating water conservancy diversion to the reservoir in, can not only guarantee coating thickness, also protect other positions of shaping frame simultaneously and do not receive the coating pollution.

The first molding plate is provided with a height adjusting plate, the height adjusting plate consists of a transverse plate and a vertical plate fixed below the transverse plate, the vertical plate is inserted into a clamping groove formed in the first molding plate, the transverse plate is wider than the clamping groove, and when the vertical plate completely falls into the clamping groove, the transverse plate is clamped at the top surface of the first molding plate, so that an operator can conveniently pull up the height adjusting plate again; the side of the first molded plate is provided with a limiting hole for fixing the position of the height adjusting plate, a limiting bolt is arranged in the limiting hole, and the limiting hole and the limiting bolt are both arranged on the other side, opposite to the second molded plate, of the first molded plate so as to avoid being polluted by coating.

The molding frame is still equipped with scrapes the coating, and the scraping coating includes from lower supreme blade coating board, baffle and the handle that connects gradually, and the width of blade coating board is the same with second molding board width, all is the same with the interval of two first molding boards, and the vertical height of blade coating board is the same with first molding board height, and the both ends of baffle wide in blade coating board and baffle can be taken in the top surface department of altitude mixture control board's horizontal board.

The height adjusting plate is characterized in that a first scale is arranged on a vertical plate of the height adjusting plate, a second scale is arranged on the side face of the second forming plate, and the first scale and the second scale are both located on one side of the inside of the forming frame. After the required thickness of the coating is determined, the height adjusting plate is pulled upwards, the pulling height is determined according to the first scale, and the thickness of the coating can be accurately controlled by matching the height adjusting plate with the coating scraping piece; simultaneously according to coating thickness, adjust the position of hydrops mouth, ensure that the coating of excessive can be all collect the reservoir from the hydrops mouth.

One side of the first molding plate facing the second molding plate is provided with a third scale and two sliding grooves which are transversely arranged and are parallel to each other, pulleys matched with the sliding grooves are fixed on two sides of the second molding plate respectively, and horizontal movement of the second molding plate between the two first molding plates is achieved through matching of the pulleys and the sliding grooves.

The first molding plate and the third molding plate are fixedly connected through a fixing bolt, the two ends of the second molding plate are respectively provided with a stopper for fixing the position between the second molding plate and the first molding plate, the two stoppers are arranged in a mirror symmetry mode, after the second molding plate moves to a required position, the second molding plate and the two first molding plates are locked and limited through the stoppers, and the fact that the area of a molding frame is not changed during pouring of coating and molding is guaranteed. The stopper is a conventional stopper, and may be used, for example, as disclosed in chinese patent publication No. CN204003808U, in which the rotor faces the first molding plate and the handle faces the outside of the molding frame.

The top surface of bottom plate is fixed with first magnetic sheet, and the bottom surface of first shaping board, second shaping board and third shaping board all is fixed with the second magnetic sheet the same with its area, utilizes the mutual attraction effect of two magnetic sheets, strengthens fixed effect and sealing performance between shaping board and the bottom plate, prevents the outer hourglass of coating in the shaping process, increases the shaping quality of coating.

The first scale and the second scale are both vertically arranged, the third scale is transversely arranged, the scale of the first scale is sequentially increased from top to bottom, the thickness value of the initial scale is the same as that of the second magnetic plate at the bottom of the first molded plate, the scale of the second scale is sequentially increased from bottom to top, the thickness of the initial scale is the same as that of the second magnetic plate at the bottom of the second molded plate, and the zero scale of the third scale is started at the intersection of the first molded plate and the third molded plate.

The utility model has the beneficial effects that:

1. the forming frame provided by the utility model can be freely adjusted according to the requirement of paint detection by utilizing the forming assembly and the height adjusting plate, so that the area of the formed paint can be controlled, and the thickness of the formed paint can be precisely controlled, and the forming frame can be suitable for various paint detection scenes;

2. the leveling instrument fixed on the upper side of the bottom plate is used, so that an operator can accurately adjust the leveling component, the forming frame is in a horizontal state, and the forming effect of the coating is ensured;

3. utilize outer overflow mouth and hydrops mouth can be with the coating water conservancy diversion that is more than required volume to the reservoir in, effectively avoid making other subassemblies of shaping frame receive the pollution because of reinforced too much.

