CN210466409U

CN210466409U - Bar code and parcel identification information acquisition device

Info

Publication number: CN210466409U
Application number: CN201922056318.2U
Authority: CN
Inventors: 马恩超; 何习全; 李晓峰; 赵伟; 石磊; 杨加南; 李文瀚; 杨鸣; 蔡健
Original assignee: Jiangsu Seuic Technology Co ltd
Current assignee: Seuic Technologies Co Ltd
Priority date: 2019-11-26
Filing date: 2019-11-26
Publication date: 2020-05-05
Anticipated expiration: 2029-11-26
Also published as: WO2021103813A1

Abstract

The utility model discloses a bar code and parcel identification information collection system, sweep a yard mechanism, top including longmen frame, side and sweep a yard mechanism and include volume acquisition mechanism. The bar code and parcel identification information acquisition device can be used for scanning the vertical side surfaces of parcels by using the two side code scanning mechanisms, and scanning the upper sides of the parcels by using the top code scanning mechanism, so that the bar code scanning requirements of most of parcel surfaces are met; the volume acquisition mechanism can be used for measuring volume data of the packages, so that the packages can be conveniently identified and sorted in the later period.

Description

Bar code and parcel identification information acquisition device

Technical Field

The utility model relates to an information acquisition device, especially a bar code and parcel identification information collection system.

Background

In the modern intelligent era, the productivity level is greatly improved, the labor cost is gradually improved, and the manual operation is difficult to meet the rapidly-increased flow demand, so that the sorting capacity is an important counter for the mutual competition of the express logistics industry. The intelligent and automatic sorting equipment and the code reading equipment are widely used in various fields in China, and the industrialization and automation level of China is greatly improved; the transformation depends on the introduction of foreign advanced equipment and the domestic independent innovation capability to a great extent; however, the express logistics industry is widely distributed, a large number of workers are involved, the development among the areas is unbalanced, the distribution of the degree of automation is mostly concentrated in a first-level sorting link of a first-level city, the input cost is high, the quality of the workers is also high, the automation level of the link of the next level is relatively weak, the link can only occupy a small area, the input is increased in manpower to meet the survival demand, meanwhile, the labor cost is increased, the land price is increased, the market is continuously driven, and the next-level market also faces the same problems. Therefore, it is necessary to design a barcode and package identification information acquisition device, which can acquire the facial single barcode information of the package and the volume profile information of the package, so as to provide identification sorting data for subsequent sorting equipment and provide support for subsequent automatic sorting.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: the bar code and package identification information acquisition device can acquire the single bar code information of a package and the volume profile information of the package, so that identification sorting data are provided for subsequent sorting equipment, and support is provided for subsequent automatic sorting.

In order to realize the aim of the utility model, the utility model provides a bar code and parcel identification information acquisition device, which comprises a gantry frame, two side code scanning mechanisms, a top code scanning mechanism and a volume acquisition mechanism, wherein each side code scanning mechanism comprises a vertical mounting rod, a lifting adjusting mechanism and decoders which are arranged on the vertical mounting rod at intervals, and the vertical mounting rods of the two side code scanning mechanisms are respectively arranged on the left side edge and the right side edge of the gantry frame through the lifting adjusting mechanism; the top code scanning mechanism comprises a transverse mounting rod, a suspension adjusting structure and decoders which are arranged on the lower side edge of the transverse mounting rod at intervals, and the transverse mounting rod is transversely suspended above the middle part of the gantry frame through the suspension adjusting structure; the volume acquisition mechanism comprises a volume camera, a mounting seat and a transverse rail; the transverse track is transversely and fixedly arranged on the rear side of the top of the gantry frame; the volume camera is mounted on the transverse rail through a mounting seat.

Furthermore, the gantry frame consists of two rectangular frames and four supporting upright posts; the four supporting upright posts are vertically arranged at four top corners of the two rectangular frames; the lower ends of the four supporting upright columns are respectively provided with a supporting bottom plate; triangular reinforcing rib plates are arranged at the joints of the supporting base plate and the supporting upright posts and the joints of the supporting upright posts and the rectangular frame.

