CN107364592A - A kind of particles packing machine - Google Patents

Abstract

The present invention provides a kind of particles packing machine, including distribute station for particulate matter to be carried out to the particle quantitative of quantitative separating, the pulling bag station, the packaging bag sidepiece for will quantitatively load particulate matter that drive quantitative rotary work station that particle quantitative distribution station rotated, pull granule packaging bag from top to bottom carry out longitudinal vertical closure station of vertical closure and at the top of the packaging bag to quantitatively loading particulate matter or bottom carries out the transverse packed station of horizontal sealing simultaneously with longitudinal vertical closure station.It can efficiently and in an orderly manner be automated using a kind of particles packing machine of the present invention and realize that the packaging bag for loading packaging bag to particulate matter and completing simultaneously to loading particulate matter is packaged；Granule packaging is greatly increased into the working effect of bag, decreases cost of labor；The particle quantitative ring of dimension size how much can be changed according to required packing dosage simultaneously, so as to realize to loading how much particulate matter dosage controls in packaging bag.

Description

A kind of particles packing machine

Technical field

The present invention relates to packing machine technical field, and in particular to a kind of particles packing machine.

Background technology

At present, the portable forms of bagged granules are increasingly welcome by numerous users, fewer dosage Food, medicine or chemicals, but often cause to leak due to sealing imprecise problem, and the pot-life of particle extremely has Limit, sealing imprecision can also make the shelf-life of the particle of food and medicine and chemical classes preparation shift to an earlier date the regular hour.

Chinese patent（Publication number 201116158）Utility model is related to a kind of packing machine, more particularly, to one kind to automatic The structural improvement of packing machine.Automatic bag packaging machine, including send bag apparatus it also include support, on support be provided with one be used for will be defeated It is sent into the small package bag come and is distributed to the dispensing device being symmetricly set on two that send bag apparatus both sides feeding supporting plates, two edges The feeding supporting plate that horizontal direction moves reciprocatingly is connected with feed drive unit respectively, is set respectively in the top of each feeding supporting plate Have when feeding supporting plate and retracting for stopping the baffle plate of small package bag, being respectively arranged below with one and be used in each feeding supporting plate Strut in turning over the packaging bag of set state and catching the accumulation mold of small package bag, each accumulate is respectively equipped with pressure directly over mold Bag apparatus.

In file disclosed above, in actual production process, load tolerance is larger, and the bag of different weight often occurs Fill product.

The content of the invention

The purpose of the present invention is to overcome deficiency in existing product, there is provided automate manipulation realizes that particulate matter quantitatively packs simultaneously Particulate matter will be had been loaded into a kind of integral particles packing machine of the packaging bag encapsulation of open-like shape.

In order to achieve the above object, the present invention is achieved by the following technical solutions：

The present invention provides a kind of particles packing machine, including particle quantitative pack device applied to the particles packing machine, is applied to The packaging mechanism of the particles packing machine and the pulling bag station for pulling granule packaging bag from top to bottom, wherein：

The particle quantitative that particle quantitative pack device includes being used for carrying out particulate matter quantitative separating distributes station, drives the particle The quantitative rotary work station that dosing station is rotated；

Packaging mechanism include be used for by quantitatively load particulate matter packaging bag sidepiece carry out vertical closure longitudinal vertical closure station and At the top of the packaging bag to quantitatively loading particulate matter or bottom carries out the transverse packed work of horizontal sealing simultaneously with longitudinal vertical closure station Position.

The particle quantitative distribution station is including being used to hold and being directed downwardly toward the funnel of delivery of particulate material, equidistantly arrangement For controlling the how many multiple particle quantitative rings of amounts of particles, for circulating the rotation for driving quantitative loop to carry out rotation particle distribution Pallet, wherein：

Towards above rotary-tray partial center position at the funnel bottom end opening, the multiple particle quantitative rings equidistantly arranged by On down extend through rotary-tray, each particle quantitative ring bottom face be connected be capable of timed periodic opening and The timing switch door of closing；Shutdown transverse arm and enabling transverse arm are provided with below rotary-tray, be provided with shutdown transverse arm with Horizontal plane where rotary-tray is mutually perpendicular to and can driven the shutdown column that timing switch door closes, and is installed on enabling transverse arm There is the enabling column that is mutually perpendicular to and can drive timing switch door to open with horizontal plane where rotary-tray；In rotary-tray side Lower section and the packaging that the particulate matter for being fallen under receiving out of particle quantitative ring is provided with immediately below enabling column Bag guiding trestle；The packaging bag guiding trestle is arranged with the unencapsulated packaging bag in open-like shape；

The quantitative rotary work station includes quantitative central shaft, the step-like clamping rings being fixedly connected with the quantitative central shaft, rotation Turn to rise body, the spiral center axle being slidably connected with the quantitative central shaft, the rotation for the limited support spiral center axle Turn buffer unit and the quantitative central shaft of driving carries out the quantitative transmission mechanism of quantitative rotation, wherein：

The rotary-tray key connection that the step-like clamping rings is distributed in station by rotary steering key and particle quantitative, so as to Realize that quantitative central shaft drives rotary-tray spinning motion together；Rotation rises body and is connected with spiral center axle thread, and Rotation rises body and spiral center axle is respectively positioned on the lower section of rotary-tray；Because spiral center axle can enter in company with quantitative central shaft The certain spinning motion of row, while the rotation coordinated with spiral center axle thread is risen into body along the spiral center axle outside screw Spiral and the bottom surface for withstanding or propping up step-like clamping rings；It is not companion that now spiral center axle, which is in stable state, Quantitative central shaft is transported through dynamic；

The shutdown transverse arm and enabling transverse arm rise body with rotation respectively and are fixedly connected；

The rotary buffer device includes cushion block, bearing, snap ring, rotating base, spring supporting ring and quantitative spring, wherein：Institute State quantitative central shaft and extend through quantitative spring, spring supporting ring, rotating base, snap ring, bearing and cushion block from the bottom up successively, Quantitative spring is upwardly extended and is fixedly connected by spring supporting ring with rotating base bottom face, and snap ring is fixedly mounted on rotation bottom On seat top end face, the cushion block that spiral center axle bottom is lived for limited support is flexibly connected by bearing with snap ring；

The quantitative transmission mechanism includes quantitatively being driven collar, quantitative driving gear component, bearing block and quantitative fixed plate, its In：Collar is quantitatively driven by quantitative gear key and quantitative central shaft key connection, is quantitatively driven collar and quantitative driving gear set Part is fixed as one connection, and quantitative driving gear component be located at bearing block top；Lived for being slidably connected simultaneously limited support The bearing block of quantitative central shaft is fixedly mounted on quantitative fixed plate upper surface.

Longitudinal vertical closure station includes vertical closure eccentric cam Power Component, first longitudinal direction hot melt block, the first heating rod, the One longitudinal direction hot melt buffer board, the first power arm, vertical closure upper bearing (metal), the hot melt arm of force first central shaft, second longitudinal direction hot melt block, second Heating rod, second longitudinal direction hot melt buffer board, the second power arm, vertical closure lower bearing, the hot melt arm of force second central shaft, longitudinal direction hot melt Tension spring, wherein：

The first longitudinal direction hot melt block and second longitudinal direction hot melt block are oppositely arranged side by side along longitudinal direction, the first power arm and the second power Arm is set laterally side by side, and is connected between the position of end rearward of the first power arm and the position of end rearward of the second power arm vertical Hot melt tension spring；The design of the structure so that outwards top is opened or opened up respectively in the first power arm and the second power arm stress After opening, the first power arm and the second power arm can be back pulled to by reset by longitudinal direction hot melt tension spring；

First power arm is flexibly connected by a linear bearing with the hot melt central shaft of the arm of force first, and the first power arm can Swung around the hot melt central shaft of the arm of force first；

