CN215795122U

CN215795122U - Laminated part tray

Info

Publication number: CN215795122U
Application number: CN202121778227.0U
Authority: CN
Inventors: 刘昱; 刘雷; 李怀清
Original assignee: Kunming Shengyuda Mold Co ltd
Current assignee: Kunming Shengyuda Mold Co ltd
Priority date: 2021-08-02
Filing date: 2021-08-02
Publication date: 2022-02-11
Anticipated expiration: 2031-08-02

Abstract

The utility model relates to the field of logistics packaging, in particular to a laminated part tray; the stacked type part tray comprises a base, an active layer and a linkage assembly, the active layer is arranged above the linkage assembly, the base is arranged below the linkage assembly, the linkage assembly comprises a center mechanism and a transmission mechanism, the center mechanism is arranged below the active layer, the transmission mechanism is arranged at four corners of the active layer, the center mechanism comprises a linkage disk and transmission shafts, the linkage disk is arranged below the active layer, the transmission shafts are arranged at the peripheral sides of the linkage disk, the linkage disk is connected with the transmission mechanisms at the four corners through the transmission shafts, when the active layer and the base slide relatively, the transmission mechanisms at the four corners move simultaneously, and therefore four-corner linkage of the sliding layer is achieved, the problem that the height of the top layer is uneven when the existing stacked type tray is adjusted to the height is solved.

Description

Laminated part tray

Technical Field

The utility model relates to the field of logistics packaging, in particular to a laminated part tray.

Background

With the globalization development of industry, the manufacturing mode of products gradually changes to disperse parts to different places for processing, and then the parts are transported to the same place for assembly, and the transportation and storage of the parts are inevitable in the assembly and part processing processes, so that various corresponding trays are needed for carrying the parts in order to facilitate the simultaneous transportation and storage of a large number of parts;

when the layer height is adjusted, the existing stacked tray needs to adjust the lock catches at four corners independently, and the top layer is easy to be uneven in the adjusting process.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a stacked part tray, which solves the problem that the top layer is easy to be uneven when the height of the layer is adjusted in the conventional stacked tray.

In order to achieve the above object, the present invention provides a stacked part tray, which includes a base, a movable layer and a linkage assembly, wherein the movable layer is disposed above the linkage assembly and is fixedly connected to the linkage assembly, the base is disposed below the linkage assembly and is engaged with the linkage assembly, the base is slidably connected to the movable layer, the linkage assembly includes a center mechanism and a transmission mechanism, the center mechanism is disposed below the movable layer, the transmission mechanism is disposed at four corners of the movable layer, and the transmission mechanism is engaged with the base and the center mechanism respectively;

the central mechanism includes linkage dish and transmission shaft, the linkage dish set up in the below on movable layer, and with movable layer swivelling joint, the transmission shaft set up in the week side of linkage dish, and with the linkage dish meshing, just keeping away from of transmission shaft linkage dish one end and adjacent drive mechanism cooperates.

When the movable layer with the base takes place relative slip, the drive mechanism, through the transmission shaft drives the linkage disk is rotatory, simultaneously the linkage disk passes through the transmission shaft, will set up in the four corners on movable layer drive mechanism interconnect realizes the linkage.

The transmission shaft comprises a rotating shaft and a helical gear, the helical gear is arranged on the periphery of the linkage disk and meshed with the linkage disk, the rotating shaft is arranged on one side of the linkage disk, far away from the helical gear, and fixedly connected with the helical gear, the rotating shaft and the helical gear are concentrically arranged, and the rotating shaft is matched with the adjacent transmission mechanism.

The transmission mechanism drives the rotating shaft to rotate, so that the bevel gear drives the linkage disc to rotate.

The transmission mechanism comprises a transmission chain, a chain wheel and a transmission wheel, the transmission wheel is arranged at four corners of the movable layer and meshed with the base, the chain wheel is arranged on one side, close to the linkage disc, of the transmission wheel and fixedly connected with the transmission wheel, the chain wheel and the transmission wheel are concentrically arranged, the transmission chain is sleeved on the outer side of the chain wheel and matched with the chain wheel, and the chain wheel is matched with the rotating shaft through the transmission chain.

When the movable layer slides on the base, the driving wheel rotates to drive the chain wheel to rotate, and the chain wheel drives the rotating shaft to rotate through the driving chain.

