CN107838048B - Triggering induction mechanism applied to Dynamic Weighting - Google Patents

Abstract

The present invention provides the triggering induction mechanisms for being applied to Dynamic Weighting comprising can be around own axis and the guide frictional disk moved along own axes direction, the sorting state switching mechanism with guide frictional disk coaxial line arrangement；The sorting state switching mechanism includes pressure control mechanism, switching mechanism, pressure control mechanism includes input component and output, the driving mechanism for power transmission is provided between input component and output, the output of the switching mechanism and pressure control mechanism is connected and is moved synchronously, and input component is connect with the output end of the second transmission mechanism；Pressure control mechanism can receive the trigger force applied when guide frictional disk is moved along own axes direction；When guide frictional disk is moved downward along own axes direction, guide frictional disk can apply downward active force to pressing ring and the direction for pushing friction pulley towards slip gear moves, and driving mechanism is made to be in drive state.

Description

Triggering induction mechanism applied to Dynamic Weighting

Technical field

The present invention relates to a kind of sorting devices, and in particular to a kind of mechanical weight sorting machine.

Background technique

In the actual production process, it is often necessary to the article of different weight be sorted, the sorting that the prior art provides Equipment mostly acquires information using sensor and is sorted by computer analysis cooperation, but shows slightly not in terms of Dynamic Weighting Foot, has some limitations, and constrain classification speed.

With the rapid development of the national economy, and under the promotion of e-commerce, to the significant increase of social logistics demand. Although China Logistics starting is slower, by development in recent years, there is significant progress in scale and development model, Following development prospect is still wide, meanwhile, competition also will be more fierce, for logistic industry, be rapidly performed by material point Classification transport, processing, are vital.

Summary of the invention

To solve the deficiencies in the prior art, the object of the present invention is to provide a kind of clever structure, sorting are reliable purely mechanic The weight sorting machine of formula can carry out quick material dynamic cataloging.

To realize the above-mentioned technical purpose, the technical solution adopted in the present invention is as follows.

Triggering induction mechanism applied to Dynamic Weighting comprising can be moved around own axis and along own axes direction The sorting state switching mechanism of dynamic guide frictional disk and guide frictional disk coaxial line arrangement；

The sorting state switching mechanism includes pressure control mechanism, switching mechanism, and pressure control mechanism includes input Part and output are provided with the driving mechanism for power transmission, the switching mechanism and pressure between input component and output The output of power control mechanism is connected and is moved synchronously, and input component is connect with the output end of the second transmission mechanism；

Pressure control mechanism can receive the trigger force applied when guide frictional disk is moved along own axes direction；

The pressure control mechanism includes slip gear, friction pulley, pressing ring, and wherein slip gear is input component, friction Wheel is output, and slip gear receives external impetus and around own axis, friction pulley and slip gear is coaxially arranged and position In the top of slip gear, above-mentioned driving mechanism is set between slip gear, friction pulley, and slip gear passes through driving mechanism Drive friction pulley rotation, and driving mechanism is arranged to switch between drive state and non-drive state, slip gear with rub It wipes and is additionally provided with return unit between wheel, return unit is elastic component, and elastic component one end contacts with slip gear, the other end and friction pulley Contact, the elastic power drive friction pulley of elastic component are moved along the direction that own rotation axis line is directed away from slip gear, pressure control Mechanism processed further includes in the fixed frame of fixed setting, and fixed frame includes annular pressing plate, annular pressing plate and friction pulley it is coaxially arranged and Above friction pulley, annular pressing plate is used to limit friction pulley and moves along own rotation axis line to the direction far from slip gear, For the pressing ring between friction pulley and annular pressing plate, pressing ring is coaxially arranged with friction pulley, and pressing ring is for receiving guide friction Trigger force that disk applies simultaneously controls driving mechanism and switches between drive state and non-drive state；

When guide frictional disk is moved downward along own axes direction, guide frictional disk can apply downward effect to pressing ring Power simultaneously pushes friction pulley to move towards the direction of slip gear, and driving mechanism is made to be in drive state；

The switching mechanism includes actuator and separator, the output company of actuator one end and pressure control mechanism Connect, the other end is connect by being arranged in the center of guide frictional disk and extending to the upper end of guide frictional disk with separator, drive Moving part, separator can be rectangular panel body, guide frictional disk and drive around the center axis thereof of guide frictional disk, the separator Weighing spring is additionally provided between moving part, the resilient force guide frictional disk of weighing spring is along actuator central axis towards far Direction movement from mainframe, actuator are also connected with the position-limit mechanism in fixed setting, and position-limit mechanism is for controlling actuator Around the rotation angle of own axes, to control the rotation angle of separator.

The further improvement of above-mentioned technical proposal.

Above-mentioned actuator includes bracket, shell, and bracket connect transmission with friction pulley, and the shell is circular cylindrical shape cylinder Body, the central axis of shell and the central axis of friction pulley are consistent, and shell is divided into upper housing, lower case, upper housing and lower casing The interface of body is formed with the built-in step narrowed along upper housing inner cavity wall portion circumference to center, which can also be used in pair Guide frictional disk carries out the limit on vertical direction.

The further improvement of above-mentioned technical proposal.

Above-mentioned position-limit mechanism includes the position-limited rack for being in fixed setting, offers limit arc groove on the position-limited rack, The gag lever post to match with limit arc groove is installed, gag lever post can be in limit arc groove along limit arc on the bracket The guide direction of slot moves, and when gag lever post moves to the starting point of limit arc groove, switching mechanism is in original state, limit When bar moves to the terminal of limit arc groove, switching mechanism is in running order, and the bracket is also connected with for driving it The first back-moving spring of reset.

The further improvement of above-mentioned technical proposal.

