阅读说明：本技术 一种带棒状物自动理料功能的定量包装多头组合秤 (Take automatic reason material function's of bar-shaped thing multi-end combination balance of ration packing ) 是由 曹民智 王进皎 王国磊 李文闯 于 2019-11-11 设计创作，主要内容包括：本发明公开了一种带棒状物自动理料功能的定量包装多头组合秤,涉及食品加工机械行业领域,包括支撑柱、紧固安装块、横梁杆、上落料斗、连杆、振动主机、称重主机、集料挂板、长条集料斗、下落料斗、吊装座、下集料导向筒、下落料筒、排废料滑槽、电控箱、支腿板。本发明设计方案通过增加自动理料功能使棒状物在称量及包装过程始终保持一种集束状态,在包装物中条理平滑、顺畅,减小包装占用体积,提升美观程度,方便运输。(The invention discloses a quantitative packaging multi-head combination scale with a function of automatically arranging rodlike objects, which relates to the field of food processing machinery industry and comprises support columns, fastening and mounting blocks, a cross beam rod, an upper blanking hopper, a connecting rod, a vibration host, a weighing host, an aggregate hanging plate, a long-strip aggregate hopper, a blanking hopper, a hoisting seat, a lower aggregate guide cylinder, a blanking cylinder, a waste discharge chute, an electric cabinet and a leg supporting plate. According to the design scheme, the automatic material arranging function is added, so that the rod-shaped objects are always kept in a bundling state in the weighing and packaging processes, the rod-shaped objects are arranged smoothly in a packaged object, the occupied volume of the package is reduced, the attractiveness is improved, and the transportation is convenient.)

