CN110356611B - General binding machine for 1000-2500 g dried noodles - Google Patents

Abstract

A universal strapping machine for 1000-2500 grams of fine dried noodles, comprising: the device comprises a left wallboard (1), a right wallboard (2), a left external wallboard (9), a right external wallboard (10), a left transmission component (Z), a right transmission component (Y), a left and right swing surface mechanism (B), a horizontal surface conveying mechanism (S), a left clamping mechanism (M), a right clamping mechanism (N), a paper cutting mechanism (Q), a fork surface mechanism (C) and a paper feeding mechanism (P). The invention has the advantages that: the structure is simplified, and the universal binding of 1000-2500 g of fine dried noodles is realized. The device has simple structure, convenient installation and debugging, realizes higher automation technology crossing, and well solves the industrial problems that the strapping machine with various specifications occupies factory building area, can not realize the general strapping of large gram number fine dried noodles, and the like.

Description

General binding machine for 1000-2500 g dried noodles

Technical Field

The invention relates to a general binding machine for 1000-2500 g fine dried noodles, belonging to the technical field of food machinery packaging.

Background

At present, the general bundling machine for fine dried noodles with the small gram number (less than 1000 g) and the bundling machine for fine dried noodles with the large gram number and 2500 g exist in the fine dried noodles industry, but the general bundling machine for fine dried noodles cannot be used in a certain range, and the current situation has a certain limitation on the wiring layout; for the fine dried noodles with different gram numbers, a plurality of types of strapping machines are needed, the factory building area of a customer is occupied, the requirements of the customer cannot be met, and the industry requirements of automatic production cannot be met.

Disclosure of Invention

The invention aims to provide a general binding machine for 1000-2500 g dried noodles, which solves the problems that the prior art cannot realize the general binding machine in a certain range, the binding machine with various specifications is required for packaging dried noodles with different gram numbers, the occupied factory area of a customer is occupied, and the requirements of the customer and the industry of automatic production cannot be met.

The technical scheme of the invention is as follows: a universal strapping machine for 1000-2500 grams of fine dried noodles, comprising: the left side transmission assembly (Z), the right side transmission assembly (Y), the left and right swinging surface mechanism (B), the horizontal surface conveying mechanism (S), the left side clamping mechanism (M), the right side clamping mechanism (N), the paper cutting mechanism (Q), the fork surface mechanism (C) and the paper feeding mechanism (P) are respectively arranged on the left side and the right side of the frame; the left clamping mechanism (M) and the right clamping mechanism (N) are symmetrically arranged at the upper parts of the left side and the right side of the frame; the left and right swinging surface mechanisms (B) are arranged at the rear part of the frame, and the horizontal surface conveying mechanism (S) is arranged above the left and right swinging surface mechanisms (B); the paper cutting mechanism (Q) is arranged at the position, close to the right side, of the rear upper part of the frame; the fork surface mechanism (C) is arranged below the left and right swing surface mechanisms (B); the paper feeding mechanism (P) is arranged at the front part of the right side of the frame.

The invention has the advantages that: the structure is simplified, and the universal binding of 1000-2500 g of fine dried noodles is realized. The device has simple structure, convenient installation and debugging, realizes higher automation technology crossing, and well solves the industrial problems that the strapping machine with various specifications occupies factory building area, can not realize the general strapping of large gram number fine dried noodles, and the like.

Drawings

FIG. 1 is a schematic view of the overall three-dimensional structure (upper left axis) of the present invention;

FIG. 2 is a schematic view of the overall three-dimensional structure (upper right axis) of the present invention;

FIG. 3 is a schematic perspective view of the left side drive assembly Z and left and right swing face mechanism B of the present invention;

FIG. 4 is a schematic perspective view of the right side drive assembly Y of the present invention;

fig. 5 is a schematic view of a partial perspective structure of the horizontal plane conveying mechanism S of the present invention;

FIG. 6 is a schematic perspective view of the face-cutting mechanism C, the needle pressing assembly A and the partial paper cutting mechanism Q of the present invention;

FIG. 7 is a schematic perspective view of the paper cutting mechanism Q of the present invention;

FIG. 8 is a schematic perspective view of the left side clamping mechanism M of the present invention;

fig. 9 is a schematic perspective view of the manipulator portion J of the right side clamping mechanism N of the present invention.

Reference numerals illustrate:

1. left side wall plate, 2 right side wall plate, 3 main motor, 4 pinion gear, 5 large gear, 6 main drive shaft, 7 first clamping cam, 8 first rotating arm wheel, 9 left side wall plate, 10 right side wall plate, 11 four-groove wheel shaft, 12 four-groove wheel, 13 rear face driving chain wheel, 14 face driving chain, 15 front face driving chain wheel, 16 second clamping cam, 17 second rotating arm wheel, 18 main drive chain wheel, 19 paper feeding cam, 20 five-groove wheel shaft, 21 five-groove wheel shaft, 22 rotary lower driving chain wheel, 23 rotary driving chain, 24 rotary upper driving chain wheel, 25 rotary shaft, 26 left swing face hanging bracket, 27 fiber board, 28 swing face motor, 29 swing face motor seat, 30 swing face eccentric sleeve, 31 swing face guide plate, 32 swing face supporting plate, 33 left swing face plate. Right swing face plate (symmetrical to left swing face plate), right swing face cradle, 36 face drive shaft, 37 face drive sprocket, 38 left support plate, 39 right support plate, 40 support block, 41 tension bracket, 42 tension bracket support block, 43 driven sprocket shaft, 44 face driven sprocket, 45 support plate support shaft, 46 eccentric shaft, 47 eccentric sleeve, 48 bearing cradle, 49 face plate, 50 swing arm, 51 face chain, 52 face fork, 53 face driven sprocket, 54 support shaft stop sleeve, 55 face motor, 56 face motor fixing plate, 57 face drive sprocket, 58 face chain, 59 left clamp rocker arm, 60 clamp seat, 61 compression spring pull rod, 62 press sleeve, 63 face fixing plate, 64 clamp connecting rod, 65 right angle rocker arm, 66 right angle rocker arm, 67 push rod seat, 13 face drive sprocket, 54 face drive sprocket, 59 face clamp rocker arm, 60 clamp seat, 61 compression spring pull rod, 62 press sleeve, 63 face fixing plate, 64 face clamp connecting rod, 65 right angle rocker arm, 66 right angle rocker arm, 67 face seat, 67 face motor seat, and a drive spring 68. Left push rod, 69, upper push rod tab, 70, lower push rod tab, 71, left spindle, 72, cone pulley, 73, left hand arm bracket, 74, left upper hand arm, 75, left upper hand arm, 76, left upper hand arm clamping tab, 77, lower hand arm, 78, lower hand arm, 79, first clamping tab, 80, second clamping tab, 81, hand arm support plate, 82, hand arm brace, 83, rotary drive small sprocket, 84, rotary drive chain, 85, rotary drive large sprocket, 86, fork face cam, 87, fork face shaft, 88, fork face rocker arm, 89, fork face support frame, 90, fork face frame, 91, guide rail groove, 92, lower belt rocker arm, 93, belt feed link, 94, upper belt rocker arm, 95, belt feed shaft, 96, belt feed rocker arm, 961, paper blocking shaft, 97, guide block, 98, left limit clamp, 981, left paper blocking small column, 99, right limit clamp. 991, right hand cylinder, 100, felt platen, 101, roller, 102, felt, 103, camshaft, 104, needle cam, 105, needle rocker arm, 106, needle link, 107, gusset, 108, gusset plate, 109, toggle plate, 110, wave joint, 111, needle pull rod, 112, right spindle, 113, needle support, 114, needle, 115, paper cutting cam, 116, secondary drive sprocket, 117, right hand support, 118, adjustment stud, 119, adjustment rack, 120, upper right hand robot, 121, lower paper cutting rocker arm, 122, paper cutting link, 123, upper paper cutting rocker arm, 124, paper cutting shaft, 125, drive rack, 126, cutter support, 127, head ironing rack, 128, cutter fixing plate, 129, cutter, 130, heat head, 131, movable ironing head, 132, paper cutting rack, 133, paper cutting tray, 134, core, 135.

