CN111468000A - Raw material mixing device for pipe fitting manufacturing and use method thereof - Google Patents

Abstract

The invention discloses a raw material mixing device for pipe fitting manufacturing, which comprises two material sieving mechanisms, wherein a material mixing mechanism is arranged on one side of each of the two material sieving mechanisms, and two inclined conveying mechanisms are arranged between the two material sieving mechanisms and the material mixing mechanism; the screening mechanism comprises a screening frame, two support columns are fixedly mounted on the upper surface of the screening frame at positions close to four corners, and a protective cover is fixedly mounted on the upper surface of the screening frame at a position between four inner support columns; the invention also discloses a use method of the raw material mixing device for manufacturing the pipe fitting. According to the invention, impurities in the raw materials can be filtered out through the arranged material sieving mechanism, so that the impurities are prevented from entering the mixed raw materials, the conveying inclination can be adjusted through the arranged conveying mechanism, the raw materials can be conveniently conveyed to the mixing mechanisms with different heights, the raw materials can be uniformly mixed through the arranged mixing mechanism, and the mixed raw materials can be uniformly output.

Description

Raw material mixing device for pipe fitting manufacturing and use method thereof

Technical Field

The invention relates to the technical field of mixing devices, in particular to a raw material mixing device for manufacturing a pipe fitting and a using method thereof.

Background

The mixing device is a mechanical device for uniformly mixing two or more materials by utilizing mechanical force, gravity and the like, and common mixers are divided into four types, namely a gas and low-viscosity liquid mixer, a medium-high viscosity liquid and paste mixing machine, a thermoplastic material mixer and a powdery and granular solid material mixing machine.

Patent document (CN208911932U) discloses a raw material mixing device is used in macromolecular material production with strong wearability relates to macromolecular material production and processing technology field, this raw material mixing device is used in macromolecular material production with strong wearability, including supporting the base, the one end of supporting the base and the bottom one side fixed connection of support column, the top fixedly connected with of support column supports the roof, the upper surface of gear box and the lower fixed surface who supports the roof are connected, the inner chamber middle part bilateral symmetry of gear box is provided with the gear, the upper surface of mounting panel is connected with the lower surface laminating of gear box. According to the raw material mixing device for producing the high polymer material, the mounting plate can move to drive the driving motor, the stirring shaft, the spiral piece and the stirring rod to move, and the stirring shaft, the spiral piece and the stirring rod can move to increase the contact among the raw material, the spiral piece and the stirring rod, so that the stirring and mixing effects on the raw material are enhanced; however, the raw material mixing device cannot screen impurities in the raw materials, cannot convey two different raw materials, and finally cannot uniformly distribute and output the raw materials.

Disclosure of Invention

In order to overcome the technical problems, the invention aims to provide a raw material mixing device for pipe fitting manufacturing and a use method thereof.

The purpose of the invention can be realized by the following technical scheme:

a raw material mixing device for pipe fitting manufacturing comprises two screening mechanisms, wherein a material mixing mechanism is arranged on one side of each screening mechanism, and two inclined conveying mechanisms are arranged between the two screening mechanisms and the material mixing mechanism;

the screening mechanism comprises a screening frame, two support columns are fixedly arranged at the positions, close to four corners, of the upper surface of the screening frame, a protective cover is fixedly arranged at the position, between the four inner side supporting columns, of the upper surface of the screening frame, a bearing seat is fixedly arranged on the upper surface of each supporting column, a rotating shaft is rotatably arranged between every two adjacent bearing seats, wherein one rotating shaft penetrates through the arc side surface of the bearing seat and is fixedly provided with a second chain wheel, the upper surface of the screening frame is fixedly provided with a conveying frame at a position between the inner walls of the protective covers, a first bracket is fixedly arranged at a position, close to one end, on the upper surface of the conveying frame, a second driving motor is fixedly arranged on the upper surface of the first bracket, a third chain wheel is fixedly installed on an output shaft of the second driving motor, and a striker plate is fixedly installed at a position, close to one end, of the lower surface of the conveying frame;