Furthermore, the lifting adjusting structure comprises a lifting driving screw, a lifting adjusting crank, a lifting driving block, a longitudinal rod, a strip-shaped pressing plate, a fastening bolt and a rectangular frame; the longitudinal rod is arranged between the two corresponding supporting upright columns in the front and the back, and is longitudinally provided with a longitudinal strip-shaped hole for front and back adjustment; a rectangular sliding block is arranged on the outer frame at one side of the rectangular frame; the rectangular sliding block is slidably embedded into the longitudinal strip-shaped hole, and a fastening threaded hole is formed in the rectangular sliding block; the end part of a screw rod of the fastening bolt penetrates through the strip-shaped pressing plate and is screwed on the fastening threaded hole, and the longitudinal rod is clamped between the strip-shaped pressing plate and the outer frame of the rectangular frame; the lifting driving screw is vertically and rotatably arranged in the rectangular frame; a lifting driving threaded hole is formed in the lifting driving block, and a lifting driving screw is installed on the lifting driving threaded hole in a threaded manner; a guide strip-shaped hole is vertically formed in the rectangular frame, and the lifting driving block extends out of the rectangular frame from the guide strip-shaped hole; the vertical mounting rod is vertically mounted on the extending side surface of the lifting driving block; the lifting adjusting crank is rotatably arranged on the frame of the rectangular frame through a crank rotating shaft, and the crank rotating shaft extends into the rectangular frame; the extending end part of the crank rotating shaft is provided with a driving bevel gear, and the lower end part of the lifting driving screw is fixedly provided with a driven bevel gear meshed with the driving bevel gear.

Further, the suspension adjusting structure comprises two sliding sleeves, a transverse supporting beam and two suspension units; the suspension unit comprises a vertical sleeve, a suspension screw, an adjusting nut and a suspension adjusting crank; the two sliding sleeves are respectively sleeved on the left side frame and the right side frame of the rectangular frame at the lower side in a sliding manner; the transverse supporting beam is transversely arranged between the two sliding sleeves; the vertical sleeves of the two suspension units are respectively and vertically arranged on the left end part and the right end part of the transverse supporting beam, and a supporting circular ring is arranged at the upper pipe opening of the vertical sleeve; the suspension screw rod is inserted into the vertical sleeve, and the adjusting nut is screwed on the suspension screw rod; the suspension adjusting crank is fixedly arranged on the side edge of the adjusting nut, and the adjusting nut is supported on the upper side ring surface of the supporting ring; the lower end parts of the suspension screws of the two suspension units are respectively and rotatably arranged on the upper side edges of the left end and the right end of the transverse mounting rod.

Furthermore, a longitudinal positioning bolt is screwed on the lower side surface of the sliding sleeve, and the end part of a screw rod of the longitudinal positioning bolt is pressed on the frame of the rectangular frame.

Furthermore, the transverse rail is a rail with a T-shaped section, and a T-shaped sliding groove is formed in the mounting seat; the lower side edge of the transverse track penetrates through the T-shaped sliding groove; and a transverse positioning bolt is screwed on the mounting seat in a threaded manner, and the end part of a screw rod of the transverse positioning bolt is pressed on the transverse track.

Furthermore, a lamp post is vertically arranged on the lower side edges of the two ends of the transverse installation rod; all install a light filling lamp through articulated seat is articulated on the lower extreme of two lamp poles.

The beneficial effects of the utility model reside in that: the two side code scanning mechanisms can be used for scanning the vertical side surfaces of the parcels, and the top code scanning mechanism can be used for scanning the upper sides of the parcels, so that the code scanning requirements of bar codes on the surfaces of most parcels are met; the volume acquisition mechanism can be used for measuring the volume data of the packages, so that the packages can be identified and sorted at the later stage; utilize the altitude mixture control that the side decoder can be convenient for to the lift adjustment structure, utilize to hang the altitude mixture control that the adjustment structure can be convenient for the top decoder in midair.

Drawings

Fig. 1 is a front view of the present invention;

fig. 2 is a schematic diagram of the structure of the right side of the present invention.

Detailed Description

The technical solution of the present invention will be described in detail with reference to the accompanying drawings, but the scope of the present invention is not limited to the embodiments.