Detailed Description

Referring to fig. 1 and 2, a universal strapping machine of 1000-2500 grams of the present invention includes: the left wallboard 1, the right wallboard 2, the left external wallboard 9, the right external wallboard 10, a left transmission component Z, a right transmission component Y, a left and right swinging surface mechanism B, a horizontal surface conveying mechanism S, a left clamping mechanism M, a right clamping mechanism N, a paper cutting mechanism Q, a fork surface mechanism C and a paper feeding mechanism P, wherein the right clamping mechanism N comprises a needle pressing component A and a manipulator part J; the left transmission component Z is positioned between the left wallboard 1 and the left external wallboard 9; the right transmission component Y is positioned between the right wallboard 2 and the right external wallboard 10; the left and right swing surface mechanism B is positioned at the rear part between the left wallboard 1 and the right wallboard 2; the horizontal plane conveying mechanism S is positioned above the left plane swinging mechanism B and the right plane swinging mechanism B; the left clamping mechanism M is arranged on a corresponding hole of the left wallboard 1; the right clamping mechanism N is arranged on a corresponding hole of the right wallboard 2; the paper cutting mechanism Q is arranged at two sides of the right wallboard 2; the fork face mechanism C is arranged between the left wallboard 1 and the right wallboard 2 below the left and right swinging face mechanism B, so that the fork face frame 90 is positioned between the left supporting plate 38 and the right supporting plate 39 of the horizontal plane conveying mechanism S; the paper feeding mechanism P is installed on the right side of the right external wall panel 10 and penetrates the right external wall panel 10 and the right wall panel 2 leftward, so that paper tape can be installed between the left wall panel 1 and the right wall panel 2.

Referring to fig. 1 and 3, the left transmission assembly Z includes: the main motor 3, the pinion 4, the large gear 5, the main transmission shaft 6, the first clamping cam 7, the first rotating arm wheel 8, the four-groove wheel shaft 11, the four-groove grooved wheel 12, the rear conveying surface driving sprocket 13, the conveying surface driving chain 14 and the front conveying surface driving sprocket 15. The main motor 3 is fixed on the left wallboard 1, and the output shaft of the main motor 3 is connected with a pinion 4 through a key; the main transmission shaft 6 is rotatably supported on the left wallboard 1, the right wallboard 2, the left external wallboard 9 and the right external wallboard 10 through bearings with seats, a large gear 5, a first clamping cam 7 and a first rotating arm wheel 8 are connected on the main transmission shaft 6 between the left wallboard 1 and the left external wallboard 9 through keys, and the large gear 5 is meshed with the small gear 4; the four-groove wheel shaft 11 is rotatably supported between the left wallboard 2 and the left external wallboard 9 through a bearing with a seat, and the four-groove wheel shaft 11 is connected with a four-groove sheave 12 and a rear conveying surface driving sprocket 13 through keys; the four-groove grooved pulley 12 is rotationally embedded into the U-shaped groove of the four-groove grooved pulley 12 through a bearing arranged on the first rotating arm wheel 8 to stir the four-groove grooved pulley 12 to realize intermittent rotation; the rear face driving sprocket 13 drives the front face driving sprocket 15 through the face driving chain 14.

The first clamping cam 7 is used to drive the left clamping rocker 59 in the left clamping mechanism M, as will be described in detail below with reference to fig. 8.

Referring to fig. 1, 3 and 4, the left-right swing surface mechanism B includes: left swing face hanger 26, fiber board 27, swing face motor 28, swing face motor seat 29, swing face eccentric sleeve 30, swing face guide plate 31, swing face support plate 32, left swing panel 33, right swing panel (symmetrical to left swing panel) 34, and right swing face hanger 35. Left swing face hanger 26 is fixedly connected to left wall plate 1, and right swing face hanger 35 is fixedly connected to right wall plate 2: the left end of the hole, which penetrates through the left wallboard 1 and the right wallboard 2, of the swing surface guide plate 31 is connected to the left swing surface hanging bracket 26 through two fiber boards 27, and the right end of the hole is also connected to the right swing surface hanging bracket 35 through the other two fiber boards 27; the swing face guide plate 31 is provided with swing face support plates 32 at positions close to the left wall plate 1 and the right wall plate 2, and the left swing face plate 33 and the right swing face plate 34 are fixedly connected to the two swing face support plates 32 respectively; the swing surface motor 28 is fixedly connected to the swing surface motor seat 29, the swing surface motor seat 29 is fixedly connected to the left wall plate 1, a swing surface eccentric sleeve 30 is fixedly connected to an output shaft of the swing surface motor 28, the swing surface eccentric sleeve 30 is embedded into a long hole of the swing surface guide plate 31, and the swing surface guide plate 31 is driven to transversely reciprocate through a bearing arranged on the outer peripheral surface of the swing surface eccentric sleeve 30.