the conveying mechanism comprises a conveying main body, a second bracket is fixedly arranged at the position, close to one end, of the upper surface of the conveying main body, a third driving motor is fixedly arranged at a position, close to one end, on the upper surface of the second bracket, a fifth chain wheel is fixedly arranged on an output shaft of the third driving motor, a plurality of third rollers which are distributed at equal intervals are rotatably arranged on the inner wall of the conveying main body, first connecting seats are fixedly arranged at the positions, close to the two sides, of the lower surface of the conveying main body, connecting columns are movably arranged on the two first connecting seats through pin shafts, first rollers are movably arranged at the lower ends of the two connecting columns, second connecting seats are fixedly arranged on the surface of one side of the two connecting columns, one side of the lower surface of the conveying main body, which is far away from the two first connecting seats, is fixedly provided with a fourth connecting seat, guide rods are fixedly arranged on one sides, close to the two fourth connecting seats, of the lower surface of the conveying main body;

the compounding mechanism includes the support frame, the upper end fixed mounting of support frame has the blending bunker, the inner wall fixed mounting of support frame has the baffle, the baffle is located the below of blending bunker, the lower fixed surface of baffle installs three branch feed bin, and two discharge gates have all been seted up to the lower extreme of every branch feed bin, and the below of every discharge gate all is provided with the stock bed, fixed mounting has three material pipe that leads to between blending bunker and the baffle.

Further, the method comprises the following steps: the side surfaces of two adjacent support columns are fixedly provided with a first fixing seat, the upper surface of the first fixing seat is fixedly provided with a first driving motor, the output shaft of the first driving motor is fixedly provided with a first chain wheel which is positioned on the same plane as a second chain wheel, the second chain wheel and the first chain wheel are in chain transmission, and the arc side surface of each rotating shaft is fixedly provided with a driving wheel.

Further, the method comprises the following steps: the two adjacent driving wheels are rotatably provided with rolling rings, a plurality of supporting rods which are distributed at equal angles are fixedly arranged between the two rolling rings, and the surfaces of the plurality of supporting rods are fixedly provided with filter screens.

Further, the method comprises the following steps: the inner walls of the two ends of the conveying frame are respectively rotatably provided with a first roller, one end, penetrating through the side wall of the conveying frame, of an inner shaft of one first roller is fixedly provided with a fourth chain wheel, the fourth chain wheel and the third chain wheel are located on the same plane, chain transmission is carried out between the fourth chain wheel and the third chain wheel, a plurality of support plates distributed in an equal distance are fixedly arranged at positions, close to the two sides, of the upper surface of the conveying frame, barrel seats corresponding to the support plates are fixedly arranged on a median line of the upper surface of the conveying frame, a second roller is rotatably arranged between each support plate and each barrel seat, and a first conveying belt is rotatably arranged on each second roller and the first rollers.

Further, the method comprises the following steps: one end of one of the third rollers penetrating through the side wall of the conveying main body is fixedly provided with a sixth chain wheel, the sixth chain wheel and the fifth chain wheel are positioned on the same plane, the sixth chain wheel and the fifth chain wheel are in chain transmission, and a plurality of third rollers are rotatably provided with second conveying belts.

Further, the method comprises the following steps: the movable mounting has the tripod on fourth connecting seat and the guide bar, the lower extreme movable mounting of tripod has the second gyro wheel, wherein one end of tripod is through round pin axle and fourth connecting seat movable mounting, the other end movable mounting of tripod has the leading wheel, slidable mounting between leading wheel and the guide bar, one side fixed mounting of tripod has two third connecting seats, and equal movable mounting has the connecting rod between two third connecting seats and two second connecting seats, and the equal fixed mounting in both ends of two connecting rods has first connecting head, second connecting seat, third connecting seat are all through first connecting head and connecting rod movable mounting.

Further, the method comprises the following steps: the utility model discloses a material mixing device, including baffle, first fixed plate, second fixed plate, first driving motor, second driving motor, first sprocket, second sprocket, first baffle, second fixing base, first baffle, second fixing base, first sprocket, second sprocket, first sprocket.

