CN105712032A - Flexible production line for packet delivering - Google Patents

Abstract

The invention relates to the field of mechanical equipment, in particular to a flexible production line for packet delivering. The plane layout, the height and the inclination degree of the flexible production line for packet delivering can be flexibly adjusted according to the actual conditions of a site and the goods delivering requirements. The flexible production line for packet delivering mainly comprises a driven unit, an intermediate unit I, an intermediate unit II, a driving unit, a connection pipe I, a connection pipe II, a connection pipe III, a chain, a goods containing basket, an adjusting block I and an adjusting block II. The flexible production line for packet delivering is reasonable in structure and easy and convenient to operate; and the plane layout, the height and the inclination degree of the production line can be conveniently adjusted for installation according to the spatial position and the temporary requirement, and therefore the flexible production line can be used for conveying packets and other goods conveniently and faster.

Description

Parcel transmission flexible assembly line

Technical field

The present invention relates to mechanized equipment field, when refering in particular to one for transporting parcel and other items, can according to place practical situation and the parcel transmission flexible assembly line needing its horizontal layout and height gradient are carried out flexible adjustment transmitting goods.

Background technology

Minimizing staff, raising efficiency are played well effect when goods is transported in transmission by streamline, but general streamline its horizontal layout after mounting and height gradient cannot adjust, occasion for types such as express delivery warehouses, the putting position of material, the route of passage, lorry size height etc. be continually changing, highly desirable have a kind of horizontal layout and the height streamline that can be adjusted at any time of gradient.

Summary of the invention

In order to solve the problems referred to above, the present invention provides a kind of parcel transmission flexible assembly line.

The technical solution adopted in the present invention is:

Described parcel transmission flexible assembly line, mainly by driven unit, temporary location I, temporary location II, active cell, connecting tube I, connecting tube II, connecting tube III, chain, fills thing basket, regulating block I and regulating block II and constitutes.Described regulating block I has through hole I, through hole II, bar hole II.Described regulating block II has through hole III, through hole IV, bar hole III.

Described driven unit mainly by short base, adjusting nut, swinging block, regulates screw mandrel, and from sprocket wheel, big nut, from upper boom, adapter sleeve, from lower beam, nut I, screw I, pin I and pin II is constituted.Described swinging block has unthreaded hole and gantry column.Described connection is cased with joint I, joint II and adapter sleeve endoporus.Described have gantry column installing hole, pin II installing hole and bar hole I from lower beam.The described adapter sleeve endoporus of described adapter sleeve is inserted in described short base, by the described endoporus inserting described short base from lower beam, with described screw I and described nut I, described short base is connected from lower beam with described, the hole that during owing to connecting, described screw I is inserted is the described described bar hole I from lower beam, therefore can regulate described from the height of lower beam.Described from upper boom and described from lower beam by by described pin II load described pin II installing hole and realize the connection that can rotate.The major part circular hole of described adjustment screw mandrel and described connected from upper boom by described pin I, the described gantry column of described swinging block is loaded described gantry column installing hole, and the screw portion of described adjustment screw mandrel screws in a described adjusting nut successively, inserts the described unthreaded hole of described swinging block, screws in another described adjusting nut.The described endoporus from sprocket wheel is inserted in described from upper boom, is then threaded into two described big nuts mutually tightened.

Described active cell is mainly made up of head sprocket, Your Majesty's bar, master gear, reducing motor, main lower beam, long base, described adjusting nut, described swinging block, described adjustment screw mandrel, described adapter sleeve, described nut I, described screw I, described pin I and described pin II.The described adapter sleeve endoporus of described adapter sleeve is inserted in described long base, described main lower beam is inserted the endoporus of described long base, with described screw I and described nut I, described long base and described main lower beam are connected, owing to when connecting, the hole of described screw I insertion is the bar hole of described main lower beam, therefore the height of described main lower beam can be regulated.Described Your Majesty's bar and described main lower beam realize the connection that can rotate by described pin II.The major part circular hole of described adjustment screw mandrel and described Your Majesty's bar are connected by described pin I, described swinging block is connected with described main lower beam by described gantry column and can rotate, and the screw portion of described adjustment screw mandrel screws in a described adjusting nut successively, inserts the described unthreaded hole of described swinging block, screws in another described adjusting nut.Described head sprocket has from gear, and the endoporus of described head sprocket is inserted in described Your Majesty's bar, is then threaded into two described big nuts mutually tightened.Described Your Majesty's bar has motor installing hole, the armature spindle of described reducing motor is inserted described motor installing hole, described reducing motor and described Your Majesty's bar is connected firmly with three pieces of screws, described master gear is loaded the armature spindle of described reducing motor and engages from gear with described.