Referring to fig. 1, 2 and 4, the right side transmission assembly Y includes: the second tumbler wheel 17, a five-groove wheel shaft 20, a five-groove grooved wheel 21, a rotary lower driving sprocket 22, a rotary driving chain 23, a rotary upper driving sprocket 24, a rotary shaft 25 and a rotary driving large sprocket 85, wherein the five-groove wheel shaft 20 is rotatably supported between the right wallboard 1 and the right external wallboard 10 through a seat bearing, and the five-groove wheel shaft 20 is connected with the five-groove grooved wheel 21 and the rotary lower driving sprocket 22 through keys; the five-groove grooved pulley 21 is rotationally embedded into a U-shaped groove of the five-groove grooved pulley 21 through a bearing arranged at the top end of the second rotating arm wheel 17 and is equivalent to the cam, so that the five-groove grooved pulley 21 is stirred to realize intermittent rotation; the rotary lower driving sprocket 22 drives the rotary upper driving sprocket 24 through the rotary driving chain 23, and the rotary upper driving sprocket 24 is connected to the rotary shaft 25 through a key; the rotating shaft 25 penetrates through the left wallboard 1 and the right wallboard 2, is rotatably supported on the manipulator support plates 81 on two sides, penetrates out of the manipulator support plates 81 on two ends, and is provided with a rotary driving large sprocket 85 through key connection respectively.

Referring to fig. 1, 2 and 5, the horizontal surface transporting mechanism S includes: the dough transporting drive shaft 36, the dough transporting drive sprocket 37, the left supporting plate 38, the right supporting plate 39, the supporting block 40, the tensioning frame 41, the tensioning frame supporting block 42, the driven sprocket shaft 43, the dough transporting driven sprocket 44, the supporting plate supporting shaft 45, the eccentric shaft 46, the eccentric sleeve 47, the bearing hanging seat 48, the dough aligning plate 49, the swing arm 50, the dough transporting chain 51, the dough transporting fork 52, the dough aligning driven sprocket 53, the supporting shaft limiting sleeve 54, the dough aligning motor 55, the dough aligning motor fixing plate 56, the dough aligning drive sprocket 57 and the dough aligning chain 58. A supporting block (40) is fixed at the middle front part between the left supporting plate 38 and the right supporting plate (39), and a tensioning frame (41) is arranged at the rear part; a tensioning frame supporting plate (42) is fixed at the middle and rear parts of the tensioning frames (41), a driven sprocket shaft (43) which is milled on a plane is arranged in a U-shaped groove at the rearmost end, and a surface-conveying driven sprocket (44) is rotatably arranged at two ends of the driven sprocket shaft (43) through bearings respectively; the eccentric shaft 46 is rotatably supported between the left support plate 38 and the right support plate 39 through a bearing with a seat, one end of the eccentric shaft 46 is penetrated out of the right wall plate 2 outwards, an alignment driven sprocket 53 (see fig. 2) is installed through a key connection, the alignment driven sprocket 53 is driven by an alignment driving sprocket 57 through an alignment chain 58, the alignment driving sprocket 57 is connected on an output shaft of an alignment motor 55 through a key, the alignment motor 55 is fixedly connected with an alignment motor fixing plate 56, the alignment motor fixing plate 56 is fixed on the right wall plate 2, an eccentric sleeve 47 is connected on the eccentric shaft 46 between the left support plate 38 and the right support plate 39 through a key, one end of a bearing hanging seat 48 is fixedly connected with the alignment plate 49, the other end of the bearing hanging seat is hinged with the eccentric sleeve 47 through a bearing, the middle rear part between the left support plate 38 and the right support plate 39 is respectively rotatably supported on the left support plate 38 and the right support plate 39 through a bearing, two support lugs of the alignment plate 49 are respectively hinged with the two swing arms 50 through a bearing, two support shafts 45 penetrating through the left support plate 38 and the right support plate 39 are axially fixed on the support shaft limiting sleeve 54, the left support plate and the right support plate is fixed on the left wall plate 1 and the right wall plate 2 through the bearing seat and the middle part of the right wall plate 1 is rotatably supported between the left wall plate 1 and the right wall plate 2 through the bearing seat and the middle part and the right wall plate 1, the two face driving chain wheels 37 are fixed on the face driving shaft 36 at a certain distance through key connection; a certain number of flour fork 52 are uniformly distributed on two flour conveying chains 51, and the two flour conveying chains 51 are connected between the flour conveying driving sprocket 37 and the flour conveying driven sprocket 44.

Referring to fig. 1, 2 and 8, the left side closing and clamping mechanism M includes: the left clamp rocker 59, the clamp support 60, the pressure spring pull rod 61, the pressure spring T10, the pressure spring sleeve 62, the fixing plate 63, the clamp connecting rod 64, the right-angle rocker fixing plate 65, the right-angle rocker 66, the push rod seat 67, the left push rod 68, the upper push rod pulling piece 69, the lower push rod pulling piece 70, the left core shaft 71, the cone pulley 72, the left manipulator support 73, the left upper manipulator 74, the left upper manipulator 75, the left upper manipulator clamping piece 76, the lower manipulator 77, the lower manipulator 78, the first clamping piece 79, the second clamping piece 80, the manipulator support 81, the manipulator support 82, the rotation driving small sprocket 83 and the rotation driving chain 84. The first clamping cam 7 mounted on the main transmission shaft 6 abuts against a bearing mounted on the left clamping rocker arm 59; the clamping support 60 is fixedly connected to the left wallboard 1, and the left clamping rocker arm 59 is rotatably supported on the clamping support 60 through a bearing; the clamping connecting rod 64 is fixed on the fixing plate 63 through threaded connection, the fixing plate 63 is fixedly connected to the flange surface of the pressure spring sleeve 62, the pressure spring T10 is pressed between the bottom in the pressure spring sleeve 62 and the flange surface of the pressure spring connecting rod 61 by the pressure spring connecting rod 61, so that the 'connecting rod' formed by the pressure spring connecting rod 61, the pressure spring sleeve 62, the fixing plate 63 and the clamping connecting rod 64 has a buffering effect; one end of the connecting rod is hinged with the left clamping rocker arm 59 through a joint bearing, and the other end of the connecting rod is hinged with a first support lug of the right-angle rocker arm 66; the two right-angle rocker arm fixing plates 65 are fixedly connected to the left wall plate 1 respectively at a certain distance, the right-angle rocker arm 66 is rotatably supported between the two right-angle rocker arm fixing plates 65 through a bearing, and a second support lug of the right-angle rocker arm 66 is hinged with the middle part of the left push rod 68 through a joint bearing; the push rod seat 67 is fixedly connected to the left wallboard 1, and one end of the left push rod 68 is rotatably supported on the push rod seat 67 through a bearing; the upper push rod pulling piece 69 and the lower push plate pulling piece 70 which are symmetrical are arranged on the upper side and the lower side of the other end of the left push rod 68, and a needle bearing is respectively arranged on the upper push rod pulling piece 69 and the lower push plate pulling piece 70 and is embedded into a groove of the cone pulley 72; the left mandrel 71 passes through the central hole of the cone pulley 72; the left manipulator bracket 73 is connected to one end of the left mandrel 71 by a key; the other end of the left mandrel 71 is rotatably supported on a manipulator support plate 81, and penetrates out of the manipulator support plate 81 to be connected with a small rotary driving sprocket 83 through a key, and the small rotary driving sprocket 83 is driven by a large rotary driving sprocket 85 through a rotary transmission chain 84; the manipulator support plate 81 is fixedly connected with the left wallboard 1 through a plurality of manipulator support posts 82; the upper left manipulator 74 is fixed at one end of the upper left manipulator 75, two upper left manipulator clamping pieces 76 are respectively fixed at two sides of the other end of the upper left manipulator 75, an upper lug of the upper left manipulator bracket 73 is inserted in the middle between the two upper left manipulator clamping pieces 76 and hinged with the upper left manipulator clamping pieces, a bearing is rotatably supported at the left side between the two upper left manipulator clamping pieces 76, and the bearing abuts against the conical surface of the cone pulley 72; the lower mechanical arm 77 is fixed at one end of the lower mechanical arm 78, two sides of the other end of the lower mechanical arm 78 are respectively fixed with a first clamping piece 79 and a second clamping piece 80, one lug of the left mechanical arm bracket 73 is inserted in the middle of the first clamping piece 79 and the second clamping piece 80 and hinged with the middle, and a bearing is rotatably supported at the left side between the first clamping piece 79 and the second clamping piece 80 and abuts against the conical surface of the cone pulley 72; the two lower lugs of the left manipulator support 73 are mounted symmetrically and in a similar manner.