Example 1:

as shown in fig. 1 and 2, the utility model discloses a bar code and parcel identification information collection system includes: the side code scanning mechanism comprises a vertical mounting rod 20, a lifting adjusting structure and decoders 6 which are mounted on the vertical mounting rod 20 at intervals, and the vertical mounting rods 20 of the two side code scanning mechanisms are respectively mounted on the left side edge and the right side edge of the gantry frame through the lifting adjusting structure; the top code scanning mechanism comprises a transverse mounting rod 11, a suspension adjusting structure and decoders 6 arranged on the lower side edge of the transverse mounting rod 11 at intervals, and the transverse mounting rod 11 is transversely suspended above the middle part of the gantry frame through the suspension adjusting structure; the volume acquisition mechanism comprises a volume camera 5, a mounting seat 9 and a transverse rail 8; the transverse track 8 is transversely and fixedly arranged on the rear side of the top of the gantry frame; the volume camera 5 is mounted on the transverse rails 8 by means of a mount 9.

The two side code scanning mechanisms can be used for scanning the vertical side surfaces of the parcels, and the top code scanning mechanism can be used for scanning the upper sides of the parcels, so that the code scanning requirements of bar codes on the surfaces of most parcels are met; the volume acquisition mechanism can be used for measuring the volume data of the packages, so that the packages can be identified and sorted at the later stage; the height adjustment of the side decoder 6 can be facilitated by the use of the elevation adjustment structure, and the height adjustment of the top decoder 6 can be facilitated by the use of the suspension adjustment structure.

Further, the gantry frame is composed of two rectangular frames 2 and four supporting upright posts 1; four supporting upright posts 1 are vertically arranged at four top corners of two rectangular frames 2; the lower ends of the four supporting upright posts 1 are respectively provided with a supporting bottom plate 3; triangular reinforcing rib plates 4 are arranged at the joints of the supporting bottom plate 3 and the supporting upright posts 1 and the joints of the supporting upright posts 1 and the rectangular frame 2. The structural strength at the installation position can be enhanced by using the triangular reinforcing rib plate 4.

Further, the lifting adjusting structure comprises a lifting driving screw 22, a lifting adjusting crank 25, a lifting driving block 23, a longitudinal rod 30, a strip-shaped pressing plate 33, a fastening bolt 34 and a rectangular frame 21; the longitudinal rod 30 is arranged between the two corresponding supporting upright posts 1 at the front and the back, and a longitudinal strip-shaped hole 31 for front and back adjustment is longitudinally arranged on the longitudinal rod 30; a rectangular sliding block 32 is arranged on the outer frame of one side of the rectangular frame 21; the rectangular sliding block 32 is slidably embedded into the longitudinal strip-shaped hole 31, and a fastening threaded hole is formed in the rectangular sliding block 32; the end part of the screw rod of the fastening bolt 34 penetrates through the strip-shaped pressing plate 33 and is screwed on the fastening threaded hole, and the longitudinal rod 30 is clamped between the strip-shaped pressing plate 33 and the outer frame of the rectangular frame 21; the lifting driving screw 22 is vertically and rotatably arranged in the rectangular frame 21; a lifting driving threaded hole is formed in the lifting driving block 23, and the lifting driving screw 22 is installed on the lifting driving threaded hole in a threaded manner; a guide strip-shaped hole is vertically formed in the rectangular frame 21, and the lifting driving block 23 extends out of the rectangular frame 21 from the guide strip-shaped hole; the vertical mounting rod 20 is vertically mounted on the extending side surface of the lifting driving block 23; the lifting adjusting crank 25 is rotatably arranged on the frame of the rectangular frame 21 through a crank rotating shaft 24, and the crank rotating shaft 24 extends into the rectangular frame 21; a driving bevel gear 27 is provided on the extending end of the crank shaft 24, and a driven bevel gear 26 engaged with the driving bevel gear 27 is fixedly mounted on the lower end of the elevating driving screw 22. The lifting driving block 23 is driven to move up and down by the rotation of the lifting driving screw rod 22, so that the height of the decoder 6 on the side edge is adjusted according to the field installation requirement; a transmission structure is formed by the lifting adjusting crank 25, the crank rotating shaft 24, the driving bevel gear 27 and the driven bevel gear 26, so that the rotation of the lifting driving screw 22 is manually adjusted; the vertical sliding of the lifting driving block 23 can be ensured by utilizing the guide strip-shaped holes; the longitudinal strip-shaped hole 31, the rectangular sliding block 32, the fastening bolt 34 and the strip-shaped pressing plate 33 form a longitudinal locking and positioning mechanism, so that the longitudinal position of the decoder 6 on the side edge can be adjusted.

