CN219428913U - Drawer type feeding bin of high-temperature solid oxide cell pile production line - Google Patents

Abstract

The utility model discloses a drawer type feeding bin of a high-temperature solid oxide cell pile production line, which comprises a bottom plate, wherein the upper part of the bottom plate is connected with a connecting rod, and the upper part of the connecting rod is connected with a partition plate. This material loading feed bin is through adjusting the position of two connecting plates, and then can adjust the position of first gag lever post, through adjusting the position of two connecting blocks, and then can adjust the position of second gag lever post, through adjusting the position of first gag lever post and second gag lever post, adjust the space of placing that forms between a plurality of first gag lever posts and a plurality of second gag lever posts, can compatible not unidimensional galvanic pile part, the flexibility of automatic production line has been increased, and the drawer type material loading feed bin of adoption is convenient for change of material, can directly replace the feed bin that the galvanic pile part used up on the production line with the feed bin of galvanic pile part, need not to add galvanic pile part one by one in the feed bin on the production line, the time of waiting for the material loading has been reduced, production line efficiency has been promoted.

Description

Drawer type feeding bin of high-temperature solid oxide cell pile production line

Technical Field

The utility model relates to the technical field of solid oxide cell pile production processes, in particular to a drawer type feeding bin of a high-temperature solid oxide cell pile production line.

Background

A high temperature solid oxide cell is an electrochemical device that operates at higher temperatures and is generally comprised of a porous anode, a dense electrolyte, and a porous cathode. To obtain higher power, it is necessary to connect individual fuel cells or electrolysis cells in series in a stack.

At present, the pile components of the high-temperature solid oxide cell pile are generally stored in a storage bin, the pile components are limited by a limiting rod arranged in the storage bin, but the pile components with different specifications are stored only by the existing storage bin because of different sizes of the pile components, and the pile components with the same specification are stored and placed in the storage bin, so that the storage bin with the corresponding specification is required to be used for storing the pile components with different specifications, and the storage of the pile components with different specifications is inconvenient.

Disclosure of Invention

The utility model aims to solve the defects in the prior art, and the device comprises a bottom plate, wherein the upper part of the bottom plate is connected with a connecting rod, the upper part of the connecting rod is connected with a partition plate, and a placing plate is arranged between the bottom plate and the partition plate;

the positioning rod is connected between the bottom plate and the partition plate and is used for positioning the placing plate;

the first limiting assembly is connected above the bottom plate and is used for longitudinally limiting the position of the placement plate;

the second limiting assembly is connected above the bottom plate and used for transversely limiting the position of the placement plate.

Preferably, the positioning hole is formed in the bottom plate, the positioning hole is matched with the positioning rod, a plurality of first limiting holes and second limiting holes are formed in the bottom plate, the first limiting holes are longitudinally and uniformly formed and matched with the first limiting components, and the second limiting holes are transversely and uniformly formed and matched with the second limiting components.

Preferably, the first limiting component comprises a connecting plate, a first limiting rod is connected to the connecting plate, a first connecting hole is formed in the connecting plate, and the first connecting hole is matched with the first limiting hole.

Preferably, the second limiting component comprises a connecting block, a second limiting rod is connected to the connecting block, a second connecting hole is formed in the connecting block, and the second connecting hole is matched with the second limiting hole.

Preferably, the first limiting rod and the first connecting hole are both provided with a plurality of limiting rods.

Preferably, the first limiting assembly and the second limiting assembly are both provided with two, and the first limiting holes are provided with two groups.

Preferably, the surface of the placing plate is provided with a first limiting chute and a second limiting chute, and the first limiting chute and the second limiting chute are all provided with a plurality of limiting grooves.

Preferably, the connecting rods are provided with four.

Preferably, the positioning rod is provided with four positioning rods.

Preferably, two partition plates are arranged, and the partition plates are detachably connected with the connecting rod and the positioning rod.

The technical scheme has the following advantages or beneficial effects:

according to the utility model, the positions of the first limiting rods are adjusted, the mounting screw is used for fixing, the positions of the second limiting rods are adjusted, the mounting screw is used for fixing after adjustment, the positions of the first limiting rods and the second limiting rods are adjusted, the placing spaces formed between the first limiting rods and the second limiting rods are adjusted, so that the electric pile components with different sizes can be compatible, the flexibility of an automatic production line is improved, the adopted drawer type feeding bin is convenient for material replacement, the bin with the electric pile components can be directly replaced by the bin with the electric pile components used up on the production line, the electric pile components are not required to be added into the bin on the production line one by one, the time for waiting for feeding is shortened, and the efficiency of the production line is improved.

Drawings

FIG. 1 is a schematic diagram of a loading bin according to an embodiment of the present utility model;

fig. 2 is a schematic structural diagram of a feeding bin according to an embodiment of the present utility model;

FIG. 3 is a side view of a loading bin according to an embodiment of the utility model;

FIG. 4 is a top view of a loading bin according to an embodiment of the utility model;

FIG. 5 is a top view of a second loading bin according to an embodiment of the utility model;

fig. 6 is a schematic structural view of a bottom plate in the loading bin of fig. 1.