Second power arm is flexibly connected by another linear bearing with the hot melt central shaft of the arm of force second, and the second power arm energy It is enough to be swung around the hot melt central shaft of the arm of force second；Specifically：The hot melt central shaft of the arm of force first is arranged on the first power arm By middle part, heat and be mutually perpendicular between the central shaft of the arm of force first and the first power arm；Heat the installation of the central shaft of the arm of force second Middle part is leaned in the second power arm, heats and is mutually perpendicular between the central shaft of the arm of force second and the second power arm；So, first is dynamic While arm of force rear end is opened with the second power arm rear end stress expansion or top, the first power arm front end and the second power arm front end It is corresponding to draw close or close to clamping；

The first heating rod is connected with first longitudinal direction hot melt block, the second heating rod is connected with second longitudinal direction hot melt block, this The structure design of sample so that heat block in first longitudinal direction and second longitudinal direction hot melt block mutually clamps the same of granule packaging bag sidepiece When, granule packaging bag sidepiece is heated to realize particle bag by each interior the first heating rod being provided with, the second heating rod The vertical encapsulation of pack is integral；

First longitudinal direction heats block and is fixedly mounted on the first power arm leading inside portion by first longitudinal direction hot melt buffer board, and second is vertical Hot melt block heats buffer board by second longitudinal direction and is fixedly mounted on the second power arm leading inside portion；In the first power arm rear end Upper lateral part is provided with vertical closure upper bearing (metal), is provided with vertical closure lower bearing in the second power arm rear end following side, such structure setting, It ensure that vertical closure upper bearing (metal) and vertical closure lower bearing have enough spacing in the vertical direction, that is, be maintained in Different Plane；

The vertical closure eccentric cam Power Component include be used for outwards push up open vertical closure upper bearing (metal) the first vertical closure eccentric cam and The second vertical closure eccentric cam of vertical closure lower bearing is opened for outwards pushing up, the first vertical closure eccentric cam and the second vertical closure eccentric cam are consolidated Dingan County is on power post, and the protruding parts of the first vertical closure eccentric cam and the protruding parts of the second vertical closure eccentric cam are distinguished Positioned at the two opposite sides of power post；Such structure design, in order to ensure that the first vertical closure is inclined in power post from during turning around Cardiac prominence wheel and the second vertical closure eccentric cam can push up out corresponding vertical closure upper bearing (metal) and vertical closure lower bearing respectively；It is achieved in that to One power arm rear end is opened with the second power arm rear end stress expansion or top, while before the first power arm front end and the second power arm End is corresponding to be drawn close or close to clamping, that is, realizes first longitudinal direction hot melt block and second longitudinal direction hot melt block mutually clamps and heat Melt the granule packaging bag sidepiece.

The transverse packed station includes horizontal sealing eccentric cam Power Component, first laterally hot melt component, the second horizontal heat Molten component, the two hot melt leads and transverse cutting device be arrangeding in parallel, first, which laterally heats component and second, laterally heats It is oppositely arranged side by side between component, horizontal sealing eccentric cam Power Component driving first laterally heats component and the second horizontal hot melt group Part can realize that first laterally heats component and the second horizontal hot melt component phase respectively along being moved back and forth before and after hot melt lead Mutually clamp after transversely to granule packaging bag carry out hot melt extruded it is integral, and first laterally hot melt component and second laterally heat Molten component, which resets, to be separated；Realize first laterally hot melt component and second laterally hot melt component between clamp with separate it is reciprocal Formula is moved；

Described first, which laterally heats component, includes freely adjusting adjustable first fixed plate of spring, the first guide pin bushing jump ring, hot melt, gas Cylinder, laterally the first fixed plate of hot melt, the first guide pillar of hot melt, the first heat block fixed plate, first laterally hot melt block, hot melt power the Three fixed plates, laterally the second pull bar connecting shaft, hot melt clutch shaft bearing；Wherein：

The hot melt fixed plate of power the 3rd is fixedly mounted on the front end of two hot melt leads, and heats the fixed plate of power the 3rd Place direction is perpendicular to direction where hot melt lead；

The laterally hot melt clutch shaft bearing is fixedly mounted on the hot melt fixed plate medial extremity of power the 3rd by the second pull bar connecting shaft； Laterally the first fixed plate of hot melt is fixedly mounted on the rear end of two hot melt leads, and laterally direction where the first fixed plate of hot melt Perpendicular to direction where hot melt lead；

More the first guide pillars of hot melt are laterally being arranged side by side in the first fixed plate of hot melt, is laterally heating the first fixed plate and passes through this The first guide pillar of a little hot melts is fixedly connected with heating adjustable first fixed plate, and every the first guide pillar of hot melt and hot melt are adjustable Junction is provided with the first guide pin bushing jump ring between first fixed plate；

Adjustable first fixed plate of hot melt laterally heats block by the more springs that freely adjust being arranged side by side with being provided with first The first heat block fixed plate connection；Such structure design, laterally heat adjustable first fixed plate of the first fixed plate, hot melt And first laterally hot melt block in the longitudinal direction can be in company with hot melt lead front and rear reciprocating together, and first is horizontal Hot melt block has enough buffering effects in motion process in the longitudinal direction；Wherein：It is fixedly mounted on laterally hot melt first Cylinder in fixed plate is used to control transverse cutting device to carry out cutting operation to the granule packaging bag after transverse packed；

Described second laterally hot melt component includes second laterally heating block, the second fixed block of hot melt, cushion block, laterally hot melt second is solid Determine block, pull bar connecting rod, locking nut, the first pull bar connecting shaft, arm-tie, laterally extension spring, hot melt second bearing, wherein：

The laterally hot melt second bearing is on arm-tie, and this laterally heats second bearing with laterally heating clutch shaft bearing simultaneously Row is oppositely arranged on the front and rear sides of power post；The arm-tie two side ends are slided by linear bearing and two hot melt leads respectively Dynamic to be connected, such arm-tie can be moved forward and backward along on two hot melt leads place in-planes；Arm-tie passes through First pull bar connecting shaft is connected with laterally the second fixed block of hot melt, and laterally the second fixed block two side ends of hot melt pass through straight line respectively Bearing and two hot melt lead sliding connections；So laterally the second fixed block of hot melt can be in company with arm-tie along two heat Moved forward and backward where molten lead on in-plane；More hot melts the are laterally being arranged side by side on the second fixed block of hot melt Two guide pillars, the second fixed block is laterally heated by these second guide pillars of hot melt and the second hot melt second for laterally heating block is installed Fixed block is fixedly connected, and junction is provided with the second guide pin bushing between the second fixed block of every the second guide pillar of hot melt and hot melt Jump ring；Such structure design, laterally arm-tie, the second fixed block of hot melt and the second horizontal hot melt block in the longitudinal direction can Reciprocating before and after being carried out along hot melt lead, and second laterally hot melt block have in the longitudinal direction in motion process Certain buffering effect；

The transverse cutting device includes upper slitter connecting plate and is used on the upper slitter connecting plate along horizontal direction The cutting knife of granule packaging bag is cut, specifically：The piston rod that elastic motion is capable of in cylinder front end is connected with upper slitter connecting plate, Realize that cylinder drives reciprocating type mobile before and after cutting knife in the longitudinal direction, so as to complete the cutting operation to granule packaging bag.

The horizontal sealing eccentric cam Power Component includes the first horizontal sealing eccentric cam and the second horizontal sealing eccentric cam, power post Sequentially pass through by the first horizontal sealing eccentric cam and the second horizontal sealing eccentric cam and be mutually permanently connected integrally from lower to upper, the The protruding parts of one horizontal sealing eccentric cam and the protruding parts of the second horizontal sealing eccentric cam are located at the two opposite sides of power post respectively； So in power post, often, from during turning around, the first horizontal sealing eccentric cam and the second horizontal sealing eccentric cam can push up out respectively Corresponding laterally hot melt clutch shaft bearing and laterally hot melt second bearing；That is laterally hot melt clutch shaft bearing and laterally hot melt second bearing Opposite direction movement is respectively facing after stress, so as to correspondingly drive hot melt power the 3rd fixed plate, laterally hot melt lead, heat Laterally hot melt block moves forward together for molten first fixed plate, first, and arm-tie, laterally the first pull bar connecting shaft, hot melt second Laterally hot melt block moves backwards together for fixed block, second；It will realize that the first horizontal hot melt block laterally heats block with second and mutually leaned on Hold together and clamp and heat granule packaging bag bottom or top.