Secondary material guide mechanism is also equipped on switching mechanism, secondary material guide mechanism includes auxiliary feed mechanism, is equipped in shell Can along own axis and coaxially arranged with shell transmission shaft, one end of transmission shaft stretch out lower case and protrude into bracket and The end is coaxially installed with gear five, and the other end of transmission shaft is equipped with auxiliary feed mechanism, and auxiliary feed mechanism is by opening up Upper housing is stretched out in the rectangular through-hole on upper housing periphery and along the radial distribution of guide frictional disk, the receivable outside of gear five Power simultaneously transmits power to transmission shaft；

The auxiliary feed mechanism includes drive roll, driven voller, mounting rack, and mounting rack includes two pieces of mounting plates and two pieces Mounting plate is located at the end side of separator width direction, and wherein one end of mounting rack is fixedly connected with upper housing, drive roll, from Dynamic roller is cylindrical body, and wherein drive roll coaxially offers inner cavity, the central axial direction of drive roll and the width side of separator To consistent, drive roll, driven voller parallel interval are set between two mounting plates and drive roll, driven voller can turn around own axes Dynamic, the drive roll and above-mentioned built-in step cooperation coaxial sleeve are set to the outside of transmission shaft, and can receive the rotation of transmission shaft Power, the driven voller are movably installed between two mounting plates, and driven voller can be around own axis, drive roll, driven voller Between be arranged with conveyer belt body, conveyer belt body can move between drive roll, driven voller under the driving of transmission shaft, above-mentioned point Spacing body is located between two pieces of mounting plates and between drive roll and driven voller, is fixedly connected between separator and two mounting plates.

The further improvement of above-mentioned technical proposal.

The driving mechanism is to be set to slip gear and the form friction pattern one on friction pulley counterface and be opened in Form friction pattern two on friction pulley and slip gear counterface, the elastic component second back-moving spring, second back-moving spring are Cylindrically coiled spring and be compressed spring, offers and second back-moving spring at the end face center of slip gear and friction pulley cooperation It is offered and the matched circular groove of second back-moving spring at the end face center of matched circular groove one, friction pulley and slip gear cooperation Two, second back-moving spring one end be located in circular groove one and with the slot bottom of circular groove one support it is real contact, the other end is located in circular groove two and Real contact is supported with the slot bottom of circular groove two.

The further improvement of above-mentioned technical proposal.

The pressing ring includes annular preform, drive section, and annular preform is coaxially arranged with friction pulley, and drive section, which is stretched out, fixes Outside frame, drive section is used to receive the trigger force of guide frictional disk application and the trigger force is transferred to annular preform, the triggering Power is used to control the contact and disconnection between slip gear and friction pulley.

The further improvement of above-mentioned technical proposal.

The connecting rod for transmitting trigger force is provided between the guide frictional disk and pressing ring, connecting rod one end is rubbed with guide The basal sliding contact of wiping disk, the other end are contacted with the drive section on pressing ring, are offered in the drive section and are matched with connecting rod And for preventing gag lever post and drive section to be detached from the arc limit slot of cooperation.

The further improvement of above-mentioned technical proposal.

Drive section is also connected with auxiliary reset mechanism, and auxiliary reset mechanism is realized with return unit cooperation and answered friction pulley Position, the auxiliary reset mechanism includes the guide post for being set to drive section, third reset spring, the elastic force of third reset spring Driving pressing ring is moved along own axes towards the direction close to annular pressing plate.

The beneficial effect of the present invention compared with prior art is that the present invention is realized by purely mechanic mode to not homogeneity The automatic sorting of article is measured, simple and reasonable, the sensor sorting that high reliablity and its cost use compared to the prior art It is lower and the service life is longer.

Detailed description of the invention

In order to illustrate the embodiments of the present invention more clearly, attached drawing needed in the embodiment will be done simply below It introduces, it should be apparent that, drawings in the following description are only some embodiments of the invention, for ordinary skill people For member, without creative efforts, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is overall structure diagram of the invention.

Fig. 2 is overall structure diagram of the invention.

Fig. 3 is one schematic diagram of sorting state of the invention.

Fig. 4 is two schematic diagram of sorting state of the invention.

Fig. 5 is the cooperation schematic diagram of main material guide mechanism and secondary material guide mechanism of the invention.

Fig. 6 is leading material structural scheme of mechanism of the invention.

Fig. 7 is secondary material guide mechanism schematic diagram of the invention.

Fig. 8 is secondary material guide mechanism schematic diagram of the invention.

Fig. 9 is the actuator schematic diagram of secondary material guide mechanism of the invention.

Figure 10 is the cooperation schematic diagram of sorting state switching mechanism and secondary material guide mechanism of the invention.

Figure 11 is the cross-sectional view of secondary material guide mechanism and shell cooperation of the invention.

Figure 12 is the cooperation schematic diagram of friction pulley and bracket of the invention.

Figure 13 is sorting state switching mechanism schematic diagram of the invention.

Figure 14 is pressure control mechanism schematic diagram of the invention.

Figure 15 is pressure control mechanism cross-sectional view of the invention.

Figure 16 is ring pressing construction schematic diagram of the invention.

Figure 17 is structure of friction wheel schematic diagram of the invention.

Figure 18 is slip gear structural schematic diagram of the invention.

Figure 19 is that pressure control mechanism of the invention and main material guide mechanism cooperate schematic diagram.

Figure 20 is bracket of the invention, position-limit mechanism, the cooperation schematic diagram between first back-moving spring.

It is denoted as in figure:

100, mainframe；

110, sub-frame；

120, position-limited rack；121, arc groove is limited；122, first back-moving spring；

200, conveying mechanism；

300, mechanism for sorting；

310, main material guide mechanism；311, motor；312, driving wheel；313, belt；314, driven wheel；315, shaft；316, Gear one；317, gear two；318, guide frictional disk；318a, guide pad；319, weighing spring；

320, state switching mechanism is sorted；321, pressure control mechanism；321a, slip gear；321a1, form friction pattern one； 321a2, circular groove one；321b, second back-moving spring；321c, friction pulley；321c1, connecting shaft；321c2, frictional disk ontology；321c3, External splines one；321c4, form friction pattern two；321c5, circular groove two；321d, pressing ring；321d1, annular preform；321d2, drive section； 321d3, pressure roller；321d4, arc limit slot；321d5, guide post；321d6, third reset spring；321e, connecting rod；321e1, it leads Wheel；322, bracket；322a, gag lever post；322b, sleeve；322bb, internal spline one；323, shell；323a, upper housing；323b, under Shell；324, the second transmission mechanism；324a, gear three；324b, transition gear；

330, sorting slot；331, deflector chute；332, discharge port one；333, discharge port two；

340, secondary material guide mechanism；341, gear four；342, gear five；343, transmission shaft；343a, light bar segment；343b, outer flower Key two；344, auxiliary feed mechanism；344a, driven voller；344b, conveyer belt body；344c drive roll；344c1, internal spline two.