Legend description:

1. a bottom plate; 2. a connecting rod; 3. a partition plate; 4. placing a plate; 5. a positioning rod; 6. a first limit assembly; 7. the second limiting component; 8. positioning holes; 9. a first limiting hole; 10. a second limiting hole; 11. the first limiting chute; 12. the second limiting chute; 61. a connecting plate; 62. a first stop lever; 63. a first connection hole; 71. a connecting block; 72. a second limit rod; 73. and a second connection hole.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Embodiment one:

as shown in fig. 1-6, the drawer type feeding bin of the high-temperature solid oxide cell pile production line comprises a bottom plate 1, wherein the upper part of the bottom plate 1 is connected with a connecting rod 2, the upper part of the connecting rod 2 is connected with a partition plate 3, and a placing plate 4 is arranged between the bottom plate 1 and the partition plate 3; the positioning rod 5 is connected between the bottom plate 1 and the partition plate 3, and the positioning rod 5 is used for positioning the placing plate 4; the first limiting assembly 6 is connected above the bottom plate 1, and the first limiting assembly 6 is used for longitudinally limiting the position of the placement plate 4; the second limiting assembly 7 is connected above the bottom plate 1, and the second limiting assembly 7 is used for transversely limiting the position of the placement plate 4; through placing the board 4 in the space that bottom plate 1 and four connecting rods 2 formed, fix a position the position of placing the board 4 through locating lever 5, place the back through installing baffle 3 and seal, place the pile part in the space that forms between first spacing subassembly 6 and the spacing subassembly 7 of second, then through adjusting the relative position of first spacing subassembly 6 and the spacing subassembly 7 of second, and then adjust the space of placing that forms between first spacing subassembly 6 and the spacing subassembly 7 of second, conveniently place the pile part of different specification sizes.

As shown in fig. 5 and 6, further, a positioning hole 8 is formed in the bottom plate 1, the positioning hole 8 is matched with the positioning rod 5, a plurality of first limiting holes 9 and second limiting holes 10 are formed in the bottom plate 1, the first limiting holes 9 are longitudinally and uniformly arranged and matched with the first limiting assembly 6, the second limiting holes 10 are transversely and uniformly arranged and matched with the second limiting assembly 7, two first limiting assemblies 6 and two second limiting assemblies 7 are respectively arranged, and the first limiting holes 9 are respectively provided with two groups; the positioning rod 5 is conveniently installed and detached through the positioning hole 8, and the first limiting assembly 6 and the second limiting assembly 7 are conveniently fixed and detached through the first limiting hole 9 and the second limiting hole 10.

As shown in fig. 1, 3 and 4, the first limiting component 6 comprises a connecting plate 61, a first limiting rod 62 is connected to the connecting plate 61, a first connecting hole 63 is formed in the connecting plate 61, the first connecting hole 63 is matched with the first limiting hole 9, the second limiting component 7 comprises a connecting block 71, a second limiting rod 72 is connected to the connecting block 71, a second connecting hole 73 is formed in the connecting block 71, and the second connecting hole 73 is matched with the second limiting hole 10; the screw between the first connecting hole 63 and the first limiting hole 9 is convenient to longitudinally adjust, the positions of the two connecting plates 61 can be adjusted, the first limiting rod 62 is adjusted, the screw is fixed after adjustment, the screws between the second connecting hole 73 and the second limiting hole 10 are detached, the positions of the two connecting blocks 71 are convenient to transversely adjust, the positions of the second limiting rods 72 can be adjusted, the screw is fixed after adjustment, the placement space formed between the first limiting rods 62 and the second limiting rods 72 is adjusted through adjusting the positions of the first limiting rods 62 and the second limiting rods 72, the pile components with different sizes can be compatible, the flexibility of an automatic production line is improved, the adopted drawer type feeding bin is convenient for changing materials, the bin with the pile components can be directly replaced with a bin used up on the production line, the pile components are not required to be added into the bin on the production line one by one, the time for waiting for feeding is shortened, and the production line efficiency is improved.

Embodiment two:

as shown in fig. 1 and fig. 4, on the basis of the first embodiment, the present utility model provides a technical solution: the first limiting rod 62 and the first connecting hole 63 are provided with a plurality of limiting rods, the surface of the placing plate 4 is provided with a first limiting chute 11 and a second limiting chute 12, and the first limiting chute 11 and the second limiting chute 12 are provided with a plurality of limiting rods; through placing the board 4 surface and having seted up first spacing spout 11 and second spacing spout 12, conveniently adjust and spacing first gag lever post 62 and a plurality of second gag lever posts 72.