Referring to fig. 2, 6 and 9, the right clamping mechanism N is generally symmetrical to the left clamping mechanism M, the second clamping cam 16 is identical to the first clamping cam 7 in outline, the connection manner is basically identical, and the difference between the right clamping mechanism N and the left clamping mechanism M is that: the cam shaft 103, the needle pressing cam 104, the needle pressing rocker 105, the needle pressing connecting rod 106, the angle plate 107, the angle plate fixing plate 108, the poking piece 109, the fluctuation joint 110, the needle pressing pull rod 111, the right mandrel 112, the needle pressing support 113 and the needle pressing 114 form a needle pressing assembly A; a central hole is formed in the middle of the right mandrel 112, a needle pressing pull rod 111 penetrates through the right mandrel 112, a fluctuation joint 110 is fixedly connected to the right end of the needle pressing pull rod 111, and a needle pressing support 113 is fixedly connected to the left end of the needle pressing pull rod 111; the pressing needle 114 is inserted into the gap of the pressing needle support 113 and hinged with the pressing needle support 113, and the middle bottom of the pressing needle is supported on the bending plate of the upper right manipulator 120; a plurality of bearings rotatably supported on the adjusting frame 119 are arranged in the long holes of the upper right manipulator 120, the adjusting stud 118 passes through the corresponding hole of the adjusting frame 119 and is fixedly connected with a nut at the left end of the adjusting stud 118, and the right end of the adjusting stud 118 is hinged with two supports of the right manipulator bracket 117 through a joint bearing; the cam shaft 103 is rotatably supported between the right wall plate 2 and the right external wall plate 10 through a bearing with a seat, and the cam shaft 103 is connected with a needle pressing cam 104, a paper cutting cam 115 and a secondary driving sprocket 116 through keys; the needle pressing rocker arm 105 is rotatably supported on the right external wall panel 10 through a bearing, the bearing is fixedly connected with the middle part of the needle pressing rocker arm 105, and the bearing is propped against the needle pressing cam 104; the needle pressing connecting rod 106 is used for hinging the needle pressing rocker arm 105 with the angle plate 107 through a joint bearing; the corner plate 107 is rotatably supported on a pillar of the corner plate fixing plate 108, and the corner plate fixing plate 108 is fixedly connected with the manipulator support plate 81 on the right side; two sides of the upper end of the angle plate fixing plate 108 are fixedly connected with a poking plate 109 respectively, and the support posts at two sides of the fluctuation joint 110 are embedded into long holes of the poking plate 109.

In fig. 9, the components of the manipulator portion J are the same except for the needle pressing lever 111, the needle pressing holder 113, and the needle pressing 114.

Referring to fig. 2, 6 and 7, the paper cutting mechanism Q includes: the paper cutting machine comprises a paper cutting cam 115, a lower paper cutting rocker 121, a paper cutting connecting rod 122, an upper paper cutting rocker 123, a paper cutting shaft 124, a transmission support 125, a cutter support 126, a ironing head support 127, a cutter fixing plate 128, a cutter 129, a heat sealing head 130, a movable ironing head 131, a first tension spring T20 and a second tension spring T30, wherein the lower paper cutting rocker 121 is rotatably supported on a right wall plate 2 through a bearing, the lower end of the lower paper cutting rocker 121 is fixedly connected with a bearing, and the bearing is propped against the paper cutting cam 115; the paper cutting shaft 124 is rotatably supported on the right wall plate 2 and the right external wall plate 10 through a bearing with a seat, and one end of the paper cutting shaft penetrates out of the right wall plate 2; an upper paper cutting rocker arm 123 is fixedly connected with a paper cutting shaft 124 between the right wall plate 2 and the right external wall plate 10; the paper cutting connecting rod 122 is hinged with the lower paper cutting rocker arm 121 and the upper paper cutting rocker arm 123 through a joint bearing; the paper cutting shaft 124 penetrating out of the right wallboard 2 is fixedly connected with a transmission bracket 125, and the cutter bracket 126 and the ironing head bracket 127 are both rotatably supported on the paper cutting shaft 124 through bearings; a first tension spring T20 is connected between the support column of the transmission support 125 and the support column of the cutter support 126, the top end of the cutter support 126 is fixedly connected with a cutter fixing plate 128, and a cutter 129 is fixedly connected with the cutter fixing plate 128; a second tension spring T30 is connected between the support lugs 1271 on the ironing head support and the support posts 1261 on the cutter support, the heat sealing head 130 is fixedly connected to the ironing head support 127, and the movable ironing head 131 is penetrated in a corresponding groove of the heat sealing head 130.

The fork face mechanism C comprises: the fork face cam 86, the fork face shaft 87, the fork face rocker arm 88, the fork face supporting frame 89, the fork face frame 90 and the guide rail groove 91, the fork face shaft 87 is rotatably supported between the left wallboard 1 and the right wallboard 2, a bearing is fixedly connected on the right side support of the fork face shaft 87 and is propped against the fork face cam 86, and the fork face cam 86 is connected with the main transmission shaft 6 through a key; two fork face rocker arms 88 are fixedly connected to two supports of the fork face shaft 87 respectively; the inner sides of the left wall plate 1 and the right wall plate 2 are fixedly connected with a guide rail groove 91 respectively, two bearings are respectively fixed on the vertical plates at the two ends of the fork face frame support 89, and the bearings fixed on the two fork face frame support 89 vertical plates are respectively embedded in the guide grooves of each guide rail groove 91; a fork face frame 90 is fixedly connected to the fork face frame support 89.