Described temporary location I and described temporary location II structure is identical, mainly by lower beam, and crossbeam, described big nut, height bracket, roll set I, roll set II, jump ring I, horizontal stand, described long base, described adapter sleeve, described nut I, described screw I, nut II, screw I I, nut III and screw I II are constituted.Described crossbeam has support shaft I, incision hole, T-slot, and described support shaft I has bar hole.Described height bracket has bracket holes I, and fulcrum I is moved in roll, vertical rolling fulcrum I.Described support shaft I and described bracket holes I coordinates and uses described screw I I and described nut II to connect, and the hole that during owing to connecting, described screw I I inserts is the bar hole on described support shaft I, therefore can regulate the high and low position of described height bracket.The described set I that rolls is arranged on the dynamic fulcrum I of described roll, and two described set II that roll are respectively arranged on two described vertical rolling fulcrum I and fix with a described jump ring I respectively.Described horizontal stand has T-shaped piece, horizontal stand installing hole, and fulcrum II is moved in roll, vertical rolling fulcrum II.Described T-shaped piece and the cooperation of described T-slot, it is possible to regulate the horizontal range of described horizontal stand and fix with the described nut III of two pieces of described screw I II and two pieces.The described set I that rolls is arranged on the dynamic fulcrum II of described roll, and two described set II that roll are respectively arranged on two described vertical rolling fulcrum II and fix with a described jump ring I respectively.Described lower beam has otch axle, described otch axle is loaded described incision hole and connects firmly with two described big nuts.

When described driven unit and described temporary location I are connected, first two described connecting tube I are inserted respectively the described through hole I and described through hole II of described regulating block I, then by the described joint I and described joint II of one of these the two described connecting tube I described adapter sleeve inserting described driven unit respectively and connect firmly with screw, then the other end of these two described connecting tube I is inserted respectively the described joint I and described joint II of the described adapter sleeve being positioned below of described temporary location I and connects firmly with screw.

In like manner, when described temporary location I and described temporary location II is connected, first two described connecting tube II are inserted respectively the described through hole III of two described regulating block II, described through hole IV, and make that regulating block II's described in the two is in opposite direction, then one of these two described connecting tube II is inserted respectively the described joint I and described joint II of the described adapter sleeve above of described temporary location I and connects firmly with screw, then the other end of these two described connecting tube II is inserted respectively the described joint I and described joint II of the described adapter sleeve above of described temporary location II and connects firmly with screw.

In like manner, when described temporary location II and described active cell are connected, first two described connecting tube III are inserted respectively the described through hole I and described through hole II of described regulating block I, then one of these two described connecting tube III inserted respectively the described joint I and described joint II of the described adapter sleeve being positioned below of described temporary location II and connects firmly with screw, then the other end of these two described connecting tube III inserted respectively the described joint I and described joint II of the described adapter sleeve of described active cell and connects firmly with screw.

One piece of screw is penetrated described bar hole II and described bar hole III, then with one piece of nut, can realize connecting firmly between described regulating block I and described regulating block II.By changing first, the link position between described regulating block I and described regulating block II can be changed the angle between described connecting tube I and described connecting tube II, by changing second the link position between described regulating block I and described regulating block II can be changed the angle between described connecting tube II and described connecting tube III, that is change described driven unit, described temporary location I, horizontal layout between described temporary location II and described active cell.

The upwards space of described chain is connected to some described dress thing baskets, each described dress thing basket is connected with the wherein two pitch chain joints of described chain by two rhizoid bars, the position of the described dress thing basket owing to being connected with two rhizoid bars is a circular hole and a bar hole, therefore when described dress thing basket and its two pitch chain joints connected all can pass through from sprocket wheel, described head sprocket, described height bracket or described horizontal stand through described.