Specific embodiment

With reference to the attached drawing in the embodiment of the present invention, technical solution in the embodiment of the present invention carries out clear, complete Ground description, it is clear that described embodiments are only a part of the embodiments of the present invention, rather than whole embodiments.Based on this hair Embodiment in bright, those of ordinary skill in the art without making creative work, every other reality obtained Example is applied, the scope of the present invention is belonged to.

The first embodiment of the present invention.

As shown in Fig. 1-2 0, the category sorting equipment of logistics transportation part Dynamic Weighting, including mainframe 100, mainframe 100 On be provided with conveying mechanism 200, mechanism for sorting 300, power mechanism, the delivery end of conveying mechanism 200 and mechanism for sorting 300 into Expect end connection, mainframe 100 is used to provide conveying mechanism 200 and mechanism for sorting 300 support, and conveying mechanism 200 is for will be to Segregating articles are transported to mechanism for sorting 300, and mechanism for sorting 300 is for sorting the article of different weight, and being arranged to can Switch under different sorting states, power mechanism is for power needed for providing mechanism for sorting 300, the mechanism for sorting 300 Including main material guide mechanism 310, sorting slot 330, sorting state switching mechanism 320, the feed inlet and conveying mechanism of sorting slot 330 200 delivery end connection, the discharge end of sorting slot 330 is provided with the discharge port being discharged for article after the completion of sorting, described Main material guide mechanism 310 is set to the bottom of sorting slot 330, and main material guide mechanism 310 will be for that will enter sorting slot by conveying mechanism 200 The goods transportation to be sorted of 330 feed inlets sorts state switching mechanism 320 and is set to sorting slot to the discharge port of sorting slot 330 At 330 center, sorting state switching mechanism 320 and the cooperation of main material guide mechanism 310 are realized and are divided the article of different weight It picks.

More specifically, the power mechanism includes power supply device, transmission mechanism, and power supply device is connected to The driving end of transmission mechanism, main material guide mechanism 310 obtain the power of power supply device, sorting state switching by transmission mechanism Mechanism 320 obtains the power of power supply device by transmission mechanism, and the transmission mechanism includes the first transmission mechanism, second Transmission mechanism, power supply device are connected to the driving end of the first transmission mechanism, the output end connection second of the first transmission mechanism The driving end of transmission mechanism.

The main material guide mechanism 310 includes guide frictional disk 318, and guide frictional disk 318 can be in the second transmission mechanism It is rotated in sorting slot 330 under driving around own axes, to utilize the contact between article to be sorted and guide frictional disk 318 Frictional force drives article to be sorted moves synchronously.

The sorting state switching mechanism 320 includes pressure control mechanism 321, switching mechanism, pressure control mechanism 321 The driving mechanism for power transmission, the switching are provided with including input component and output, between input component and output Mechanism connect and moves synchronously with the output of pressure control mechanism 321, and input component is connect with the output end of the second transmission mechanism.

More specifically, the sorting slot 330 includes deflector chute 331, and deflector chute 331 is circle, is set on deflector chute 331 It is equipped with feed inlet, feed inlet connect connection with the delivery end of conveying mechanism 200, discharge port is additionally provided on deflector chute 331, preferably , feed inlet, discharge port are placed in one end of 331 diameter of deflector chute, and the discharge port includes discharge port 1 and discharge port 2 333, and be provided between discharge port 1, discharge port 2 333 for isolated partition.

Sub-frame 110 is additionally provided in the mainframe 100, sub-frame 110 is for installing power mechanism, main material guiding machine Structure 310, sorting state switching mechanism 320, are detachably connected between sub-frame 110 and mainframe 100, the advantage is that, handset Frame 110 convenient for modularized production assembling while can be also convenient for subsequent maintenance guarantor with integral installation and disassembly in mainframe 100 It supports, the power supply device is preferably motor 311, the output shaft axis of motor 311 and the conveying direction of conveying mechanism 200 Vertically, the output shaft end of motor 311 is equipped with driving wheel 312, and the driving end of the second transmission mechanism is equipped with driven wheel 314, main Driving wheel 312, driven wheel 314 be belt pulley perhaps between sprocket wheel and driving wheel 312, driven wheel 314 by belt 313 or Chain connection transmission, the second transmission mechanism include drive shaft 315, and the driving end cap of drive shaft 315 is equipped with driven wheel 314, driving Three 324a of gear, gear one are also sequentially coaxially arranged between 315 output end of driven wheel 314 and drive shaft on axis 315 316,315 central axis of drive shaft is parallel with the output shaft axis of motor 311, three 324a of gear, gear one 316 can be under the driving of drive shaft 315 around the center axis thereof of drive shaft.

The guide frictional disk 318 be with the matched disk of deflector chute 331, deflector chute 331 is along guide frictional disk 318 Circumference is surrounded on the periphery of guide frictional disk 318, and the center of guide frictional disk 318, which goes out, offers avoid holes, guide friction It is coaxially installed with connection sleeve at the lower surface center of disk 318, coaxial sleeve on the periphery of sleeve is connected and is equipped with gear 2 317, The central axis of gear 2 317 and the centerline axis parallel of gear 1,317 engaged transmission of gear 1 and gear, guide Frictional disk 318 can be moved synchronously with gear 2 317.

More optimize, the surface that guide frictional disk 318 is contacted with article to be sorted is additionally provided with guide pad 318a, guide Block 318a is the convex block of setting with 318 upper surface of guide frictional disk, and guide pad 318a is provided with several and along guide frictional disk 318 circumferencial direction is evenly spaced on, and is advantageous in that, can increase guide frictional disk 318 and article to be sorted is indirectly The degree of roughness of contacting surface is dynamic friction factor by the μ in friction formula f=μ N(formula, is also the coefficient of sliding friction, it is only with material Material, contact surface degree of roughness are related；N is normal pressure) know, when Item Weight to be sorted is constant, i.e., article and guide to be sorted When the normal pressure contacted between frictional disk 318 is constant, frictional force can be therewith wait divide between article and guide frictional disk 318 to be sorted It picks the increase of contact surface degree of roughness between article and guide frictional disk 318 and increases, so that it is right to be conducive to guide frictional disk 318 Effective transport of article to be sorted.