A method of using a raw material mixing apparatus for pipe fabrication, comprising the steps of:

the method comprises the following steps: placing pipe fitting raw materials on a filter screen respectively, starting a first driving motor on a first fixed seat, driving a first chain wheel to rotate by the first driving motor, driving a second chain wheel on a rotating shaft to rotate by a chain by the rotating first chain wheel, so as to drive one of driving wheels to rotate, driving two rolling rings to rotate by matching with the other three driving wheels, so as to screen two raw materials on two first conveyor belts respectively by rotating, starting two second driving motors simultaneously, driving a third chain wheel to rotate by the second driving motor, driving a fourth chain wheel on a first roller to rotate by a chain by the rotating third chain wheel, driving the first conveyor belts to convey the two screened raw materials onto a conveying mechanism respectively by matching with a second roller between a supporting plate and a cylinder seat, and blocking the raw materials by a blocking plate;

step two: the third driving motor on the second support is started, the third driving motor drives the fifth chain wheel to rotate, the rotating fifth chain wheel drives the sixth chain wheel on the third roller to rotate through a chain, so that the sixth chain wheel is driven to rotate, the other sixth chain wheels are matched to convey the two raw materials into the mixing mechanism through a second conveying belt, the inclination of one side of the triangular support is changed by sliding a guide wheel on the triangular support on a guide rod, and the other side of the triangular support is synchronously inclined through a third connecting seat and a fourth connecting seat, so that the conveying height of the conveying mechanism is adjusted;

step three: two kinds of raw materialss get into the blending bunker, start the fourth driving motor on the second fixing base, fourth driving motor drives the seventh sprocket and rotates, and pivoted seventh sprocket passes through the epaxial eighth sprocket of chain drive mixing and rotates, and two kinds of raw materialss are mixed to pivoted mixing axle drive stirring rake again, mixes the back well, takes out the baffle in the material pipe that leads to through the electric cylinder on the baffle, mixes the back raw materials from leading to during the material pipe flows into the branch feed bin, flows to the stock bed from the discharge gate at last.

The invention has the beneficial effects that:

1. the impurity in the raw materials can be filtered through the arranged screening mechanism, the impurity is prevented from entering mixed raw materials, the raw materials of the pipe fittings are respectively placed on a filter screen, a first driving motor on a first fixed seat is started, the first driving motor drives a first chain wheel to rotate, the rotating first chain wheel drives a second chain wheel on a rotating shaft to rotate through a chain, so as to drive one driving wheel to rotate, the other three driving wheels are matched to drive two rolling rings to rotate, so as to respectively screen the two raw materials onto two first conveyor belts, then two second driving motors are simultaneously started, the second driving motor drives a third chain wheel to rotate, the rotating third chain wheel drives a fourth chain wheel on a first roller to rotate through the chain, the rotating first roller is matched with a second roller between a supporting plate and a cylinder seat to drive the first conveyor belts to respectively convey the two screened raw materials onto a conveying mechanism, and the raw materials are blocked by the material blocking plate;

2. the conveying inclination can be adjusted through the arranged conveying mechanism, raw materials are conveniently conveyed to the mixing mechanisms with different heights, a third driving motor on the second support is started, the third driving motor drives a fifth chain wheel to rotate, the rotating fifth chain wheel drives a sixth chain wheel on a third roller to rotate through a chain, so that the sixth chain wheel is driven to rotate, the two raw materials are conveyed to the mixing mechanism through a second conveying belt by matching with other sixth chain wheels, the inclination of one side of the triangular frame is changed by sliding a guide wheel on the triangular frame on a guide rod, and the other side of the triangular frame is synchronously inclined through a third connecting seat and a fourth connecting seat, so that the conveying height of the conveying mechanism is adjusted;

3. can be with raw materials misce bene through the compounding mechanism that sets up, can also the misce bene of uniform output, two kinds of raw materialss get into the blending bunker, start the fourth driving motor on the second fixing base, fourth driving motor drives seventh sprocket and rotates, pivoted seventh sprocket passes through the epaxial eighth sprocket rotation of chain drive misce bene, pivoted misce bene axle drives the stirring rake again and mixes two kinds of raw materialss, mix the back well, the baffle in the material pipe is taken out through the electric cylinder on the baffle, the mixed back raw materials flows in the branch feed bin from the material pipe, flow on the material bed from the discharge gate at last.

Drawings

The invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic view showing the overall construction of a raw material mixing apparatus according to the present invention;

FIG. 2 is a schematic diagram of the mechanism of the screening mechanism of the present invention;

FIG. 3 is an enlarged view taken at A of FIG. 2 of the present invention;

FIG. 4 is a schematic view of the structure of the conveying mechanism of the present invention;

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

FIG. 6 is a schematic view of the internal structure of the mixing silo of the present invention.