1. The utility model provides a take multi-end combination balance of quantitative package of automatic reason material function of bar-shaped thing, includes support column (1), fastening installation piece (2), beam pole (3), goes up blanking fill (4), connecting rod (5), vibration host computer (6), host computer (7) of weighing, link plate (8) of gathering materials, rectangular collecting hopper (9), blanking hopper (10), hoist and mount seat (11), lower collecting guide cylinder (12), blanking cylinder (13), arrange waste material spout (14), electric cabinet (15), landing leg board (16), its characterized in that: vibration host computer (6) are including branch fixing base (17), vibration reposition of redundant personnel fill (18), top cap ring (19), dispersion impeller (20), draw and detain gliding mass (21), top cap ring (22), electromagnetic vibration piece includes vibrating spring (23), vibration dish seat (24), spring board (25), vibrator (26), electromagnetic block (27), intermediate strut (28), host computer (7) of weighing includes weighing unit, upper ring board (36), lower ring board (37), connection collar (38), the weighing unit includes weighing hopper (29), temporary storage hopper (30), weighing hopper guide cylinder (31), fill support (32), connecting axle (33), temporary storage hopper guide cylinder (34), motor cover installation piece (35), connector (49), reset spring (50), connecting rod (51), right door pole (52), connecting rod (53), The device comprises a left door rod (54), a left side door (55), a right side door (56), a right side hopper weighing door (57), a left side hopper weighing door (58) and a motor mounting unit, wherein the motor mounting unit comprises a counter (39), an electric controller (40), an upper rocker shaft sleeve (41), an upper rocker (42), a lower rocker shaft sleeve (43), a lower rocker (44), a motor cover (45), a mounting seat (46), an upper motor (47) and a lower motor (48), a support column (1) is rigidly mounted on a support rod fixing seat (17), the support rod fixing seat (17) is uniformly arranged on the lower end face of a top cover circular ring (22) in 4 groups in an annular array manner, the support column (1) and a cross beam rod (3) are connected and mounted through a fastening mounting block (2) to form a mounting frame structure, the upper hopper (4) is rigidly mounted on the cross beam rod (3) through a connecting rod (5), and the connecting rod (5) is uniformly arranged between the upper hopper (4) and the cross beam rod (3, the vibration main machine (6) is rigidly installed at the lower part of an upper blanking hopper (4), the weighing main machine (7) is installed at the periphery of the vibration main machine (6) in a surrounding manner, a long-strip aggregate hopper (9) is rigidly installed on an aggregate hanging plate (8), the long-strip aggregate hopper (9) is installed at the lower part of the weighing main machine (7), the blanking hopper (10) is installed at the lower part of the long-strip aggregate hopper (9), a hoisting seat (11) is rigidly installed at the lower part of the blanking hopper (10), a lower aggregate guide cylinder (12) is rigidly installed inside the hoisting seat (11), a blanking cylinder (13) is rigidly installed at the lower end of the lower aggregate guide cylinder (12), a waste discharge chute (14) is rigidly installed at the lateral part of the lower aggregate guide cylinder (12), an electric cabinet (15) is rigidly installed between the upper end of the hoisting seat (11) and the long-strip aggregate hopper (9), a supporting leg plate (16) is rigidly connected and installed between the lower end face, the vibration flow distribution hopper (18) is connected and installed above a top cover ring (19) through a pull buckle sliding body (21), the pull buckle sliding body (21) is installed between the vibration flow distribution hopper (18) and a weighing unit in a matching mode, the top cover ring (19) is installed inside the top cover ring (22) in a matching mode, a dispersion disc (20) is installed at the upper end of a middle support column (28) in a rigid mode, an electromagnetic vibration block is installed at the center position inside the top cover ring (22) in a rigid mode, vibration springs (23) are installed at the lower end of a vibration disc seat (24) in an evenly distributed mode in 3 groups of annular arrays in a dividing mode, the bottom of each vibration spring (23) is in contact and matching with the hollow bottom surface inside the top cover ring (22), a vibrator (26) is installed at the upper end of the vibration disc seat (24) through a spring plate (25) in a connecting mode, the electromagnetic block (27) is installed at the, the middle support column (28) is rigidly mounted on the upper end face of the vibrator (26), the upper ring plate (36) is rigidly mounted on the upper end of the inner ring of the connecting and mounting ring (38), the lower ring plate (37) is rigidly mounted on the lower end of the inner ring of the connecting and mounting ring (38), the weighing hopper (29) is rigidly mounted on the lower portion of the motor cover (45) through a hopper support (32), the temporary storage hopper (30) is rigidly mounted on the upper portion of the motor cover (45) through a hopper support (32), the weighing hopper guide cylinder (31) is rigidly mounted inside the weighing hopper (29), the temporary storage hopper guide cylinder (34) is rigidly mounted inside the temporary storage hopper (30), the connecting shaft (33) is mounted on the inner sides of the weighing hopper (29) and the temporary storage hopper (30) in a matched mode, the connector (49) is hinged to the hopper support (32) in a matched mode, the reset spring (50) is connected and mounted between the connector (49) and the, the connecting rod (51) is rigidly mounted on a right side door (56), the connecting rod (51) is hinged to a connector (49), the right door rod (52), the connecting rod (53) and the left door rod (54) are hinged to form a side door opening and closing mechanism, the left side door (55) is rigidly mounted on the left door rod (54), the connecting shaft (33) is matched with an upper rocker shaft sleeve (41) and a lower rocker shaft sleeve (43) to open and close the side door, the right side hopper door (57) and the left side hopper door (58) are assembled on the lower portion of the weighing hopper (29) through the side door opening and closing mechanism, the motor mounting unit is rigidly mounted on a motor cover mounting block (35), the counter (39) is assembled behind an upper motor (47) and a lower motor (48), the electric controller (40) is rigidly mounted on a mounting base (46), and the mounting base (46) is rigidly mounted on the rear end face of the motor cover (45), the upper motor (47) and the lower motor (48) are rigidly mounted inside the motor cover (45), the upper rocker shaft sleeve (41) is mounted on the upper rocker (42) in a matching manner, the lower rocker shaft sleeve (43) is mounted on the lower rocker (44) in a matching manner, the upper rocker (42) is rigidly mounted on a power output shaft of the upper motor (47), and the lower rocker (44) is rigidly mounted on a power output shaft of the lower motor (48).

2. The multi-head combination weigher with the function of automatically arranging the rodlike objects is characterized in that the long-strip material collecting hoppers (9) are uniformly arranged on the material collecting hanging plate (8) in 10-20 groups of annular arrays at the positions aligned with the weighing units.

3. The quantitative packaging multi-head combination balance with the automatic rodlike material tidying function according to claim 1, wherein the leg plates (16) are uniformly arranged between the electric cabinet (15) and the lower end face of the top cover ring (22) in 4 groups in an annular array.