The switching mechanism includes actuator and separator, the output of actuator one end and pressure control mechanism 321 Connection, the other end are protruded into deflector chute 311 across guide frictional disk 318 by avoid holes and are connect with separator, the rotation of actuator Shaft axis is parallel with the output shaft axis of motor 311, and the separator is rectangular panel body, one end on separator length direction Portion connect with actuator, the 331 inner cavity wall portion sliding contact of the other end and deflector chute, the length direction of separator and actuator Rotation axis is vertical and the width direction of separator and the rotation axis of actuator are parallel, it is preferred that the width of separator is greater than Or the groove depth equal to deflector chute 311, the end that separator is contacted with deflector chute 331 are provided with arc surface, separator and guide The end that slot 331 contacts can be slided around the rotation axis of actuator along the inner cavity wall portion of deflector chute 311 under the driving of the driving member Dynamic, the switching mechanism in the present embodiment possesses two states, and one is original state (when the article of sorting lighter weight), to Segregating articles are entered sorting slot 330 by feed inlet by conveying mechanism 200 and are fallen on guide frictional disk 318, to be sorted at this time The lighter in weight of article is not enough to trigger pressure control mechanism 321, and separator is in original state, and separator is located at discharge port two 333 right side, discharge port 1, discharge port 2 333 are in opening state, and guide frictional disk 318 rotates counterclockwise, wait divide Article is picked to be moved under the conveying of guide frictional disk 318 from feed inlet to discharge port, when article to be sorted encounters separator, Sorting slot 330 is discharged by discharge port 2 333 under the guiding role of separator, completes sorting；Secondly being, working condition (is sorted When the biggish article of quality), article to be sorted, which enters sorting slot 330 by feed inlet by conveying mechanism 200 and falls into guide, to rub It wipes on disk 318, at this time since the weight of article to be sorted is larger, pressure control mechanism 321 is triggered, and pressure control mechanism 321 drives Separator clockwise movement is moved, and is moved at the partition between discharge port 1 and discharge port 333, at this time discharge port 1 In an ON state, discharge port 2 333 is in an off state, and guide frictional disk 318 rotates counterclockwise, and article to be sorted is in guide It is moved under the conveying of frictional disk 318 from feed inlet to discharge port, when article to be sorted encounters separator, in the guiding of separator Sorting slot 330 is discharged by discharge port 1 under effect, completes sorting；When article to be sorted becomes the article of lighter weight again When, separator restores to original state, repeatedly, to realize the sorting to different weight article.

More specifically, the guide frictional disk 318 be sheathed on actuator outside and can be along the central axis of actuator Line movement, is additionally provided with weighing spring 319, the resilient force of weighing spring 319 is led between guide frictional disk 318 and actuator Material frictional disk 318 is moved along the direction that actuator central axis is directed away from mainframe 100, between actuator and sub-frame 110 It is additionally provided with position-limit mechanism, position-limit mechanism is for controlling rotation angle of the actuator around own axes, to control separator Angle is rotated, and when actuator moves to the starting point of position-limit mechanism, switching mechanism is in original state, and actuator moves to limit When the terminal of mechanism, switching mechanism is in running order.

The pressure control mechanism 321 includes slip gear 321a, return unit, friction pulley 321c, pressing ring 321d, fixation Frame, wherein slip gear 321a is input component, friction pulley 321c is output, and the slip gear 321a is circular disk body, Sawtooth is provided on the periphery of slip gear 321a, slip gear 321a is movably installed in sub-frame 110, slip gear 321a can be around own axis, and the rotation axis of slip gear 321a is parallel with the output shaft axis of motor 311, friction pulley 321c and slip gear 321a is coaxially arranged and is located at the top of slip gear 321a, slip gear 321a and friction pulley 321c it Between be provided with driving mechanism, slip gear 321a drives friction pulley 321c to rotate by driving mechanism, and driving mechanism is arranged to It can switch between drive state and non-drive state, be additionally provided with return unit between slip gear 321a and friction pulley 321c, Preferably, return unit is elastic component, and elastic component one end is contacted with slip gear 321a, the other end is contacted with friction pulley 321c, bullet The elastic power drive friction pulley 321c of property part is moved along the direction that own rotation axis line is directed away from slip gear 321a, described Fixed frame includes annular pressing plate and stabilizer blade, and annular pressing plate is coaxially arranged with friction pulley 321c and is located above friction pulley 321c, Stabilizer blade is between submounts and annular pressing plate, and stabilizer blade one end and submounts are detachably connected, the other end and annular pressing plate outer circle Face is fixedly connected, it is preferred that stabilizer blade is arranged several and is spaced apart along the even circumferential of annular pressing plate, is advantageous in that, makes Annular pressing plate is stronger, fixed frame is used to limiting friction pulley 321c along own rotation axis line to far from slip gear 321a Direction movement, for the pressing ring 321d between friction pulley 321c and annular pressing plate, pressing ring 321d and friction pulley 321c are coaxial Arrangement, pressing ring 321d switch between drive state and non-drive state for receiving trigger force and controlling driving mechanism, gear Be provided between three 324a, slip gear 321a for make slip gear 321a turn to turn to guide frictional disk 318 it is opposite Transition gear 324b, three 324a of gear and transition gear 324b engaged transmission, transition gear 324b are engaged with slip gear 324a Transmission.

