CN208407736U - A kind of sorting unit of load sorting machine - Google Patents

Abstract

The utility model discloses a kind of sorting units of load sorting machine, it aims to solve the problem that and needs equipment of halting before for ting model spring sorting, the problem of leading to complex procedures, the wasting of resources its key points of the technical solution are that: a kind of sorting unit of load sorting machine, including workbench and it is rotatably dispose in the feed table of workbench, hopper is set along several cylinders of feed table circumference setting, is set to workbench and is located at and set force measuring machine above hopper, be set to workbench and be located at the component of halting set above hopper, the component of halting is located at force measuring machine front side.A kind of sorting unit of load sorting machine of the utility model is arranged component of halting by the front of force measuring machine on the table, achievees the effect that simplified technique, improves efficiency.

Description

A kind of sorting unit of load sorting machine

Technical field

The utility model relates to field of spring processing, more specifically, it relates to a kind of sorting unit of load sorting machine.

Background technique

Spring has very big demand as a critical elements in industrial system, and spring currently on the market is raw It produces equipment to be also increasingly intended to automate, the production technology of spring generally comprises: roll, stress relief annealing, processing of halting, inspection Test, surface anticorrosion processing, packaging etc. processes, wherein needing to examine the load-bearing capacity of spring in inspection process and being sorted. The basic condition of home and abroad separator for spring is: the valve spring of internal combustion engine is the one of national correlation department mandatory requirement full inspection Kind spring, its quality are directly related to the performance of internal combustion engine or even automobile.

Current sorting machine includes workbench, the feed table for placing workpiece is provided on the table, in workbench On be additionally provided with force measuring machine for detecting workpiece load value, but be directed to the lesser spring of load value, sort it in measured value It is preceding to carry out processing of halting, need special equipment operation of halting at this time, not only increase cost, and due to spring compared with Small, the efficiency for equipment of halting is relatively low, also results in problem of resource waste.

Therefore it needs to propose the new scheme of one kind to solve this problem.

Utility model content

In view of the deficienciess of the prior art, the purpose of this utility model is to provide a kind of sorting of load sorting machine dresses The advantages of setting, having and save process, reduce cost.

The above-mentioned technical purpose of the utility model has the technical scheme that a kind of load sorting machine Sorting unit including workbench and is rotatably dispose in the feed table of workbench, along several cylinders of feed table circumference setting Hopper is set, workbench is set to and is located at and sets force measuring machine above hopper, be set to workbench and be located at and set above hopper It halts component, the component of halting is located on front side of force measuring machine.

By using above-mentioned technical proposal, spring is delivered to the setting in hopper of feed table by feeding device first, by feeding Disk drive is moved to below component of halting, and component of halting starts and carries out processing of halting to spring, and feed table drives spring later It continuously moves to immediately below force measuring machine, load value measurement is carried out to spring by force measuring machine, in this way by before dynamometry component Setting is halted component, and the process by special equipment to spring compressive setting is eliminated, and has not only been saved the time and has been improved efficiency, And it reduces costs.

The utility model is further arranged to: the component of halting includes the cylinder of halting for being fixedly installed on workbench, connects It is connected to halt cylinder piston rod and a certain bar of halting for setting hopper setting of face.

By using above-mentioned technical proposal, when setting hopper spring being driven to be moved to immediately below bar of halting, cylinder band of halting Dynamic bar of halting extends downwards, and sets the spring in hopper by bar compression of halting, and complete paired springs are halted.

The utility model is further arranged to: the force measuring machine include be set to workbench and along feed table circumference successively The the first dynamometry component and the second dynamometry component being arranged.

By using above-mentioned technical proposal, spring first passes through the first dynamometry component after the processing of halting for component of halting Cutting load testing is carried out, when the load value detected just falls in the maximum upper deviation value that controller is set or maximum lower deviation value When, feed table drives spring to continuously move to below the second dynamometry component, carries out secondary detection to spring by the second dynamometry component And classify, to improve the precision of detection classification.