In the figure: 1. a material screening mechanism; 101. a material screening frame; 102. a shield; 103. a support pillar; 104. a first fixed seat; 105. a first drive motor; 106. a first sprocket; 107. a bearing seat; 108. a rotating shaft; 109. a second sprocket; 1011. a drive wheel; 1012. a rolling ring; 1013. a support bar; 1014. filtering with a screen; 1015. a carriage; 1016. a first bracket; 1017. a second drive motor; 1018. a third sprocket; 1019. a striker plate; 1020. a first drum; 1021. a fourth sprocket; 1022. a support plate; 1023. a second drum; 1024. a first conveyor belt; 1025. a cartridge holder; 2. a conveying mechanism; 201. a conveying body; 202. a second bracket; 203. a third drive motor; 204. a fifth sprocket; 205. a third drum; 206. a sixth sprocket; 207. a second conveyor belt; 208. a first connecting seat; 209. connecting columns; 2010. a first roller; 2012. a second connecting seat; 2013. a first connector; 2014. a connecting rod; 2015. a third connecting seat; 2016. a fourth connecting seat; 2017. a tripod; 2018. a second roller; 2019. a guide bar; 2020. a guide wheel; 3. a material mixing mechanism; 301. a support frame; 302. a mixing bin; 303. a partition plate; 304. a material distributing bin; 305. an electric cylinder; 306. a baffle plate; 307. a material passing pipe; 308. a second fixed seat; 309. a fourth drive motor; 3010. a seventh sprocket; 3011. a fixing plate; 3012. a mixing shaft; 3013. an eighth sprocket; 3014. a stirring paddle; 3015. a discharge port; 4. a material bed.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, a raw material mixing device for pipe manufacturing includes two material sieving mechanisms 1, a material mixing mechanism 3 is disposed on one side of each of the two material sieving mechanisms 1, and two inclined conveying mechanisms 2 are disposed between the two material sieving mechanisms 1 and the material mixing mechanism 3;

the screening mechanism 1 comprises a screening frame 101, two support columns 103 are fixedly mounted on the upper surface of the screening frame 101 close to four corners, a protective cover 102 is fixedly mounted on the upper surface of the screening frame 101 between the four inner support columns 103, a bearing seat 107 is fixedly mounted on the upper surface of each support column 103, a rotating shaft 108 is rotatably mounted between every two adjacent bearing seats 107, one rotating shaft 108 penetrates through the arc side surface of each bearing seat 107 and is fixedly provided with a second chain wheel 109, a conveying frame 1015 is fixedly mounted on the upper surface of the screening frame 101 between the inner walls of the protective covers 102, a first support 1016 is fixedly mounted on the upper surface of the conveying frame 1015 close to one end, a second driving motor 1017 is fixedly mounted on the upper surface of the first support 1016, and a third chain wheel 1018 is fixedly mounted on the output shaft of the second driving motor 1017, a material baffle 1019 is fixedly arranged at a position, close to one end, of the lower surface of the conveying frame 1015;

conveying mechanism 2 includes carrying main part 201, the fixed position that the upper surface of carrying main part 201 is close to one end installs second support 202, the fixed position that the upper surface of second support 202 is close to one end installs third driving motor 203, the output shaft fixed mounting of third driving motor 203 has fifth sprocket 204, the inner wall of carrying main part 201 rotates and installs the third cylinder 205 that a plurality of equidistance distributes, the equal fixed mounting in position that the lower surface of carrying main part 201 is close to both sides has first connecting seat 208, two first connecting seats 208 all have spliced pole 209 through round pin axle movable mounting, the equal movable mounting of lower extreme of two spliced poles 209 has first gyro wheel 2010, the equal fixed mounting in a side surface of two spliced poles 209 has second connecting seat 2012, the equal fixed mounting in one side that two first connecting seats 208 were kept away from to the lower surface of carrying main part 201 has fourth connecting seat 2016, guide rods 2019 are fixedly mounted on the lower surface of the conveying main body 201 close to one side of each of the two fourth connecting seats 2016;

mixing mechanism 3 includes support frame 301, the upper end fixed mounting of support frame 301 has blending bunker 302, the inner wall fixed mounting of support frame 301 has baffle 303, baffle 303 is located the below of blending bunker 302, the lower fixed surface of baffle 303 installs three branch feed bins 304, and two discharge gates 3015 have all been seted up to the lower extreme of every branch feed bin 304, and the below of every discharge gate 3015 all is provided with the stock bed 4, fixed mounting has three material pipe 307 of leading to between blending bunker 302 and the baffle 303.