More specifically, the driving mechanism is to be set on slip gear 321a and friction pulley 321c counterface One 321a1 of form friction pattern and two 321c4 of form friction pattern being opened on friction pulley 321c and slip gear 321a counterface, when to When segregating articles lighter in weight, trigger force suffered by pressing ring 321d can not overcome the elastic force of elastic component, slip gear 321a It is in separated position under the action of the elastic member between friction pulley 321c, slip gear 321a is under the driving of three 324a of gear Dally around own axes, at this point, switching mechanism is in original state, when Item Weight to be sorted is heavier, pressing ring 321d by Trigger force it is larger, which overcomes the elastic force of elastic component that slip gear 321a and friction pulley 321c are contacted with pressure, Slip gear 321a drives friction pulley 321c rotation by contact friction force, meanwhile, what friction pulley 321c driving was attached thereto cuts Structure of changing planes moves synchronously, and switching mechanism is in running order at this time, when the weight of article to be sorted lightens again, due to applying Trigger force on to pressing ring 321d reduces, the elastic force of elastic component overcome the trigger force make friction pulley 321c again with friction teeth It takes turns 321a to separate, switching mechanism is restored by working condition to original state, repeatedly, to realize to different weight article Sorting.

More specifically, the elastic component second back-moving spring 321b, it is preferred that second back-moving spring 321b is cylinder Helical spring and be compressed spring, slip gear 321a and friction pulley 321c cooperation end face center at offer and second reset It is offered at the end face center of spring 321b matched one 321a2 of circular groove, friction pulley 321c and slip gear 321a cooperation and the Matched two 321c5 of circular groove of two reset spring 321b, the one end second back-moving spring 321b is located in one 321a2 of circular groove and and circular groove The slot bottom of one 321a2 supports real contact, the other end is located in two 321c5 of circular groove and supports real contact with the slot bottom of two 321c5 of circular groove.

The pressing ring 321d includes annular preform 321d1, drive section 321d2, annular preform 321d1 and friction pulley 321c Coaxially arranged, drive section 321d2 stretches out outside fixed frame, and drive section 321d2 is for receiving trigger force and transmitting the trigger force To annular preform 321d1, which is used to control the contact and disconnection between slip gear 321a and friction pulley 321c, annular Pressure roller 321d3 is provided on the end face of tabletting 321d1 and friction pulley 321c cooperation, the pressure roller 321d3 is cylindrical body, pressure roller 321d3 can be located at the lower section of minimum point on annular preform 321d1 around the minimum point on own axis and pressure roller 321d3, excellent Choosing, there are two pressure roller 321d3 settings and the side for the annular preform 321d1 diameter that is placed in, its significance lies in that, by annular preform The line that face contact between 321d1 and friction pulley 321c is converted between pressure roller 321d3 and friction pulley 321c contacts, and is more advantageous to Compacting of the annular preform 321d1 to friction pulley 321c, thus improve be driven between friction pulley 321c and slip gear 321a it is flat It is pliable, the phenomenon that uniformly distributed one 321a1 of form friction pattern and two 321c4 inordinate wear of form friction pattern are caused due to unbalance stress is reduced, together When, pressure roller 321d3 can reduce annular preform 321d1 and friction pulley as the rotation of friction pulley 321c is around own axis 321c directly contacts caused abrasion, the service life of pressing ring 321d is extended, to save use cost.

The connecting rod 321e for transmitting trigger force, connecting rod are provided between the guide frictional disk 318 and pressing ring 321d The one end 321e is contacted with the basal sliding contact of guide frictional disk 318, the other end with the drive section 321d2 on pressing ring 321d, excellent Choosing, the end that connecting rod 321e is contacted with guide frictional disk 318 is provided with can be around the guide wheel 321e1 of own axis, guide wheel The pivot center of 321e1 is vertical with the short transverse of connecting rod 321e, its significance lies in that, by connecting rod 321e and guide frictional disk 318 Between sliding friction be converted to rolling friction, reduce the frictional resistance that connecting rod 321e is moved on guide frictional disk 318, benefit In the transmitting of trigger force, while the abrasion of connecting rod 321e is also reduced, is offered on the drive section 321d2 and connecting rod 321e Matched arc limit slot 321d4, arc limit slot 321d4 cooperate for preventing gag lever post 321e and drive section 321d2 to be detached from, Auxiliary reset mechanism, auxiliary reset mechanism and return unit cooperation realization pair are additionally provided between drive section 321d2 and sub-frame 110 The reset of friction pulley 321c, the auxiliary reset mechanism include being set to drive section towards the guide post on 110 end face of sub-frame 321d5, third reset spring 321d6, the one end third reset spring 321d6 are sheathed on outside and and the drive section of guide post 321d5 321d2 supports real contact, the other end is supported with sub-frame 110 and contacted in fact, the elastic power drive pressing ring 321d of third reset spring 321d6 It is moved along own axes towards the direction close to annular pressing plate.

The mechanism for sorting 300 further includes secondary material guide mechanism 340, and secondary material guide mechanism 340 is set on switching mechanism, secondary Material guide mechanism 340 is used to cooperate the conveying and sorting for preferably realizing article with switching mechanism and main material guide mechanism 310, secondary Material guide mechanism 340 includes auxiliary feed mechanism 344, and above-mentioned actuator includes bracket 322, shell 323, bracket 322 and shell 323 are detachably connected, and bracket 322 connect transmission with friction pulley 321c, and the shell 323 is circular cylindrical shape cylinder, shell 323 Central axis it is consistent with the central axis of friction pulley 321c, and shell 323 divides for upper housing 323a, lower case 323b, upper casing The interface of body 323a and lower case 323b is formed with the built-in step narrowed along the inner cavity upper housing 323a wall portion circumference to center The built-in step can also be used to carry out guide frictional disk the limit on vertical direction, and being equipped in shell 323 can be along itself axis Line rotation and coaxially arranged with shell 323 transmission shaft 343, one end of transmission shaft 343 stretch out lower case 323b and protrude into branch Frame 322 and the end are coaxially installed with gear 5 342, and the other end of transmission shaft 343 is equipped with auxiliary feed mechanism 344, auxiliary Conveying mechanism 344 by the rectangular through-hole that is opened on upper housing 323a periphery stretch out upper housing 323a and with deflector chute 331 Inner cavity wall portion sliding contact, in drive shaft 315 coaxial sleeve be equipped with match with gear 5 342 engaged transmission gear 4 341, tooth Take turns 4 341 engaged with gear 5 342 can drive auxiliary feed mechanism 344 move.