The utility model is further arranged to: the first dynamometry component includes the first gas for being fixedly installed on workbench Cylinder, the first compression bar for being connected to the first cylinder piston rod, the first compression bar face is a certain to set hopper setting.

By using above-mentioned technical proposal, when feed table drives spring to be moved to below the first compression bar, the first cylinder band Dynamic first compression bar extends downwards, to realize cutting load testing to spring.

The utility model is further arranged to: the second dynamometry component includes the second gas for being fixedly installed on workbench Cylinder, the second compression bar for being connected to the second cylinder piston rod, the second compression bar face is a certain to set hopper setting.

By using above-mentioned technical proposal, when feed table drives spring to be moved to below the second compression bar, the second cylinder band Dynamic second compression bar extends downwards, to realize secondary load detection to spring.

The utility model is further arranged to: the workbench periphery is provided with the shield being made of clear material.

By using above-mentioned technical proposal, play the role of protection when sorting unit carries out spring detection sorting in this way, The safety of operator is improved, and shield is made of clear material, convenient for operator to working condition in shield Monitoring.

The utility model is further arranged to: the shield is provided with operation door.

By using above-mentioned technical proposal, operation door is provided on shield, when occurring fortuitous event in shield, Operator with opening operation door and can operate internal structure.

The utility model is further arranged to: being provided with below the feed table and is set hopper and be connected to and funnel-shaped fall Hopper, the material-falling hopper lower end are connected with feeder pipe.

By using above-mentioned technical proposal, spring is moved to blanking by feed table drive after detecting twice and falls on Blanking is realized in material-falling hopper.

The utility model is further arranged to: the hopper of setting is provided with two circles, and two circles set hopper discharge end it is equal It is connected to material-falling hopper.

By using above-mentioned technical proposal, hopper is set by two circle of setting, and it is in be staggered that inside and outside two circle, which sets hopper, To reduce the adjacent spacing set between hopper, the efficiency of separation is improved.

In conclusion the utility model has the following beneficial effects:

First, spring is delivered to the setting in hopper of feed table by feeding device first, it is moved to and is halted by feed table drive Below component, component of halting starts and carries out processing of halting to spring, and feed table drives spring to continuously move to force measuring machine later Immediately below structure, load value measurement is carried out to spring by force measuring machine, in this way by the way that component of halting is arranged before dynamometry component, is saved By special equipment to the process of spring compressive setting, not only having saved the time improves efficiency, but also reduces costs；

Second, when setting hopper and driving spring to be moved to halt immediately below bar, cylinder of halting drive bar of halting extends downwards, And the spring in hopper is set by bar compression of halting, complete paired springs are halted.

Detailed description of the invention

Fig. 1 is the overall structure diagram of the present embodiment；

Fig. 2 is the structural schematic diagram of control assembly；

Fig. 3 is the structural schematic diagram of feeding-distribution device；

Fig. 4 is the structural schematic diagram of blanking device.

In figure: 1, feeding device；2, workbench；3, feed table；4, vibrating disk；5, discharge nozzle；6, discharging controller；7, Bracket；8, storing unit；9, control assembly；10, window is controlled；11, window is detected；12, mounting rack；13, the first control cylinder；14, Two control cylinders；15, infrared sensor；16, the first bar；17, the second bar；18, sliding slot；19, sliding block；20, regulating tank； 21, bolt is adjusted；22, mounting ring；23, hopper is set；24, force measuring machine；25, it halts component；26, it halts cylinder；27, it halts Bar；28, the first dynamometry component；29, the second dynamometry component；30, the first cylinder；31, the first compression bar；32, the second cylinder；33, Two compression bars；34, shield；35, door is operated；36, material-falling hopper；37, feeder pipe；38, discharge port；39, cutting agency；40, sub-material Mechanism；41, main reservoir；42, A is exported；43, B is exported；44, C is exported；45, D is exported；46, E is exported；47, feed tube；48, A is led To plate；49, A cylinder；50, B guide plate；51, B cylinder；52, C guide plate；53, C cylinder；54, D guide plate；55, D cylinder；56, Vertical section；57, splicing basket；58, sorting unit；59, blanking device；60, controller.

