CN209650660U - The conveying turning mechanism of Full-automatic glove screening packing machine - Google Patents

Abstract

The utility model relates to the conveying turning mechanisms of Full-automatic glove screening packing machine, including gloves conveyer belt and gloves turnover mechanism, automatic conveying and the automatic turning of gloves may be implemented using gloves conveyer belt and gloves turnover mechanism, its high degree of automation, avoid the mode of conventionally employed artificial conveyance overturning, it is time saving and energy saving, the human resources investment of enterprise has been saved, the manufacturing schedule of enterprise is substantially increased.

Description

The conveying turning mechanism of Full-automatic glove screening packing machine

Technical field

The utility model relates to the conveyings of mechanical automation apparatus field more particularly to Full-automatic glove screening packing machine to turn over Rotation mechanism.

Background technique

Currently, on gloves assembly line in order to non-defective unit gloves conveying and overturning be by manually using by hand behaviour Make, but this manually operated method is time-consuming and laborious, not only increases the labor intensity of worker, also adds the manpower of enterprise Resource input cost has seriously affected the production operation progress of enterprise.

Utility model content

The applicant is directed to above-mentioned existing issue, has carried out Improvement, provides a kind of Full-automatic glove screening packing machine Conveying turning mechanism, be able to achieve to gloves it is automatic conveying and rotary movement, have the advantages that high degree of automation.

Technical solution used by the utility model is as follows:

Full-automatic glove screens the conveying turning mechanism of packing machine, including gloves conveyer belt and gloves turnover mechanism；

The specific structure of the gloves conveyer belt is as follows:

Including first motor, the first motor is fixed in rack by first motor mounting base, the first motor Outlet pass through the first chain wheel driving mechanism for being made of the first drive sprocket, the first chain and the first driven sprocket connection first Driven conveying roller, the vertex of the second driven conveying roller is coplanar with the vertex of the first driven conveying roller, the driven conveying of Yu Suoshu second Synchronous roller is also set up above roller, the vertex of the 5th driven conveying roller is coplanar with the vertex of synchronous roller, driven defeated described first It send and belt is set between roller, the second driven conveying roller, synchronous roller, the 5th driven conveying roller and the first support roller；

The specific structure of the gloves turnover mechanism is as follows:

Including a pair of of vertical beam, up and down adjustment plate is flexibly connected between a pair of of vertical beam, the up and down adjustment plate passes through second Motor mounting plate connects the second motor, and the output end of second motor connects the second skin by the first belt pulley, driving belt Belt wheel, second belt pulley pass through the torsion shaft one end fits of bearing assembly and returning face plate, and the torsion shaft is turned over through described The other end of rotating plate, the torsion shaft is flexibly connected with baffle；The returning face plate is between an opposite side mounting plate, and the two of baffle End is affixed with the tail portion of an opposite side mounting plate, and one end of each side mounting plate is affixed with up and down adjustment plate；

Its further technical solution is:

The first driven conveying roller is mounted between a pair of of second side installation panel, the second driven conveying roller installation Between a pair of of third side installation panel, the synchronous roller, the 5th driven conveying roller be mounted on a pair of first side installation panel it Between, the first side installation panel, second side installation panel and third side installation panel sequentially splice and by installation part and machine Frame is affixed；The driven conveying roller of third is also set up above the described second driven conveying roller, is also set in the top of the synchronous roller The 4th driven conveying roller is set, is opened up along axial direction on the roll surface of the driven conveying roller of the third and the 4th driven conveying roller multiple Belt mounting groove connects round skin between the driven conveying roller of the third and the corresponding belt mounting groove of the 4th driven conveying roller Band；The shaft end of the driven conveying roller of third stretches out third side installation panel and connects the second transmission gear, and described second is driven The shaft end of conveying roller also stretches out third side installation panel and connects the first transmission gear, first transmission gear and the second transmission Gear engages each other.

The second support roller is also set up between the 5th driven conveying roller and synchronous roller.

The beneficial effects of the utility model are as follows:

The utility model structure is simple, easy to use, using the utility model may be implemented gloves it is automatic conveying and from Dynamic overturning, high degree of automation avoid the mode of conventionally employed artificial conveyance overturning, time saving and energy saving, have saved enterprise Human resources investment, substantially increases the manufacturing schedule of enterprise.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model.

Fig. 2 is the structural schematic diagram of gloves conveyer belt in the utility model.

Fig. 3 is the partial structural diagram I of gloves conveyer belt in the utility model.

Fig. 4 is the partial structural diagram II of gloves conveyer belt in the utility model.

Fig. 5 is the structural schematic diagram of gloves turnover mechanism in the utility model.

Fig. 6 is enlarged structure schematic diagram of the Fig. 5 at C.