Further, the suspension adjustment structure comprises two sliding sleeves 17, a transverse support beam and two suspension units; the suspension unit comprises a vertical sleeve 12, a suspension screw 15, an adjusting nut 14 and a suspension adjusting crank 16; the two sliding sleeves 17 are respectively sleeved on the left and right side frames of the rectangular frame 2 at the lower side in a sliding manner; the transverse supporting beam is transversely arranged between the two sliding sleeves 17; the vertical sleeves 12 of the two suspension units are respectively vertically arranged on the left end part and the right end part of the transverse supporting beam, and a supporting circular ring 13 is arranged at the upper pipe opening of the vertical sleeve 12; the suspension screw 15 is inserted into the vertical sleeve 12, and the adjusting nut 14 is screwed on the suspension screw 15; the suspension adjusting crank 16 is fixedly arranged on the side edge of the adjusting nut 14, and the adjusting nut 14 is supported on the upper side ring surface of the supporting ring 13; lower end portions of the suspension screws 15 of the two suspension units are rotatably mounted on upper side edges of both left and right ends of the transverse mounting rod 11, respectively. The suspension height of the transverse mounting rod 11 can be adjusted by using the two suspension units, so that the height of the decoder 6 on the upper side can be adjusted according to the field mounting requirement; the support ring 13 can be used for realizing the stable support of the adjusting nut 14; the use of a suspension adjustment crank 16 can facilitate rapid manual rotation of the suspension screw 15.

Further, a longitudinal positioning bolt 28 is threadedly mounted on the lower side surface of the sliding sleeve 17, and the end of the screw of the longitudinal positioning bolt 28 presses against the rim of the rectangular frame 2. The positioning and installation of the sliding sleeve 17 can be realized by using a longitudinal positioning bolt 28.

Further, the transverse rail 8 is a rail with a T-shaped section, and the mounting seat 9 is provided with a T-shaped sliding chute 29; the lower side edge of the transverse track 8 penetrates through the T-shaped sliding groove 29; a transverse positioning bolt 10 is screwed on the mounting seat 9, and the end of the screw rod of the transverse positioning bolt 10 is pressed on the transverse rail 8. The lateral position of the volume camera 5 can be easily adjusted by slidably mounting the mount 9 on the lateral rail 8.

Further, a lamp post 18 is vertically arranged on the lower side edges of the two ends of the transverse installation rod 11; the lower ends of the two lamp poles 18 are hinged with a light supplement lamp 7 through a hinge base 19. The light supplement lamp 7 installed in an articulated manner can provide enough brightness, so that the decoder 6 and the volume camera 5 can both obtain clear images, and the orientation of the light source can be conveniently adjusted through the articulated seat 19.

The utility model discloses a bar code and parcel identification information collection system is when using, decoder 6 adopts current bar code scanner, volume camera 5 adopts current depth of field camera, when the conveyer belt is placed to the parcel on, guarantee as far as possible that the bar code is located the side, if on vertical side then by controlling decoder 6 of side sweep the sign indicating number, if not on controlling the side, because decoder 6 itself has certain visual angle scope, consequently also can sweep the sign indicating number to the bar code when getting into to sweep the sign indicating number region or leaving and sweep the sign indicating number region.

As mentioned above, although the present invention has been shown and described with reference to certain preferred embodiments, it should not be construed as limiting the invention itself. Various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. The utility model provides a bar code and parcel identification information collection system which characterized in that: the side code scanning mechanism comprises a vertical mounting rod (20), a lifting adjusting structure and decoders (6) which are mounted on the vertical mounting rod (20) at intervals, and the vertical mounting rods (20) of the two side code scanning mechanisms are respectively mounted on the left side edge and the right side edge of the gantry frame through the lifting adjusting structure; the top code scanning mechanism comprises a transverse mounting rod (11), a suspension adjusting structure and decoders (6) which are mounted on the lower side edge of the transverse mounting rod (11) at intervals, and the transverse mounting rod (11) is transversely suspended above the middle part of the gantry frame through the suspension adjusting structure; the volume acquisition mechanism comprises a volume camera (5), a mounting seat (9) and a transverse rail (8); the transverse track (8) is transversely and fixedly arranged on the rear side of the top of the gantry frame; the volume camera (5) is mounted on the transverse rail (8) through a mounting seat (9).