More specifically, the friction pulley 321c include connecting shaft 321c1, friction pulley ontology 321c2, connecting shaft 321c1 with Friction pulley ontology 321c2 is fixedly connected and arranged concentric, and the end face of the bracket 322 and friction pulley 321c cooperation is provided with company Female connector cylinder 322b, connects sleeve 322b and shell 323 is coaxially arranged, and connecting shaft 321c1 matches transmission and company with sleeve 322b is connect Axis 321c1 axis movement can occur relative to connection sleeve 322b and still carry out power transmission, it is preferred that the connecting shaft One 321c3 of external splines is provided on 321c1 periphery, the connection inner cavity sleeve 322b wall portion is provided with and above-mentioned external splines one Internal spline one 322bb, one 321c3 of external splines and one 322bb of internal spline that 321c3 matches cooperate so that connecting shaft 321c1 axis movement can only occur relative to connection sleeve 322b and still carry out power transmission, the auxiliary feed mechanism 344 include drive roll 344c, driven voller 344a, mounting rack, and mounting rack includes two pieces of mounting plates and two pieces of mounting plates are located at The end side of separator width direction, wherein one end of mounting rack is fixedly connected with upper housing 323a, drive roll 344c, driven voller 344a is cylindrical body, and wherein drive roll 344c coaxially offers inner cavity, the central axial direction and separator of drive roll 344c Width direction it is consistent, drive roll 344c, driven voller 344a parallel interval is set between two mounting plates and drive roll 344c, from Dynamic roller 344a can be set to transmission shaft around own axis, the drive roll 344c and above-mentioned built-in step cooperation coaxial sleeve 343 outside, and can receive the rotary force of transmission shaft 343, the driven voller 344a is movably installed between two mounting plates, and Driven voller 344a can be arranged with conveyer belt body 344b, conveyer belt between own axis, drive roll 344c, driven voller 344a Body 344b can moved between drive roll 344c, driven voller 344a under the driving of transmission shaft 343, and above-mentioned separator is located at two Between block mounting plate and between drive roll 344c and driven voller 344a, it is fixedly connected between separator and two mounting plates, Meaning is, so that drive roll 344c, driven voller 344a, separator and upper housing 323a are relatively fixed, so that auxiliary is defeated Send mechanism 344 to remain unchanged in deflection the gap between rectangular through-hole, avoid auxiliary feed mechanism 344 and rectangular through-hole it Between contact generate friction so that conveyer belt body 344b stuck phenomenon.

More specifically, the matched end drive roll 344c is provided with two 343b of external splines, drive roll on transmission shaft 343 Two 344c1 of internal spline to match with above-mentioned two 343b of external splines, two 343b of external splines, internal spline two are provided in the inner cavity 344c 344c1 cooperates so that transmission shaft 343 can only be set on the zone face outside along drive roll 344c axial-movement, conveyer belt body 344b It is equipped with friction raised line, is advantageous in that, the contact friction force between conveyer belt body 344b and article to be sorted can be increased, thus More effectively segregating articles are treated to be sorted and transported.

Above-mentioned position-limit mechanism includes position-limited rack 120, and position-limited rack 120 is fixed between sub-frame 110 and bracket 322, institute Limit arc groove 121 is offered on the position-limited rack 120 stated, and is equipped on the bracket 322 and is matched with limit arc groove 121 Gag lever post 322a, gag lever post 322a can the guide direction in limit arc groove 121 along limit arc groove 121 move, and work as When gag lever post 322a moves to the starting point of limit arc groove 121, switching mechanism is in original state, and gag lever post 322a moves to limit When the terminal of position arc groove, switching mechanism is in running order.

More optimize, first back-moving spring 122 is additionally provided between the bracket 322 and sub-frame 110, first is multiple Position 122 one end of spring is connect with bracket 322, the other end and sub-frame 110 connect, the elastic power drive of first back-moving spring 122 Bracket 322 is moved from the terminal of limit arc groove 121 to starting point along the guide direction of limit arc groove 121.

In actual work, article to be sorted is by the transport of conveying mechanism 200 extremely friction material guiding plate 318, when article to be sorted When lighter in weight, the weight of article to be sorted can not overcome the elasticity tension of weighing spring 319 and second back-moving spring 321b, Friction pulley 321c and slip gear 321a is in discrete state, and sorting state switching mechanism 320 is in the original state not worked, At this point, gag lever post 322a is located at the starting point of limit arc groove 131, first back-moving spring 122 is in natural length state, separator And the auxiliary feed mechanism 344 being arranged on is located at the right side of discharge port 2 333, discharge port 1, discharge port 2 333 It is in opening state, guide frictional disk 318 rotates counterclockwise under the driving of motor 311, and article to be sorted is in guide friction It is moved under the conveying of disk 318 from feed inlet to discharge port, when article to be sorted encounters separator, article to be sorted and auxiliary are defeated Send mechanism 344 contact, auxiliary feed mechanism 344 make under the driving of motor 311 conveyer belt body by by article to be sorted by leading Dynamic roller 344c is rotated to the direction of driven voller 344a, in the common work that the guiding and auxiliary feed mechanism 344 of separator are transported Sorting slot 330 is discharged by discharge port 2 333 in article to be sorted under, completes sorting；

When Item Weight to be sorted is larger, article to be sorted overcomes weighing spring 319 and second back-moving spring 321b Elasticity tension, guide frictional disk 318 moves along the central axis of actuator to close to the direction of 100 bottom of rack, and guide rubs It wipes 318 drive link 321e of disk to move synchronously, connecting rod 321e drives pressing ring 321d to move synchronously by drive section 321d2, into one Step, pressing ring 321d driving friction pulley 321c overcomes the elasticity tension of second back-moving spring 321b in conjunction with slip gear 321a, Motor 311 drives slip gear 321a to rotate clockwise, and further, slip gear 321a passes through friction pulley 321c driving driving Part moves synchronously, and actuator drives separator synchronous deflection, when gag lever post 322a moves to the terminal of limit arc groove 121, Actuator stop motion, at this point, actuator moves at the partition between discharge port 1 and discharge port 333, discharge port one 332 in an ON state, and discharge port 2 333 is in an off state, and first back-moving spring 122 is in tensional state, guide friction Disk 318 rotates counterclockwise under the driving of motor 311, article to be sorted under the conveying of guide frictional disk 318 from feed inlet to Discharge port movement, when article to be sorted encounters separator, article to be sorted is contacted with auxiliary feed mechanism 344, auxiliary conveying Mechanism 344 make under the driving of motor 311 conveyer belt body from by article to be sorted from drive roll 344c to driven voller 344a's Direction rotation is discharged by discharge port 1 under the collective effect of guiding and the auxiliary feed mechanism transport of separator and is sorted Slot 330 completes sorting；When article to be sorted becomes the article of lighter weight again, the weight of article to be sorted can not overcome The elasticity tension of weighing spring 319 and second back-moving spring 321b, slip gear 321a and friction pulley 321c are multiple second It is separated from each other under the action of the elastic force and third reset spring 321d6 of position spring, sorts state switching mechanism 320 by working State is converted to original state, and the elastic force driving arm 322 of first back-moving spring 122 is along the guiding side of limit arc groove 121 Starting point is moved to the terminal by limit arc groove 121, separator is moved synchronously by actuator, and separator restores to initial shape State, repeatedly, to realize the sorting to different weight article.