Wherein: 101, gloves conveyer belt；1011, panel is installed in the first side；1012, panel fixed block；1013, the first electricity Machine；1014, first motor mounting base；1015, the first drive sprocket；1016, the first chain；1017, the first driven conveying roller； 1018, the first driven sprocket；1019, belt；10110, the first transmission gear；10111, the second transmission gear；10112, third Driven conveying roller；10113, belt mounting groove；10114, circular strap；10115, the second driven conveying roller；10116, first Support roller；10117, the 4th driven conveying roller；10118, synchronous roller；10119, the second support roller；10120, the 5th driven conveying roller； 10121, panel connecting rod；10122, second side installs panel；10123, panel is installed in third side；102, gloves turnover mechanism； 1021, vertical beam；1022, up and down adjustment plate；1023, the second motor；1024, the first belt pulley；1025, driving belt；1026, Two belt pulleys；1027, baffle；1028, side mounting plate；1029, returning face plate；10210, torsion shaft.

Specific embodiment

Illustrate specific embodiment of the present utility model below.

As shown in Figure 1, the conveying turning mechanism of Full-automatic glove screening packing machine includes gloves conveyer belt 101 and gloves Turnover mechanism 102；

As shown in Figures 2 to 4, the specific structure of gloves conveyer belt 101 is as follows:

Including first motor 1013, first motor 1013 is fixed in rack by first motor mounting base 1014, and first The outlet of motor 1013 by be made of the first drive sprocket 1015, the first chain 1016 and the first driven sprocket 1018 first Chain wheel driving mechanism connects the first driven conveying roller 1017, the vertex of the second driven conveying roller 10115 and the first driven conveying roller 1017 vertex is coplanar, also sets up synchronous roller 10118, the 5th driven conveying roller in the top of the second driven conveying roller 10115 10120 vertex is coplanar with the vertex of synchronous roller 10118, the first driven conveying roller 1017, the second driven conveying roller 10115, Belt 1019 is set between synchronous roller 10118, the 5th driven conveying roller 10120 and the first support roller 10116；It is driven the 5th The second support roller 10119 is also set up between conveying roller 10120 and synchronous roller 10118.

First driven conveying roller 1017 is mounted between a pair of of second side installation panel 10122, the second driven conveying roller 10115 are mounted between a pair of of third side installation panel 10123, and synchronous roller 10118, the 5th driven conveying roller 10120 are mounted on Between a pair of first side installation panel 1011, panel 1011, second side installation panel 10122 and the installation of third side are installed in the first side Panel 10123 sequentially splices and affixed by panel fixed block 1012 and rack, adjacent the first side install panel 1011 it Between also set up panel connecting rod 10121.The driven conveying roller 10112 of third is also set up in the top of the second driven conveying roller 10115, The 4th driven conveying roller 10117 is also set up in the top of synchronous roller 10118, it is driven in the driven conveying roller 10112 and the 4th of third Multiple belt mounting grooves 10113 are opened up along axial direction on the roll surface of conveying roller 10117, in the driven conveying roller 10112 of third and Circular strap 10114 is connected between the four corresponding belt mounting grooves 10113 of driven conveying roller 10117；The driven conveying roller of third 10112 shaft end stretches out third side installation panel 10123 and connects the second transmission gear 10111, the second driven conveying roller 10115 Shaft end also stretch out third side installation panel 10123 and connect the first transmission gear 10110, the first transmission gear 10110 and the Two transmission gears 10111 engage each other.

As shown in Figure 5, Figure 6, the specific structure of gloves turnover mechanism 102 is as follows:

Including a pair of of vertical beam 1021, up and down adjustment plate 1022, up and down adjustment plate are flexibly connected between a pair of of vertical beam 1021 1022 connect the second motor 1023 by the second motor mounting plate, and the output end of the second motor 1023 passes through the first belt pulley 1024, driving belt 1025 connects the second belt pulley 1026, and the second belt pulley 1026 passes through bearing assembly and returning face plate 1029 10210 one end fits of torsion shaft, torsion shaft 10210 run through returning face plate 1029, and the other end and baffle 1027 of torsion shaft 10210 are living Dynamic connection；Returning face plate 1029 is between an opposite side mounting plate 1028, the both ends of baffle 1027 and an opposite side mounting plate 1028 Tail portion is affixed, and one end of each side mounting plate 1028 is affixed with up and down adjustment plate 1022.

