CN213921968U

CN213921968U - A tray for part dislocation is placed

Info

Publication number: CN213921968U
Application number: CN202022752457.1U
Authority: CN
Inventors: 沈剑; 彭志健; 王佩涵
Original assignee: Wuxi Dexing Plastic Technology Co ltd
Current assignee: Wuxi Dexing Plastic Technology Co ltd
Priority date: 2020-11-24
Filing date: 2020-11-24
Publication date: 2021-08-10
Anticipated expiration: 2030-11-24

Abstract

The utility model discloses a pallet for misplacing parts, which can improve the space utilization rate of the pallet and avoid the interference or collision between two adjacent belt pulleys, and comprises a quadrangular pallet body, wherein a plurality of groups of placing groove groups are arranged in the pallet body, and the placing groove groups are obliquely and parallelly distributed on the pallet body; each group of placing groove groups comprises at least two placing grooves which are matched with the shapes of the parts and the central lines of which are positioned on the same straight line, each placing groove in the same group of placing groove groups is not positioned on the same horizontal plane, and a flange which protrudes out of the placing grooves is arranged between every two adjacent groups of placing groove groups and is S-shaped.

Description

A tray for part dislocation is placed

Technical Field

The utility model relates to a tray technical field specifically is a tray for part dislocation is placed.

Background

The belt pulley belongs to a hub part and is a flat disc-shaped metal part, as shown in figures 1 and 2, the manufacturing process mainly comprises casting and forging, and is mainly used for occasions of transmitting power at a long distance, and scratches and sharp edges are avoided as much as possible during processing or transportation so as to ensure the surface smoothness of the belt pulley. However, the traditional belt pulleys are placed in an overlapping mode, and interference or friction collision is easily generated between two adjacent belt pulleys, so that the surfaces of the belt pulleys are scratched or the smoothness of the belt pulleys is damaged, and the product quality is influenced. The problems that the existing belt pulley placing tray space structure is unreasonable in design, poor in space utilization rate and the like exist, the reason is that the existing tray is fixed in size (limited by the size of a production line), the space utilization rate is low when the N rows of cavity structures are uniformly distributed on one transverse size, and the problems that when the N +1 rows of cavities are distributed, the distance between every two adjacent trays is short, mutual interference or collision is caused are likely to occur.

SUMMERY OF THE UTILITY MODEL

To the tray space utilization who is used for placing the belt pulley that exists among the prior art low, easily produce between two adjacent belt pulleys and interfere or collide the scheduling problem, the utility model provides a tray for part dislocation is placed, it can improve tray space utilization, avoids producing between two adjacent belt pulleys and interferes or collide.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a tray for misplacing parts comprises a quadrilateral tray body and is characterized in that a plurality of groups of placing groove groups are arranged in the tray body, and the placing groove groups are obliquely and parallelly distributed in the tray body; each group of the placing groove groups comprises at least two placing grooves which are matched with the shapes of the parts and the central lines of which are positioned on the same straight line, the placing grooves in the same group of the placing groove groups are not positioned on the same horizontal plane, a retaining edge which protrudes out of the placing grooves is arranged between every two adjacent groups of the placing groove groups, and the retaining edge is S-shaped.

It is further characterized in that the method further comprises the steps of,

the outer side end face of each rib is an arc-shaped face, and the radian of the outer side end face of each rib is consistent with the radian of a circle where the outer edge of the adjacent placing groove is located;

a convex block is fixed at the top end of the flange;

the number of the convex blocks is consistent with that of the placing grooves in each group of the placing groove groups, the outer side end faces of the convex blocks are arc-shaped faces, and two side ends of the convex blocks respectively correspond to the placing grooves on two sides;

the radian of the end face of the outer side of the lug is consistent with the radian of the circle where the outer edge of the placing groove on the two sides of the lug is located;

each group of the placing grooves comprises at least two placing grooves, the middle part of each placing groove is respectively provided with a circular concave structure, and the concave structures and the placing grooves are arranged in concentric circles on the same horizontal plane;

each group of the placing groove groups comprises a first placing groove group and a second placing groove group, the first placing groove group comprises a first placing groove and a second placing groove, the second placing groove group comprises a third placing groove and a fourth placing groove, the first placing groove and the third placing groove are circular grooves, the second placing groove and the fourth placing groove are arc-shaped grooves, the diameters of the first placing groove and the third placing groove are equal to the diameters of a circle where an outer edge of the second placing groove is located and a circle where an outer edge of the fourth placing groove is located, the top end face of the second placing groove is higher than the top end face of the first placing groove, and the top end face of the fourth placing groove is higher than the top end face of the third placing groove;