The invention has the beneficial effects as follows:

Present configuration is reasonable, easy and simple to handle, easily the horizontal layout of streamline and high low dip can be carried out mounting and adjusting according to locus and temporary needs so that it is the conveying of parcel and other items etc. is convenient, faster.

Accompanying drawing explanation

Figure below in conjunction with the present invention further illustrates:

Fig. 1 is the structural representation of the present invention.

Fig. 2 is the structural representation of described driven unit.

Fig. 3 is the explosive view of described driven unit.

Fig. 4 is the structural representation of described active cell.

Fig. 5 is the explosive view of described active cell.

Fig. 6 is the structural representation of described temporary location.

Fig. 7 is the explosive view of described temporary location.

Fig. 8 is the structural representation of described dress thing basket.

Fig. 9 is the structural representation of described swinging block.

Figure 10 is the structural representation of described adapter sleeve.

Figure 11 is the described structural representation from upper boom.It is illustrated as and has been charged into described pin I and described pin II.

Figure 12 is the described structural representation from lower beam.

Figure 13 is the structural representation of described head sprocket.

Figure 14 is the structural representation of described Your Majesty's bar.

Figure 15 is the structural representation of described lower beam.

Figure 16 is the structural representation of described crossbeam.

Figure 17 is the structural representation of described height bracket.

Figure 18 is the structural representation of described horizontal frames.

Figure 19 is the structural representation of described regulating block I.

Figure 20 is the structural representation of described regulating block II.

In figure, 1. driven unit, 2. temporary location I, 3. temporary location II, 4. active cell, 5. connecting tube I, 6. connecting tube II, 7. connecting tube III, 8. chain, 9. dress thing basket, 10. regulating block I, 11. regulating block II, 12. short base, 13. adjusting nut, 14. swinging block, 15. adjustment screw mandrel, 16. from sprocket wheel, 17. big nut, 18. from upper boom, 19. adapter sleeve, 20. from lower beam, 21. nut I, 22. screw I, 23. head sprocket, 24. Your Majesty's bar, 25. master gear, 26. reducing motor, 27. main lower beam, 28. long base, 29. lower beam, 30. crossbeam, 31. height bracket, 32. roll set I, 33. roll set II, 34. jump ring I, 35. horizontal stand, 36. pin I, 37. pin II, 38. gantry column installing hole, 39. pin II installing hole, 40. bar hole I, 41. from gear, 42. motor installing hole, 43. otch axle, 44. support shaft I, 45. incision hole, 46.T type groove, 47. bracket holes I, 48. fulcrum I is moved in roll, fulcrum I is rolled 49. vertical, 50.T type block, 51. horizontal stand installing hole, 52. fulcrum II is moved in roll, fulcrum II is rolled 53. vertical, 54. joint I, 55. joint II, 56. adapter sleeve endoporus, 57. unthreaded hole, 58. gantry column, 59. nut II, 60. screw I I, 61. nut III, 62. screw I II, 63. through hole I, 64. through hole II, 65. through hole III, 66. through hole IV, 67. bar hole II, 68. bar hole III.

Detailed description of the invention

Described parcel transmission flexible assembly line is mainly by described driven unit (1), described temporary location I (2), described temporary location II (3), described active cell (4), described connecting tube I (5), described connecting tube II (6), described connecting tube III (7), described chain (8), described dress thing basket (9), described regulating block I (10) and described regulating block II (11) are constituted.See Fig. 1.

Described regulating block I (10) has described through hole I (63), described through hole II (64), described bar hole II (67).Described regulating block II (11) has described through hole III (65), described through hole IV (66), described bar hole III (68).See Figure 19, Figure 20.

Described dress thing basket (9) is used for containing the shipping parcels such as parcel.Described dress thing basket (9) has two installing holes, is used for the connection with described chain (8), and one of them is circular hole, and another is bar hole.See Fig. 8.

Described driven unit (1) is main by described short base (12), two described adjusting nuts (13), described swinging block (14), described adjustment screw mandrel (15), described from sprocket wheel (16), two described big nuts (17), described from upper boom (18), described adapter sleeve (19), described from lower beam (20), described nut I (21), described screw I (22), described pin I (36) and described pin II (37) are constituted.See Fig. 2, Fig. 3.