Specific embodiment

With reference to the accompanying drawings and examples, the utility model is described in detail.

A kind of sorting unit of spring load grader, as shown in Figure 1, including workbench 2 and being set to workbench 2 The blanking device 59 that sorting unit 58 further includes the feeding device 1 for being set to 2 side of workbench, is set to below workbench 2, Sorting unit 58 includes the feed table 3 for being rotatably dispose in workbench 2 and being driven by a motor rotation, is arranged in the circumference of feed table 3 It is several set hopper 23, set hopper 23 in cylindric setting up and down, the spring for needing to detect, which is placed in, to be set in hopper 23 And driven and rotated by feed table 3, the discharge end of feeding device 1, which is located at, to be set right above hopper 23, and blanking device 59 is connected to sorting The discharge end of device 58 and it is arranged there are five outlet, sorting unit 58 is connected with the controller for controlling blanking device 59 60。

First by need detect sorting spring pour into feeding device 1, by feeding device 1 to spring carry out arrange and according to Secondary be transported to is set in hopper 23, is turned to detection station by the drive of feed table 3 later, is compressed by sorting unit 58 to spring Detection, and the spring-load value that will test is sent to controller 60, and three load values are preset in controller 60, respectively For spring gauge load value, maximum upper deviation value and maximum lower deviation value, spring is divided into five loads by three setting values Section, first interval are the spring that load is lower than maximum lower deviation value, second interval be load value be greater than maximum lower deviation value and Less than the spring of gauge load value, 3rd interval is the spring equal to gauge load value, and the 4th section is greater than gauge load value And it is less than the spring of maximum upper deviation value, the 5th section is the spring greater than maximum upper deviation value, by controller 60 to data It analyzes and determines, therefore, it is determined that load value section belonging to tested spring out, the spring after being detected falls into blanking device 59, under Material device 59 offers outlet corresponding with five load value sections respectively, while controller 60 is according to the measurement to tested spring Value judges which section the spring belongs to, so that controlling corresponding outlet realizes opening and closing, the sorting of complete paired springs.

As depicted in figs. 1 and 2, feeding device 1 includes the vibrating disk 4 that 2 side of workbench is arranged in, is connected to vibrating disk 4 The discharge nozzle 5 of discharge end, the discharging controller 6 for being connected to 5 end of discharge nozzle, discharge nozzle 5 are that diameter is logical for a spring The round tube crossed, discharging controller 6 include being bolted be set to the bracket 7 of workbench 2, be installed on branch by bolt Frame 7 is simultaneously located at the storing unit 8 of 3 top of feed table, is set to 8 side of storing unit and the control for controlling blanking in storing unit 8 Component 9；Spring is poured into vibrating disk 4 when feeding, the spring in vibrating disk 4 is sent by discharge nozzle 5 to storing unit 8, feeding One station of every rotation of disk 3, control 8 blanking of storing unit of control assembly 9 is primary, realizes the orderly feeding of feed table 3.

As shown in Fig. 2, storing unit 8 is in hollow rectangular setting, control window is offered in the top position of 8 side wall of storing unit 10, and control the opening of window 10 and be less than spring, the force side face control window 10 of control assembly 9 is arranged, where control window 10 Side wall position on the lower offer detection window 11, the test side face detection window 11 of control assembly 9 is arranged, and detects window 11 Positioned at the lower section of control window 10；In this way when spring is fallen into storing unit 8 through discharge nozzle 5, if hopper 23 is set in 8 lower section of storing unit Inside there is spring, control assembly 9 extends and the spring in storing unit 8 is prevented to continue to fall downwards, when feed table 3 turns to vacancy When, control assembly 9 discharges and spring is made to continue to fall, and realizes feeding, and when the test side of control assembly 9 detects detection When having spring in window 11, in the elongation of control assembly 9 to control window 10 and the spring in discharge nozzle 5 is prevented to continue to fall, prevent bullet Spring is accumulated in storing unit 8.The feed inlet periphery on 8 top of storing unit is fixedly installed mounting ring 22, the end socket of discharge nozzle 5 In mounting ring 22；By the way that mounting ring 22 is arranged, so that the installation of discharge nozzle 5 and storing unit 8 is more convenient secured.