the height between the top end surface of the first placing groove and the top end surface of the second placing groove is larger than the thickness of the part;

the tray body is provided with a supporting structure at opposite corners, the supporting structure is a groove, and the end surface of the bottom end of the groove is flush with the end surfaces of the bottom ends of the first placing groove and/or the fourth placing groove;

the support structure comprises a first support structure and a second support structure, the first support structure is arranged adjacent to the second placement groove, and the second support structure is arranged adjacent to the third placement groove.

Adopt the utility model discloses above-mentioned structure can reach following beneficial effect: (1) a plurality of groups of placing groove groups are arranged in the tray body, and the placing groove groups are obliquely and parallelly distributed in the tray body, so that the space utilization rate of the tray is increased.

(2) The end faces of the bottom ends in the placing grooves in the same group of placing grooves are not on the same horizontal plane, so that the space utilization rate of the tray is increased.

(3) A flange protruding out of the end face of the bottom end of the placing groove is arranged between every two adjacent placing groove groups, the flange is S-shaped, and interference or collision of two adjacent parts is effectively prevented.

(4) The middle part of every standing groove is provided with circular sunk structure respectively, and this sunk structure need not to set up bearing structure in the bottom of tray as the bearing structure of tray, has further practiced thrift the space utilization of tray.

Drawings

FIG. 1 is a schematic front view of a side end of a pulley;

FIG. 2 is a schematic front view of the other side of the pulley;

fig. 3 is a schematic perspective view of the present invention;

fig. 4 is a schematic perspective view of the present invention;

fig. 5 is a schematic perspective view of the pulley placed in one of the placement grooves of the device.

Detailed Description

See fig. 3, fig. 4, a tray for part misplacement, including quadrangle tray body 1, be provided with a plurality of groups in the tray body 1 and place bank of cells 2, it inclines to place bank of cells, parallel distribution is in tray body 1, every group places bank of cells and includes two and part shape phase-match and central line lie in the same rectilinear standing groove, each standing groove in the same group of standing groove group is not at the same horizontal plane, be provided with flange 3 of protrusion in the standing groove between the adjacent two sets of standing groove groups, flange 3 is the S-shaped, the outside terminal surface of flange 3 is the arcwall face, the radian of the outside terminal surface of flange 3 is unanimous with the radian of the outward flange place circle of adjacent standing groove.

The top end of the flange 3 is fixed with a convex block 4, the number of the convex blocks 4 is consistent with that of the placing grooves in each group of placing groove group 2, the outer end face of each convex block 2 is an arc-shaped face, the two side ends of each convex block 2 respectively correspond to the placing grooves on the two sides, the radian of the outer end face of each convex block 2 is consistent with that of the circle where the outer edges of the placing grooves on the two sides are located, and the arrangement of the convex blocks 4 further prevents the interference or collision between the two adjacent parts;

in this embodiment, each placing groove group 2 comprises two placing grooves, the middle part of each placing groove is provided with a circular concave structure 5, the concave structures 5 and the placing grooves are arranged in the projection concentric circle of the same horizontal plane, the circular concave structures of the placing grooves are used as the supporting mechanisms of the tray, a plurality of supporting mechanisms are not required to be additionally arranged on the tray, the stability of placing the tray can be ensured, and the space is further saved.

Each group of placing groove groups comprises a first placing groove group and a second placing groove group, the first placing groove group comprises a first placing groove 21 and a second placing groove 22, the second placing groove group comprises a third placing groove 23 and a fourth placing groove 24, the first placing groove 21 and the third placing groove 23 are circular grooves, the second placing groove 22 and the fourth placing groove 24 are arc-shaped grooves, the diameters of the first placing groove 21 and the third placing groove 23 are equal to the diameter of the circle where the outer edge of the second placing groove 22 is located and the diameter of the circle where the outer edge of the fourth placing groove 24 is located, the top end face of the second placing groove 22 is higher than the top end face of the first placing groove 21, the top end face of the fourth placing groove 24 is higher than the top end face of the third placing groove 23, and the height between the top end face of the first placing groove 21 and the top end face of the second placing groove 22 is larger than the thickness of the part.