The specific work process of the utility model is as follows:

As shown in Figures 1 to 4, after gloves enter gloves conveyer belt 101 by a upper station, first motor 1013 starts And the first drive sprocket 1015, the first chain 1016 are driven by output end sequence, drive the first driven conveying roller 1017 to rotate, First driven conveying roller 1017 passes through belt 1039 after rotating and sequentially drives the second driven conveying roller 10115, the 5th driven conveying Roller 10120, synchronous roller 10118 rotate, since the shaft end of the second driven conveying roller 10115 is nibbled by the first transmission gear 10110 The second transmission gear 10111 is closed, while the second transmission gear 10111 is connect with the shaft end of the driven conveying roller 10112 of third, therefore The driven conveying roller 10112 of third rotates, and the driven conveying roller 10112 of third passes through belt mounting groove 10113, circular strap 10114 The 4th driven conveying roller 10117 is connected, so that the 4th driven conveying roller 10117 be made to rotate, the 4th driven conveying roller 10117 and the Three driven conveying rollers 10112 rotate and push down gloves by more circular straps 10114, it is made to be not easy to slide in uphill process It falls, last gloves are flown out by the inertia force of belt 1039 after rising and fallen into returning face plate 1029, and external counting passes at this time Sensor calculates gloves quantity, and console controls the starting of the second motor 1023 after reaching setting value, and output end passes through the first skin The torsion shaft 10210 of belt wheel 1024, driving belt 1025 and the second belt pulley 1026 driving returning face plate 1029 rotates, and makes to overturn Plate 1029 overturns 180 °, so that gloves be made to fall into next station.

The utility model structure is simple, easy to use, using the utility model may be implemented gloves it is automatic conveying and from Dynamic overturning, high degree of automation avoid the mode of conventionally employed artificial conveyance overturning, time saving and energy saving, have saved enterprise Human resources investment, substantially increases the manufacturing schedule of enterprise.Above description is the explanation to the utility model, is not to practical Novel restriction, the utility model limited range is referring to claim, in the basic structure without prejudice to the utility model In the case of, the utility model can make any type of modification.

Claims (3)

1. the conveying turning mechanism of Full-automatic glove screening packing machine, it is characterised in that: including gloves conveyer belt (101) and gloves Turnover mechanism (102)；

The specific structure of the gloves conveyer belt (101) is as follows:

Including first motor (1013), the first motor (1013) is fixed in rack by first motor mounting base (1014) On, the outlet of the first motor (1013) passes through driven by the first drive sprocket (1015), the first chain (1016) and first First chain wheel driving mechanism of sprocket wheel (1018) composition connects the first driven conveying roller (1017), the second driven conveying roller (10115) vertex is coplanar with the vertex of the first driven conveying roller (1017), the second driven conveying roller of Yu Suoshu (10115) it is upper Side also sets up synchronous roller (10118), and the vertex of the 5th driven conveying roller (10120) is coplanar with the vertex of synchronous roller (10118), In The first driven conveying roller (1017), the second driven conveying roller (10115), synchronous roller (10118), the 5th driven conveying roller (10120) and between the first support roller (10116) belt (1019) are set；

The specific structure of the gloves turnover mechanism (102) is as follows:

Including a pair of of vertical beam (1021), up and down adjustment plate (1022) are flexibly connected between a pair of of vertical beam (1021), it is described upper and lower For adjustable plate (1022) by the second motor mounting plate connection the second motor (1023), the output end of second motor (1023) is logical The first belt pulley (1024), driving belt (1025) connection the second belt pulley (1026) are crossed, second belt pulley (1026) is logical Torsion shaft (10210) one end fits of bearing assembly Yu returning face plate (1029) are crossed, the torsion shaft (10210) runs through the overturning The other end of plate (1029), the torsion shaft (10210) is flexibly connected with baffle (1027)；The returning face plate (1029) is located at one Between opposite side mounting plate (1028), the both ends of baffle (1027) and the tail portion of an opposite side mounting plate (1028) are affixed, each side installation One end of plate (1028) is affixed with up and down adjustment plate (1022).

2. the conveying turning mechanism of Full-automatic glove screening packing machine as described in claim 1, it is characterised in that: described first Driven conveying roller (1017) is mounted between a pair of of second side installation panel (10122), the second driven conveying roller (10115) It is mounted between a pair of of third side installation panel (10123), the synchronous roller (10118), the 5th driven conveying roller (10120) peace Between a pair of first side installation panel (1011), the first side installation panel (1011), second side install panel (10122) and third side installation panel (10123) sequentially splice and by installation part and rack it is affixed；It is driven defeated described second It send and also sets up the driven conveying roller of third (10112) above roller (10115), also set up above the synchronous roller (10118) 4th driven conveying roller (10117), in the roller of the driven conveying roller of the third (10112) and the 4th driven conveying roller (10117) Multiple belt mounting grooves (10113) are opened up along axial direction on face, it is driven defeated in the driven conveying roller of the third (10112) and the 4th Send connection circular strap (10114) between the corresponding belt mounting groove (10113) of roller (10117)；The driven conveying roller of third (10112) shaft end stretches out third side installation panel (10123) and connects the second transmission gear (10111), and described second is driven The shaft end of conveying roller (10115) also stretches out third side installation panel (10123) and connects the first transmission gear (10110), described First transmission gear (10110) engages each other with the second transmission gear (10111).

3. the conveying turning mechanism of Full-automatic glove as described in claim 1 screening packing machine, it is characterised in that: described the The second support roller (10119) are also set up between five driven conveying rollers (10120) and synchronous roller (10118).