4. The quantitative packaging multi-head combination weigher with the automatic rodlike material tidying function according to claim 1 is characterized in that the vibrating flow dividing hoppers (18) are uniformly arranged in 10-20 groups in an annular array at the positions aligned with the temporary storage hoppers (30).

5. The weighing scale with the automatic rodlike material tidying function and the quantitative packaging multi-head combination balance as claimed in claim 1, wherein the weighing units are uniformly distributed in 10-20 groups of annular arrays and are installed on the side surface of the connecting installation ring (38) through motor cover installation blocks (35).

6. The multi-head combination weigher with the function of automatically arranging the rodlike products as claimed in claim 1, wherein the upper drop hopper (4) drops the rodlike products onto the dispersion plate (20), the dispersion plate (20) vibrates to disperse the rodlike products more uniformly onto the vibrating splitter hopper (18), the vibrating splitter hopper (18) has inclined side walls, a wide top and a narrow bottom, the width of the lower part of the vibrating splitter hopper (18) is smaller than the length of the rodlike products, the vibrating splitter hopper (18) vibrates the rodlike products to align the rodlike products axially and enter the temporary storage hopper (30), a temporary storage hopper guide cylinder (34) is installed in the temporary storage hopper (30), the upper half part of the temporary storage hopper guide cylinder (34) is funnel-shaped, the lower half part of the temporary storage hopper guide cylinder (34) is cylindrical, and the temporary storage hopper guide cylinder (34) is shaped to temporarily store and drop the rodlike products into the weighing hopper (29) in an upright state, weighing hopper (29) internally mounted weighing hopper guide cylinder (31), the first half of weighing hopper guide cylinder (31) is the infundibulate, weighing hopper guide cylinder (31) lower part is the cylinder, weighing hopper guide cylinder (31) shape makes rodlike product weigh with upright state and counter weight and fall into rectangular collecting hopper (9), rectangular collecting hopper (9) are close to become V-arrangement and narrow down wide, rectangular collecting hopper (9) slope installation is in order to guarantee that rodlike product is vertical to fall into whereabouts hopper (10).

Technical Field

The invention relates to the field of food processing machinery industry, in particular to a quantitative packaging multi-head combined scale with a function of automatically arranging rodlike objects.

Background

At present, the automation degree of the food processing industry is increasingly improved, the quantitative packaging multi-head scale is widely applied, but the quantitative packaging multi-head scale has no material management function at present, rod-shaped products are disorderly and disorderly after being packaged, and the quantitative packaging multi-head scale is not attractive, large in occupied size and inconvenient to transport.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides a quantitative packaging multi-head combined scale with a function of automatically arranging rod-shaped objects.