Described swinging block has described unthreaded hole (57) and described gantry column (58).See Fig. 9.Described adapter sleeve (19) has described joint I (54), described joint II (55) and described adapter sleeve endoporus (56).See Figure 10.Described have described gantry column installing hole (38), described pin II installing hole (39) and described bar hole I (40) from lower beam (20).See Figure 12.

The described adapter sleeve endoporus (56) of described adapter sleeve (19) is inserted in described short base (12), by the described endoporus inserting described short base (12) from lower beam (20), with described screw I (22) and described nut I (21), described short base (12) is connected from lower beam (20) with described, the hole inserted due to described screw I (22) when connecting is the described described bar hole I (40) from lower beam (20), therefore can regulate described from the height of lower beam (20).See Fig. 2.

Described from upper boom (18) with described realize, by described pin II (37) is loaded described pin II installing hole (39), the connection that can rotate from lower beam (20).The major part circular hole of described adjustment screw mandrel (15) and described connected from upper boom (18) by described pin I (36), the described gantry column (58) of described swinging block (14) loads described gantry column installing hole (38), and the screw portion of described adjustment screw mandrel (15) screws in a described adjusting nut (13) successively, inserts the described unthreaded hole (57) of described swinging block (14), screws in another described adjusting nut (13).The described endoporus from sprocket wheel (16) is inserted in described from upper boom (18), is then threaded into two described big nuts (17) mutually tightened.See Fig. 3.

Described active cell (4) is main by described head sprocket (23), described Your Majesty's bar (24), described master gear (25), described reducing motor (26), described main lower beam (27), described long base (28), two described adjusting nuts (13), described swinging block (14), described adjustment screw mandrel (15), described adapter sleeve (19), described nut I (21), described screw I (22), described pin I (36) and described pin II (37) are constituted.The described adapter sleeve endoporus (56) of described adapter sleeve (19) is inserted in described long base (28), described main lower beam (27) is inserted the endoporus of described long base (28), with described screw I (22) and described nut I (21), described long base (28) and described main lower beam (27) are connected, the hole that during due to connection, described screw I (22) is inserted is the bar hole of described main lower beam (27), therefore the height of described main lower beam (27) can be regulated, see Fig. 4.Described Your Majesty's bar (24) and described main lower beam (27) realize the connection that can rotate by described pin II (37).The major part circular hole of described adjustment screw mandrel (15) and described Your Majesty's bar (24) are connected by described pin I (36), described swinging block (14) is connected with described main lower beam (27) by described gantry column (58) and can rotate, and the screw portion of described adjustment screw mandrel (15) screws in a described adjusting nut (13) successively, inserts the described unthreaded hole (57) of described swinging block (14), screws in another described adjusting nut (13).Described head sprocket (23) has described from gear (41), the endoporus of described head sprocket (23) is inserted in described Your Majesty's bar (24), is then threaded into two described big nuts (17) mutually tightened.Described Your Majesty's bar (24) has described motor installing hole (42), the armature spindle of described reducing motor (26) is inserted described motor installing hole (42), with three pieces of screws, described reducing motor (26) and described Your Majesty's bar (24) are connected firmly, described master gear (25) is loaded the armature spindle of described reducing motor (26) and engages from gear (41) with described.

Described temporary location I (2) and described temporary location II (3) construct identical, main by described lower beam (29), described crossbeam (30), two described big nuts (17), described height bracket (31), two described rollings overlap I (32), four described rollings overlap II (33), four described jump ring I (34), described horizontal stand (35), described long base (28), two described adapter sleeves (19), described nut I (21), described screw I (22), described nut II (59), described screw I I (60), two described nut III (61) and two described screw I II (62) are constituted.See Fig. 6, Fig. 7.

Described crossbeam (30) has described support shaft I (44), described incision hole (45), described T-slot (46), and described support shaft I (44) has bar hole.See Figure 16.

Described height bracket (31) has described bracket holes I (47), and fulcrum I (48) is moved in described roll, two described vertical rollings fulcrum I (49).Described support shaft I (44) and described bracket holes I (47) coordinate and connect with described screw I I (60) and described nut II (59), owing to the hole inserted of described screw I I (60) when connecting is the bar hole on described support shaft I (44), therefore the high and low position of described height bracket (31) can be regulated.One described rolling set I (32) is arranged on the dynamic fulcrum I (48) of described roll, and two described rollings set II (33) are respectively arranged in two described vertical rollings fulcrum I (49) and above and respectively with a described jump ring I (34) fix.See Figure 17.