A first fixed seat 104 is fixedly installed on the side surface of each two adjacent support columns 103, a first driving motor 105 is fixedly installed on the upper surface of the first fixed seat 104, a first chain wheel 106 which is positioned on the same plane as a second chain wheel 109 is fixedly installed on an output shaft of the first driving motor 105, the second chain wheel 109 and the first chain wheel 106 are in chain transmission, and a driving wheel 1011 is fixedly installed on the arc side surface of each rotating shaft 108; rolling rings 1012 are rotatably mounted on two adjacent driving wheels 1011, a plurality of supporting rods 1013 which are distributed at equal angles are fixedly mounted between the two rolling rings 1012, and filter screens 1014 are fixedly mounted on the surfaces of the supporting rods 1013; the inner walls of two ends of the conveying frame 1015 are rotatably provided with first rollers 1020, one end of the inner shaft of one of the first rollers 1020, which penetrates through the side wall of the conveying frame 1015, is fixedly provided with a fourth chain wheel 1021, the fourth chain wheel 1021 and the third chain wheel 1018 are positioned on the same plane, the fourth chain wheel 1021 and the third chain wheel 1018 are in chain transmission, the positions, close to two sides, of the upper surface of the conveying frame 1015 are fixedly provided with a plurality of support plates 1022 distributed at equal intervals, a plurality of barrel seats 1025 corresponding to the support plates 1022 are fixedly arranged on a median line of the upper surface of the conveying frame 1015, a second roller 1023 is rotatably arranged between each support plate 1022 and each barrel seat 1025, and first conveyor belts 1024 are rotatably arranged on the second rollers 1023 and the first rollers 1020;

one third roller 205 penetrates through one end of the side wall of the conveying main body 201 and is fixedly provided with a sixth chain wheel 206, the sixth chain wheel 206 and the fifth chain wheel 204 are positioned on the same plane, the sixth chain wheel 206 and the fifth chain wheel 204 are in chain transmission, and a plurality of third rollers 205 are rotatably provided with second conveyor belts 207; a tripod 2017 is movably mounted on the fourth connecting seat 2016 and the guide rod 2019, a second roller 2018 is movably mounted at the lower end of the tripod 2017, one end of the tripod 2017 is movably mounted with the fourth connecting seat 2016 through a pin shaft, a guide wheel 2020 is movably mounted at the other end of the tripod 2017, the guide wheel 2020 and the guide rod 2019 are slidably mounted, two third connecting seats 2015 are fixedly mounted at one side of the tripod 2017, connecting rods 2014 are movably mounted between the two third connecting seats 2015 and the two second connecting seats 2012, first connecting joints 2013 are fixedly mounted at two ends of the two connecting rods 2014, and the second connecting seat 2012 and the third connecting seats 2015 are movably mounted with the connecting rods 2014 through the first connecting joints 2013;

three fixing plates 3011 are fixedly mounted on the upper surface of the partition plate 303, an electric cylinder 305 is fixedly mounted on the side surface of each fixing plate 3011, a baffle 306 inserted into the material passing pipe 307 is fixedly mounted on the piston rod of each electric cylinder 305, a second fixed seat 308 is fixedly arranged on the inner wall of the supporting frame 301 at a position above the partition plate 303, a fourth driving motor 309 is fixedly installed on the upper surface of the second fixing seat 308, a seventh chain wheel 3010 is fixedly installed on the output shaft of the fourth driving motor 309, a mixing shaft 3012 is rotatably mounted on the inner wall of the mixing bin 302, an eighth sprocket 3013 is fixedly mounted at one end of the mixing shaft 3012 penetrating through the side wall of the mixing bin 302, the eighth chain wheel 3013 and the seventh chain wheel 3010 are on the same plane, the eighth chain wheel 3013 and the seventh chain wheel 3010 are in chain transmission, and the mixing shaft 3012 is fixedly provided with a stirring paddle 3014 on the side of the arc inside the mixing bin 302.