The technical scheme adopted by the invention for solving the technical problems is as follows: a quantitative packaging multi-head combination scale with a rodlike object automatic material arranging function comprises a support column, a fastening installation block, a beam rod, an upper blanking hopper, a connecting rod, a vibration host, a weighing host, an aggregate hanging plate, a long aggregate hopper, a blanking hopper, a hoisting seat, a lower aggregate guide cylinder, a blanking cylinder, a waste discharge chute, an electric cabinet and a leg supporting plate, wherein the vibration host comprises a support rod fixing seat, a vibration shunting hopper, a top cover ring, a dispersion disc, a pull buckle sliding body, a top cover ring and an electromagnetic vibration block, the electromagnetic vibration block comprises a vibration spring, a vibration disc seat, a spring plate, a vibrator, an electromagnetic block and an intermediate support, the weighing host comprises a weighing unit, an upper ring plate, a lower ring plate and a connecting installation ring, the weighing unit comprises a weighing hopper, a temporary storage hopper, a weighing hopper guide cylinder, a hopper support, a connecting shaft, a temporary storage hopper guide cylinder, a motor cover installation block and a connector, The automatic weighing device comprises a reset spring, a connecting rod, a right door rod, a connecting rod, a left door, a right hopper door, a left hopper door and a motor installation unit, wherein the motor installation unit comprises a counter, an electric controller, an upper rocker shaft sleeve, an upper rocker, a lower rocker shaft sleeve, a lower rocker, a motor cover, a mounting seat, an upper motor and a lower motor, the supporting columns are rigidly installed on a supporting rod fixing seat, the supporting rod fixing seat is divided into 4 groups of annular arrays which are uniformly installed on the lower end surface of a top cover circular ring, the supporting columns and a cross beam rod are connected and installed through fastening installation blocks to form a mounting frame structure, the upper hopper is rigidly installed on the cross beam rod through the connecting rod, the connecting rods are divided into 4 groups of annular arrays which are uniformly installed between the upper hopper and the cross beam rod, a vibrating host is rigidly installed on the lower part of the upper hopper, the, the long-strip collecting hopper is arranged at the lower part of the weighing host, the falling hopper is arranged at the lower part of the long-strip collecting hopper, the hoisting seat is rigidly arranged at the lower part of the falling hopper, the lower collecting guide cylinder is rigidly arranged inside the hoisting seat, the falling feed cylinder is rigidly arranged at the lower end of the lower collecting guide cylinder, the waste discharge chute is rigidly arranged at the side part of the lower collecting guide cylinder, the electric cabinet is rigidly arranged between the upper end of the hoisting seat and the long-strip collecting hopper, the leg supporting plate is rigidly connected and arranged between the electric cabinet and the lower end surface of the top cover ring, the vibration diversion hopper is connected and arranged above the top cover ring through the pull buckle sliding body, the pull buckle sliding body is arranged between the vibration diversion hopper and the weighing unit in a matching way, the top cover ring is arranged inside the top cover ring, the dispersion disc is rigidly arranged at the upper end of the middle support, the vibration springs are divided into 3 groups, annular arrays are uniformly and rigidly arranged at the lower end of the vibration disc seat, the bottom of each vibration spring is in contact fit with the hollow bottom surface in the top cover ring, the vibrators are connected and arranged at the upper end of the vibration disc seat through spring plates, the electromagnetic blocks are rigidly arranged at the middle position of the upper end surface of the vibration disc seat, the middle support columns are rigidly arranged at the upper end surface of each vibrator, the upper ring plates are rigidly arranged at the upper ends of the inner rings of the connecting and mounting rings, the lower ring plates are rigidly arranged at the lower ends of the inner rings of the connecting and mounting rings, the weighing hoppers are rigidly arranged at the lower parts of the motor cover through hopper supports, the temporary storage hoppers are rigidly arranged at the upper parts of the motor cover through hopper supports, the weighing hopper guide cylinders are rigidly arranged in the weighing hoppers, the temporary storage hopper guide cylinders are rigidly arranged in the temporary storage, the reset spring is connected and installed between the connector and the bucket support, the connecting rod is rigidly installed on the right side door, the connecting rod is hinged to the connector, the right door rod, the connecting rod and the left door rod are hinged to form a side door opening and closing mechanism, the left side door is rigidly installed on the left door rod, the connecting shaft is matched with an upper rocker shaft sleeve and a lower rocker shaft sleeve to realize opening and closing of the side door, the right side weighing hopper door and the left side weighing hopper door are assembled on the lower portion of the weighing hopper through the side door opening and closing mechanism, the motor installation unit is rigidly installed on the motor cover installation block, the counter is assembled behind the upper motor and the lower motor, the electric controller is rigidly installed on the installation base, the installation base is rigidly installed on the rear end face of the motor cover, the upper motor and the lower motor are rigidly installed inside the motor cover, the upper rocker shaft sleeve is matched and installed on the upper rocker, and the, the upper rocker is rigidly mounted on the power output shaft of the upper motor, and the lower rocker is rigidly mounted on the power output shaft of the lower motor.

According to the quantitative packaging multi-head combination scale with the automatic rodlike object arranging function, the long-strip material collecting hoppers are uniformly distributed in 10-20 groups of annular arrays at the positions aligned with the weighing units and are arranged on the material collecting hanging plates.

According to the quantitative packaging multi-head combined scale with the automatic rodlike object arranging function, the leg plates are divided into 4 groups and are uniformly arranged between the electric cabinet and the lower end face of the top cover ring in an annular array mode.

According to the quantitative packaging multi-head combined scale with the automatic rodlike object sorting function, the vibrating shunt hoppers are divided into 10-20 groups and are uniformly arranged in an annular array mode at the positions aligned with the temporary storage hoppers.