The movable layer comprises a top plate, a fixed lock and a sliding pipe, the top plate is arranged above the linkage disc, the sliding pipe is arranged at four corners below the top plate and fixedly connected with the top plate, the sliding pipe is slidably connected with the base and meshed with the driving wheel, the fixed lock is arranged on the inner side of the top plate and slidably connected with the top plate, and the fixed lock penetrates through the top plate and is matched with the linkage disc.

The top plate is connected with the base in a sliding mode through the sliding pipe, when the top plate and the base slide relatively, the sliding pipe drives the driving wheel to rotate so as to drive the linkage disc to rotate, the fixing lock is pressed down after height adjustment is completed, the linkage disc is locked, and therefore the four corners of the tray are locked simultaneously.

The sliding tube comprises rotating wheels and sleeves, the sleeves are arranged at four corners below the top plate and fixedly connected with the top plate, the rotating wheels penetrate through the side walls of the sleeves and are rotatably connected with the sleeves, and the rotating wheels are meshed with the base and the driving wheels simultaneously.

When the base slides on the inner side of the sleeve, the rotating wheel is stirred so as to drive the driving wheel.

The fixed lock comprises a lock catch, an inclined rail and a sliding block, the sliding block is arranged on the inner side of the top plate and is in sliding connection with the top plate, the inclined rail is arranged on the inner side of the sliding block and is fixedly connected with the sliding block, the lock catch is arranged on the inner side of the inclined rail and is in sliding connection with the inclined rail, and the lock catch penetrates through the top plate and is matched with the linkage disc.

When the linkage disc is locked, the sliding block is pressed down, and the inclined rail guides the lock catch to slide towards the linkage disc and is matched with the linkage disc, so that the linkage disc is locked.

The base comprises a bottom plate and a sliding rod, the sliding rod is arranged on the inner side of the movable layer and is in sliding connection with the movable layer, the sliding rod is meshed with the movable layer, the bottom plate is arranged below the sliding rod and is fixedly connected with the sliding rod, and the sliding rod is arranged at the four corners of the bottom plate.

When the layer height is adjusted, the sliding rod slides on the inner side of the sleeve, and simultaneously the sliding rod pulls the rotating wheel, so that the driving wheel is driven to rotate.

The sliding rod comprises a rack and vertical rods, the vertical rods are arranged at four corners of the bottom plate and are in sliding connection with the movable layer, the rack is arranged on one side, close to the vertical rods, of the transmission mechanism and is fixedly connected with the vertical rods, and the rack is meshed with the movable layer.

When the floor height is adjusted, the sleeve slides on the upright rod, the rack is meshed with the rotating wheel, and the rotating wheel is stirred to rotate.

According to the stacked part tray, the transmission mechanisms at the four corners are connected with each other through the transmission shafts by the linkage disc, and when the movable layer and the base slide relatively, the transmission mechanisms at the four corners move simultaneously, so that the four corners of the sliding layer are linked, and the problem that the top layer is prone to being uneven when the height of the layer is adjusted by the conventional stacked part tray is solved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic axial view of a laminated parts pallet according to the present invention.

Fig. 2 is a schematic front view of a stacked parts tray according to the present invention.

Fig. 3 is a schematic side sectional view of a laminated parts pallet according to the present invention.

Fig. 4 is a side view partially enlarged schematic view of a laminated parts pallet according to the present invention.

Fig. 5 is a schematic bottom sectional view of a stacked parts pallet according to the present invention.

10-linkage component, 11-center mechanism, 111-linkage disk, 112-transmission shaft, 1121-rotation shaft, 1122-helical gear, 12-transmission mechanism, 121-transmission chain, 122-chain wheel, 123-transmission wheel, 20-movable layer, 21-top plate, 22-sliding tube, 221-rotating wheel, 222-sleeve, 23-fixed lock, 231-sliding block, 232-oblique rail, 233-lock catch, 30-base, 31-bottom plate, 32-sliding bar, 321-rack and 322-vertical bar.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the utility model and are not to be construed as limiting the utility model.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. Further, in the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Referring to fig. 1 to 5, the present invention provides a stacked part tray, which includes a base 30, a movable layer 20 and a linkage assembly 10, wherein the movable layer 20 is disposed above the linkage assembly 10 and is fixedly connected to the linkage assembly 10, the base 30 is disposed below the linkage assembly 10 and is engaged with the linkage assembly 10, the base 30 is slidably connected to the movable layer 20, the linkage assembly 10 includes a central mechanism 11 and a transmission mechanism 12, the central mechanism 11 is disposed below the movable layer 20, the transmission mechanism 12 is disposed at four corners of the movable layer 20, and the transmission mechanism 12 is engaged with the base 30 and the central mechanism 11, respectively;