A method of using a raw material mixing apparatus for pipe fabrication, comprising the steps of:

the method comprises the following steps: the raw material of the pipe fitting is respectively placed on the filter screen 1014, the first driving motor 105 on the first fixing seat 104 is started, the first driving motor 105 drives the first chain wheel 106 to rotate, the rotating first chain wheel 106 drives the second chain wheel 109 on the rotating shaft 108 to rotate through the chain, thereby driving one of the driving wheels 1011 to rotate, and then driving two rolling rings 1012 to rotate by matching with the other three driving wheels 1011, thereby rotating to respectively screen two raw materials onto two first conveyor belts 1024, simultaneously starting two second driving motors 1017, the second driving motors 1017 drive the third chain wheel 1018 to rotate, the rotating third chain wheel 1018 drives the fourth chain wheel 1021 on the first roller 1020 to rotate through a chain, the rotating first roller 1020 drives the first conveyor belts 1024 to respectively convey the two screened raw materials onto the conveying mechanism 2 by matching with the second roller 1023 between the supporting plate 1022 and the barrel seat 1025, and the raw materials are blocked by the blocking plate 1019;

step two: the third driving motor 203 on the second support 202 is started, the third driving motor 203 drives the fifth chain wheel 204 to rotate, the rotating fifth chain wheel 204 drives the sixth chain wheel 206 on the third roller 205 to rotate through a chain, so that the sixth chain wheel 206 is driven to rotate, the other sixth chain wheels 206 are matched to convey the two raw materials into the mixing mechanism 3 through the second conveying belt 207, the inclination of one edge of the tripod 2017 is changed by the guide wheel 2020 on the tripod 2017 sliding on the guide rod 2019, and the other edge of the tripod 2017 synchronously tilts through the third connecting seat 2015 and the fourth 2016 connecting seat, so that the conveying height of the conveying mechanism 2 is adjusted;

step three: the two raw materials enter the mixing bin 302, the fourth driving motor 309 on the second fixed seat 308 is started, the fourth driving motor 309 drives the seventh chain wheel 3010 to rotate, the rotating seventh chain wheel 3010 drives the eighth chain wheel 3013 on the mixing shaft 3012 to rotate through a chain, the rotating mixing shaft 3012 drives the stirring paddle 3014 to mix the two raw materials, after mixing, the baffle 306 in the material passing pipe 307 is drawn out through the electric cylinder 305 on the partition plate 303, the mixed raw materials flow into the material distribution bin 304 from the material passing pipe 307, and finally flow onto the material bed 4 from the material outlet 3015.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is illustrative and explanatory only and is not intended to be exhaustive or to limit the invention to the precise embodiments described, and various modifications, additions, and substitutions may be made by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims.

Claims (8)

1. A raw material mixing device for pipe fitting manufacturing is characterized by comprising two screening mechanisms (1), wherein a material mixing mechanism (3) is arranged on one side of each screening mechanism (1), and two inclined conveying mechanisms (2) are arranged between the two screening mechanisms (1) and the material mixing mechanism (3);

the screening mechanism (1) comprises a screening frame (101), two supporting columns (103) are fixedly mounted at positions, close to four corners, of the upper surface of the screening frame (101), a protective cover (102) is fixedly mounted at a position, located between four inner side supporting columns (103), of the upper surface of the screening frame (101), a bearing block (107) is fixedly mounted on the upper surface of each supporting column (103), a rotating shaft (108) is rotatably mounted between every two adjacent bearing blocks (107), a second chain wheel (109) is fixedly mounted on an arc side face, penetrating through the bearing blocks (107), of one rotating shaft (108), a conveying frame (1015) is fixedly mounted at a position, located between inner walls of the protective cover (102), of the upper surface of the screening frame (101), a first support (1016) is fixedly mounted at a position, close to one end, of the upper surface of the conveying frame (1015), and a second driving motor (1017) is fixedly mounted on the upper surface of the first support (1016, a third chain wheel (1018) is fixedly installed on an output shaft of the second driving motor (1017), and a material baffle plate (1019) is fixedly installed at a position, close to one end, of the lower surface of the conveying frame (1015);