Simultaneously arm-tie two side ends with hot melt the fixed plate of power the 3rd two side ends be connected to extension spring so that stress to The hot melt fixed plate of power the 3rd that the arm-tie and stress moved afterwards moves forward acts on Regression extremely in the elastic reset of extension spring It is in situ.

As preferable, pulling bag station is located at for granule packaging bag to be pulled to by longitudinal vertical closure station above The transverse packed station of lower section；The pulling bag station includes active clamping wheel, initiative drive shaft, driven clamping wheel, slave drive Axle, pulling bag fixed seat, pulling bag buffing pad, pulling bag adjusting yoke, movable spring, spring anchor block, fastener, pulling bag motor, master Moving gear, driven gear, wherein：The active clamping wheel and driven clamping wheel mutually clamp granule packaging bag, pulling bag side by side Motor is connected by its output shaft with driving gear coaxial transmission, intermeshing transmission company between driving gear and driven gear Connect；Active clamping wheel is extended through pulling bag fixed seat and fixed with driving gear by the initiative drive shaft with its integrally connected to be connected Connect, driven clamping wheel is extended through pulling bag buffing pad and fixed with driven gear by the slave drive axle with its integrally connected to be connected Connect；Pulling bag fixed seat is arranged side by side with pulling bag buffing pad, and pulling bag adjusting yoke is consolidated for adjustment control pulling bag buffing pad with pulling bag The distance between reservation, and pulling bag buffing pad and pulling bag fixed seat are locked by fastener；Pulling bag buffing pad passes through work Spring of moving is connected with spring anchor block；Specifically：Pulling bag adjusting yoke one end is flexibly connected with spring anchor block, its other end Portion is fixedly connected with pulling bag buffing pad, due to side by side and having certain interval between pulling bag fixed seat and pulling bag buffing pad, so Promoted by pulling bag adjusting yoke and extrude pulling bag buffing pad, to realize the tune of pulling bag buffing pad and pulling bag buffing pad spacing size It is whole, and in time by the spacing after fastener locking adjustment, so as to regulate and control indirectly active clamping wheel and driven clamping wheel it Between spacing size.

As preferable, it is provided with funnel bottom end opening for clearing up the particle being shelved on rotary-tray upper surface Thing（These particulate matters being shelved on rotary-tray upper surface are cleared up in particle quantitative ring）One circle hairbrush；The circle hair Brush is fixedly mounted at funnel bottom end opening by hairbrush retainer ring.

As preferable, through there is timing switch door central rotating shaft on timing switch door, the timing switch door central rotating shaft Extend upward through and pass through rotary-tray；It is provided with the top of timing switch door central rotating shaft perpendicular to the timing switch door central rotating shaft One of axial direction opening bearing pin, the opening bearing pin and corresponding particle quantitative ring outer side edges are along spacing mating connection；In place Timing switch door central rotating shaft below rotary-tray is arranged with pad, torsion spring and collar successively from lower to upper, wherein：Collar Be fixedly mounted on rotary-tray bottom surface, pad is fixedly connected with the bottom of timing switch door central rotating shaft, torsion spring respectively with pad Piece, collar connection, and torsion spring is clamped between pad and collar.

As preferable, be provided with folding shape batten on timing switch door bottom surface, the medial extremity of the folding shape batten with outside it The direction formed between side is substantially parallel with rotary-tray radial direction, and shutdown transverse arm upwardly extends and can be with rolling over shape bar The outboard end of plate abuts against, and so as to realize the spacing closure to timing switch door, and then allows particle quantitative ring to repeat to hold particle Thing；Enabling column is upwardly extended and can abutted against with rolling over the medial extremity of shape batten, so as to realize to the spacing of timing switch door Open, and then the particulate matter for be contained in particle quantitative ring is freely fallen into the packaging bag of packaging bag guiding trestle.

As preferable, present invention additionally comprises for i.e. it is real be locked the quantitative transmission collar that stays in during rotation or The locking device of the quantitative central shaft of person, the locking device include handle ball, quantitative locking transmission handle and for flexible cards The snap ring of quantitative transmission collar or quantitative central shaft is waled, handle ball is driven handle by quantitative locking and is connected with snap ring.

Compared with prior art, beneficial effects of the present invention are as follows：

Realization can be automated efficiently and in an orderly manner using a kind of particles packing machine of the present invention packaging bag is loaded simultaneously to particulate matter Complete to be packaged the packaging bag for loading particulate matter simultaneously；Granule packaging is greatly increased into the working effect of bag, is also subtracted Cost of labor is lacked；The particle quantitative ring of dimension size how much can be changed according to required packing dosage simultaneously, from And realize to loading how much particulate matter dosage controls in packaging bag.

Brief description of the drawings

Fig. 1 ~ 2 are a kind of overall structure diagram of particles packing machine of the present invention.

Fig. 3 distributes station and the auxiliary section with quantitative rotary work station for particle quantitative in a kind of particles packing machine of the present invention Separation structure schematic diagram.

Station and the cooperation with quantitative rotary work station are distributed in Fig. 4 ~ 7 for particle quantitative in a kind of particles packing machine of the present invention Part-structure different angle schematic diagram.

Fig. 8 is the structural representation of power post in a kind of particles packing machine of the present invention.

Fig. 9 is power post and the fit structure schematic diagram with vertical encapsulation station in a kind of particles packing machine of the present invention.

Figure 10 is vertical encapsulation station and the fit structure signal with pulling bag station in a kind of particles packing machine of the present invention Figure.

Figure 11 ~ 12 are the vertical structural representation for encapsulating station in a kind of particles packing machine of the present invention.

Figure 13 ~ 14 are the structural representation of pulling bag station in a kind of particles packing machine of the present invention.

Figure 15 ~ 16 are the structural representation of transverse packed station in a kind of particles packing machine of the present invention.

Figure 17 is transverse packed station and the fit structure schematic diagram with power post in a kind of particles packing machine of the present invention.

Reference：

Particle quantitative distributes station 1, funnel 101, hairbrush 102, hairbrush retainer ring 103, measure hopper baffle ring 104, particle quantitative ring 105, rotary-tray 106, timing switch door 107, collar 108, torsion spring 109, timing switch door central rotating shaft 110, pad 1101, Be open bearing pin 111, folding shape batten 112, folding shape batten medial extremity 1121, folding shape batten outboard end 1122, shutdown column 113, closes Door transverse arm 114, enabling column 115, enabling transverse arm 116, packaging bag guiding trestle 12, conveying and packaging bag mechanism 13；

Quantitative rotary work station 2, quantitative central shaft 200, quantitative hold-down ring 201, rotary steering key 202, quantitative central shaft 200, platform Scalariform clamping rings 203, rotation rise body 204, spiral center axle 205, cushion block 206, bearing 207, snap ring 208, rotating base 209, spring supporting ring 210, quantitative spring 211, quantitative transmission mechanism 22, quantitatively it is driven collar 221, quantitative driving gear component 222, bearing block 223, quantitative fixed plate 224；

Vertical encapsulation station 3, first longitudinal direction hot melt block 311, the first heating rod 312, first longitudinal direction hot melt buffer board 313, first Power arm 314, vertical closure upper bearing (metal) 315, the first central shaft of the hot melt arm of force 316, second longitudinal direction hot melt block 321, the second heating rod 322, second longitudinal direction hot melt buffer board 323, the second power arm 324, vertical closure lower bearing 325, the second central shaft of the hot melt arm of force 326, Longitudinal direction hot melt tension spring 33；