The paper feeding mechanism P includes: the paper feeding cam 19, the lower belt feeding rocker 92, the belt feeding connecting rod 93, the upper belt feeding rocker 94, the belt feeding shaft 95, the belt feeding rocker 96, the paper blocking shaft 961, the guiding fixed block 97, the left limiting clamp 98, the left paper blocking small column 981, the right limiting clamp 99, the right paper blocking small column 991, the felt pressing plate 100, the roller 101 and the felt 102, the lower belt feeding rocker 92 is rotatably supported on the right external wall board 10 through a bearing, the lower end of the lower belt feeding rocker 92 is provided with a bearing, and the bearing is propped against the belt feeding cam 19 which is connected on the rotary transmission shaft 6 in a key way; the belt conveying shaft 95 is rotatably supported on the right wall plate 2 and the right external wall plate 10 through a belt seat bearing, one end of the belt conveying shaft 95 penetrates out of the right wall plate 2 and is provided with a belt conveying swing rod 96, and the other end penetrates out of the right external wall plate 10 and is fixedly connected with an upper belt conveying swing arm 94; the lower belt feeding rocker 92 is hinged with the upper belt feeding rocker 94 through a joint bearing by a belt feeding connecting rod 93; the guide fixing block 97 is fixedly connected to the belt conveying swing rod 96, and the left limiting clamp 98 and the right limiting clamp 99 are fixedly connected to the guide fixing block 97; the felt fixing plate 100 passes through the hole at the bottom of the guide fixing block 97 to press the felt 102 between the felt fixing plate 100 and the guide fixing block 97; the roller 101 is rotatably supported on a small column at the lower part of the belt feed swing lever 96.

The coiled tape bracket 132 is fixedly connected to the right wall plate 2, the coiled tape core 134 is rotatably supported on the supporting rod 135 through a bearing, and two paper blocking discs 133 are respectively arranged on two sides of the coiled tape core 134; the paper tray is sleeved on the winding belt core 134, the paper tape passes through the gap between the felt 102 and the guide fixing block 97, passes through the gap between the roller 101 and the paper blocking shaft 961 between the left paper blocking small column 981 and the right paper blocking small column 991, and is enabled to drop at the bottom of the left end of the pressing needle 114 from the rear side.

The working process of the invention is as follows:

when the swing surface motor 28 rotates, the left swing panel 33 and the right swing panel 34 swing left and right simultaneously under the action of the swing surface eccentric sleeve 30, the swing surface guide plate 31 and the like; when the surface alignment motor 55 rotates, the eccentric shaft 46 and the eccentric sleeve 47 connected with the eccentric shaft 46 by a key are driven to rotate by a chain, and the surface alignment panel 49 is rocked up and down and back and forth under the action of the bearing hanging seat 48, the swing arm 50 and the like; when the loose fine dried noodles fall onto the two flour-conveying forks at the rearmost, the main motor 3 rotates, and drives the flour-conveying forks to intermittently move forwards through gears, grooved wheels, chain transmission and the like; during the movement, the loose fine dried noodles are automatically aligned under the actions of the left swing panel 33, the right swing panel 34, the alignment panel 49 and the like; when the aligned loose fine dried noodles are conveyed to the position right above the fork surface frame 90 and just stop, the loose fine dried noodles are upwards fork by the fork surface frame 90 under the action of the difference surface cam 86, the fork surface shaft 87, the fork surface rocker arm 88 and the like; the upper left manipulator 74, the lower manipulator 77 and the upper right manipulator 120 grip the scattered surface by gradually folding the fork surface frame 90 upwards under the action of the first clamping cam 7, the second clamping cam 16, the cone pulley 72 and the rocker arms of the connecting rods; the needle 114 also slowly extends to the left side in the process due to the action of the needle pressing cam 104, the angle plate 107 and the rocker arms of the connecting rods; the manipulator grasps the scattered surface and simultaneously just presses the needle 114 to press the paper tape between the grasped scattered surface and the needle 114, and the fork surface frame 90 slightly drops downwards; then the left core shaft 71 and the right core shaft 72 drive the manipulator to integrally rotate anticlockwise through the actions of a grooved pulley, chain transmission and the like, and the belt conveying swing rod 96 is lifted from one side of the left wallboard 1 backwards under the action of the belt conveying cam 19 and the like while rotating, so that a certain number of circles of paper belts are wound on the gripping scattered surface of the manipulator, and the allowance for pressing the paper belts is reserved for the bundling of the later bag; when the mechanical arm stops rotating, the arc surface of the movable ironing head is contacted with the paper tape on the gripped round scattered surface by the action of the paper cutting cam 115, the first tension spring T20, the second tension spring T30 and the like, so that the paper tape is heated and bonded, and meanwhile, the cutter 129 cuts off the paper tape, and the cut instant pressing needle is retracted; then the fork face frame 90 upwards catches the bundled scattered faces, the manipulator is opened rapidly while catching, and the fork face frame 90 descends to the initial position, so that the bundled scattered faces fall back to the original face conveying fork to continue to convey forwards; the whole binding action is completed in the intermittent process of the flour transporting fork.

Claims (10)

1. A universal strapping machine for 1000-2500 grams of fine dried noodles, comprising: the left side transmission assembly (Z), the right side transmission assembly (Y), the left and right swinging surface mechanism (B), the horizontal surface conveying mechanism (S), the left side clamping mechanism (M), the right side clamping mechanism (N), the paper cutting mechanism (Q), the fork surface mechanism (C) and the paper feeding mechanism (P) are respectively arranged on the left side and the right side of the frame; the left clamping mechanism (M) and the right clamping mechanism (N) are symmetrically arranged at the upper parts of the left side and the right side of the frame; the left and right swinging surface mechanisms (B) are arranged at the rear part of the frame, and the horizontal surface conveying mechanism (S) is arranged above the left and right swinging surface mechanisms (B); the paper cutting mechanism (Q) is arranged at the position, close to the right side, of the rear upper part of the frame; the fork surface mechanism (C) is arranged below the left and right swing surface mechanisms (B); the paper feeding mechanism (P) is arranged at the front part of the right side of the frame;