Described horizontal stand (35) has described T-shaped piece (50), two described horizontal stand installing holes (51), and fulcrum II (52) is moved in described roll, two described vertical rollings fulcrum II (53).Described T-shaped piece (50) and described T-slot (46) coordinate, it is possible to regulate the horizontal level of described horizontal stand (35) and fix with the described nut III (61) of two pieces of described screw I II (62) and two pieces.One described rolling set I (32) is arranged on the dynamic fulcrum II (52) of described roll, and two described rollings set II (33) are respectively arranged in two described vertical rollings fulcrum II (53) and above and respectively with a described jump ring I (34) fix.See Figure 18.

Described lower beam (29) has described otch axle (43), described otch axle (43) loads the described incision hole (45) of described crossbeam (30) and connects firmly with two described big nuts (17).

When described driven unit (1) and described temporary location I (2) are connected, first two described connecting tube I (5) are inserted respectively described through hole I (63) and the described through hole II (64) of described regulating block I (10), then one of these two described connecting tube I (5) is inserted respectively the described joint I (54) of the described adapter sleeve (19) of described driven unit (1) and described joint II (55) and connects firmly with screw, then the other end of these two described connecting tube I (5) is inserted respectively the described joint I (54) of the described adapter sleeve (19) being positioned below of described temporary location I (2) and described joint II (55) and connects firmly with screw.

In like manner, when described temporary location I (2) and described temporary location II (3) are connected, first two described connecting tube II (6) are inserted respectively the described through hole III (65) of two described regulating block II (11), described through hole IV (66), and make that regulating block II's (11) described in the two is in opposite direction, then one of these two described connecting tube II (6) is inserted respectively the described joint I (54) of the described adapter sleeve (19) above of described temporary location I (2) and described joint II (55) and connects firmly with screw, then the other end of these two described connecting tube II (6) is inserted respectively the described joint I (54) of the described adapter sleeve (19) above of described temporary location II (3) and described joint II (55) and connects firmly with screw.

In like manner, when described temporary location II (3) and described active cell (4) are connected, first two described connecting tube III (7) are inserted respectively described through hole I (63) and the described through hole II (64) of described regulating block I (10), then one of these two described connecting tube III (7) is inserted respectively the described joint I (54) of the described adapter sleeve (19) being positioned below of described temporary location II (3) and described joint II (55) and connects firmly with screw, then the other end of these two described connecting tube III (7) is inserted respectively the described joint I (54) of the described adapter sleeve (19) of described active cell (4) and described joint II (55) and connects firmly with screw.

One piece of screw is penetrated described bar hole II (67) and described bar hole III (68), then with one piece of nut, can realize connecting firmly between described regulating block I (10) and described regulating block II (11).By changing first, the link position between described regulating block I (10) and described regulating block II (11) can be changed the angle between described connecting tube I (5) and described connecting tube II (6), by changing second, the link position between described regulating block I (10) and described regulating block II (11) can be changed the angle between described connecting tube II (6) and described connecting tube III (7), that is change described driven unit (1), described temporary location I (2), horizontal layout between described temporary location II (3) and described active cell (4).See Fig. 1.

The upwards space of described chain (8) is connected to some described dresses thing basket (9), each described dress thing basket (9) is connected with the wherein two pitch chain joints of described chain (8) by two rhizoid bars, the connecting hole of described dress thing basket (9) owing to being connected with two rhizoid bars is a circular hole and a bar hole, therefore when described dress thing basket (9) and its two pitch chain joints connected all can pass through through the described slalom course from sprocket wheel (16), described head sprocket (23), described height bracket (31) or described horizontal stand (35).

As it was previously stated, as required, it is possible to adjust the horizontal layout between described driven unit (1), described temporary location I (2), described temporary location II (3) and described active cell (4).

As previously mentioned, as required, can adjust described from lower beam (20), described lower beam (29), described main lower beam (27) height, that is adjust described from sprocket wheel (16), the described crossbeam (30) of described temporary location I (2), described temporary location II (3) the height of described crossbeam (30).The high and low position of described height bracket (31) and the horizontal level of described horizontal stand (35) can be adjusted simultaneously.