Drawings

FIG. 1 is a schematic structural view of a forming frame;

FIG. 2 is a side view of a forming frame;

FIG. 3 is a schematic structural view of a second molding plate;

FIG. 4 is a schematic view of the mating of a first contoured plate with a second contoured plate;

FIG. 5 is a schematic view of the inner side structure of the forming frame;

FIG. 6 is a schematic structural view of a squeegee member;

FIG. 7 is a sectional view of a mold frame in actual use;

wherein: 10. a base plate; 11. a level gauge; 21. a first molding plate; 211. a height adjustment plate; 212. a limit bolt; 213. a first scale; 214. a chute; 215. a third scale; 22. a second molding plate; 221. an outer overflow port; 222. a second scale; 223. a pulley; 224. a stopper; 23. a third molding plate; 24. fixing the bolt; 25. a reservoir; 251. a liquid accumulation port; 252. a fastening end; 261. scraping a plate; 262. a baffle plate; 263. a handle; 30. a leveling assembly; 41. a first magnetic plate; 42. a second magnetic plate.

Detailed Description

The utility model is further described below with reference to the accompanying drawings and application examples.

As shown in fig. 1 to 6, the present invention provides a novel paint forming apparatus, which includes a bottom plate 10, a forming assembly fixed on the top surface of the bottom plate 10, and a leveling assembly 30 fixed on the bottom surface of the bottom plate, wherein the forming assembly includes two first forming plates 21, a second forming plate 22 and a third forming plate 23, the first forming plates 21, the second forming plates 22 and the third forming plates 23 enclose a square forming frame, the two first forming plates 21 are arranged in mirror symmetry, the first forming plates 21 and the third forming plates 23 are fixed, and the second forming plates 22 can move horizontally between the two first forming plates 21; the internal area of the enclosed forming frame can be adjusted as required, and the area of the formed coating is ensured to meet the size required by detection.

A liquid storage device 25 is arranged on the side surface of the second molding plate 22, the liquid storage device 25 is positioned on the other side of the second molding plate 22 opposite to the third molding plate 23, the liquid storage device 25 can be a hollow cuboid with an open top end, the liquid storage device 25 is connected with the second molding plate 22 through fastening ends 252 arranged on two sides, and the fastening ends 252 can be positioning plates with positioning bolts or other components capable of positioning; the second molding plate 22 is also provided with an overflow port 221 for the excess coating to flow out, the side surface of the liquid storage 25 contacting with the second molding plate 22 is provided with a liquid accumulation port 251 with the position corresponding to the overflow port 221, and the size of the liquid accumulation port 251 is matched with the size of the overflow port 221, if the overflow port 221 is a rectangle with semicircular upper and lower ends, the diameter of the overflow port 221 is the same as that of a semicircle, so that the coating flowing out of the overflow port 221 can flow into the liquid storage 25 from the liquid accumulation port 251, and the other parts of the molding frame cannot be polluted by the coating due to the excessive coating added into the molding frame; the liquid storage device 25 can move up and down on the side of the second molding plate 22, and when the liquid storage device 25 is located at the uppermost end or the lowermost end of the movable position, the liquid accumulation ports 251 are correspondingly located at the uppermost end or the lowermost end of the overflow ports 221 respectively, so that the overflow ports 221 can guide all the coating flowing out of the overflow ports 221 into the liquid storage device 25. The lowermost end of hydrops mouth 251 and the lowermost end of fastening end 252 are on same water flat line, the operating personnel of being convenient for to the regulation of hydrops mouth 251 height to it is accurate to ensure the interior coating thickness of shaping frame. The reservoir 25 which can be adjusted up and down, and the overflow port 221 and the liquid accumulation port 251 which are used for guiding the redundant coating are utilized to guide the redundant coating to the reservoir 25, so that the thickness of the coating can be ensured, and other parts of the forming frame are protected from being polluted by the coating.

