CN220885348U - Resistor ceramic matrix transfer box - Google Patents

Abstract

The technical scheme of the utility model provides a resistor ceramic matrix transfer box, which comprises a box body and a storage disc, wherein one side of the box body is provided with an opening communicated with the top; the utility model provides a plurality of the cartridge that stacks from bottom to top is in the inboard of box body, the top of storing dish is equipped with and is a plurality of storing check that the multiseriate was arranged, the storing check is used for cartridge resistance ceramic base member, the both sides wall of storing check all is provided with the slipmat, one side of storing dish corresponds every row the logical groove has all been seted up to the storing check. According to the utility model, the storage trays and the box body can be split in a mode that the box body stacks a plurality of storage trays in sequence, so that the storage trays can be used as small packing units of the resistor ceramic matrix and directly transferred to the packing boxes to be packed after being stacked in sequence, and the packing links can be conveniently connected; in addition, through the cooperation of lug and logical groove, can be convenient with the resistance ceramic matrix extrusion of storing check intubate dress come out.

Description

Resistor ceramic matrix transfer box

Technical Field

The utility model relates to the technical field of resistor ceramic production, in particular to a resistor ceramic matrix transfer box.

Background

Resistive ceramics are ceramic materials with stable electrical properties, and are materials with certain resistance values, wherein a certain amount of resistive oxide is added into the materials.

In order to prevent the abrasion caused by the mutual collision between the resistor ceramic matrixes during transportation, a transportation box is adopted, for example, chinese patent application, the ceramic resistor ceramic rod transportation box for the fuse is provided with a publication number CN 217533752U, a plurality of equally-spaced square storage grids are arranged on the upper surface of the transportation box body, cover blocks are arranged on the left side and the right side of the same end of each square storage grid, the space between the lower surface of each cover block and the bottom surface of each square storage grid is equal to the diameter of the ceramic resistor ceramic rod, and fixing groove strips perpendicular to the square storage grids are arranged on the upper surface of the transportation box body and are communicated with the square storage grids.

To above-mentioned prior art to the box body is deposited to resistance ceramic interval, can prevent the collision each other between the resistance ceramic, but current box body structure is difficult to the follow-up packing link of direct matching, to packing link or need take out ceramic matrix from the box body in proper order again, inefficiency. Therefore, how to make the box structure convenient for transportation and subsequent packing is a technical problem to be solved.

Disclosure of utility model

In view of the foregoing, it is necessary to provide a resistor ceramic matrix transfer box, which solves the technical problems of how to facilitate the transfer and subsequent packaging of the box structure in the prior art.

In order to achieve the technical purpose, the technical scheme of the utility model provides a resistor ceramic matrix transfer box, which comprises:

the box body is provided with an opening communicated with the top at one side;

The storage discs are stacked from bottom to top and inserted into the inner side of the box body, a plurality of storage grids which are arranged in multiple rows are arranged at the top of the storage discs, the storage grids are used for being inserted with a resistor ceramic matrix, anti-slip pads are arranged on two side walls of the storage grids, through grooves are formed in one side of each storage disc, corresponding to each row of storage grids, and penetrate through the storage grids and extend to the other side of the storage disc; the box body is also provided with a plurality of protruding blocks corresponding to each row of storage grids respectively, and the protruding blocks are used for being embedded into the through grooves to extrude the resistor ceramic matrix from the storage grids.

Further, a groove is formed in the bottom edge of one side, close to the opening, of the storage disc.

Further, an extension plate is arranged on one side, close to the protruding block, of the box body, and the top of the extension plate is flush with the top of the box body.

Further, a plurality of alignment grooves are formed in the top of the box body, a plurality of alignment blocks are arranged at the bottom of the box body, and the alignment blocks correspond to the positions of the alignment grooves one by one.

Further, a handle is arranged on the box body.

Further, the number of the handles is two, and the two handles are both in rotary connection with the box body.

Further, the turning radius of the handle is larger than the length from the turning axis of the handle on the left side to the left side of the extension plate.

Furthermore, one side of the protruding block is in an inclined plane shape.

Further, the top of the bump is arc-shaped.

Further, a rubber layer is arranged on the outer side of the protruding block.

Compared with the prior art, the utility model has the beneficial effects that: the storage trays can be detached from the box body through the mode that the box body stacks the storage trays in sequence, so that the storage trays can be used as small packing units of the resistor ceramic matrix and directly transferred to the packing boxes to be packed after being stacked in sequence, and the packing links are convenient to connect; in addition, through the cooperation of lug and logical groove, can be convenient with the resistance ceramic base member extrusion of storing check intubate dress push out, be convenient for follow the unloading on the storing dish.