As it was previously stated, as required, it is possible to adjust described from the inclined degree of upper boom (18) and described Your Majesty's bar (24).

As previously mentioned, as required, the link position of one of two described connecting tube I (5) and the described joint I (54) of the described adapter sleeve (19) of described driven unit (1) and described joint II (55) can be adjusted, that is adjust the degree of tightness of described chain (8).

In sum, described parcel transmission flexible assembly line can adjust transit route easily as required flexibly, parcel and other items is transported to other end from one of described parcel transmission flexible assembly line by certain angle of inclination and slalom course, thus realizing the quick transmission of parcel and other items.

The announcement of book and instruction according to the above description, above-mentioned embodiment can also be carried out suitable change and amendment by those skilled in the art in the invention.Therefore, the invention is not limited in the detailed description of the invention being disclosed above, should also be as some modifications and changes of the present invention falling within the scope of the claims of the present invention.Although additionally, employ some specific terms in this specification, but these terms are intended merely to convenient explanation, and the present invention does not constitute any restriction.

Claims (9)

1. a parcel transmission flexible assembly line, is characterized in that: main by driven unit, temporary location I, temporary location II, active cell, connecting tube I, connecting tube II, connecting tube III, chain, fills thing basket, regulating block I and regulating block II and constitutes；Described regulating block I has through hole I, through hole II, bar hole II；Described regulating block II has through hole III, through hole IV, bar hole III.

2. parcel transmission flexible assembly line as claimed in claim 1, described driven unit is mainly by short base, adjusting nut, swinging block, regulates screw mandrel, from sprocket wheel, big nut, from upper boom, adapter sleeve, from lower beam, nut I, screw I, pin I and pin II is constituted, and it is characterized in that: described swinging block has unthreaded hole and gantry column；Described connection is cased with joint I, joint II and adapter sleeve endoporus；Described have gantry column installing hole, pin II installing hole and bar hole I from lower beam；The described adapter sleeve endoporus of described adapter sleeve is inserted in described short base, by the described endoporus inserting described short base from lower beam, with described screw I and described nut I, described short base is connected from lower beam with described, the hole that during owing to connecting, described screw I is inserted is the described described bar hole I from lower beam, therefore can regulate described from the height of lower beam；Described from upper boom and described from lower beam by by described pin II load described pin II installing hole and realize the connection that can rotate；The major part circular hole of described adjustment screw mandrel and described connected from upper boom by described pin I, the described gantry column of described swinging block is loaded described gantry column installing hole, and the screw portion of described adjustment screw mandrel screws in a described adjusting nut successively, inserts the described unthreaded hole of described swinging block, screws in another described adjusting nut；The described endoporus from sprocket wheel is inserted in described from upper boom, is then threaded into two described big nuts mutually tightened.

3. parcel transmission flexible assembly line as claimed in claim 1, described active cell is mainly by head sprocket, Your Majesty's bar, master gear, reducing motor, main lower beam, long base, described adjusting nut, described swinging block, described adjustment screw mandrel, described adapter sleeve, described nut I, described screw I, described pin I and described pin II is constituted, it is characterized in that: the described adapter sleeve endoporus of described adapter sleeve is inserted in described long base, described main lower beam is inserted the endoporus of described long base, with described screw I and described nut I, described long base and described main lower beam are connected, owing to when connecting, the hole of described screw I insertion is the bar hole of described main lower beam, therefore the height of described main lower beam can be regulated；Described Your Majesty's bar and described main lower beam realize the connection that can rotate by described pin II；The major part circular hole of described adjustment screw mandrel and described Your Majesty's bar are connected by described pin I, described swinging block is connected with described main lower beam by described gantry column and can rotate, and the screw portion of described adjustment screw mandrel screws in a described adjusting nut successively, inserts the described unthreaded hole of described swinging block, screws in another described adjusting nut；Described head sprocket has from gear, and the endoporus of described head sprocket is inserted in described Your Majesty's bar, is then threaded into two described big nuts mutually tightened；Described Your Majesty's bar has motor installing hole, the armature spindle of described reducing motor is inserted described motor installing hole, described reducing motor and described Your Majesty's bar is connected firmly with three pieces of screws, described master gear is loaded the armature spindle of described reducing motor and engages from gear with described.