The first molding plate 21 is provided with a height adjusting plate 211, the height adjusting plate 211 is composed of a transverse plate and a vertical plate fixed below the transverse plate, the vertical plate is inserted into a clamping groove formed in the first molding plate 21, the transverse plate is wider than the clamping groove, and when the vertical plate completely falls into the clamping groove, the transverse plate is clamped at the top surface of the first molding plate 21, so that an operator can conveniently pull up the height adjusting plate 211 again; the side of the first forming plate 21 is provided with a limiting hole for fixing the position of the height adjusting plate 211, a limiting bolt 212 is arranged in the limiting hole, and the limiting hole and the limiting bolt 212 are both arranged on the other side of the first forming plate 21 relative to the second forming plate 22 so as to avoid coating pollution.

The shaping frame still is equipped with scrapes the coating, it includes the blade coating 261 that connects gradually from bottom to top to scrape the coating, baffle 262 and handle 263, the width of blade coating 261 is the same with second shaping board 22 width, all the same with two first shaping board 21's interval, and the vertical height of blade coating 261 is the same with first shaping board 21's height, baffle 262 wide in the top surface department that the both ends of blade coating and baffle can be taken at the horizontal board of altitude mixture control board 211, two handles 263 are fixed at the top of baffle 262, two handles are located baffle 262 top both ends respectively, it is even hard when being convenient for operating personnel use to scrape the coating and carry out the knife coating, improve the roughness after the coating shaping.

Be equipped with first scale 213 on the vertical board of height-adjusting plate 211, be equipped with second scale 222 on the side of second forming board 22, first scale 213 and second scale 222 all are located the inside one side of keeping away from the forming frame. After the required thickness of the coating is determined, the height adjusting plate 211 is pulled upwards, the pulling height is determined according to the first scale 213, and the thickness of the coating can be accurately controlled by matching the height adjusting plate 211 with a scraping piece; meanwhile, the position of the liquid accumulation port 251 is adjusted according to the thickness of the coating, so that the excessive coating can be completely collected into the liquid storage device 25 from the liquid accumulation port 251.

A third scale 215 is arranged on one side, facing the second molding plate 22, of the first molding plate 21, two sliding grooves 214 which are transversely arranged and are parallel to each other are formed in the first molding plate, pulleys 223 which are matched with the sliding grooves 214 are fixed on two sides of the second molding plate 22 respectively, steel balls can be used for the pulleys 223, grooves which are matched with the steel balls in size are formed in two ends of the second molding plate 22 respectively, the steel balls are clamped between the grooves and the sliding grooves, gaps are almost not formed between the grooves and the sliding grooves 214 and between the steel balls, and the fact that after the coatings are added, the coatings do not overflow from gaps among the sliding grooves 214 of the pulleys 223 is guaranteed; the horizontal movement of the second contoured plate 22 between the two first contoured plates 21 is achieved by the matching of the pulley 223 with the chute 214.

The first molding plate 21 and the third molding plate 23 are connected and fixed by a fixing bolt 24, both ends of the second molding plate 22 are provided with a stopper 224 for fixing the position between the second molding plate 22 and the adjacent first molding plate 21, the stoppers 224 are mirror symmetry, after the second molding plate 22 moves to a required position, the second molding plate 22 and the adjacent two first molding plates 21 are locked and limited by the stoppers 224, and the area of the molding frame is ensured not to change during the coating pouring and molding. The stopper 224 is a conventional device, and a stopper as disclosed in chinese patent publication No. CN204003808U may be used, when the stopper is used, the rotor is directed toward the first molding plate 21 and the handle is directed to the outside of the molding frame.

The top surface of the bottom plate 10 is fixed with a first magnetic plate 41, the bottom surfaces of the first forming plate 21, the second forming plate 22 and the third forming plate 23 are fixed with a second magnetic plate 42 with the same area as the first magnetic plate, and the fixing effect and the sealing performance between the forming plates and the bottom plate 10 are enhanced by utilizing the mutual attraction effect of the two magnetic plates, so that the leakage of the coating in the forming process is prevented, and the forming quality of the coating is improved. After the first magnetic plate and the second magnetic plate are arranged, the height of the scraping plate 261 of the scraping piece is correspondingly increased to be the same as the thickness of the second magnetic plate 42, and when the scraping piece is placed at the forming frame, the bottom end of the scraping plate 261 is tightly attached to the surface of the first magnetic plate 41.