Drawings

FIG. 1 is a three-dimensional view of a resistor ceramic matrix transport box according to an embodiment of the utility model;

FIG. 2 is another angular three-dimensional view of a resistive ceramic matrix transport cartridge according to an embodiment of the utility model;

FIG. 3 is a three-dimensional view of a storage tray according to an embodiment of the present utility model;

FIG. 4 is a right side view of a storage tray according to an embodiment of the present utility model;

FIG. 5 is a front view of a storage tray according to an embodiment of the present utility model;

in the figure: 1. a case body; 101. an opening; 102. a bump; 103. an extension plate; 104. a handle;

2. a storage tray; 201. a storage compartment; 202. an anti-slip pad; 203. an alignment groove; 204. an alignment block; 205. a through groove; 206. a groove;

Detailed Description

The following detailed description of preferred embodiments of the utility model is made in connection with the accompanying drawings, which form a part hereof, and together with the description of the embodiments of the utility model, are used to explain the principles of the utility model and are not intended to limit the scope of the utility model.

As shown in fig. 1-5, the present utility model provides a resistive ceramic matrix transport cartridge comprising:

The box body 1 and storing dish 2, the uncovered 101 that link up with the top has been seted up to one side of box body 1, and wherein, uncovered 101 is seted up on the right side of box body 1, is convenient for pass uncovered 101 and takes storing dish 2, and uncovered 101's length is less than box body 1 front and back wall interval, and uncovered 101's diapire and box body 1's diapire parallel and level. The storage trays 2 are stacked from bottom to top and inserted into the inner side of the box body 1, and a plurality of storage trays 2 can be placed on the single box body 1, so that the number of the resistor ceramic matrixes which can be transported by the single box body 1 is increased. The top of the storage tray 2 is provided with a plurality of storage grids 201 which are arranged in a plurality of rows, the storage grids 201 are used for being inserted with a resistor ceramic matrix, and a single storage grid 201 is inserted with a single resistor ceramic matrix. Both side walls of the storage grid 201 are provided with anti-slip pads 202, and when the anti-slip pads 202 are inserted into the resistor ceramic matrix, anti-slip and stabilization are performed, so that collision and friction between the resistor ceramic matrix and the storage grid 201 are reduced. One side of the storage tray 2 is provided with a through slot 205 corresponding to each row of storage cells 201, and the through slot 205 penetrates through the storage cells 201 and extends to the other side of the storage tray 2, so that the through slot 205 penetrates through all storage cells 201 on a corresponding row, that is, the through slot 205 is communicated with all storage cells 201 on the row. The box body 1 is further provided with a plurality of protruding blocks 102 corresponding to each row of storage grids 201, the protruding blocks 102 are used for being embedded into the through grooves 205 to extrude the resistor ceramic matrix from the storage grids 201, the protruding blocks 102 are inserted into the through grooves 205, then the storage disc 2 slides over the protruding blocks 102, the protruding blocks 102 can pass through all storage grids 201 in the row from the through grooves 205, so that the resistor ceramic matrix in the storage grids 201 is pushed upwards, the resistor ceramic matrix inserted into the inner side of the storage grids 201 is conveniently taken out at one time, the convenience of taking the resistor ceramic matrix is improved, and the resistor ceramic matrix after transferring is conveniently taken out.

Wherein, storing dish 2 adopts plastics preparation to reduce cost, but and storing dish 2 and box body 1 direct separation, in subsequent packing process, can directly regard as the outside locating rack of resistance ceramic matrix with storing dish 2, directly pile up put to the packing box in, can directly link up to the packing link, promote holistic production efficiency.

It will be appreciated that the number of trays 2 that can be inserted into the magazine 1 depends on the depth set by the magazine 1; the number of the convex blocks 102 is the same as the number of columns of the storage lattices 201, and all the resistor ceramic matrixes in the storage lattices 201 can be pushed out by pushing the storage lattices once; packaging can also be achieved by plastic packaging of a single storage disc 2, and packaging requirements of different numbers of resistor ceramic matrixes can be selected.

In this embodiment, for separation when stacking the storage trays 2, a groove 206 is formed on a bottom edge of a side of the storage tray 2, which is close to the opening 101, and the groove 206 is contacted from the opening 101, so that the storage tray 2 is easy to grasp, and is turned upwards and lifted upwards.

In this embodiment, in order to have a certain guiding for the protrusion 102 to push the resistor ceramic substrate, an extension board 103 is disposed on one side of the box body 1 near the protrusion 102, and the top of the extension board 103 is flush with the top of the box body 1, by inserting the protrusion 102 into the through groove 205, and attaching the storage tray 2 to the top of the extension board 103, then sliding the upper surface of the attached extension board 103, so as to play a guiding role, and prevent the protrusion 102 from being stuck due to tilting and shifting.

In this embodiment, in order to promote stability when storing dish 2 stacks, a plurality of counterpoint groove 203 has been seted up at the top of box body 1, the bottom of box body 1 is provided with a plurality of counterpoint piece 204, just counterpoint piece 204 with the position one-to-one in counterpoint groove 203, peg graft with counterpoint groove 203 on the storing dish 2 of below through counterpoint piece 204 on the storing dish 2 of top to carry out the spacing of stacking between the storing dish 2, stability when stacking is promoted with this.