As shown in Fig. 2, control assembly 9 includes being bolted to connection the mounting rack 12 in storing unit 8, being slidably mounted on First control cylinder 13 of mounting rack 12, is installed on the infrared of mounting rack 12 at the second control cylinder 14 for being installed on mounting rack 12 The movable end face control window 10 of sensor 15, the first control cylinder 13 is arranged, the movable end face inspection of the second control cylinder 14 Survey the setting of 11 bottom of window；Whether there is or not springs in detection window 11 for incuding for infrared sensor 15, when infrared sensor 15 senses inspection When having spring in survey window 11, in the first control cylinder 13 elongation to control window 10, so that the spring for preventing to detect at window 11 continues It falls downwards, when infrared sensor 15, which senses, does not have spring in detection window 11, the first control cylinder 13 withdraws and discharges Spring, so that spring, which can continue to fall, realizes feed supplement.

As shown in Fig. 2, the piston rod of the first control cylinder 13 is connected with for protruding into storing unit 8 and spring being stopped to fall The piston rod of first bar 16, the second control cylinder 14 is connected with the second gear for protruding into storing unit 8 and spring being stopped to fall Bar 17；By connecting the first bar 16 on the piston rod of the first control cylinder 13, on the piston rod of the second control cylinder 14 The second bar 17 is connected, the first control cylinder 13 and the movable end of the second control cylinder 14 is enabled to be easier to protrude into control window 10 or detection window 11 in, thus easily facilitate control storing unit 8 blanking.

As shown in Fig. 2, offering sliding slot 18 on mounting rack 12 along longitudinal direction, sliding is provided with sliding block 19 in sliding slot 18, sliding 18 side wall of slot offers regulating tank 20 along longitudinal direction, is equipped in regulating tank 20 and adjusts bolt 21, adjusts bolt 21 and passes through regulating tank 20 are threadedly coupled on sliding block 19, and the first control cylinder 13 is mounted by means of bolts on sliding block 19 and sets towards control window 10 It sets；When needing to adjust the height of the first control cylinder 13, unscrew the position for adjusting bolt 21 and adjusting slider 19, when by sliding block 19 when being adjusted to suitable position, tightens and adjusts bolt 21 and realize fixation to sliding block 19 and the first control 13 position of cylinder.

As shown in Figure 1, vibrating disk 4 herein chooses vibration disc with multiple guide rails 4, and each of vibration disc with multiple guide rails 4 goes out Material end is connected separately with discharging controller 6；Optimal selection is two-orbit vibrating disk 4, and the discharging rail of two-orbit vibrating disk 4 It is all connected with discharging controller 6, to realize two-orbit feeding, improves loading efficiency.

As shown in figures 1 and 3, sorting unit 58 includes being set to workbench 2 and being located at the force measuring machine for setting 23 top of hopper Structure 24 is set to workbench 2 and is located at the component 25 of halting for setting 23 top of hopper, before component 25 of halting is located at force measuring machine 24 Side；Spring is delivered to the setting in hopper 23 of feed table 3 by feeding device 1 first, is moved to component 25 of halting by the drive of feed table 3 Lower section, component 25 of halting start and carry out processing of halting to spring, and feed table 3 drives spring to continuously move to force measuring machine later Immediately below 24, load value measurement is carried out to spring by force measuring machine 24, in this way by the way that component 25 of halting is arranged before dynamometry component, The process by special equipment to spring compressive setting is eliminated, not only having saved the time improves efficiency, but also reduces into This.

As shown in figure 3, component 25 of halting includes the cylinder 26 of halting for being fixedly installed on workbench 2, is connected to cylinder of halting 26 piston rods and a certain bar 27 of halting for setting the setting of hopper 23 of face；Under setting hopper 23 and spring driven to be moved to and halt bar 27 just Fang Shi, cylinder 26 of halting drive is halted, and bar 27 is downward to be extended, and compresses the spring set in hopper 23, completion pair by bar 27 of halting Spring is halted.