the left side closing and clamping mechanism (M) comprises: the left clamping rocker arm (59), the clamping support (60), the pressure spring pull rod (61), the pressure spring (T10), the pressure spring sleeve (62), the fixed plate (63), the clamping connecting rod (64), the right-angle rocker arm fixed plate (65), the right-angle rocker arm (66), the push rod seat (67), the left push rod (68), the upper push rod pulling piece (69), the lower push rod pulling piece (70), the left core shaft (71), the cone pulley (72), the left manipulator bracket (73), the left upper manipulator (74), the left upper manipulator (75), the left upper manipulator clamping piece (76), the lower manipulator (77), the lower manipulator (78), the first clamping piece (79), the second clamping piece (80), the manipulator support plate (81), the manipulator strut (82), the rotary driving small sprocket (83) and the rotary driving chain (84), and the first clamping cam (7) arranged on the main transmission shaft (6) is propped against a bearing arranged on the left clamping support arm (59); the clamping support (60) is fixedly connected to the left wallboard (1), and the left clamping rocker arm (59) is rotatably supported on the clamping support (60) through a bearing; the clamping connecting rod (64) is fixed on the fixing plate (63) through threaded connection, the fixing plate (63) is fixedly connected to the flange surface of the pressure spring sleeve (62), the pressure spring (T10) is pressed between the bottom in the pressure spring sleeve (62) and the flange surface of the pressure spring connecting rod (61) by the pressure spring connecting rod (61), so that the connecting rod consisting of the pressure spring connecting rod (61), the pressure spring sleeve (62), the fixing plate (63) and the clamping connecting rod (64) has a buffering effect; one end of the connecting rod is hinged with the left clamping rocker arm (59) through a joint bearing, and the other end of the connecting rod is hinged with a first support lug of the right-angle rocker arm (66); the two right-angle rocker arm fixing plates (65) are fixedly connected to the left wallboard (1) respectively at a certain distance, the right-angle rocker arm (66) is rotatably supported between the two right-angle rocker arm fixing plates (65) through a bearing, and a second support lug of the right-angle rocker arm (66) is hinged with the middle part of the left push rod (68) through a joint bearing; the push rod seat (67) is fixedly connected with the left wallboard (1), and one end of the left push rod (68) is rotatably supported on the push rod seat (67) through a bearing; the upper and lower sides of the other end of the left push rod (68) are provided with an upper push rod poking piece (69) and a lower push rod poking piece (70) which are symmetrical to each other, and the upper push rod poking piece (69) and the lower push rod poking piece (70) are respectively provided with a needle bearing which is embedded into a groove of a cone pulley (72); the left mandrel (71) passes through the central hole of the cone pulley (72); the left manipulator bracket (73) is connected to one end of the left mandrel (71) through a key; the other end of the left mandrel (71) is rotatably supported on a manipulator support plate (81), and penetrates out of the manipulator support plate (81) to be connected with a small rotary driving sprocket (83) through a key, and the small rotary driving sprocket (83) is driven by a large rotary driving sprocket (85) through a rotary transmission chain (84); the manipulator support plate (81) is fixedly connected with the left wallboard (1) through a plurality of manipulator support posts (82); the upper left mechanical arm (74) is fixed at one end of the upper left mechanical arm (75), two sides of the other end of the upper left mechanical arm (75) are respectively fixed with an upper left mechanical arm clamping piece (76), an upper lug of the left mechanical arm bracket (73) is inserted in the middle between the two upper left mechanical arm clamping pieces (76) and hinged with the middle, a bearing is rotatably supported at the left side between the two upper left mechanical arm clamping pieces (76), and the bearing is propped against the conical surface of the cone pulley (72); the lower mechanical arm (77) is fixed at one end of the lower mechanical arm (78), a first clamping piece (79) and a second clamping piece (80) are respectively fixed at two sides of the other end of the lower mechanical arm (78), one lug of the left mechanical arm bracket (73) is inserted in the middle of the first clamping piece (79) and the middle of the second clamping piece (80) and hinged with the first clamping piece, and a bearing is rotatably supported at the left side between the first clamping piece (79) and the second clamping piece (80) and is propped against the conical surface of the cone pulley (72); the two lower lugs of the left manipulator bracket (73) are symmetrically arranged.

2. The universal strapping machine for 1000-2500 g fine dried noodles according to claim 1, wherein the frame is composed of a left external wall panel (9), a left wall panel (1), a right wall panel (2), a right external wall panel (10) and a base (D), and the bottom ends of the left external wall panel (9), the left wall panel (1), the right wall panel (2) and the right external wall panel (10) which are parallel to each other are sequentially connected to the base (D) from left to right; the left transmission component (Z) is positioned between the left wallboard (1) and the left external wallboard (9); the right transmission assembly (Y) is positioned between the right wallboard (2) and the right external wallboard (10); the left and right swing surface mechanisms (B) are arranged at the rear part between the left wallboard (1) and the right wallboard (2); the fork surface mechanism (C) is arranged between the left wallboard (1) and the right wallboard (2) below the left and right swinging surface mechanism (B); the paper feeding mechanism (P) is arranged on the right side of the right external wall board (10) and penetrates through the right external wall board (10) and the right wall board (2) leftwards.

3. Universal strapping machine for fine dried noodles as in claim 2, characterized in that the left-hand drive assembly (Z) comprises: the main motor (3), the pinion (4), the large gear (5), the main transmission shaft (6), the first clamping cam (7), the first rotating arm wheel (8), the four-groove wheel shaft (11), the four-groove grooved wheel (12), the rear conveying surface driving sprocket (13), the conveying surface driving chain (14) and the front conveying surface driving sprocket (15), wherein the main motor (3) is fixed on the left wallboard (1), and the pinion (4) is connected to an output shaft of the main motor (3) through a key; the main transmission shaft (6) is rotatably supported on the left wallboard (1), the right wallboard (2), the left external wallboard (9) and the right external wallboard (10) through bearings with seats, a large gear (5), a first clamping cam (7) and a first rotating arm wheel (8) are connected on the main transmission shaft (6) between the left wallboard (1) and the left external wallboard (9) through keys, and the large gear (5) is meshed with the small gear (4); the four-groove wheel shaft (11) is rotatably supported between the left wallboard (1) and the left external wallboard (9) through a bearing with a seat, and the four-groove wheel shaft (11) is connected with a four-groove sheave (12) and a rear conveying surface driving sprocket (13) through keys; the four-groove grooved pulley (12) is rotationally embedded into the U-shaped groove of the four-groove grooved pulley (12) through a bearing arranged on the first rotating arm wheel (8) to stir the four-groove grooved pulley (12) to realize intermittent rotation; the rear conveying surface driving sprocket (13) drives the front conveying surface driving sprocket (15) through a conveying surface driving chain (14).