According to the quantitative packaging multi-head combined scale with the automatic rodlike object arranging function, the weighing units are divided into 10-20 groups of annular arrays which are uniformly distributed and are arranged on the side surface of the connecting and mounting ring through the motor cover mounting blocks.

The quantitative packaging multi-head combination weigher with the automatic rodlike material arranging function is characterized in that the upper blanking hopper scatters rodlike products onto the dispersion disc, the dispersion disc vibrates to uniformly disperse the rodlike products into the vibration diversion hopper, the side wall of the vibration diversion hopper is inclined, wide at the top and narrow at the bottom, the width of the lower part of the vibration diversion hopper is smaller than the length of the rodlike products, the vibration diversion hopper vibrates to enable the rodlike products to be axially arranged and axially enter the temporary storage hopper, the temporary storage hopper is internally provided with the temporary storage hopper guide cylinder, the upper half part of the temporary storage hopper guide cylinder is funnel-shaped, the lower half part of the temporary storage hopper guide cylinder is cylindrical, the temporary storage hopper guide cylinder is in a shape that the rodlike products are temporarily stored and fall into the weighing hopper in an upright state, the weighing hopper is internally provided with the weighing hopper guide cylinder, the upper half part of the weighing hopper guide cylinder is funnel-shaped, and the weighing hopper guide cylinder is cylindrical, the shape of the guide cylinder of the weighing hopper enables rodlike products to be weighed and weighed in an upright state and fall into a long-strip collecting hopper, the long-strip collecting hopper is close to a V-shaped shape and is wide at the top and narrow at the bottom, and the long-strip collecting hopper is obliquely installed to ensure that the rodlike products vertically fall into the falling hopper.

The invention has the beneficial effects that the design scheme of the invention ensures that the rodlike objects are always kept in a bundling state in the weighing and packaging processes by adding the automatic material arranging function, the rodlike objects are arranged smoothly in a packaging material, the occupied volume of the packaging is reduced, the aesthetic degree is improved, and the transportation is convenient.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the overall structure of the vibration main unit according to the present invention;

FIG. 3 is a schematic view of the overall structure of the electromagnetic vibrating mass of the present invention;

FIG. 4 is a schematic view of the overall structure of the weighing main unit of the present invention;

FIG. 5 is a schematic view of the weighing cell of the present invention;

fig. 6 is a schematic structural view of the motor mounting unit of the present invention.

In the figure, 1, a support column, 2, a fastening installation block, 3, a cross beam rod, 4, an upper blanking hopper, 5, a connecting rod, 6, a vibration host, 7, a weighing host, 8, an aggregate hanging plate, 9, a strip aggregate hopper, 10, a blanking hopper, 11, a lifting seat, 12, a lower aggregate guide cylinder, 13, a blanking cylinder, 14, a waste discharge chute, 15, an electric cabinet, 16, a leg plate, 17, a support rod fixing seat, 18, a vibration distribution hopper, 19, a top cover ring, 20, a dispersion disc, 21, a pull buckle sliding body, 22, a top cover ring, 23, a vibration spring, 24, a vibration disc seat, 25, a spring plate, 26, a vibrator, 27, an electromagnetic block, 28, a middle support column, 29, a weighing hopper, 30, a temporary storage hopper, 31, a weighing hopper guide cylinder, 32, a hopper support, 33, a connecting shaft, 34, a temporary storage hopper guide cylinder, 35, a motor cover installation block, 36, an upper ring plate, 37, a lower ring plate, 38, a lower ring plate, 39. the counter comprises a counter 40, an electric controller 41, an upper rocker shaft sleeve 42, an upper rocker 43, a lower rocker shaft sleeve 44, a lower rocker 45, a motor cover 46, a mounting seat 47, an upper motor 48, a lower motor 49, a connector 50, a return spring 51, a connecting rod 52, a right door rod 53, a connecting rod 54, a left door rod 55, a left door 56, a right door 57, a right hopper door 58 and a left hopper door 58.

Detailed Description

In order to more clearly illustrate the technical solution of the present invention, the following further description is made with reference to the accompanying drawings, and it is obvious that the following described drawings are only one embodiment of the present invention, and it is within the scope of the present invention for a person of ordinary skill in the art to obtain other embodiments based on the drawings and the embodiment without any creative effort.