First scale 213 and second scale 222 are vertical settings, third scale 215 is horizontal settings, the scale of first scale 213 increases from top to bottom in proper order and the initial scale is the same with the second magnetic plate 42 thickness value of first contoured plate 21 bottom, the scale of second scale 222 increases from bottom to top in proper order and the initial scale is the same with the second magnetic plate 42 thickness value of second contoured plate 22 bottom, zero scale of third scale 215 begins at the junction of first contoured plate 21 and third contoured plate 23.

A level gauge 11 is further fixed on the top surface of the bottom plate 10, and the level gauge 11 is located on the outer side of the forming frame; meanwhile, the level gauge 11 can visually assist an operator to observe the horizontal state of the bottom plate 10, so that the operator can conveniently adjust the leveling component 30 at the bottom of the bottom plate 10; the leveling assembly 30 is composed of four adjusting bolts fixed at four corners of the base plate 10.

Application example:

the first molding plate 21 and the third molding plate 23 are fixedly connected through the fixing bolt 24, the fixing bolt 24 transversely penetrates through the first molding plate 21, and finally the tail end of the fixing bolt is inserted into the third molding plate 23, so that the two molding plates are tightly fixed, after the fixing, the molding plates are adhered to the first magnetic plate 41 on the top surface of the bottom plate 10 through the second magnetic plate 42 at the bottoms of the molding plates, the pulleys 223 at two ends of the second molding plate 22 are clamped into the sliding grooves 214 formed in the side surface of the first molding plate 21, and at this moment, the whole molding frame is completely installed. The second molding plate 22 is pushed towards the third molding plate 23 according to the area required by the paint detection, the pushing end point is judged according to the third scale 215, and when an operator observes that the second molding plate 22 is located at the position of the area required by the paint, the second molding plate 22 and the first molding plate 21 are limited and locked by using the limiting devices 224 at the two ends of the second molding plate 22; meanwhile, according to the thickness required by paint detection, the height adjusting plate 211 is lifted upwards, the number of the junction of the first ruler 213 and the first molding plate 21 is the pulling length of the height adjusting plate 211, two ends of the baffle 262 of the scraping piece are overlapped at the top end of the transverse plate of the height adjusting plate 211, and the gap between the bottom end of the scraping plate 261 of the scraping piece and the top surface of the first magnetic plate 41 is the height shown by the first ruler 213; meanwhile, the height of the liquid reservoir 25 is adjusted according to the thickness value, and the height value of the lowest end of the liquid collecting port 251 is determined by using the second scale 222 on the side surface of the second molding plate 22. After height-adjusting plate 211 and reservoir 25 have adjusted, can pour the coating that awaits measuring into to the shaping frame inside, earlier scrape the piece and paste closely with third shaping board 23 afterwards, handle 263 is handed to operating personnel, push the piece of scraping to second shaping board 22 from third shaping board 23 department, unnecessary coating water conservancy diversion to reservoir 25 inside from overflow mouth 221 and hydrops mouth 251 this moment, after the piece of scraping moves to hugging closely second shaping board 22, can take off and scrape the piece, static waiting coating solidification shaping can.

After the coating material is formed, the stopper 224 is loosened, the second forming plate 22 is taken out from between the two first forming plates 21, and the fixing bolt 24 is removed, so that the first forming plate 21 and the third forming plate 23 can be respectively taken down from the base plate 10 for cleaning. Thus, the whole operation flow of one-time coating forming is completed.

Although the embodiments of the present invention have been described with reference to the accompanying drawings, it is not intended to limit the scope of the present invention, and it should be understood by those skilled in the art that various modifications and variations can be made without inventive efforts by those skilled in the art based on the technical solution of the present invention.

Claims (10)

1. A novel coating forming device comprises a bottom plate (10), wherein a forming assembly is fixed to the top surface of the bottom plate (10), and a leveling assembly (30) is fixed to the bottom surface of the bottom plate, the novel coating forming device is characterized in that the forming assembly comprises two first forming plates (21), a second forming plate (22) and a third forming plate (23), the first forming plates (21), the second forming plates (22) and the third forming plates (23) are enclosed to form a square forming frame, the two first forming plates (21) are arranged in a mirror symmetry mode, the first forming plates (21) and the third forming plates (23) are fixed and fixed, and the second forming plates (22) can horizontally move between the two first forming plates (21); a level gauge (11) is further fixed on the top surface of the bottom plate (10), and the level gauge (11) is positioned on the outer side of the forming frame; the leveling component (30) is composed of four adjusting bolts fixed at four corners of the bottom plate (10).