the conveying mechanism (2) comprises a conveying main body (201), a second support (202) is fixedly mounted on the position, close to one end, of the upper surface of the conveying main body (201), a third driving motor (203) is fixedly mounted on the position, close to one end, of the upper surface of the second support (202), a fifth chain wheel (204) is fixedly mounted on an output shaft of the third driving motor (203), a plurality of third rollers (205) distributed at equal intervals are rotatably mounted on the inner wall of the conveying main body (201), first connecting seats (208) are fixedly mounted on the positions, close to two sides, of the lower surface of the conveying main body (201), two first connecting seats (208) are movably mounted with connecting columns (209) through pin shafts, first rollers (2010) are movably mounted at the lower ends of the two connecting columns (209), and a second connecting seat (2012) is fixedly mounted on one side surface of the two connecting columns (209), fourth connecting seats (2016) are fixedly arranged on one sides, far away from the two first connecting seats (208), of the lower surface of the conveying main body (201), and guide rods (2019) are fixedly arranged on one sides, close to the two fourth connecting seats (2016), of the lower surface of the conveying main body (201);

mixing mechanism (3) includes support frame (301), the upper end fixed mounting of support frame (301) has blending bunker (302), the inner wall fixed mounting of support frame (301) has baffle (303), baffle (303) are located the below of blending bunker (302), the lower fixed surface of baffle (303) installs three branch feed bin (304), and two discharge gates (3015) have all been seted up to the lower extreme of every branch feed bin (304), and the below of every discharge gate (3015) all is provided with stock bed (4), fixed mounting has three logical material pipe (307) between blending bunker (302) and baffle (303).

2. The raw material mixing device for pipe fitting manufacturing according to claim 1, wherein a first fixing seat (104) is fixedly installed on the side surface of each two adjacent supporting columns (103), a first driving motor (105) is fixedly installed on the upper surface of the first fixing seat (104), a first chain wheel (106) which is located on the same plane as a second chain wheel (109) is fixedly installed on an output shaft of the first driving motor (105), the second chain wheel (109) and the first chain wheel (106) are in chain transmission, and a driving wheel (1011) is fixedly installed on the arc side surface of each rotating shaft (108).

3. The raw material mixing device for pipe manufacturing according to claim 2, wherein two adjacent driving wheels (1011) are rotatably provided with rolling rings (1012), a plurality of supporting rods (1013) which are distributed at equal angles are fixedly arranged between the two rolling rings (1012), and a filter screen (1014) is fixedly arranged on the surface of the supporting rods (1013).

4. The raw material mixing device for pipe fitting manufacturing according to claim 1, wherein the inner walls of two ends of the conveying frame (1015) are rotatably provided with first rollers (1020), one end of the inner shaft of one first roller (1020) penetrating through the side wall of the conveying frame (1015) is fixedly provided with a fourth chain wheel (1021), the fourth chain wheel (1021) and the third chain wheel (1018) are positioned on the same plane, the fourth chain wheel (1021) and the third chain wheel (1018) are in chain transmission, the positions of the upper surface of the conveying frame (1015) close to two sides are fixedly provided with a plurality of support plates (1022) which are distributed at equal intervals, the median line of the upper surface of the conveying frame (1015) is fixedly provided with a plurality of barrel seats (1025) corresponding to the support plates (1025), and a second roller (1023) is rotatably arranged between each support plate (1022) and the barrel seat (1025), and a first conveyor belt (1024) is rotatably arranged on the second roller (1023) and the first roller (1020).

5. The raw material mixing device for pipe fitting manufacturing according to claim 1, wherein a third roller (205) penetrates through one end of the side wall of the conveying body (201) and is fixedly provided with a sixth chain wheel (206), the sixth chain wheel (206) and the fifth chain wheel (204) are located on the same plane, the sixth chain wheel (206) and the fifth chain wheel (204) are in chain transmission, and a second conveyor belt (207) is rotatably arranged on a plurality of third rollers (205).