The opposite angles of tray body 1 are provided with bearing structure 6 respectively, bearing structure 6 is the recess, and the bottom terminal surface of recess flushes with the bottom terminal surface of first standing groove 21 or/and fourth standing groove 24, and bearing structure 6 includes first bearing structure 61, second bearing structure 62, and first bearing structure 61 and second standing groove 22 adjacent arrangement, and second bearing structure 62 and third standing groove 23 adjacent arrangement, bearing structure's setting has further improved the stationarity of placing of tray.

The utility model is applied to the placement of the belt pulley 7, as shown in fig. 5, when in placement, the placement grooves in the same placement groove group 2 are not in the same horizontal plane, so that two belt pulleys in the same placement groove group 2 are not placed in the same horizontal plane, namely, the belt pulley in the first placement groove 21 and the belt pulley in the second placement groove 22 are partially overlapped, the belt pulley in the third placement groove 23 and the belt pulley in the fourth placement groove 24 are partially overlapped, and the space utilization rate of the tray body 1 is saved; the tray is the quadrangle, places bank of cells slope, parallel distribution in tray body 1 for belt pulley slope, parallel placement are in the standing groove, and the space utilization of rate of saving tray body 1.

The above is only a preferred embodiment of the present application, and the present invention is not limited to the above embodiments. It is to be understood that other modifications and variations directly derivable or suggested by those skilled in the art without departing from the spirit and scope of the present invention are to be considered as included within the scope of the present invention.

Claims

1. A tray for misplacing parts comprises a quadrilateral tray body and is characterized in that a plurality of groups of placing groove groups are arranged in the tray body, and the placing groove groups are obliquely and parallelly distributed in the tray body; each group of the placing groove groups comprises at least two placing grooves which are matched with the shapes of the parts and the central lines of which are positioned on the same straight line, the placing grooves in the same group of the placing groove groups are not positioned on the same horizontal plane, a retaining edge which protrudes out of the placing grooves is arranged between every two adjacent groups of the placing groove groups, and the retaining edge is S-shaped.

2. The tray for misplacing parts according to claim 1, wherein the outer side end surface of the rib is an arc surface, and the radian of the outer side end surface of the rib is consistent with the radian of a circle on which the outer edge of the adjacent placing groove is located.

3. The tray for misplacing parts according to claim 2, wherein the top ends of the flanges are fixed with projections, the number of the projections is the same as the number of the placing slots in each group of the placing slots, the outer end faces of the projections are arc-shaped, and two side ends of the projections respectively correspond to the placing slots on two sides.

4. A pallet for misplacing parts according to claim 3, wherein the projections include two projections, and the radian of the outer side end face of each projection is consistent with the radian of a circle on which the outer edges of the placing grooves on the two sides of each projection are located.

5. The tray for misplacing parts according to claim 1 or 4, wherein each set of the placement grooves includes at least two placement grooves, a central portion of each placement groove is provided with a circular recessed structure, and the recessed structures and the placement grooves are arranged in concentric circles in projection on the same horizontal plane.

6. The tray for misplacing parts according to claim 5, wherein each set of the placement grooves includes a first placement groove set and a second placement groove set, the first placement groove set includes a first placement groove and a second placement groove, the second placement groove set includes a third placement groove and a fourth placement groove, the first placement groove and the third placement groove are circular grooves, the second placement groove and the fourth placement groove are arc-shaped grooves, the diameter of the first placement groove and the diameter of the third placement groove are equal to the diameter of a circle on which an outer edge of the second placement groove is located and a circle on which an outer edge of the fourth placement groove is located, the top end face of the second placement groove is higher than the top end face of the first placement groove, and the top end face of the fourth placement groove is higher than the top end face of the third placement groove.

7. A pallet for misplacing parts according to claim 6, wherein the height between the top end surface of the first placement channel and the top end surface of the second placement channel is greater than the thickness of the parts.

8. A pallet for misplacing parts according to claim 7, wherein opposite corners of the pallet body are respectively provided with a supporting structure, the supporting structure is a groove, and the bottom end surface of the groove is flush with the bottom end surfaces of the first placing groove or/and the fourth placing groove.

9. A pallet for misplacing parts according to claim 8, wherein the support structure includes a first support structure, a second support structure, the first support structure being disposed adjacent the second placement channel and the second support structure being disposed adjacent the third placement channel.