2. The novel paint forming apparatus according to claim 1, wherein the second forming plate (22) is provided with a liquid reservoir (25) on the side, the liquid reservoir (25) is connected with the second forming plate (22) through fastening ends (252) arranged on two sides, the second forming plate (22) is further provided with an overflow opening (221) for flowing out the excess paint, the side of the liquid reservoir (25) contacting with the second forming plate (22) is provided with a liquid accumulation opening (251) corresponding to the overflow opening (221), and the size of the liquid accumulation opening (251) is matched with the size of the overflow opening (221); the reservoir (25) can move up and down on the side of the second molding plate (22).

3. The new dope forming apparatus as claimed in claim 2, wherein a lowest end of said liquid trap port (251) and a lowest end of said fastening end (252) are on the same horizontal line.

4. The novel paint forming device as claimed in claim 1, wherein the first forming plate (21) is provided with a height adjusting plate (211), the height adjusting plate (211) is composed of a transverse plate and a vertical plate fixed below the transverse plate, the vertical plate is inserted into a clamping groove formed in the first forming plate (21), and the transverse plate is wider than the clamping groove; the side surface of the first molding plate (21) is provided with a limiting hole for fixing the position of the height adjusting plate (211), a limiting bolt (212) is arranged in the limiting hole, and the limiting hole and the limiting bolt (212) are both arranged on the other side, opposite to the second molding plate (22), of the first molding plate (21).

5. The novel paint forming device as claimed in claim 1, wherein the forming frame is further provided with a scraping piece, the scraping piece comprises a scraping plate (261), a baffle plate (262) and a handle (263) which are sequentially connected from bottom to top, the width of the scraping plate (261) is the same as that of the second forming plate (22) and the distance between the two first forming plates (21), the vertical height of the scraping plate (261) is the same as that of the first forming plates (21), the baffle plate (262) is wider than the scraping plate (261), and two ends of the baffle plate (262) can be lapped on the top surface of the transverse plate of the height adjusting plate (211).

6. A novel paint forming device as claimed in claim 4, characterized in that a first scale (213) is arranged on the vertical plate of the height adjusting plate (211), a second scale (222) is arranged on the side surface of the second forming plate (22), and the first scale (213) and the second scale (222) are both positioned on the side far away from the inside of the forming frame.

7. A novel paint forming device as claimed in claim 6, characterized in that a third scale (215) is arranged on one side of the first forming plate (21) facing the second forming plate (22) and is provided with two sliding grooves (214) which are transversely arranged and are parallel to each other, and pulleys (223) matched with the sliding grooves (214) are respectively fixed on two sides of the second forming plate (22).

8. A novel paint forming device according to claim 1, characterized in that the first forming plate (21) and the third forming plate (23) are fixedly connected by a fixing bolt (24), both ends of the second forming plate (22) are provided with a position limiter (224) for fixing the position between the second forming plate (22) and the first forming plate (21), and the two position limiters (224) are arranged in mirror symmetry.

9. The new paint forming apparatus as claimed in claim 7, wherein a first magnetic plate (41) is fixed to the top surface of the base plate (10), and a second magnetic plate (42) having the same area as the first forming plate (21), the second forming plate (22) and the third forming plate (23) is fixed to the bottom surface thereof.

10. The novel paint forming device as claimed in claim 9, wherein the first scale (213) and the second scale (222) are vertically arranged, the third scale (215) is horizontally arranged, the scale of the first scale (213) is sequentially increased from top to bottom, the initial scale is the same as the thickness of the second magnetic plate (42) at the bottom of the first forming plate (21), the scale of the second scale (222) is sequentially increased from bottom to top, the initial scale is the same as the thickness of the second magnetic plate (42) at the bottom of the second forming plate (22), and the zero scale of the third scale (215) starts at the intersection of the first forming plate (21) and the third forming plate (23).

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