4. The universal strapping machine for fine dried noodles of 1000-2500 g as in claim 2, wherein the left and right swinging surface mechanism (B) comprises: left swing surface hanging frame (26), fiberboard (27), swing surface motor (28), swing surface motor seat (29), swing surface eccentric sleeve (30), swing surface guide plate (31), swing surface support plate (32), left swing panel (33), right swing panel (34) and right swing surface hanging frame (35), left swing surface hanging frame (26) is fixedly connected with left wallboard (1), right swing surface hanging frame (35) is fixedly connected with right wallboard (2): the left end of a hole, which penetrates through the left wallboard (1) and corresponds to the right wallboard (2), of the swing surface guide plate (31) is connected to the left swing surface hanging bracket (26) through two fiber boards (27), and the right end of the swing surface guide plate is also connected to the right swing surface hanging bracket (35) through the other two fiber boards (27); a swing surface support plate (32) is respectively arranged on the swing surface guide plate (31) at a position close to the left wallboard (1) and a position close to the right wallboard (2), and a left swing panel (33) and a right swing panel (34) are respectively fixedly connected on the two swing surface support plates (32); the swing surface motor (28) is fixedly connected to the swing surface motor seat (29), the swing surface motor seat (29) is fixedly connected to the left wall plate (1), the swing surface eccentric sleeve (30) is fixedly connected to the output shaft of the swing surface motor (28), the swing surface eccentric sleeve (30) is embedded into a long hole of the swing surface guide plate (31), and the swing surface guide plate (31) is driven to transversely reciprocate through a bearing arranged on the outer peripheral surface of the swing surface eccentric sleeve (30).

5. Universal strapping machine for fine dried noodles as in claim 2, characterized in that the right-hand drive assembly (Y) comprises: the rotary shaft comprises a second rotary arm wheel (17), a five-groove wheel shaft (20), a five-groove grooved wheel (21), a rotary lower driving sprocket (22), a rotary driving chain (23), a rotary upper driving sprocket (24), a rotary shaft (25) and a rotary driving large sprocket (85), wherein the five-groove wheel shaft (20) is rotatably supported between a right wallboard (2) and a right external wallboard (10) through a seat bearing, and the five-groove wheel shaft (20) is connected with the five-groove grooved wheel (21) and the rotary lower driving sprocket (22) through keys; the five-groove grooved pulley (21) is rotationally embedded into a U-shaped groove of the five-groove grooved pulley (21) through a bearing arranged at the top end of the second rotating arm wheel (17) to stir the five-groove grooved pulley (21) to realize intermittent rotation; the rotary lower driving sprocket (22) drives the rotary upper driving sprocket (24) through a rotary driving chain (23), and the rotary upper driving sprocket (24) is connected to a rotary shaft (25) through a key; the rotating shaft (25) penetrates through the left wallboard (1) and the right wallboard (2) to rotate and support the manipulator support plates (81) on two sides, and the two ends of the rotating shaft penetrate out of the manipulator support plates (81) and are respectively provided with a rotary driving large chain wheel (85) through key connection.

6. Universal strapping machine for fine dried noodles, 1000-2500 g according to claim 2, characterized in that the horizontal plane transporting mechanism (S) comprises: the device comprises a face conveying driving shaft (36), a face conveying driving sprocket (37), a left supporting plate (38), a right supporting plate (39), supporting blocks (40), a tensioning frame (41), a tensioning frame supporting block (42), a driven sprocket shaft (43), a face conveying driven sprocket (44), a supporting plate supporting shaft (45), an eccentric shaft (46), an eccentric sleeve (47), a bearing hanging seat (48), a face aligning plate (49), a swinging arm (50), a face conveying chain (51), a face conveying fork (52), a face aligning driven sprocket (53), a supporting shaft limiting sleeve (54), a face aligning motor (55), a face aligning motor fixing plate (56), a face aligning driving sprocket (57) and a face aligning chain (58), wherein the supporting blocks (40) are fixed at the middle front part between the left supporting plate (38) and the right supporting plate (39), and the tensioning frame (41) is arranged at the rear part; a tensioning frame supporting block (42) is fixed at the middle and rear parts of the tensioning frame (41), a driven sprocket shaft (43) which is milled on a plane is arranged in a U-shaped groove at the rearmost end, and a surface-conveying driven sprocket (44) is rotatably arranged at two ends of the driven sprocket shaft (43) through bearings respectively; the eccentric shaft (46) is rotatably supported between the left supporting plate (38) and the right supporting plate (39) through a bearing with a seat, one end of the eccentric shaft (46) penetrates out of the right wallboard (2) outwards, and is connected with a driven sprocket (53) with an alignment surface through a key; the surface alignment driven sprocket (53) is driven by a surface alignment driving sprocket (57) through a surface alignment chain (58), the surface alignment driving sprocket (57) is connected to an output shaft of a surface alignment motor (55) through a key, the surface alignment motor (55) is fixedly connected to a surface alignment motor fixing plate (56), and the surface alignment motor fixing plate (56) is fixed to a right wallboard (2); an eccentric sleeve (47) is connected on an eccentric shaft (46) between the left supporting plate (38) and the right supporting plate (39) through a key, one end of a bearing hanging seat (48) is fixedly connected with a uniform panel (49), and the other end of the bearing hanging seat is hinged with the eccentric sleeve (47) through a bearing; a swing arm (50) is respectively arranged at the middle and rear parts between the left supporting plate (38) and the right supporting plate (39) and is rotatably supported on the left supporting plate (38) and the right supporting plate (39) through bearings; two lugs of the alignment plate (49) are respectively hinged with two swing arms (50) through bearings; two supporting plate supporting shafts (45) penetrating through the left supporting plate (38) and the right supporting plate (39) are axially fixed through supporting shaft limiting sleeves (54) and then fixed between the left wallboard (1) and the right wallboard (2); the surface conveying driving shaft (36) is rotatably supported at the front part in the middle of the left wallboard (1) and the right wallboard (2) through a bearing with a seat, and two surface conveying driving chain wheels (37) are fixed on the surface conveying driving shaft (36) at a certain distance through key connection; a certain number of flour conveying forks (52) are uniformly distributed on the two flour conveying chains (51), and the two flour conveying chains (51) are connected between the flour conveying driving sprocket (37) and the flour conveying driven sprocket (44).

7. The universal strapping machine for fine dried noodles, as in claim 1, characterized in that the right side closing mechanism (N) is arranged symmetrically to the left side closing mechanism (M), the second closing cam (16) of the right side closing mechanism (N) is identical to the first closing cam (7) of the left side closing mechanism (M) in profile and connection; the right side closing and clamping mechanism (N) further comprises a needle pressing assembly (A) which is composed of a cam shaft (103), a needle pressing cam (104), a needle pressing rocker arm (105), a needle pressing connecting rod (106), a corner plate (107), a corner plate fixing plate (108), a poking piece (109), a fluctuation joint (110), a needle pressing pull rod (111), a right mandrel (112), a needle pressing support (113) and a needle pressing (114), wherein a central hole is formed in the middle of the right mandrel (112), the needle pressing pull rod (111) penetrates through the right mandrel (112), the fluctuation joint (110) is fixedly connected to the right end of the needle pressing pull rod (111), and the needle pressing support (113) is fixedly connected to the left end of the needle pressing pull rod; the pressing needle (114) is inserted into the gap of the pressing needle support (113) and hinged with the pressing needle support (113), and the middle bottom of the pressing needle (114) is supported on the bending plate of the upper right manipulator (120); a plurality of bearings rotatably supported on an adjusting frame (119) are arranged in a long hole of the upper right manipulator (120), an adjusting stud (118) penetrates through a corresponding hole of the adjusting frame (119) and is fixedly connected with a nut at the left end of the adjusting stud (118), and the right end of the adjusting stud (118) is hinged with two supports of the right manipulator bracket (117) through a joint bearing; the cam shaft (103) is rotatably supported between the right wallboard (2) and the right external wallboard (10) through a bearing with a seat, and the cam shaft (103) is connected with a needle pressing cam (104), a paper cutting cam (115) and an auxiliary driving sprocket (116) through keys; the needle pressing rocker arm (105) is rotatably supported on the right external wall board (10) through a bearing, the bearing is fixedly connected to the middle part of the needle pressing rocker arm (105), and the bearing is propped against the needle pressing cam (104); the needle pressing connecting rod (106) is used for hinging the needle pressing rocker arm (105) with the angle plate (107) through a joint bearing; the corner plate (107) is rotatably supported on a support column of a corner plate fixing plate (108), and the corner plate fixing plate (108) is fixedly connected with a manipulator support plate (81) on the right side; two sides of the upper end of the angle plate fixing plate (108) are fixedly connected with a poking plate (109), and the support posts at two sides of the fluctuation joint (110) are embedded into long holes of the poking plate (109).