6. The raw material mixing device for pipe manufacturing according to claim 1, wherein a tripod (2017) is movably mounted on the fourth connecting seat (2016) and the guide rod (2019), a second roller (2018) is movably mounted at the lower end of the tripod (2017), one end of the tripod (2017) is movably mounted with the fourth connecting seat (2016) through a pin shaft, a guide wheel (2020) is movably mounted at the other end of the tripod (2017), the guide wheel (2020) and the guide rod (2019) are slidably mounted, two third connecting seats (2015) are fixedly mounted at one side of the tripod (2017), a connecting rod (2014) is movably mounted between the two third connecting seats (2015) and the two second connecting seats (2012), a first connecting joint (2013) is fixedly mounted at two ends of the two connecting rods (2014), the second connecting seats (2012) and the second connecting seats (2014), and a second connecting seat (201) is movably mounted at the two ends of the two connecting rods, The third connecting seat (2015) is movably mounted with the connecting rod (2014) through the first connecting head (2013).

7. The raw material mixing device for pipe fitting manufacturing according to claim 1, wherein three fixing plates (3011) are fixedly installed on the upper surface of the partition plate (303), an electric cylinder (305) is fixedly installed on the side surface of each fixing plate (3011), a baffle (306) inserted into the material passing pipe (307) is fixedly installed on the piston rod of each electric cylinder (305), a second fixing seat (308) is fixedly installed at a position, above the partition plate (303), of the inner wall of the support frame (301), a fourth driving motor (309) is fixedly installed on the upper surface of the second fixing seat (308), a seventh chain wheel (3010) is fixedly installed on the output shaft of the fourth driving motor (309), a material mixing shaft (3012) is rotatably installed on the inner wall of the material mixing bin (302), and an eighth chain wheel (3013) is fixedly installed at one end, penetrating through the side wall of the material mixing bin (302), of the material mixing shaft (3012), the eighth chain wheel (3013) and the seventh chain wheel (3010) are located on the same plane, the eighth chain wheel (3013) and the seventh chain wheel (3010) are in chain transmission, and a stirring paddle (3014) is fixedly installed on the side face, located inside the mixing bin (302), of the circular arc of the mixing shaft (3012).

8. The use method of the raw material mixing device for manufacturing the pipe fitting is characterized by comprising the following steps of:

the method comprises the following steps: placing pipe fitting raw materials on a filter screen (1014) respectively, starting a first driving motor (105) on a first fixed seat (104), driving a first chain wheel (106) to rotate by the first driving motor (105), driving a second chain wheel (109) on a rotating shaft (108) to rotate by the first rotating chain wheel (106) through a chain, thereby driving one of driving wheels (1011) to rotate, driving two rolling rings (1012) to rotate by matching with other three driving wheels (1011), thereby respectively screening two raw materials on two first conveyor belts (1024) by rotating, simultaneously starting two second driving motors (1017), driving a third chain wheel (1018) to rotate by the second driving motor (1017), driving a fourth chain wheel (1021) on a first roller (1020) to rotate by the third rotating chain wheel (1018) through a chain, and driving the first conveyor belt (1024) to drive the screened two raw materials by matching with the second roller (1023) between a support plate (1022) and a cylinder seat (1025) Respectively conveyed to the conveying mechanism (2) and is blocked by a material blocking plate (1019);

step two: starting a third driving motor (203) on a second support (202), driving a fifth chain wheel (204) to rotate by the third driving motor (203), driving a sixth chain wheel (206) on a third roller (205) to rotate by the rotating fifth chain wheel (204) through a chain, driving the sixth chain wheel (206) to rotate, then matching with other sixth chain wheels (206) to convey two raw materials into a mixing mechanism (3) through a second conveying belt (207), changing the inclination of one edge of a tripod (2017) by sliding a guide wheel (2020) on the tripod (2017) on a guide rod (2019), and synchronously inclining the other edge of the tripod (2017) through a third connecting seat (2015) and a fourth connecting seat (2016) so as to adjust the conveying height of the conveying mechanism (2);

step three: two kinds of raw materials get into blending bunker (302), start fourth driving motor (309) on second fixing base (308), fourth driving motor (309) drives seventh sprocket (3010) and rotates, pivoted seventh sprocket (3010) drives eighth sprocket (3013) on the material mixing axle (3012) through the chain and rotates, pivoted material mixing axle (3012) drives stirring rake (3014) again and mixes two kinds of raw materials, after mixing, take out baffle (306) in the material passing pipe (307) through electric cylinder (305) on baffle (303), the raw materials flow into branch feed bin (304) from material passing pipe (307) after mixing, flow on stock bed (4) from discharge gate (3015) at last.

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