The Dynamic Weighting classification method of logistics transportation part, step are:

S1: article to be sorted is by the transport of conveying mechanism 200 extremely friction material guiding plate 318, when Item Weight to be sorted is lighter When, the weight of article to be sorted can not overcome the elasticity tension of weighing spring 319 and second back-moving spring 321b, friction pulley 321c and slip gear 321a is in discrete state, and sorting state switching mechanism 320 is in the original state not worked, at this point, Gag lever post 322a is located at the starting point of limit arc groove 131, and first back-moving spring 122 is in natural length state, separator and The auxiliary feed mechanism 344 being arranged on is located at the right side of discharge port 2 333, and discharge port 1, discharge port 2 333 are located In opening state；

S2: guide frictional disk 318 rotates counterclockwise under the driving of motor 311, and article to be sorted is in guide frictional disk 318 Conveying under moved from feed inlet to discharge port, when article to be sorted encounters separator, article and subsidiary conveyer to be sorted Structure 344 contact, auxiliary feed mechanism make under the driving of motor 311 conveyer belt body by by article to be sorted by drive roll 344c It is rotated to the direction of driven voller 344a, the object to be sorted under the collective effect of guiding and the auxiliary feed mechanism transport of separator Sorting slot 330 is discharged by discharge port 2 333 in product, completes sorting；

S3: when Item Weight to be sorted is larger, article to be sorted overcomes weighing spring 319 and second back-moving spring The elasticity tension of 321b, guide frictional disk 318 are moved to the direction close to 100 bottom of rack along the central axis of actuator, are led Material 318 drive link 321e of frictional disk is moved synchronously, and connecting rod 321e drives pressing ring 321d to move synchronously by drive section 321d2, Further, pressing ring 321d drives friction pulley 321c that the elasticity tension of second back-moving spring 321b and slip gear 321a is overcome to tie It closes, motor 311 drives slip gear 321a to rotate clockwise, and further, slip gear 321a is driven by friction pulley 321c Actuator moves synchronously, and actuator drives separator synchronous deflection, when gag lever post 322a moves to the terminal of limit arc groove 121 When, actuator stop motion, at this point, separator moves at the partition between discharge port 1 and discharge port 333, discharge port One 332 in an ON state, and discharge port 2 333 is in an off state, and first back-moving spring 122 is in tensional state；

S4: guide frictional disk 318 rotates counterclockwise under the driving of motor 311, and article to be sorted is in guide frictional disk 318 Conveying under moved from feed inlet to discharge port, when article to be sorted encounters separator, article and subsidiary conveyer to be sorted Structure 344 contact, auxiliary feed mechanism make under the driving of motor 311 conveyer belt body by by article to be sorted by drive roll 344c It is rotated to the direction of driven voller 344a, by discharge port under the collective effect of guiding and the auxiliary feed mechanism transport of separator One 332 discharge sorting slots 330, complete sorting；

S5: when article to be sorted becomes the article of lighter weight again, the weight of article to be sorted can not overcome weighing The elasticity tension of spring 319 and second back-moving spring 321b, slip gear 321a and friction pulley 321c reset bullet second It is separated from each other under the resilient force of spring 321b and third reset spring 321d6, sorts state switching mechanism 320 by work shape State is converted to original state, and the elastic force driving arm 322 of first back-moving spring 122 is along the guide direction for limiting arc groove 121 Starting point is moved to by the terminal of limit arc groove 121, separator is moved synchronously by actuator, and separator restores to initial shape State, repeatedly, to realize the sorting to different weight article.

The foregoing description of the disclosed embodiments enables those skilled in the art to implement or use the present invention； Various modifications to these embodiments will be readily apparent to those skilled in the art, defined in the present invention General Principle can be realized in other embodiments in the case where not departing from spirit or scope of the invention.Therefore, originally Invention will not be defined to the embodiments shown herein, and be to fit to and the principles and novel features disclosed herein Consistent widest scope.

Claims (8)

1. being applied to the triggering induction mechanism of Dynamic Weighting, which is characterized in that it includes can be around own axis and along itself The mobile guide frictional disk of axis direction, the sorting state switching mechanism with guide frictional disk coaxial line arrangement；

The sorting state switching mechanism includes pressure control mechanism, switching mechanism, pressure control mechanism include input component and Output is provided with the driving mechanism for power transmission, the switching mechanism and pressure control between input component and output The output of mechanism processed is connected and is moved synchronously, and input component is connect with the output end of the second transmission mechanism；

Pressure control mechanism can receive the trigger force applied when guide frictional disk is moved along own axes direction；

The pressure control mechanism includes slip gear, friction pulley, pressing ring, and wherein slip gear is input component, friction pulley is Output, slip gear receive external impetus and around own axis, and friction pulley is coaxially arranged with slip gear and positioned at rubbing The top of gear is wiped, above-mentioned driving mechanism is set between slip gear, friction pulley, and slip gear is driven by driving mechanism Friction pulley rotation, and driving mechanism is arranged to switch between drive state and non-drive state, slip gear and friction pulley Between be additionally provided with return unit, return unit is elastic component, and elastic component one end is contacted with slip gear, the other end and friction pulley connect Touching, the elastic power drive friction pulley of elastic component are moved along the direction that own rotation axis line is directed away from slip gear, pressure control Mechanism further includes in the fixed frame of fixed setting, and fixed frame includes annular pressing plate, annular pressing plate and friction pulley is coaxially arranged and position Above friction pulley, annular pressing plate is used to limit friction pulley and moves along own rotation axis line to the direction far from slip gear, institute For the pressing ring stated between friction pulley and annular pressing plate, pressing ring is coaxially arranged with friction pulley, and pressing ring is for receiving guide frictional disk The trigger force of application simultaneously controls driving mechanism and switches between drive state and non-drive state；