As shown in figure 3, force measuring machine 24 includes the first survey for being set to workbench 2 and setting gradually along 3 circumference of feed table Power component 28 and the second dynamometry component 29；Spring first passes through the first dynamometry component 28 after the processing of halting for component 25 of halting Cutting load testing is carried out, when the load value detected just falls in the maximum upper deviation value that controller 60 is set or maximum lower deviation When value, feed table 3 drives spring to continuously move to 29 lower section of the second dynamometry component, carries out two to spring by the second dynamometry component 29 Secondary detection is simultaneously classified, to improve the precision of detection classification.

As shown in figure 3, the first dynamometry component 28 includes the first cylinder 30 for being fixedly installed on workbench 2, is connected to first First compression bar 31 of 30 piston rod of cylinder, 31 face of the first compression bar is a certain to set the setting of hopper 23；When feed table 3 drives spring mobile When to the first 31 lower section of compression bar, the first cylinder 30 drives the first elongation downwards of compression bar 31, to realize cutting load testing to spring.

As shown in figure 3, the second dynamometry component 29 includes the second cylinder 32 for being fixedly installed on workbench 2, is connected to second Second compression bar 33 of 32 piston rod of cylinder, 33 face of the second compression bar is a certain to set the setting of hopper 23；When feed table 3 drives spring mobile When to the second 33 lower section of compression bar, the second cylinder 32 drives the second elongation downwards of compression bar 33, to realize secondary load inspection to spring It surveys.

As shown in Figure 1, being provided with the shield 34 being made of clear material in 2 periphery of workbench；In this way in sorting unit Play the role of protection when 58 progress spring detection sorting, improves the safety of operator, and shield 34 is by transparent material Material is made, the monitoring convenient for operator to working condition in shield 34.It is provided with operation door 35 on shield 34, works as protection In cover 34 when there is fortuitous event, operator with opening operation door 35 and can be operated internal structure.

As shown in Figure 3 and Figure 4, it is provided with below feed table 3 and sets hopper 23 and be connected to and material-falling hopper 36 funnel-shaped, fallen 36 lower end of hopper is connected with feeder pipe 37；Spring is moved to blanking and is fallen on and fallen after detecting twice by the drive of feed table 3 Blanking is realized in hopper 36.It sets hopper 23 and is provided with two circles, and two circles set the discharge end of hopper 23 and are connected to material-falling hopper 36； Set hopper 23 by two circle of setting, and inside and outside two circle sets hopper 23 in being staggered, thus reduce it is adjacent set hopper 23 it Between spacing, improve the efficiency of separation.

Shown in as shown in Figure 1, Figure 3 and Figure 4, blanking device 59 includes the discharge port being opened on 3 lower work platform 2 of feed table 38, the cutting agency 39 for being connected to the material-falling hopper 36 of discharge port 38, being connected to 36 lower end of material-falling hopper, cutting agency 39 are provided with five A outlet, and the feeding distribution mechanism 40 for controlling spring discharging path is provided in cutting agency 39；When the first dynamometry component After 28 pairs of spring detections, the data of 60 pairs of controller detections carry out analysis classification, and tested spring is referred in a certain section, and And control feeding distribution mechanism 40 is run, so that the discharge port 38 for controlling corresponding section, which is opened, realizes that corresponding discharge port 38 discharges, is led to The data that crossing controller 60 will test are divided into five sections, and the spring in each section is sent out from corresponding outlet, just Realize that the detection to spring sorts.