Transverse packed station 4, spring 401 is freely adjusted, the first guide pin bushing jump ring 402, heats adjustable first fixed plate 404, on Knife connecting plate 405, cylinder 406, the first fixed plate 407 is laterally heated, heat the first guide pillar 408, the first heat block fixed plate 409, the first heat block 410, the second heat block 411, the second fixed block 412 is heated, cushion block 413, laterally heats the second fixed block 414, pull bar connecting rod 415, locking nut 416, the first pull bar connecting shaft 417, arm-tie 418, extension spring 419, heat power the 3rd Fixed plate 420, the second pull bar connecting shaft 421, clutch shaft bearing 422 is laterally heated, laterally heat second bearing 423, cutting knife 41, heat Molten lead 42；

Power post 50, the first horizontal sealing eccentric cam 501, the second horizontal sealing eccentric cam 502, the first vertical closure eccentric cam 503, second Vertical closure eccentric cam 504；

Active clamping wheel 601, initiative drive shaft 602, driven clamping wheel 603, slave drive axle 604, pulling bag fixed seat 605, draw Bag buffing pad 606, pulling bag adjusting yoke 607, movable spring 608, spring anchor block 609, pulling bag motor 61, driving gear 611, Driven gear 612.

Embodiment

Technical scheme is described further with reference to Figure of description：

As shown in Fig. 1 ~ 17, the present invention provides a kind of specific embodiment of particles packing machine, as shown in Figure 1 and 2, a kind of particle bag Installation include applied to the particle quantitative pack device of the particles packing machine, the packaging mechanism applied to the particles packing machine and The pulling bag station 6 of granule packaging bag is pulled from top to bottom, wherein：Particle quantitative pack device includes being used to carry out particulate matter The particle quantitative distribution station 1 of quantitative separating, the quantitative rotary work station 2 for driving particle quantitative distribution station 1 to be rotated；Envelope Mounting mechanism include be used for by quantitatively load particulate matter packaging bag sidepiece carry out vertical closure longitudinal vertical closure station 3 and with longitudinal direction At the top of the packaging bag to quantitatively loading particulate matter or bottom carries out the transverse packed station 4 of horizontal sealing to vertical closure station 3 simultaneously.

As shown in Fig. 3 ~ 7, the particle quantitative distribution station 1 includes being used to hold and be directed downwardly toward the leakage of delivery of particulate material Bucket 101, equidistantly it is arranged for controlling amounts of particles multiple particle quantitative rings 105 how much, drives quantitative loop 105 for circulating The rotary-tray 106 of rotation particle distribution is carried out, wherein：Towards the partial center of rotary-tray 106 at the bottom end opening of funnel 101 Above position, the multiple particle quantitative rings 105 equidistantly arranged extend through rotary-tray 106 from top to bottom, in each particle The bottom face of quantitative loop 105 is connected with the timing switch door 107 for the opening and closing for being capable of timed periodic；In rotary-tray 106 lower sections are provided with shutdown transverse arm 114 and enabling transverse arm 116, are provided with shutdown transverse arm 114 and the place of rotary-tray 106 Horizontal plane is mutually perpendicular to and can driven the shutdown column 113 that timing switch door 107 closes, and is provided with enabling transverse arm 116 The enabling column 115 that is mutually perpendicular to and can drive timing switch door 107 to open with the place horizontal plane of rotary-tray 106；Revolving Ask and the side-lower of disk 106 and be provided with positioned at the underface of enabling column 115 for being fallen under receiving out of particle quantitative ring 105 The packaging bag guiding trestle of the particulate matter come；The packaging bag guiding trestle is arranged with the unencapsulated packaging bag in open-like shape.

As shown in Fig. 5 ~ 7, the quantitative rotary work station 2 includes quantitative central shaft 200, fixed with the quantitative central shaft 200 The step-like clamping rings 203 of connection, rotation rise body 204, the spiral center being slidably connected with the quantitative central shaft 200 Axle 205, the rotary buffer device for the limited support spiral center axle 205 and the quantitative central shaft 200 of driving carry out quantitative rotation The quantitative transmission mechanism 22 turned, wherein：The step-like clamping rings 203 is distributed by rotary steering key 202 and particle quantitative The key connection of rotary-tray 106 in station 1, so as to realize that quantitative central shaft 200 drives the spinning motion together of rotary-tray 106； Rotation rises body 204 and is connected with the screw thread of spiral center axle 205, and rotation rises body 204 and spiral center axle 205 is respectively positioned on The lower section of rotary-tray 106；Because spiral center axle 205 can carry out certain spinning motion in company with quantitative central shaft 200, simultaneously By the rotation coordinated with the screw thread of spiral center axle 205 rise body 204 along the outside screw spiral of spiral center axle 205 simultaneously Withstand or prop up the bottom surface of step-like clamping rings 203；Now spiral center axle 205 is in stable state i.e. not in company with quantitative Central shaft 200 is transported through dynamic；As shown in Figure 5：The shutdown transverse arm 114 and enabling transverse arm 116 rise body 204 with rotation respectively It is fixedly connected；As shown in Fig. 6 ~ 7：The rotary buffer device include cushion block 206, bearing 207, snap ring 208, rotating base 209, Spring supporting ring 210 and quantitative spring 211, wherein：The quantitative central shaft 200 extends through quantitative spring from the bottom up successively 211st, spring supporting ring 210, rotating base 209, snap ring 208, bearing 207 and cushion block 206, quantitative spring 211 upwardly extend simultaneously It is fixedly connected by spring supporting ring 210 with the bottom face of rotating base 209, snap ring 208 is fixedly mounted on the top of rotating base 209 On face, the cushion block 206 that the bottom of spiral center axle 205 is lived for limited support is flexibly connected by bearing 207 with snap ring 208.

As shown in Fig. 6 ~ 7：The quantitative transmission mechanism 22 includes quantitatively being driven collar 221, quantitative driving gear component 222nd, bearing block 223 and quantitative fixed plate 224, wherein：Quantitatively transmission collar 221 passes through quantitative gear key and quantitative central shaft 200 key connections, quantitatively transmission collar 221 is fixed as one with quantitative driving gear component 222 and is connected, and quantitative driving gear component 222 positioned at the top of bearing block 223；The bearing block 223 for living to quantify central shaft 200 for being slidably connected simultaneously limited support is fixed Installed in the quantitative upper surface of fixed plate 224.

As shown in Fig. 9 ~ 12：Longitudinal vertical closure station 3 includes vertical closure eccentric cam Power Component, first longitudinal direction hot melt block 311st, the first heating rod 312, first longitudinal direction hot melt buffer board 313, the first power arm 314, vertical closure upper bearing (metal) 315, the hot melt arm of force First central shaft 316, second longitudinal direction hot melt block 321, the second heating rod 322, second longitudinal direction hot melt buffer board 323, the second power Arm 324, vertical closure lower bearing 325, the second central shaft of the hot melt arm of force 326, longitudinal direction hot melt tension spring 33, wherein：

As shown in figure 12：The first longitudinal direction hot melt block 311 and second longitudinal direction heat block 321 and are oppositely arranged side by side along longitudinal direction, the One power arm 314 and the second power arm 324 are set laterally side by side, and dynamic with second in the position of end rearward of the first power arm 314 Longitudinal direction hot melt tension spring 33 is connected between the position of end rearward of the arm of force 324；The design of the structure so that in the first power arm 314 and the stress of the second power arm 324 respectively outwards top open or deploy after, by the longitudinal direction heat tension spring 33 first can be moved The power arm 324 of the arm of force 314 and second is back pulled to reset；First power arm 314 passes through a linear bearing and hot melt The first central shaft of the arm of force 316 is flexibly connected, and the first power arm 314 can carry out left and right around hot melt the first central shaft of the arm of force 316 Swing；Second power arm 324 is flexibly connected by another linear bearing with hot melt the second central shaft of the arm of force 326, and second Power arm 324 can be swung around hot melt the second central shaft of the arm of force 326；Specifically：Heat the first central shaft of the arm of force 316 Middle part is leaned on installed in the first power arm 314, heats and is mutually hung down between the arm of force the first central shaft 316 and the first power arm 314 Directly；The hot melt arm of force the second central shaft 326 is arranged on the second power arm 324 and lean on middle part, heat the second central shaft of the arm of force 326 and It is mutually perpendicular between second power arm 324；So, the rear end stress expansion of the rear end of the first power arm 314 and the second power arm 324 or While person opens on top, the front end of the first power arm 314 is corresponding to the front end of the second power arm 324 to be drawn close or close to clamping.