center mechanism 11 includes linkage disk 111 and transmission shaft 112, linkage disk 111 set up in the below of activity layer 20, and with activity layer 20 swivelling joint, transmission shaft 112 set up in linkage disk 111's week side, and with linkage disk 111 meshes, just transmission shaft 112 keep away from linkage disk 111 one end is with adjacent drive mechanism 12 cooperates.

In this embodiment, when the deck height is adjusted, the movable deck 20 and the base 30 slide relatively, the movable deck 20 drives the transmission mechanism 12, the transmission mechanism 12 is connected to the linkage disk 111 through the transmission shaft 112 to drive the linkage disk 111 to rotate, and the linkage disk 111 connects the transmission mechanisms 12 arranged at four corners of the movable deck 20 to each other through the transmission shaft 112 to realize linkage, so as to solve the problem that the top deck is prone to be uneven when the deck height is adjusted in the conventional stacked pallet.

Further, the transmission shaft 112 includes a rotation shaft 1121 and an angular gear 1122, the angular gear 1122 is disposed on the peripheral side of the linkage disk 111 and is engaged with the linkage disk 111, the rotation shaft 1121 is disposed on the side of the angular gear 1122 away from the linkage disk 111 and is fixedly connected with the angular gear 1122, the rotation shaft 1121 is disposed concentrically with the angular gear 1122, and the rotation shaft 1121 is engaged with the adjacent transmission mechanism 12;

the transmission mechanism 12 includes a transmission chain 121, a sprocket 122 and a transmission wheel 123, the transmission wheel 123 is disposed at four corners of the movable layer 20, the transmission wheel 123 is engaged with the base 30, the sprocket 122 is disposed at one side of the transmission wheel 123 close to the linkage disc 111 and is fixedly connected with the transmission wheel 123, the sprocket 122 and the transmission wheel 123 are concentrically disposed, the transmission chain 121 is sleeved outside the sprocket 122 and is engaged with the sprocket 122, and the sprocket 122 is engaged with the rotation shaft 1121 through the transmission chain 121;

the movable layer 20 comprises a top plate 21, fixed locks 23 and sliding pipes 22, the top plate 21 is arranged above the linkage disc 111, the sliding pipes 22 are arranged at four corners below the top plate 21 and fixedly connected with the top plate 21, the sliding pipes 22 are slidably connected with the base 30, the sliding pipes 22 are meshed with the transmission wheels 123, the fixed locks 23 are arranged on the inner side of the top plate 21 and slidably connected with the top plate 21, and the fixed locks 23 penetrate through the top plate 21 and are matched with the linkage disc 111;

the sliding tube 22 comprises rotating wheels 221 and sleeves 222, the sleeves 222 are arranged at four corners below the top plate 21 and fixedly connected with the top plate 21, the rotating wheels 221 penetrate through the side walls of the sleeves 222 and are rotatably connected with the sleeves 222, and the rotating wheels 221 are simultaneously meshed with the base 30 and the transmission wheel 123;

the fixed lock 23 includes a lock catch 233, a ramp 232 and a slider 231, the slider 231 is disposed on the inner side of the top plate 21 and slidably connected to the top plate 21, the ramp 232 is disposed on the inner side of the slider 231 and fixedly connected to the slider 231, the lock catch 233 is disposed on the inner side of the ramp 232 and slidably connected to the ramp 232, and the lock catch 233 penetrates through the top plate 21 and cooperates with the linkage disk 111.