As shown in fig. 1 and 2, further, four connecting rods 2 are provided, four positioning rods 5 are provided, two partition plates 3 are provided, and the partition plates 3 are detachably connected with the connecting rods 2 and the positioning rods 5; the placing plate 4 can be positioned through the positioning rod 5, so that the placing plate is convenient to accurately place above the bottom plate 1.

Working principle: staff is through placing board 4 in the space that bottom plate 1 and four connecting rods 2 formed, fix a position through locating lever 5 to the position of placing board 4, after placing, seal through installation baffle 3, be provided with first spacing subassembly 6 and second spacing subassembly 7 through bottom plate 1 top and carry out spacing fixed to placing board 4, install and dismantle locating lever 5 through locating hole 8 convenience, fix and dismantle first spacing subassembly 6 and second spacing subassembly 7 through first spacing hole 9 and second spacing hole 10 convenience, through dismantling the screw between first connecting hole 63 and the first spacing hole 9, the position of two connecting plates 61 of convenient vertical adjustment, and then can adjust the position of first spacing lever 62, install the screw fixation after the adjustment, through dismantling the screw between second connecting hole 73 and the second spacing hole 10, conveniently transversely adjust the position of two connecting blocks 71, and then can adjust the position of second spacing lever 72, install the screw fixation again after the adjustment, through adjusting the position of first spacing lever 62 and second spacing lever 72, conveniently place the board 4 that has different positions and place the spacing spout.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present utility model, and although the present utility model has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present utility model.

Claims (10)

1. The drawer type feeding bin of the high-temperature solid oxide cell pile production line is characterized by comprising a bottom plate (1), wherein the upper part of the bottom plate (1) is connected with a connecting rod (2), the upper part of the connecting rod (2) is connected with a partition plate (3), and a placing plate (4) is arranged between the bottom plate (1) and the partition plate (3);

the positioning rod (5) is connected between the bottom plate (1) and the partition plate (3), and the positioning rod (5) is used for positioning the placement plate (4);

the first limiting assembly (6) is connected above the bottom plate (1), and the first limiting assembly (6) is used for longitudinally limiting the position of the placement plate (4);

the second limiting assembly (7), the second limiting assembly (7) is connected above the bottom plate (1), and the second limiting assembly (7) is used for transversely limiting the position of the placement plate (4).

2. The drawer-type feeding bin of the high-temperature solid oxide cell stack production line according to claim 1, wherein the feeding bin is characterized in that: the positioning device is characterized in that a positioning hole (8) is formed in the bottom plate (1), the positioning hole (8) is matched with the positioning rod (5), a plurality of first limiting holes (9) and second limiting holes (10) are formed in the bottom plate (1), the first limiting holes (9) are longitudinally and uniformly formed and matched with the first limiting components (6), and the second limiting holes (10) are transversely and uniformly formed and matched with the second limiting components (7).

3. The drawer-type feeding bin of the high-temperature solid oxide cell stack production line according to claim 1, wherein the feeding bin is characterized in that: the first limiting assembly (6) comprises a connecting plate (61), a first limiting rod (62) is connected to the connecting plate (61), a first connecting hole (63) is formed in the connecting plate (61), and the first connecting hole (63) is matched with the first limiting hole (9).

4. The drawer-type feeding bin of the high-temperature solid oxide cell stack production line according to claim 1, wherein the feeding bin is characterized in that: the second limiting assembly (7) comprises a connecting block (71), a second limiting rod (72) is connected to the connecting block (71), a second connecting hole (73) is formed in the connecting block (71), and the second connecting hole (73) is matched with the second limiting hole (10).

5. A drawer-type feeding bin of a high-temperature solid oxide cell stack production line according to claim 3, wherein: the first limiting rod (62) and the first connecting hole (63) are both provided with a plurality of limiting rods.

6. The drawer-type feeding bin of the high-temperature solid oxide cell stack production line according to claim 2, wherein the feeding bin is characterized in that: the two limiting assemblies (6) and (7) are arranged, and the two groups of the first limiting holes (9) are arranged.

7. The drawer-type feeding bin of the high-temperature solid oxide cell stack production line according to claim 1, wherein the feeding bin is characterized in that: the surface of the placement plate (4) is provided with a first limiting chute (11) and a second limiting chute (12), and the first limiting chute (11) and the second limiting chute (12) are both provided with a plurality of limiting grooves.

8. The drawer-type feeding bin of the high-temperature solid oxide cell stack production line according to claim 1, wherein the feeding bin is characterized in that: the connecting rods (2) are provided with four.

9. The drawer-type feeding bin of the high-temperature solid oxide cell stack production line according to claim 1, wherein the feeding bin is characterized in that: the positioning rods (5) are provided with four positioning rods.

10. The drawer-type feeding bin of the high-temperature solid oxide cell stack production line according to claim 1, wherein the feeding bin is characterized in that: the two partition boards (3) are arranged, and the partition boards (3) are detachably connected with the connecting rod (2) and the positioning rod (5).