As shown in Figure 10 ~ 12, the first heating rod 312 is connected with first longitudinal direction hot melt block 311, is heated in second longitudinal direction The second heating rod 322, such structure design are connected with block 321 so that heat block 311 and second longitudinal direction heat in first longitudinal direction While frit 321 mutually clamps granule packaging bag sidepiece, added by each interior the first heating rod 312, second being provided with Hot pin 322 heats to granule packaging bag sidepiece and then realizes that the vertical encapsulation of granule packaging bag is integral；First longitudinal direction heats block 311 heat buffer board 313 by first longitudinal direction is fixedly mounted on the leading inside portion of the first power arm 314, second longitudinal direction hot melt block 321 heat buffer board 323 by second longitudinal direction is fixedly mounted on the leading inside portion of the second power arm 324；In the first power arm 314 Rear upper side portion is provided with vertical closure upper bearing (metal) 315, and vertical closure lower bearing 325 is provided with the rear end following side of the second power arm 324, this The structure setting of sample, it ensure that vertical closure upper bearing (metal) 315 and vertical closure lower bearing 325 have enough spacing in the vertical direction, i.e., It is maintained in Different Plane.

As shown in Fig. 8 ~ 9：The vertical closure eccentric cam Power Component includes being used to outwards push up opening the of vertical closure upper bearing (metal) 315 One vertical closure eccentric cam 503 and the second vertical closure eccentric cam 504 that vertical closure lower bearing 325 is driven for outwards pushing up, the first vertical closure The vertical closure eccentric cam 504 of eccentric cam 503 and second is fixedly mounted on power post 50, and the first vertical closure eccentric cam 503 Protruding parts and the protruding parts of the second vertical closure eccentric cam 504 are located at the two opposite sides of power post 50 respectively；Such structure Design, in order to ensure in power post 50 from during turning around, the first vertical closure eccentric cam 503 and the second vertical closure eccentric cam 504 can push up out corresponding vertical closure upper bearing (metal) 315 and vertical closure lower bearing 325 respectively；It is achieved in that to the rear end of the first power arm 314 Opened with the rear end stress expansion of the second power arm 324 or top, while the front end of the first power arm 314 and the front end of the second power arm 324 It is corresponding to draw close or close to clamping, that is, realize first longitudinal direction hot melt block 311 and second longitudinal direction hot melt block 321 mutually clamps And heat the granule packaging bag sidepiece.

As shown in Figure 15 ~ 17：The transverse packed station 4 includes the laterally hot melt of horizontal sealing eccentric cam Power Component, first Component, second laterally heat component, the two hot melt leads 42 and transverse cutting device be arrangeding in parallel, the first horizontal hot melt group It is oppositely arranged side by side between part and the second horizontal hot melt component, horizontal sealing eccentric cam Power Component driving first laterally heats component With second laterally hot melt component can respectively along hot melt lead 42 before and after move back and forth, realize first laterally hot melt component and Second horizontal hot melt component is transversely integral to granule packaging bag progress hot melt extruded after mutually clamping, and first laterally hot Molten component and the second horizontal hot melt component reset and separated；Realize first laterally hot melt component and second laterally hot melt component it Between clamp reciprocating with separating.

As shown in figure 16：Described first, which laterally heats component, includes freely adjusting spring 401, the first guide pin bushing jump ring 402, heat Molten adjustable first fixed plate 404, laterally cylinder 406, the first fixed plate 407 of hot melt, hot melt the first guide pillar 408, first heating Block fixed plate 409, first laterally heats block 410, hot melt power the 3rd fixed plate 420, laterally the second pull bar connecting shaft 421, heat Molten clutch shaft bearing 422；Wherein：The hot melt fixed plate 420 of power the 3rd is fixedly mounted on the front end of two hot melt leads 42, And the place direction of the 3rd fixed plate of hot melt power 420 is perpendicular to hot melt lead 42 place direction；The laterally hot melt first axle Hold 422 and the medial extremity of the 3rd fixed plate of hot melt power 420 is fixedly mounted on by the second pull bar connecting shaft 421；Laterally hot melt first Fixed plate 407 is fixedly mounted on the rear end of two hot melt leads 42, and laterally hot melt the first fixed plate 407 place direction is vertical In hot melt lead 42 place direction；More the first guide pillars of hot melt are laterally being arranged side by side in the first fixed plate 407 of hot melt 408, laterally heat the first fixed plate 407 and fixed by these first guide pillars 408 of hot melt with heating adjustable first fixed plate 404 Connection, and junction is provided with first and led between every the first guide pillar 408 of hot melt and adjustable first fixed plate 404 of hot melt Cover jump ring 402；Adjustable first fixed plate 404 of hot melt by more be arranged side by side freely adjust spring 401 with being provided with the One the first heat block fixed plate 409 for laterally heating block 410 connects；Such structure design, laterally heat the first fixed plate 407th, laterally hot melt block 410 can be oriented to adjustable first fixed plate 404 and first of hot melt in company with hot melt in the longitudinal direction The front and rear reciprocating together of post 42, and first laterally hot melt block 410 have in the longitudinal direction in motion process it is enough Buffering effect；Wherein：The cylinder 406 laterally in the first fixed plate 407 of hot melt is fixedly mounted on to be used to control transverse cutting device Cutting operation is carried out to the granule packaging bag after transverse packed.

As shown in Figure 16 ~ 17：Described second, which laterally heats component, includes the second laterally hot melt block 411, fixation of hot melt second Block 412, laterally cushion block 413, the second fixed block 414 of hot melt, pull bar connecting rod 415, locking nut 416, the first pull bar connecting shaft 417th, arm-tie 418, laterally extension spring 419, hot melt second bearing 423, wherein：The laterally hot melt second bearing 423, which is arranged on, draws On plate 418, and transverse direction hot melt second bearing 423 is oppositely arranged on power post 50 side by side with laterally hot melt clutch shaft bearing 422 Front and rear sides；The two side ends of arm-tie 418 are slidably connected by linear bearing and two hot melt leads 42 respectively, so Arm-tie 418 can be moved forward and backward along on two hot melt place in-planes of lead 42；Arm-tie 418 passes through the first pull bar Connecting shaft 417 is connected with laterally the second fixed block 414 of hot melt, and laterally heats the two side ends of the second fixed block 414 respectively by straight Bobbin is held to be slidably connected with two hot melt leads 42；So laterally the second fixed block 414 of hot melt can be in company with arm-tie 418 Moved forward and backward along on two hot melt place in-planes of lead 42；Laterally heating on the second fixed block 414 side by side More the second guide pillars of hot melt are provided with, the second fixed block 414 is laterally heated by these second guide pillars of hot melt and is provided with second Laterally the second fixed block of hot melt 412 of hot melt block 411 is fixedly connected, and every the second guide pillar of hot melt and the second fixed block of hot melt Junction is provided with the second guide pin bushing jump ring between 412；Such structure design, laterally arm-tie 418, the second fixed block of hot melt 414 and second laterally hot melt block 411 in the longitudinal direction can along hot melt lead 42 carry out front and rear reciprocating, and And second laterally hot melt block 411 there is certain buffering effect in motion process in the longitudinal direction；The transverse cutting device It is used to cut granule packaging bag along on horizontal direction including upper slitter connecting plate 405 and on the upper slitter connecting plate 405 Cutting knife 41, specifically：The piston rod that elastic motion is capable of in the front end of cylinder 406 is connected with upper slitter connecting plate 405, realizes gas Cylinder 406 drives reciprocating type mobile before and after cutting knife 41 in the longitudinal direction, so as to complete the cutting operation to granule packaging bag.