2. The barcode and package identification information collecting device of claim 1, wherein: the gantry frame consists of two rectangular frames (2) and four supporting upright posts (1); the four supporting upright posts (1) are vertically arranged at four top corners of the two rectangular frames (2); the lower ends of the four supporting upright posts (1) are respectively provided with a supporting bottom plate (3); triangular reinforcing rib plates (4) are arranged at the joints of the supporting base plate (3) and the supporting upright posts (1) and the joints of the supporting upright posts (1) and the rectangular frame (2).

3. The barcode and package identification information collecting device of claim 2, wherein: the lifting adjusting structure comprises a lifting driving screw rod (22), a lifting adjusting crank handle (25), a lifting driving block (23), a longitudinal rod (30), a strip-shaped pressing plate (33), a fastening bolt (34) and a rectangular frame (21); the longitudinal rod (30) is arranged between the two corresponding supporting upright posts (1) at the front and the back, and a longitudinal strip-shaped hole (31) for front and back adjustment is longitudinally arranged on the longitudinal rod (30); a rectangular sliding block (32) is arranged on the outer frame of one side of the rectangular frame (21); the rectangular sliding block (32) is slidably embedded into the longitudinal strip-shaped hole (31), and a fastening threaded hole is formed in the rectangular sliding block (32); the end part of a screw rod of the fastening bolt (34) penetrates through the strip-shaped pressing plate (33) and is screwed on the fastening threaded hole, and the longitudinal rod (30) is clamped between the strip-shaped pressing plate (33) and the outer frame of the rectangular frame (21); the lifting driving screw rod (22) is vertically and rotatably arranged in the rectangular frame (21); a lifting driving threaded hole is formed in the lifting driving block (23), and a lifting driving screw (22) is installed on the lifting driving threaded hole in a threaded manner; a guide strip-shaped hole is vertically formed in the rectangular frame (21), and the lifting driving block (23) extends out of the rectangular frame (21) from the guide strip-shaped hole; the vertical mounting rod (20) is vertically mounted on the extending side surface of the lifting driving block (23); the lifting adjusting crank (25) is rotatably arranged on the frame of the rectangular frame (21) through a crank rotating shaft (24), and the crank rotating shaft (24) extends into the rectangular frame (21); the extending end part of the crank rotating shaft (24) is provided with a driving bevel gear (27), and the lower end part of the lifting driving screw rod (22) is fixedly provided with a driven bevel gear (26) meshed with the driving bevel gear (27).

4. The barcode and package identification information collecting device of claim 2, wherein: the suspension adjusting structure comprises two sliding sleeves (17), a transverse supporting beam and two suspension units; the suspension unit comprises a vertical sleeve (12), a suspension screw (15), an adjusting nut (14) and a suspension adjusting crank (16); the two sliding sleeves (17) are respectively sleeved on the left side frame and the right side frame of the rectangular frame (2) at the lower side in a sliding manner; the transverse supporting beam is transversely arranged between the two sliding sleeves (17); vertical sleeves (12) of the two suspension units are respectively and vertically arranged on the left end part and the right end part of the transverse supporting beam, and a supporting circular ring (13) is arranged at an upper pipe opening of the vertical sleeve (12); the suspension screw (15) is inserted into the vertical sleeve (12), and the adjusting nut (14) is screwed on the suspension screw (15); the suspension adjusting crank (16) is fixedly arranged on the side edge of the adjusting nut (14), and the adjusting nut (14) is supported on the upper side ring surface of the supporting ring (13); the lower ends of the suspension screws (15) of the two suspension units are rotatably mounted on the upper sides of the left and right ends of the transverse mounting rod (11), respectively.

5. The barcode and package identification information collecting device of claim 4, wherein: a longitudinal positioning bolt (28) is screwed on the lower side surface of the sliding sleeve (17), and the end part of the screw rod of the longitudinal positioning bolt (28) is pressed on the frame of the rectangular frame (2).

6. The barcode and package identification information collecting device of claim 1, wherein: the transverse track (8) is a track with a T-shaped section, and a T-shaped sliding groove (29) is arranged on the mounting seat (9); the lower side edge of the transverse track (8) penetrates through the T-shaped sliding groove (29); a transverse positioning bolt (10) is screwed on the mounting seat (9), and the end part of a screw rod of the transverse positioning bolt (10) is pressed on the transverse track (8).

7. The barcode and package identification information collecting device of claim 1, wherein: a lamp post (18) is vertically arranged on the lower side edges of the two ends of the transverse mounting rod (11); the lower ends of the two lamp poles (18) are hinged with a light supplement lamp (7) through a hinge seat (19).