As shown in Figure 3 and Figure 4, cutting agency 39 include be connected to material-falling hopper 36 and tilt down feeder pipe 37, connection In the main reservoir 41 of feeder pipe 37, the two sidewalls upper end of main reservoir 41 offers A respectively and exports the outlet 42 and B 43, main reservoir 41 The lower end of two sidewalls offers C respectively and exports the outlet 44 and D 45, and 41 bottom surface of main reservoir offers the outlet the E outlet 46, A 42, B goes out Mouth 43,45 outside of the outlet the outlet C 44 and D are respectively connected with feed tube 47, and the outlet the A outlet 42 and B 43 is symmetrical arranged, and C exports 44 and D Outlet 45 is symmetrical arranged；The outlet A 42, the outlet B 43, the outlet C 44, D export the outlet 45 and E 46 and respectively correspond a load value area Between, when the load value for detecting spring is less than the maximum lower limit that spring error allows, discharging is opened and is realized in the outlet A 42, When the load value for detecting spring is greater than the maximum lower limit that spring error allows and is less than the standard value of spring, the outlet C 44 Open and realize discharging, when the load value for detecting spring is equal to standard value, the outlet E 46 opens and realizes discharging, works as detection Load value to spring be greater than standard value and be less than error allow in maximum upper limit when, the outlet B 43, which is opened, simultaneously realizes blanking, When the load value for detecting spring is greater than the maximum upper limit in error permission, the outlet D 45, which is opened, simultaneously realizes blanking, thus will Spring sorting goes out five types, and in assorting room when finding that the outlet 44 or D 45 dischargings in the outlet C are excessive, worker It, to a certain extent can be with to accomplish more accurately to hold to the processing of spring to make corresponding adjustment to previous process Reduction in the numbers of seconds.

As shown in Figure 3 and Figure 4, feeding distribution mechanism 40 include be rotationally connected with A export 42 upper edges A guide plate 48, with A The A cylinder for controlling the rotation of A guide plate 48 is rotatably connected between outlet 42 connected 47 inner wall of feed tube and A guide plate 48 49, B 43 upper edges of outlets are rotatably connected to B guide plate 50, in 47 inner wall of feed tube and B guide plate 50 being connected with the outlet B 43 Between be rotatably connected to for control B guide plate 50 rotation B cylinder 51, C export 44 upper edges be rotatably connected to C guide plate 52,44 47 inner walls of feed tube being connected are being exported with C and are being rotatably connected between C guide plate 52 for controlling 52 turns of C guide plate Dynamic C cylinder 53, D export 45 upper edges and are rotatably connected to D guide plate 54, with 45 47 inner wall of feed tube that is connected of the outlet D and The D cylinder 55 for controlling the rotation of D guide plate 54 is rotatably connected between D guide plate 54.

As shown in figure 4, realizing the outlet A 42, the outlet B respectively by A cylinder 49, B cylinder 51, C cylinder 53 and D cylinder 55 43, C exports the opening and closing of the outlet 44 and D 45, and when needing to send out spring from the outlet A 42, A cylinder 49 extends and A is pushed to lead To plate 48 towards the rotation of major ingredient cylinder and A guide plate 48 is located at the underface of spring falling direction, in this way when spring is by feeder pipe 37 can fall on A guide plate 48 when falling, and be sent out through A guide plate 48 by the outlet A 42, using what is be connected with the outlet A 42 Feed tube 47 is sent out；When needing to send out spring from the outlet B 43, B cylinder 51 extends and pushes B guide plate 50 towards major ingredient Cylinder rotation and B guide plate 50 are located at the underface of spring falling direction, can fall on B when spring is fallen by feeder pipe 37 in this way It on guide plate 50, and is sent out through B guide plate 50 by the outlet B 43, is sent out using the feed tube 47 being connected with the outlet B 43;When When needing to send out spring from the outlet C 44, C cylinder 53 extends and pushes C guide plate 52 towards the rotation of major ingredient cylinder and C guiding Plate 52 is located at the underface of spring falling direction, can fall on C guide plate 52 when spring is fallen by feeder pipe 37 in this way, and It is sent out through C guide plate 52 by the outlet C 44, is sent out using the feed tube 47 being connected with the outlet C 44；When needing to go out spring from D Mouthfuls 45 when sending out, and D cylinder 55 extends and pushes D guide plate 54 towards the rotation of major ingredient cylinder and D guide plate 54 is located under spring The underface in direction is fallen, can be fallen on D guide plate 54 when spring is fallen by feeder pipe 37 in this way, and through D guide plate 54 by D Outlet 45 is sent out, and is sent out using the feed tube 47 being connected with the outlet D 45;When needing to send out spring from the outlet E 46, A is led It is in vertical state to plate 48, B guide plate 50, C guide plate 52 and D guide plate 54 and A is exported into 42, B respectively and export 43, C It exports the outlet 44 and D 45 to close, spring is directly dropped out from the outlet E 46 when falling, realize the sorting discharging of spring.