As shown in Fig. 8 and Figure 17：The horizontal sealing eccentric cam Power Component includes the first horizontal sealing eccentric cam 501 and second Horizontal sealing eccentric cam 502, power post 50 sequentially pass through eccentric by the first horizontal sealing eccentric cam 501 and the second horizontal sealing from lower to upper Cam 502 and be mutually permanently connected integral, the protruding parts of the first horizontal sealing eccentric cam 501 and the second horizontal sealing eccentric cam 502 protruding parts is located at the two opposite sides of power post 50 respectively；So in power post 50 during often turning around certainly, first The horizontal sealing eccentric cam 502 of horizontal sealing eccentric cam 501 and second laterally heats clutch shaft bearing 422 and horizontal stroke corresponding to can pushing up out respectively Hot melt second bearing 423；Laterally it is respectively facing phase after hot melt clutch shaft bearing 422 and the horizontal hot melt stress of second bearing 423 Opposite direction is moved, and so as to correspondingly drive hot melt power the 3rd fixed plate 420, hot melt lead 42, laterally hot melt first is fixed Laterally hot melt block 410 is mobile forward together for plate 407, first, and arm-tie 418, laterally the first pull bar connecting shaft 417, hot melt the Laterally hot melt block 411 moves two fixed blocks 414, second backwards together；It will realize that first laterally heats the laterally heat of block 410 and second Frit 411, which is mutually drawn close, clamps and heats granule packaging bag bottom or top.Simultaneously in the two side ends of arm-tie 418 and hot melt power the The two side ends of three fixed plates 420 are connected to extension spring 419 so that arm-tie 418 that stress is moved rearwards and stress are to reach The dynamic hot melt fixed plate 420 of power the 3rd acts on Regression to original position in the elastic reset of extension spring 419.

As shown in Figure 13 ~ 14：Pulling bag station 6 is for granule packaging bag to be drawn by longitudinal vertical closure station 3 above To underlying transverse packed station 4；The pulling bag station 6 includes active clamping wheel 601, initiative drive shaft 602, slave clip Hold wheel 603, slave drive axle 604, pulling bag fixed seat 605, pulling bag buffing pad 606, pulling bag adjusting yoke 607, movable spring 608th, spring anchor block 609, fastener 610, pulling bag motor 61, driving gear 611, driven gear 612, wherein：The active Clamping wheel 601 and driven clamping wheel 603 mutually clamp granule packaging bag side by side, and pulling bag motor 61 passes through its output shaft and active The coaxial transmission of gear 611 is connected, and drive connection is intermeshed between driving gear 611 and driven gear 612；Active clamping wheel 601 extend through pulling bag fixed seat 605 by the initiative drive shaft 602 with its integrally connected is fixedly connected with driving gear 611, Driven clamping wheel 603 extends through pulling bag buffing pad 606 and driven gear by the slave drive axle 604 with its integrally connected 612 are fixedly connected；Pulling bag fixed seat 605 is arranged side by side with pulling bag buffing pad 606, and pulling bag adjusting yoke 607 is used for adjustment control The distance between pulling bag buffing pad 606 and pulling bag fixed seat 605, and fixed pulling bag buffing pad 606 with pulling bag by fastener 610 Seat 605 is locked；Pulling bag buffing pad 606 is connected by movable spring 608 with spring anchor block 609；Specifically：Pulling bag is adjusted The section one end of pull bar 607 is flexibly connected with spring anchor block 609, and its other end is fixedly connected with pulling bag buffing pad 606, due to Side by side and there is certain interval between pulling bag fixed seat 605 and pulling bag buffing pad 606, so pushed away by pulling bag adjusting yoke 607 Move and extrude pulling bag buffing pad 606, to realize the adjustment of pulling bag buffing pad 606 and the spacing size of pulling bag buffing pad 606, and in time Ground by the spacing after the locking adjustment of fastener 610, so as to regulate and control indirectly active clamping wheel 601 and driven clamping wheel 603 it Between spacing size.

As shown in Fig. 2 ~ 3：It is provided with the bottom end opening of funnel 101 and is shelved on the upper surface of rotary-tray 106 for cleaning On particulate matter i.e. these particulate matters being shelved on the upper surface of rotary-tray 106 are cleared up one in particle quantitative ring 105 Enclose hairbrush 102；The circle hairbrush 102 is fixedly mounted at the bottom end opening of funnel 101 by hairbrush retainer ring 103.

As shown in Fig. 5 ~ 6：Running through on timing switch door 107 has timing switch door central rotating shaft 110, in the timing switch door Heart rotating shaft 110 is extended upward through by rotary-tray 106；It is fixed perpendicular to this to be provided with the top of timing switch door central rotating shaft 110 A piece opening bearing pin 111 of the axial direction of point switch gate central rotating shaft 110, the opening bearing pin 111 and corresponding particle quantitative ring 105 outer side edges are along spacing mating connection；In the timing switch door central rotating shaft 110 below rotary-tray 106 from lower to upper Pad 1101, torsion spring 109 and collar 108 are arranged with successively, wherein：Collar 108 is fixedly mounted on the bottom surface of rotary-tray 106, Pad 1101 is fixedly connected with the bottom of timing switch door central rotating shaft 110, and torsion spring 109 connects with pad 1101, collar 108 respectively Connect, and torsion spring 109 is clamped between pad 1101 and collar 108.

As shown in Figure 5：Folding shape batten 112, the inner side of the folding shape batten 112 are provided with the bottom surface of timing switch door 107 The direction formed between end 1121 and its outboard end 1122 substantially parallel, shutdown transverse arm 114 with the radial direction of rotary-tray 106 Upwardly extend and can be abutted against with rolling over the outboard end 1122 of shape batten 112, the spacing of timing switch door 107 is closed so as to realize Close, and then allow particle quantitative ring 105 to repeat to hold particulate matter；Enabling column 115 upwardly extends and can be with folding shape batten 112 Medial extremity 1121 abuts against, and so as to realize the spacing opening to timing switch door 107, and then to be contained in particle quantitative ring Particulate matter in 105 is freely fallen into the packaging bag of packaging bag guiding trestle.

As shown in Fig. 5 ~ 7：Present invention additionally comprises for the i.e. real quantitative transmission collar that stays in during rotation of being locked 221 or the locking device 23 of quantitative central shaft 200, the locking device 23 include handle ball 231, quantitative locking transmission handle 232 and the snap ring 233 of collar 221 or quantitative central shaft 200 is firmly quantitatively driven for the clip that stretches, handle ball 231 passes through Quantitative locking transmission handle 232 is connected with snap ring 233.

Beneficial effects of the present invention are as follows：It can be automated efficiently and in an orderly manner using a kind of particles packing machine of the present invention Realize and load packaging bag to particulate matter and complete to be packaged the packaging bag for loading particulate matter simultaneously；Greatly increase particle The working effect of bag is packaged into, decreases cost of labor；How much can be changed according to required packing dosage simultaneously corresponding The particle quantitative ring of specification size, so as to realize to loading how much particulate matter dosage controls in packaging bag.

Above-described embodiment is the description of the invention, is not limitation of the invention, it is any to simple transformation of the present invention after Scheme belong to protection scope of the present invention.