4. parcel transmission flexible assembly line as claimed in claim 1, described temporary location I and described temporary location II structure is identical, mainly by lower beam, crossbeam, described big nut, height bracket, roll set I, roll set II, jump ring I, horizontal stand, described long base, described adapter sleeve, described nut I, described screw I, nut II, screw I I, nut III and screw I II are constituted, and it is characterized in that: described crossbeam has support shaft I, incision hole, T-slot, described support shaft I has bar hole；Described height bracket has bracket holes I, and fulcrum I is moved in roll, vertical rolling fulcrum I；Described support shaft I and described bracket holes I coordinates and uses described screw I I and described nut II to connect, and the hole that during owing to connecting, described screw I I inserts is the bar hole on described support shaft I, therefore can regulate the high and low position of described height bracket；The described set I that rolls is arranged on the dynamic fulcrum I of described roll, and two described set II that roll are respectively arranged on two described vertical rolling fulcrum I and fix with a described jump ring I respectively；Described horizontal stand has T-shaped piece, horizontal stand installing hole, and fulcrum II is moved in roll, vertical rolling fulcrum II；Described T-shaped piece and the cooperation of described T-slot, it is possible to regulate the horizontal range of described horizontal stand and fix with the described nut III of two pieces of described screw I II and two pieces；The described set I that rolls is arranged on the dynamic fulcrum II of described roll, and two described set II that roll are respectively arranged on two described vertical rolling fulcrum II and fix with a described jump ring I respectively；Described lower beam has otch axle, described otch axle is loaded described incision hole and connects firmly with two described big nuts.

5. parcel transmission flexible assembly line as claimed in claim 1, when described driven unit and described temporary location I are connected, first two described connecting tube I are inserted respectively the described through hole I and described through hole II of described regulating block I, then by the described joint I and described joint II of one of these the two described connecting tube I described adapter sleeve inserting described driven unit respectively and connect firmly with screw, then the other end of these two described connecting tube I is inserted respectively the described joint I and described joint II of the described adapter sleeve being positioned below of described temporary location I and connects firmly with screw.

6. parcel transmission flexible assembly line as claimed in claim 1, when described temporary location I and described temporary location II is connected, two described connecting tube II are inserted respectively the described through hole III of two described regulating block II, described through hole IV, and make that regulating block II's described in the two is in opposite direction, then one of these two described connecting tube II is inserted respectively the described joint I and described joint II of the described adapter sleeve above of described temporary location I and connects firmly with screw, then the other end of these two described connecting tube II is inserted respectively the described joint I and described joint II of the described adapter sleeve above of described temporary location II and connects firmly with screw.

7. parcel transmission flexible assembly line as claimed in claim 1, when described temporary location II and described active cell are connected, two described connecting tube III are inserted respectively the described through hole I and described through hole II of described regulating block I, then one of these two described connecting tube III is inserted respectively the described joint I and described joint II of the described adapter sleeve being positioned below of described temporary location II and connects firmly with screw, then the other end of these two described connecting tube III is inserted respectively the described joint I and described joint II of the described adapter sleeve of described active cell and connects firmly with screw.

8. parcel transmission flexible assembly line as claimed in claim 1, penetrates one piece of screw described bar hole II and described bar hole III, then with one piece of nut, can realize connecting firmly between described regulating block I and described regulating block II；By changing first, the link position between described regulating block I and described regulating block II can be changed the angle between described connecting tube I and described connecting tube II, by changing second the link position between described regulating block I and described regulating block II can be changed the angle between described connecting tube II and described connecting tube III, that is change described driven unit, described temporary location I, horizontal layout between described temporary location II and described active cell.

9. parcel transmission flexible assembly line as claimed in claim 1, the upwards space of described chain is connected to some described dress thing baskets, each described dress thing basket is connected with the wherein two pitch chain joints of described chain by two rhizoid bars, the position of the described dress thing basket owing to being connected with two rhizoid bars is a circular hole and a bar hole, therefore when described dress thing basket and its two pitch chain joints connected all can pass through from sprocket wheel, described head sprocket, described height bracket or described horizontal stand through described.