As shown in Figure 3 and Figure 4, A export 42 and B outlet 43 connection feed tube 47 be symmetrical set, C outlet 44 with it is described The feed tube 47 of 45 connection of the outlet D is symmetrical set, and feed tube 47 is tilted down setting towards outside；In this way in symmetrical On the other hand on the one hand arrangement improves aesthetics, be not more convenient to operate person's memorize, spring is outwardly directed by feed tube 47, thus Preferably the spring of different load range is classified.

As shown in figure 4, being provided with vertical section 56 straight down, acceleration of the spring along feed tube 47 in 47 end of feed tube Degree is diagonally downward, is provided with vertical section 56 along feed tube 47, when spring reaches 47 bottom of feed tube, in vertical section 56 Guiding role under can change the direction of motion and fall vertically, reduce discharging range.In the vertical section 56 of each feed tube 47 Lower section is provided with splicing basket 57, and splicing basket 57 can accept the spring sent out by vertical section 56, convenient for arranging storage.

The above is only the preferred embodiment of the utility model, and the protection scope of the utility model is not limited merely to Above-described embodiment, technical solution belonging to the idea of the present invention belong to the protection scope of the utility model.It should refer to Out, for those skilled in the art, it is without departing from the principle of the utility model it is several improvement and Retouching, these improvements and modifications also should be regarded as the protection scope of the utility model.

Claims (9)

1. a kind of sorting unit of load sorting machine, it is characterised in that: including workbench (2) and be rotatably dispose in workbench (2) feed table (3) sets hopper (23), is set to workbench (2) and position along several cylinders of feed table (3) circumference setting Component of halting above hopper (23) is set in setting the force measuring machine (24) above hopper (23), being set to workbench (2) and be located at (25), the component of halting (25) is located on front side of force measuring machine (24).

2. a kind of sorting unit (58) of load sorting machine according to claim 1, it is characterised in that: the component of halting (25) include the cylinder of halting (26) for being fixedly installed on workbench (2), be connected to cylinder of halting (26) piston rod and face is a certain Set the bar of halting (27) of hopper (23) setting.

3. a kind of sorting unit (58) of load sorting machine according to claim 1, it is characterised in that: the force measuring machine It (24) include being set to workbench (2) and the first dynamometry component (28) set gradually along feed table (3) circumference and the second dynamometry Component (29).

4. a kind of sorting unit (58) of load sorting machine according to claim 3, it is characterised in that: first dynamometry Component (28) includes the first cylinder (30) for being fixedly installed on workbench (2), is connected to the first of the first cylinder (30) piston rod Compression bar (31), the first compression bar (31) face is a certain to set hopper (23) setting.

5. a kind of sorting unit (58) of load sorting machine according to claim 4, it is characterised in that: second dynamometry Component (29) includes the second cylinder (32) for being fixedly installed on workbench (2), is connected to the second of the second cylinder (32) piston rod Compression bar (33), the second compression bar (33) face is a certain to set hopper (23) setting.

6. a kind of sorting unit (58) of load sorting machine according to claim 1, it is characterised in that: the workbench (2) periphery is provided with the shield (34) being made of clear material.

7. a kind of sorting unit (58) of load sorting machine according to claim 6, it is characterised in that: the shield (34) it is provided with operation door (35).

8. a kind of sorting unit (58) of load sorting machine according to claim 1, it is characterised in that: the feed table (3) lower section is provided with and sets that hopper (23) is connected to and material-falling hopper (36) funnel-shaped, material-falling hopper (36) lower end are connected with Feeder pipe (37).

9. a kind of sorting unit (58) of load sorting machine according to claim 8, it is characterised in that: described to set hopper (23) two circles are provided with, and two circles set the discharge end of hopper (23) and are connected to material-falling hopper (36).