Claims (10)

1. a kind of particles packing machine, it is characterised in that distribute work including the particle quantitative for particulate matter to be carried out to quantitative separating Position（1）, drive the particle quantitative distribute station（1）The quantitative rotary work station rotated（2）, pull particle bag from top to bottom The pulling bag station of pack（6）, for will quantitatively load particulate matter packaging bag sidepiece carry out vertical closure longitudinal vertical closure station（3） And with longitudinal vertical closure station（3）At the top of the packaging bag to quantitatively loading particulate matter or bottom carries out the transverse direction of horizontal sealing simultaneously Encapsulate station（4）.

2. according to a kind of particles packing machine described in claim 1, it is characterised in that the particle quantitative distributes station（1） Including the funnel for holding and being directed downwardly toward delivery of particulate material（101）, be equidistantly arranged for control amounts of particles how many Multiple particle quantitative rings（105）, for circulate drive quantitative loop（105）Carry out the rotary-tray of rotation particle distribution（106）, its In：

The funnel（101）Towards rotary-tray at bottom end opening（106）Above partial center position, multiple equidistantly arranged Grain quantitative loop（105）Rotary-tray is extended through from top to bottom（106）, in each particle quantitative ring（105）Bottom face activity is even It is connected to the timing switch door for the opening and closing for being capable of timed periodic（107）；In rotary-tray（106）Lower section is provided with shutdown Transverse arm（114）With enabling transverse arm（116）, in shutdown transverse arm（114）On be provided with and rotary-tray（106）Place horizontal plane is mutual It is vertical and timing switch door can be driven（107）The shutdown column of closure（113）, in enabling transverse arm（116）On be provided with and revolve Ask disk（106）Place horizontal plane is mutually perpendicular to and can drive timing switch door（107）The enabling column of opening（115）； Rotary-tray（106）Side-lower and it is located at enabling column（115）Underface be provided with for receiving from particle quantitative ring（105） The packaging bag guiding trestle of the particulate matter fallen under interior.

3. according to a kind of particles packing machine described in claim 2, it is characterised in that the quantitative rotary work station（2）Including Quantitative central shaft（200）And the quantitative central shaft（200）The step-like clamping rings being fixedly connected（203）, rotation rise body （204）And the quantitative central shaft（200）The spiral center axle of sliding connection（205）, for the limited support spiral center Axle（205）Rotary buffer device and the quantitative central shaft of driving（200）Carry out the quantitative transmission mechanism of quantitative rotation（22）, its In：

The step-like clamping rings（203）Pass through rotary steering key（202）Station is distributed with particle quantitative（1）In rotation support Disk（106）Key connection, so as to realize quantitative central shaft（200）Drive rotary-tray（106）Spinning motion together；

Rotation rises body（204）With spiral center axle（205）Screw thread is connected, and rotates and rise body（204）And spiral center Axle（205）It is respectively positioned on rotary-tray（106）Lower section；

The shutdown transverse arm（114）With enabling transverse arm（116）Rise body with rotation respectively（204）It is fixedly connected；The rotation is slow Flushing device includes cushion block（206）, bearing（207）, snap ring（208）, rotating base（209）, spring supporting ring（210）With quantitative bullet Spring（211）, wherein：The quantitative central shaft（200）Extend through quantitative spring from the bottom up successively（211）, spring supporting ring （210）, rotating base（209）, snap ring（208）, bearing（207）And cushion block（206）, quantitative spring（211）Upwardly extend and lead to Cross spring supporting ring（210）With rotating base（209）Bottom face is fixedly connected, snap ring（208）It is fixedly mounted on rotating base （209）On top end face, spiral center axle is lived for limited support（205）The cushion block of bottom（206）Pass through bearing（207）With snap ring （208）It is flexibly connected；

The quantitative transmission mechanism（22）Including quantitative transmission collar（221）, quantitative driving gear component（222）, bearing block （223）With quantitative fixed plate（224）, wherein：Quantitatively it is driven collar（221）Pass through quantitative gear key and quantitative central shaft（200） Key connection, quantitatively it is driven collar（221）With quantitative driving gear component（222）Be fixed as one connection, and quantitative driving gear set Part（222）Positioned at bearing block（223）Top；Live to quantify central shaft for being slidably connected simultaneously limited support（200）Bearing Seat（223）It is fixedly mounted on quantitative fixed plate（224）Upper surface.

4. according to a kind of particles packing machine described in claim 1, it is characterised in that longitudinal vertical closure station（3）Including Vertical closure eccentric cam Power Component, first longitudinal direction hot melt block（311）, the first heating rod（312）, first longitudinal direction hot melt buffer board （313）, the first power arm（314）, vertical closure upper bearing (metal)（315）, hot melt the central shaft of the arm of force first（316）, second longitudinal direction hot melt block （321）, the second heating rod（322）, second longitudinal direction hot melt buffer board（323）, the second power arm（324）, vertical closure lower bearing （325）, hot melt the central shaft of the arm of force second（326）, longitudinal direction hot melt tension spring（33）, wherein：

The first longitudinal direction heats block（311）Block is heated with second longitudinal direction（321）Longitudinal direction is oppositely arranged side by side, the first power arm （314）With the second power arm（324）Set laterally side by side, and in the first power arm（314）The position of end rearward and the second power Arm（324）The position of end rearward between be connected with longitudinal direction hot melt tension spring（33）；First power arm（314）By always Bobbin is held and the hot melt central shaft of the arm of force first（316）It is flexibly connected, and the first power arm（314）Can be in the hot melt arm of force first Mandrel（316）Swung；Second power arm（324）Pass through another linear bearing and the hot melt central shaft of the arm of force second （326）It is flexibly connected, and the second power arm（324）Can be around the hot melt central shaft of the arm of force second（326）Swung； One longitudinal direction hot melt block（311）Inside it is connected with the first heating rod（312）, block is heated in second longitudinal direction（321）Second is inside connected with to add Hot pin（322）, first longitudinal direction hot melt block（311）Buffer board is heated by first longitudinal direction（313）It is fixedly mounted on the first power arm （314）Leading inside portion, second longitudinal direction hot melt block（321）Buffer board is heated by second longitudinal direction（323）It is fixedly mounted on second Power arm（324）Leading inside portion；In the first power arm（314）Rear upper side portion is provided with vertical closure upper bearing (metal)（315）, second Power arm（324）Rear end following side is provided with vertical closure lower bearing（325）；

The vertical closure eccentric cam Power Component includes being used to outwards push up driving vertical closure upper bearing (metal)（315）The first vertical closure eccentric cam （503）And drive vertical closure lower bearing for outwards pushing up（325）The second vertical closure eccentric cam（504）, the first vertical closure eccentric cam （503）Protruding parts and the second vertical closure eccentric cam（504）Protruding parts be located at power post respectively（50）Two opposite sides； So in power post（50）Often from during turning around, the first vertical closure eccentric cam（503）With the second vertical closure eccentric cam（504） Vertical closure upper bearing (metal) corresponding to can pushing up out respectively（315）With vertical closure lower bearing（325）, the first power arm（314）Rear end and second Power arm（324）Rear end stress expansion is opened, while the first power arm（314）Front end and the second power arm（324）Front end Accordingly draw close or close, first longitudinal direction is heated into block to realize（311）Block is heated with second longitudinal direction（321）Mutually draw close Clamp and heat the granule packaging bag sidepiece.