8. The universal strapping machine for fine dried noodles of 1000-2500 g according to claim 2, wherein the paper cutting mechanism (Q) comprises: the paper cutting machine comprises a paper cutting cam (115), a lower paper cutting rocker arm (121), a paper cutting connecting rod (122), an upper paper cutting rocker arm (123), a paper cutting shaft (124), a transmission bracket (125), a cutter bracket (126), an ironing head bracket (127), a cutter fixing plate (128), a cutter (129), a heat sealing head (130), a movable ironing head (131), a first tension spring (T20) and a second tension spring (T30), wherein the lower paper cutting rocker arm (121) is rotatably supported on a right wallboard (2) through a bearing, and the lower end of the lower paper cutting rocker arm (121) is fixedly connected with a bearing which is propped against the paper cutting cam (115); the paper cutting shaft (124) is rotatably supported on the right wallboard (2) and the right external wallboard (10) through a bearing with a seat, and one end of the paper cutting shaft penetrates out of the right wallboard (2); an upper paper cutting rocker arm (123) is fixedly connected with a paper cutting shaft (124) between the right wallboard (2) and the right external wallboard (10); the paper cutting connecting rod (122) is used for hinging the lower paper cutting rocker arm (121) and the upper paper cutting rocker arm (123) through a joint bearing; the paper cutting shaft (124) penetrating out of the right wallboard (2) is fixedly connected with a transmission bracket (125), and the cutter bracket (126) and the ironing head bracket (127) are rotatably supported on the paper cutting shaft (124) through bearings; a first tension spring (T20) is connected between the support column of the transmission support (125) and the support column of the cutter support (126), the top end of the cutter support (126) is fixedly connected with a cutter fixing plate (128), and a cutter (129) is fixedly connected with the cutter fixing plate (128); a second tension spring (T30) is connected between a support lug (1271) on the ironing head support (127) and a support post (1261) on the cutter support, the heat sealing head (130) is fixedly connected to the ironing head support (127), and the movable ironing head (131) is penetrated in a corresponding groove of the heat sealing head (130).

9. The universal strapping machine for fine dried noodles of 1000-2500 g as in claim 2, wherein the fork face mechanism (C) comprises: the fork face cam (86), the fork face shaft (87), the fork face rocker arm (88), the fork face supporting frame (89), the fork face frame (90) and the guide rail groove (91), the fork face shaft (87) is rotatably supported between the left wallboard (1) and the right wallboard (2), a bearing is fixedly connected to the right side support of the fork face shaft (87), the bearing is propped against the fork face cam (86), and the fork face cam (86) is connected with the main transmission shaft (6) through a key; the two fork face rocker arms (88) are fixedly connected to two supports of the fork face shaft (87) respectively; the inner sides of the left wall plate (1) and the right wall plate (2) are fixedly connected with a guide rail groove (91), two bearings are respectively fixed on the vertical plates at the two ends of the fork face supporting frame (89), and the bearings fixed on the vertical plates of the two fork face supporting frames (89) are respectively embedded in the guide grooves of each guide rail groove (91); the fork face support frame (89) is fixedly connected with a fork face frame (90).

10. Universal strapping machine for fine dried noodles, 1000-2500 g according to claim 2, characterized in that the paper feed mechanism (P) comprises: the paper feeding device comprises a paper feeding cam (19), a lower belt feeding rocker arm (92), a belt feeding connecting rod (93), an upper belt feeding rocker arm (94), a belt feeding shaft (95), a belt feeding rocker arm (96), a paper blocking shaft (961), a guide fixing block (97), a left limiting clamp (98), a left paper blocking small column (981), a right limiting clamp (99), a right paper blocking small column (991), a felt pressing plate (100), rollers (101), felts (102), a winding bracket (132), a paper blocking disc (133), a winding core (134) and a supporting rod (135), wherein the lower belt feeding rocker arm (92) is rotatably supported on a right external wall board (10) through a bearing, and the lower end of the lower belt feeding rocker arm (92) is provided with a bearing which is propped against the paper feeding cam (19) which is connected to a main transmission shaft (6) through a key; the belt conveying shaft (95) is rotatably supported on the right wallboard (2) and the right external wallboard (10) through a belt seat bearing, one end of the belt conveying shaft (95) penetrates out of the right wallboard (2) and is provided with a belt conveying swing rod (96), and the other end of the belt conveying shaft penetrates out of the right external wallboard (10) and is fixedly connected with an upper belt conveying swing arm (94); the lower belt conveying rocker arm (92) is hinged with the upper belt conveying rocker arm (94) through a joint bearing; the guide fixing block (97) is fixedly connected to the belt conveying swing rod (96), and the left limiting clamp (98) and the right limiting clamp (99) are fixedly connected to the guide fixing block (97); the felt pressing plate (100) passes through a hole at the bottom of the guide fixing block (97) to press the felt (102) between the felt pressing plate (100) and the guide fixing block (97); the roller (101) is rotatably supported on a small column at the lower part of the belt conveying swing rod (96);

the coiled belt bracket (132) is fixedly connected with the right wallboard (2), the coiled belt core (134) is rotatably supported on the supporting rod (135) through a bearing, and two paper blocking discs (133) are respectively arranged at two sides of the coiled belt core (134); the paper disc is sleeved on the tape winding core (134), and the paper tape passes through the gap between the roller (101) and the paper blocking shaft (961) between the left paper blocking small column (981) and the right paper blocking small column (991) from the felt (102) and the guide fixing block (97), so that the paper tape falls on the left end bottom of the pressing needle (114) from the rear side.