In this embodiment, when the floor height is adjusted, the top plate 21 and the base 30 slide relatively, the base 30 pulls the rotating wheel 221 inside the sleeve 222 to drive the driving wheel 123 to rotate, the driving wheel 123 drives the chain wheel 122 to rotate, the rotating shaft 1121 is driven to rotate by the driving chain 121, the rotating shaft 1121 drives the link plate 111 to rotate by the bevel gear 1122, the driving mechanisms 12 provided at the four corners of the movable floor 20 are connected to each other by the link plate 111 and the driving shaft 112, so that the sliding pipes 22 provided at the four corners of the top plate 21 slide up and down at the same time, when the floor height adjustment is completed, the sliding block 231 is pressed down, the inclined rail 232 guides the latch 233 to slide toward the link plate 111 to be engaged with the link plate 111, and the fixed lock 23 locks the link plate 111.

Further, the base 30 includes a bottom plate 31 and sliding rods 32, the sliding rods 32 are disposed on the inner side of the movable layer 20 and slidably connected to the movable layer 20, the sliding rods 32 are engaged with the movable layer 20, the bottom plate 31 is disposed below the sliding rods 32 and fixedly connected to the sliding rods 32, and the sliding rods 32 are disposed at four corners of the bottom plate 31;

the slide bar 32 includes rack 321 and pole setting 322, the pole setting 322 set up in the four corners of bottom plate 31, just the pole setting 322 with activity layer 20 sliding connection, rack 321 set up in being close to of pole setting 322 drive mechanism 12 one side, and with pole setting 322 fixed connection, just rack 321 with the meshing of activity layer 20.

In this embodiment, when the floor height is adjusted, the sleeve 222 slides on the upright 322, the rotating wheel 221 is meshed with the rack 321 to rotate, so as to drive the driving wheel 123 to rotate, and the driving wheel 123 drives the driving shaft 112 to rotate through the driving chain 121 and the chain wheel 122, so as to drive the linkage disc 111 to rotate.

While the utility model has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the utility model.

Claims

1. A laminated parts pallet, characterized in that,

the stacked part tray comprises a base, a movable layer and a linkage assembly, wherein the movable layer is arranged above the linkage assembly and is fixedly connected with the linkage assembly, the base is arranged below the linkage assembly and is meshed with the linkage assembly, the base is in sliding connection with the movable layer, the linkage assembly comprises a central mechanism and transmission mechanisms, the central mechanism is arranged below the movable layer, the transmission mechanisms are arranged at four corners of the movable layer, and the transmission mechanisms are respectively meshed with the base and the central mechanism;

2. The laminated parts tray of claim 1,

the transmission shaft includes pivot and helical gear, the helical gear set up in week side of linkage dish, and with the linkage dish meshing, the pivot set up in keeping away from of helical gear linkage dish one side, and with helical gear fixed connection, just the pivot with the helical gear sets up with one heart, the pivot with adjacent drive mechanism cooperates.

3. The laminated parts tray of claim 2,

the transmission mechanism comprises a transmission chain, a chain wheel and a transmission wheel, the transmission wheel is arranged at four corners of the movable layer and meshed with the base, the chain wheel is arranged at one side, close to the linkage disc, of the transmission wheel and is fixedly connected with the transmission wheel, the chain wheel and the transmission wheel are concentrically arranged, the transmission chain is sleeved at the outer side of the chain wheel and is matched with the chain wheel, and the chain wheel is matched with the rotating shaft through the transmission chain.

4. A laminated parts tray as claimed in claim 3,

the movable layer comprises a top plate, a fixed lock and a sliding pipe, the top plate is arranged above the linkage disc, the sliding pipe is arranged at four corners below the top plate and fixedly connected with the top plate, the sliding pipe is slidably connected with the base, the sliding pipe is meshed with the transmission wheel, the fixed lock is arranged at the inner side of the top plate and slidably connected with the top plate, and the fixed lock penetrates through the top plate and is matched with the linkage disc.

5. The laminated parts tray of claim 4,

6. A laminated parts tray as claimed in claim 5,

7. The laminated parts tray of claim 1,

the base includes bottom plate and slide bar, the slide bar set up in the inboard on activity layer, and with activity layer sliding connection, just the slide bar with the meshing of activity layer, the bottom plate set up in the below of slide bar, and with slide bar fixed connection, just the slide bar set up in the four corners of bottom plate.

8. The laminated parts tray of claim 7,

the slide bar includes rack and pole setting, the pole setting set up in the four corners of bottom plate, just the pole setting with movable layer sliding connection, the rack set up in being close to of pole setting drive mechanism one side, and with pole setting fixed connection, just the rack with the movable layer meshing.