A quantitative packaging multi-head combination scale with a rodlike object automatic material arranging function comprises a support column 1, a fastening installation block 2, a beam rod 3, an upper blanking hopper 4, a connecting rod 5, a vibration host 6, a weighing host 7, an aggregate hanging plate 8, a long-strip aggregate hopper 9, a blanking hopper 10, a hoisting seat 11, a lower aggregate guide cylinder 12, a blanking cylinder 13, a waste discharge chute 14, an electric cabinet 15 and a leg plate 16, wherein the vibration host 6 comprises a support rod fixing seat 17, a vibration distribution hopper 18, a top cover ring 19, a dispersion disc 20, a pull buckle sliding body 21, a top cover ring 22 and an electromagnetic vibration block, the electromagnetic vibration block comprises a vibration spring 23, a vibration disc seat 24, a spring plate 25, a vibrator 26, an electromagnetic block 27 and a middle support column 28, the weighing host 7 comprises a weighing unit, an upper ring plate 36, a lower ring plate 37 and a connecting installation ring 38, the weighing unit comprises a weighing hopper 29, a temporary storage hopper 30, a beam rod beam 3 and a temporary, The weighing hopper comprises a weighing hopper guide cylinder 31, a hopper support 32, a connecting shaft 33, a temporary storage hopper guide cylinder 34, a motor cover installation block 35, a connector 49, a return spring 50, a connecting rod 51, a right door rod 52, a connecting rod 53, a left door rod 54, a left door 55, a right door 56, a right hopper door 57, a left hopper door 58 and a motor installation unit, wherein the motor installation unit comprises a counter 39, an electric controller 40, an upper rocker shaft sleeve 41, an upper rocker 42, a lower rocker shaft sleeve 43, a lower rocker 44, a motor cover 45, an installation seat 46, an upper motor 47 and a lower motor 48, the supporting columns 1 are rigidly installed on a supporting column fixing seat 17, the supporting column fixing seat 17 is divided into 4 groups and is uniformly installed on the lower end face of a top cover circular ring 22 in an annular array manner, the supporting columns 1 and a cross beam rod 3 are connected and installed through a fastening installation block 2 to form a structure, the upper hopper installation frame 4 is rigidly, the connecting rods 5 are uniformly distributed between an upper blanking hopper 4 and a beam rod 3 in groups of 4 annular arrays, the vibrating host 6 is rigidly mounted at the lower part of the upper blanking hopper 4, the weighing host 7 is mounted at the periphery of the vibrating host 6 in a surrounding manner, the long-strip aggregate hopper 9 is rigidly mounted on an aggregate hanging plate 8, the long-strip aggregate hopper 9 is mounted at the lower part of the weighing host 7, the blanking hopper 10 is mounted at the lower part of the long-strip aggregate hopper 9, the hoisting seat 11 is rigidly mounted at the lower part of the blanking hopper 10, the lower aggregate guide cylinder 12 is rigidly mounted inside the hoisting seat 11, the blanking cylinder 13 is rigidly mounted at the lower end of the lower aggregate guide cylinder 12, the waste discharge chute 14 is rigidly mounted at the side part of the lower aggregate guide cylinder 12, the electric cabinet 15 is rigidly mounted between the upper end of the hoisting seat 11 and the long-strip aggregate hopper 9, and the leg plate 16 is, the vibration diversion hopper 18 is connected and installed above the top cover ring 19 through a pull buckle sliding body 21, the pull buckle sliding body 21 is installed between the vibration diversion hopper 18 and the weighing unit in a matching mode, the top cover ring 19 is installed inside the top cover ring 22 in a matching mode, the dispersion disc 20 is rigidly installed at the upper end of the middle support column 28, the electromagnetic vibration block is rigidly installed at the central position inside the top cover ring 22, the vibration springs 23 are uniformly distributed in 3 groups of annular arrays and rigidly installed at the lower end of the vibration disc seat 24, the bottom of the vibration spring 23 is in contact fit with the hollow bottom surface inside the top cover ring 22, the vibrator 26 is connected and installed at the upper end of the vibration disc seat 24 through a spring plate 25, the electromagnetic block 27 is rigidly installed at the middle position of the upper end face of the vibration disc seat 24, the middle support column 28 is rigidly installed at the upper end face of the vibrator 26, the upper ring plate 36 is rigidly, the lower ring plate 37 is rigidly mounted at the lower end of the inner ring of the connecting mounting ring 38, the weighing hopper 29 is rigidly mounted at the lower part of the motor cover 45 through a hopper support 32, the temporary storage hopper 30 is rigidly mounted at the upper part of the motor cover 45 through the hopper support 32, the weighing hopper guide cylinder 31 is rigidly mounted inside the weighing hopper 29, the temporary storage hopper guide cylinder 34 is rigidly mounted inside the temporary storage hopper 30, the connecting shaft 33 is fittingly mounted inside the weighing hopper 29 and the temporary storage hopper 30, the connector 49 is fittingly hinged to the hopper support 32, the return spring 50 is connected between the connector 49 and the hopper support 32, the connecting shaft 51 is rigidly mounted on the right side door 56, the connecting shaft 51 is hinged to the connector 49, the right door rod 52, the connecting rod 53 and the left door rod 54 are hinged to each other to form a side door opening and closing mechanism, the left door 55 is rigidly mounted on the left door rod 54, the connecting shaft 33 is matched with the upper rocker shaft sleeve 41 and the lower rocker, the right side hopper weighing door 57 and the left side hopper weighing door 58 are assembled at the lower part of the weighing hopper 29 through a side door opening and closing mechanism, the motor mounting unit is rigidly mounted on the motor cover mounting block 35, the counter 39 is assembled behind the upper motor 47 and the lower motor 48, the electric controller 40 is rigidly mounted on the mounting base 46, the mounting base 46 is rigidly mounted on the rear end surface of the motor cover 45, the upper motor 47 and the lower motor 48 are rigidly mounted inside the motor cover 45, the upper rocker shaft sleeve 41 is fittingly mounted on the upper rocker 42, the lower rocker shaft sleeve 43 is fittingly mounted on the lower rocker 44, the upper rocker 42 is rigidly mounted on the power output shaft of the upper motor 47, and the lower rocker 44 is rigidly mounted on the power output shaft of the lower motor 48.