5. according to a kind of particles packing machine described in claim 1 or 4, it is characterised in that the transverse packed station（4）Bag Including horizontal sealing eccentric cam Power Component, first, laterally laterally hot melt component, two hot melts be arrangeding in parallel are led for hot melt component, second Xiang Zhu（42）And transverse cutting device, first is laterally oppositely arranged side by side between hot melt component and the second horizontal hot melt component, horizontal Sealing eccentric cam Power Component driving first, laterally hot melt component and the second horizontal hot melt component can be oriented to respectively along hot melt Post（42）It is front and rear to move back and forth, realize that the first horizontal hot melt component and second laterally heats after component mutually clamps to enter packaging bag Row hot melt extruded is integral, and the first horizontal hot melt component and the second horizontal hot melt component reset and separated；

Described first, which laterally heats component, includes freely adjusting spring（401）, the first guide pin bushing jump ring（402）, hot melt adjustable the One fixed plate（404）, cylinder（406）, laterally hot melt the first fixed plate（407）, hot melt the first guide pillar（408）, the first heat block Fixed plate（409）, first laterally hot melt block（410）, hot melt the fixed plate of power the 3rd（420）, the second pull bar connecting shaft（421）、 Laterally hot melt clutch shaft bearing（422）, wherein：

The hot melt fixed plate of power the 3rd（420）It is fixedly mounted on two hot melt leads（42）Front end, it is described laterally heat Molten clutch shaft bearing（422）Pass through the second pull bar connecting shaft（421）It is fixedly mounted on the hot melt fixed plate of power the 3rd（420）Inner side End；

Laterally the first fixed plate of hot melt（407）It is fixedly mounted on two hot melt leads（42）Rear end, laterally hot melt first Fixed plate（407）On be arranged side by side more hot melt the first guide pillars（408）, laterally heat the first fixed plate（407）Pass through these Heat the first guide pillar（408）With heating adjustable first fixed plate（404）It is fixedly connected, heats adjustable first fixed plate （404）By more be arranged side by side freely adjust spring（401）Block is laterally heated with being provided with first（410）First heating Block fixed plate（409）Connection；Wherein：It is fixedly mounted on laterally the first fixed plate of hot melt（407）On cylinder（406）For controlling Transverse cutting device carries out cutting operation to the granule packaging bag after transverse packed；

Described second, which laterally heats component, includes the second horizontal hot melt block（411）, hot melt the second fixed block（412）, cushion block （413）, laterally hot melt the second fixed block（414）, pull bar connecting rod（415）, locking nut（416）, the first pull bar connecting shaft （417）, arm-tie（418）, extension spring（419）, laterally hot melt second bearing（423）, wherein：

The laterally hot melt second bearing（423）Installed in arm-tie（418）On, the arm-tie（418）Two side ends are respectively by straight Bobbin is held and two hot melt leads（42）Sliding connection, arm-tie（418）Pass through the first pull bar connecting shaft（417）With horizontal stroke The fixed block of hot melt second（414）Connection, and laterally the second fixed block of hot melt（414）Two side ends pass through linear bearing and two respectively Root heats lead（42）Sliding connection；Laterally heating the second fixed block（414）On more hot melts the have been arranged side by side Two guide pillars, laterally heat the second fixed block（414）By these second guide pillars of hot melt and the second horizontal hot melt block is installed（411） The fixed block of hot melt second（412）It is fixedly connected；

The transverse cutting device includes upper slitter connecting plate（405）And installed in the upper slitter connecting plate（405）It is upper be used for along The cutting knife of granule packaging bag is cut on horizontal direction（41）, it is convex that the horizontal sealing eccentric cam Power Component includes the first horizontal sealing bias Wheel（501）With the second horizontal sealing eccentric cam（502）, power post（50）Sequentially pass through from lower to upper by the first horizontal sealing eccentric cam （501）With the second horizontal sealing eccentric cam（502）And it is integral to be mutually permanently connected, the first horizontal sealing eccentric cam（501）Protrusion Position and the second horizontal sealing eccentric cam（502）Protruding parts be located at power post respectively（50）Two opposite sides；So in power Post（50）During often turning around certainly, the first horizontal sealing eccentric cam（501）With the second horizontal sealing eccentric cam（502）It can distinguish Top laterally heats clutch shaft bearing corresponding to opening（422）With laterally hot melt second bearing（423）, will realize that first laterally heats block （410）Block is laterally heated with second（411）Mutually draw close and clamp and heat granule packaging bag bottom or top.

6. according to a kind of particles packing machine described in claim 1,2,3 or 4, it is characterised in that the pulling bag station（6）Bag Include active clamping wheel（601）, initiative drive shaft（602）, driven clamping wheel（603）, slave drive axle（604）, pulling bag fixed seat （605）, pulling bag buffing pad（606）, pulling bag adjusting yoke（607）, movable spring（608）, spring anchor block（609）, fastener （610）, pulling bag motor（61）, driving gear（611）, driven gear（612）, wherein：

The active clamping wheel（601）With driven clamping wheel（603）Mutually granule packaging bag, pulling bag motor are clamped side by side（61） Pass through its output shaft and driving gear（611）Coaxial transmission connects, driving gear（611）With driven gear（612）Between mutually It is connected by meshing transmission；Active clamping wheel（601）Pass through the initiative drive shaft with its integrally connected（602）Pulling bag is extended through to fix Seat（605）With driving gear（611）It is fixedly connected, driven clamping wheel（603）Pass through the slave drive axle with its integrally connected （604）Extend through pulling bag buffing pad（606）With driven gear（612）It is fixedly connected；Pulling bag fixed seat（605）Buffered with pulling bag Seat（606）It is arranged side by side, pulling bag adjusting yoke（607）For adjustment control pulling bag buffing pad（606）With pulling bag fixed seat（605） The distance between, and by fastener（610）By pulling bag buffing pad（606）With pulling bag fixed seat（605）It is locked；Pulling bag is delayed Red seat（606）Pass through movable spring（608）With spring anchor block（609）Connection.

7. according to a kind of particles packing machine described in claim 2, it is characterised in that in funnel（101）Set at bottom end opening It is equipped with and is shelved on rotary-tray for cleaning（106）One circle hairbrush of the particulate matter on upper surface（102）；The circle hairbrush（102） Pass through hairbrush retainer ring（103）Funnel is fixedly mounted（101）At bottom end opening.

8. according to a kind of particles packing machine described in claim 2, it is characterised in that in timing switch door（107）On run through There is timing switch door central rotating shaft（110）, the timing switch door central rotating shaft（110）Extend upward through and pass through rotary-tray（106）； In timing switch door central rotating shaft（110）Top be provided with perpendicular to the timing switch door central rotating shaft（110）Axial direction A piece opening bearing pin（111）, the opening bearing pin（111）With corresponding particle quantitative ring（105）Outer side edges are along spacing mating connection； Positioned at rotary-tray（106）The timing switch door central rotating shaft of lower section（110）It is arranged with pad successively from lower to upper（1101）、 Torsion spring（109）And collar（108）, wherein：Collar（108）It is fixedly mounted on rotary-tray（106）On bottom surface, pad（1101）With Timing switch door central rotating shaft（110）Bottom be fixedly connected, torsion spring（109）Respectively with pad（1101）, collar（108）Even Connect, and torsion spring（109）It is clamped in pad（1101）And collar（108）Between.

9. according to a kind of particles packing machine described in claim 2, it is characterised in that in timing switch door（107）On bottom surface It is provided with folding shape batten（112）, shutdown transverse arm（114）Upwardly extend and can with roll over shape batten（112）Outboard end（1122） Abut against, so as to realize to timing switch door（107）Spacing closure, and then allow particle quantitative ring（105）Repetition holds particle Thing；Enabling column（115）Upwardly extend and can with roll over shape batten（112）Medial extremity（1121）Abut against, so as to realize pair Timing switch door（107）Spacing opening, and then cause be contained in particle quantitative ring（105）Interior particulate matter, which is freely fallen into, to be located at In the packaging bag of packaging bag guiding trestle.

10. according to a kind of particles packing machine described in claim 3, it is characterised in that also include being used for i.e. real be locked The quantitative transmission collar stayed in during rotation（221）Or quantitative central shaft（200）Locking device（23）, the locking dress Put（23）Including handle ball（231）, quantitative locking transmission handle（232）And firmly quantitatively it is driven collar for the clip that stretches （221）Or quantitative central shaft（200）Snap ring（233）, handle ball（231）Handle is driven by quantitative locking（232）With card Ring（233）Connection.