When guide frictional disk is moved downward along own axes direction, guide frictional disk can apply downward active force to pressing ring simultaneously It pushes friction pulley to move towards the direction of slip gear, and driving mechanism is made to be in drive state；

The switching mechanism includes actuator and separator, the output connection of actuator one end and pressure control mechanism, another One end is connect by being arranged in the center of guide frictional disk and extending to the upper end of guide frictional disk with separator, actuator, Separator can be rectangular panel body, guide frictional disk and actuator around the center axis thereof of guide frictional disk, the separator Between be additionally provided with weighing spring, the resilient force guide frictional disk of weighing spring is directed away from master along actuator central axis The direction of rack moves, and actuator is also connected with the position-limit mechanism in fixed setting, and position-limit mechanism is for controlling actuator around certainly The rotation angle of body axis, to control the rotation angle of separator.

2. the triggering induction mechanism according to claim 1 applied to Dynamic Weighting, which is characterized in that above-mentioned actuator Including bracket, shell, bracket connect transmission with friction pulley, and the shell is circular cylindrical shape cylinder, the central axis of shell with The central axis of friction pulley is consistent, and shell is divided into upper housing, lower case, and the interface of upper housing and lower case is formed with along upper The built-in step that housing cavity wall portion circumference is narrowed to center, the built-in step can also be used to carry out guide frictional disk vertical side Upward limit.

3. the triggering induction mechanism according to claim 2 applied to Dynamic Weighting, which is characterized in that above-mentioned position restrainer Structure includes offering limit arc groove on the position-limited rack in the position-limited rack of fixed setting, be equipped on the bracket with The gag lever post that limit arc groove matches, gag lever post can move in limit arc groove along the guide direction for limiting arc groove, and When gag lever post moves to the starting point of limit arc groove, switching mechanism is in original state, and gag lever post moves to limit arc groove Terminal when, switching mechanism is in running order, the bracket be also connected with for drive its reset first back-moving spring.

4. the triggering induction mechanism according to claim 2 applied to Dynamic Weighting, which is characterized in that on switching mechanism also Secondary material guide mechanism is installed, secondary material guide mechanism includes auxiliary feed mechanism, be equipped in shell can along own axis and The coaxially arranged transmission shaft with shell, one end of transmission shaft stretch out lower case and protrude into bracket and be coaxially installed with gear five, pass The other end of moving axis is equipped with auxiliary feed mechanism, and auxiliary feed mechanism passes through the rectangular through-hole that is opened on upper housing periphery Upper housing and along the radial distribution of guide frictional disk is stretched out, gear five can receive external impetus and transmit power to transmission shaft；

The auxiliary feed mechanism includes drive roll, driven voller, mounting rack, and mounting rack includes two pieces of mounting plates and two pieces of installations Plate is located at the end side of separator width direction, and wherein one end of mounting rack is fixedly connected with upper housing, drive roll, driven voller It is cylindrical body, wherein drive roll coaxially offers inner cavity, the central axial direction of drive roll and the width direction one of separator Cause, drive roll, driven voller parallel interval be set between two mounting plates and drive roll, driven voller can around own axis, The drive roll and above-mentioned built-in step cooperation coaxial sleeve are set to the outside of transmission shaft, and can receive the rotary force of transmission shaft, The driven voller is movably installed between two mounting plates, and driven voller can be between own axis, drive roll, driven voller It is arranged with conveyer belt body, conveyer belt body can move between drive roll, driven voller under the driving of transmission shaft, above-mentioned separator Between two pieces of mounting plates and between drive roll and driven voller, it is fixedly connected between separator and two mounting plates.

5. the triggering induction mechanism according to claim 1 applied to Dynamic Weighting, which is characterized in that the driving machine Structure is the form friction pattern one being set on slip gear and friction pulley counterface and is opened in friction pulley and slip gear cooperates Form friction pattern two on end face, the elastic component are second back-moving spring, and second back-moving spring is cylindrically coiled spring and is pressure It is offered at the end face center of contracting spring, slip gear and friction pulley cooperation and the matched circular groove one of second back-moving spring, friction It is offered and the matched circular groove two of second back-moving spring, second back-moving spring one end at wheel and the end face center of slip gear cooperation It is contacted in circular groove one and with the slot bottom of circular groove one to reality, the other end is located in circular groove two and supports real connect with the slot bottom of circular groove two Touching.

6. the triggering induction mechanism according to claim 5 applied to Dynamic Weighting, which is characterized in that the pressing ring packet Annular preform, drive section are included, annular preform is coaxially arranged with friction pulley, and drive section is stretched out outside fixed frame, and drive section is for connecing Receive guide frictional disk apply trigger force simultaneously the trigger force is transferred to annular preform, the trigger force for control slip gear with Contact and disconnection between friction pulley.

7. the triggering induction mechanism according to claim 3 applied to Dynamic Weighting, which is characterized in that the guide rubs Wipe the connecting rod being provided between disk and pressing ring for transmitting trigger force, connecting rod one end contacts with the basal sliding of guide frictional disk, The other end is contacted with the drive section on pressing ring, is offered and is matched with connecting rod and for preventing gag lever post and driving in the drive section Dynamic section is detached from the arc limit slot of cooperation.

8. the triggering induction mechanism according to claim 6 applied to Dynamic Weighting, which is characterized in that drive section is also connected with There is auxiliary reset mechanism, the reset to friction pulley, the auxiliary reset mechanism are realized in auxiliary reset mechanism and return unit cooperation Guide post, third reset spring including being set to drive section, the elastic power drive pressing ring of third reset spring is along own axes court It is moved to the direction close to annular pressing plate.