In detail, the long-strip material collecting hopper 9 is uniformly distributed on the material collecting hanging plate 8 in 14 groups in alignment with the position of the weighing unit, the leg plate 16 is uniformly distributed between the lower end faces of the electric cabinet 15 and the top cover ring 22 in 4 groups, the vibration diversion hopper 18 is uniformly distributed in 14 groups in alignment with the temporary storage hopper 30 in annular array, the weighing unit 14 groups of annular array is uniformly distributed on the side face of the connecting installation ring 38 through the motor cover installation block 35, the upper blanking 4 disperses the rod-shaped products onto the dispersion plate 20, the dispersion plate 20 vibrates to disperse the rod-shaped products more uniformly to the vibration diversion hopper 18, the side wall of the vibration diversion hopper 18 is inclined, wide at the top and narrow at the bottom, the width of the lower part of the vibration diversion hopper 18 is smaller than the length of the rod-shaped products, the vibration diversion hopper 18 vibrates the rod-shaped products to axially arrange the rod-shaped products and axially enter the temporary storage hopper 30, the installation is kept in the fill 30 and is fought 34 guide cylinder, the 34 upper half of the fill guide cylinder of keeping in is the infundibulate, the 34 lower half of the fill guide cylinder of keeping in is the cylinder, 34 shapes of the fill guide cylinder of keeping in make bar-shaped product keep in and fall to the weighing hopper 29 with the upright state in, 29 internally mounted weighing hopper guide cylinders 31 of weighing hopper, 31 upper halves of weighing hopper guide cylinders are the infundibulate, 31 lower halves of weighing hopper guide cylinders are the cylinder, 31 shapes of weighing hopper guide cylinders make bar-shaped product weigh with the upright state and fall into rectangular collecting hopper 9 with the counter weight, rectangular collecting hopper 9 is close to become V-arrangement and width-down narrow down, the installation of slope of rectangular collecting hopper 9 is in order to guarantee that bar-shaped product is vertical to fall into whereabouts hopper 10.

The above embodiments are only exemplary embodiments of the present invention, and are not intended to limit the present invention, and the scope of the present invention is defined by the claims. Various modifications and equivalents may be made by those skilled in the art within the spirit and scope of the present invention, and such modifications and equivalents should also be considered as falling within the scope of the present invention.