Preferably, the number of the alignment grooves 203 and the alignment blocks 204 is four, and the alignment grooves and the alignment blocks are distributed on four corners of the storage tray 2.

In this embodiment, in order to facilitate the movement of the case 1, the case 1 is provided with a handle 104, and the case 1 can be lifted to move by the handle 104.

Further, in order not to block the space above the case 1, so as to facilitate the access to the storage tray 2 from above, the number of the handles 104 is two, and both the handles 104 are rotatably connected with the case 1, and the handles can be removed from the above of the case 1 by rotating the handles 104.

Specifically, the radius of rotation of the handle 104 is greater than the length from the rotation axis of the handle 104 on the left side to the left side of the extension plate 103, so that the handle 104 can be rotated to two sides of the box 1 when rotated, and thus, no shielding or interference is caused to the upper side of the box 1.

The handle 104 is in a U shape, and two ends of the U shape are respectively connected with the front and the back of the box body 1 in a rotating way.

In this embodiment, in order to smoothly push out the resistive ceramic matrix, one side of the bump 102 is in a slope shape, and the slope faces the direction in which the bump 102 moves along the through groove 205, so that during push out, the bottom of the slope cuts into the lower side of the resistive ceramic matrix, and then the resistive ceramic matrix is guided to slide relatively by the slope, and slides up along the slope, so as to achieve the effect of lifting the end, so that the purpose that the top of the subsequent bump 102 is attached to the bottom of the resistive ceramic matrix to slide is achieved, and the resistive ceramic matrix is pushed out upwards without jamming.

Further, for smooth transition from the inclined surface to the top, the top of the bump 102 is in a circular arc shape.

Further, in order to reduce abrasion caused by the pushing, a rubber layer is disposed on the outer side of the bump 102.

The specific working procedure of the utility model is as follows: during transfer, the resistor ceramic matrix is sequentially inserted into the storage grid 201, the storage disc 2 is inserted into the box body 1 after the storage grid is fully inserted, the storage discs 2 fully inserted with the resistor ceramic matrix are sequentially stacked, and then the box body 1 is lifted through the handle 104, so that transfer is performed; when the resistor ceramic matrix is required to be removed, the storage disc 2 is taken out through the opening 101 and the groove 206, the convex block 102 is inserted into the through groove 205, the extension plate 103 is flatly attached to push the storage disc 2, and the resistor ceramic matrix is pushed out of the storage grid 201 through the convex block 102, so that the discharging is facilitated; when the packing is needed, the storage disc 2 fully inserted with the resistor ceramic matrix is directly taken out, stacked and placed into a packing box.

The entire workflow is completed and what is not described in detail in this specification is well known to those skilled in the art.

The present utility model is not limited to the above-mentioned embodiments, and any changes or substitutions that can be easily understood by those skilled in the art within the technical scope of the present utility model are intended to be included in the scope of the present utility model.

Claims (10)

1. A resistive ceramic matrix transport cartridge comprising:

the box body is provided with an opening communicated with the top at one side;

The storage discs are stacked from bottom to top and inserted into the inner side of the box body, a plurality of storage grids which are arranged in multiple rows are arranged at the top of the storage discs, the storage grids are used for being inserted with a resistor ceramic matrix, anti-slip pads are arranged on two side walls of the storage grids, through grooves are formed in one side of each storage disc, corresponding to each row of storage grids, and penetrate through the storage grids and extend to the other side of the storage disc; the box body is also provided with a plurality of protruding blocks corresponding to each row of storage grids respectively, and the protruding blocks are used for being embedded into the through grooves to extrude the resistor ceramic matrix from the storage grids.

2. The resistive ceramic matrix transport case of claim 1, wherein the storage tray is fluted at a bottom edge of a side of the storage tray adjacent the opening.

3. The resistive ceramic matrix transport cassette of claim 2, wherein an extension plate is disposed on a side of the cassette body adjacent to the bumps, and wherein a top of the extension plate is flush with a top of the cassette body.

4. The resistor ceramic matrix transferring box according to claim 3, wherein a plurality of alignment grooves are formed in the top of the box body, a plurality of alignment blocks are arranged at the bottom of the box body, and the alignment blocks correspond to the alignment grooves one by one.

5. The resistive ceramic matrix transport cartridge of claim 4, wherein a handle is provided on the cartridge body.

6. The resistive ceramic matrix transport cartridge of claim 5, wherein the number of handles is two and both handles are rotatably connected to the cartridge body.

7. The resistive ceramic matrix transport cassette of claim 6, wherein the radius of rotation of the handle is greater than the length of the rotational axis of the handle to the left of the extension plate on the left side.

8. The resistive ceramic matrix transport cartridge of claim 7, wherein one side of the bump is beveled.

9. The resistive ceramic matrix transport cartridge of claim 8, wherein the tops of the bumps are rounded.

10. The resistive ceramic matrix transport cartridge of claim 9, wherein the outer side of the bumps is provided with a rubber layer.