CN210476893U - A strorage device for mould steel - Google Patents

Abstract

The utility model discloses a strorage device for mould steel relates to the mould steel and deposits technical field, mould steel guardrail and the mould steel of waiting to deposit including two symmetry places, mould steel guardrail includes guardrail left half and guardrail right half, and the front surface of guardrail left half has run through a plurality of first recess boards, and the medial extremity of first recess board is fixed with first pivot, and first mould steel division board has been cup jointed in the outside of first pivot, and the front surface of guardrail right half runs through a plurality of second recess boards, and the medial extremity of second recess board is fixed with the second pivot, and second mould steel division board has been cup jointed in the outside of second pivot. The utility model provides a first mould steel division board of range from top to bottom and second mould steel division board cooperation of range from top to bottom use and to make and have certain space between the tip of the mould steel of position about being in, and the tip of mould steel is not laminated about making to convenient hanging tongs is hoisted the mould steel.

Description

A strorage device for mould steel

Technical Field

The utility model relates to a technical field is deposited to the mould steel, especially relates to a strorage device for mould steel.

Background

Forging mill when depositing the mould steel, can be usually to more mould steel accumulation one, several mould steel is from last to the stack of one down, leads to not having great gap between mould steel and the mould steel like this, has used the tong to take out the mould steel in the later stage when, and is very inconvenient.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims at providing a strorage device for mould steel, make the mould steel that is in upper and lower position conveniently hung by the tong centre gripping.

The purpose of the utility model can be achieved by adopting the following technical scheme:

a storage device for die steel comprises two die steel guardrails which are symmetrically arranged and die steel to be stored, wherein each die steel guardrail comprises a left guardrail half part and a right guardrail half part, a plurality of first groove plates penetrate through the front surface of the left guardrail half part, a first rotating shaft is fixed at the end part of the inner side of each first groove plate, a first die steel separation plate is sleeved on the outer side of each first rotating shaft, a plurality of second groove plates penetrate through the front surface of the right guardrail half part, a second rotating shaft is fixed at the end part of the inner side of each second groove plate, a second die steel separation plate is sleeved on the outer side of each second rotating shaft,

the first die steel separation plate and the second die steel separation plate are used for placing the die steel.

Preferably, a first magnet is fixed to an end of the first die steel separation plate, and a second magnet is fixed to an end of the second die steel separation plate.

Preferably, a plurality of first groove plates are sequentially arranged from top to bottom and penetrate through the front surface of the left half part of the guardrail, and equidistant gaps are reserved between every two first groove plates.

Preferably, a plurality of second recess boards are arranged from top to bottom in proper order and run through the front surface of guardrail right half, and every equal spaced clearance all leaves between the second recess board.

Preferably, the positions of the plurality of first groove plates and the positions of the plurality of second groove plates are symmetrical one to one.

Preferably, the bottom parts of the two symmetrically placed die steel guardrails are fixed with connecting support plates.

Preferably, the connection support plate is of a rectangular parallelepiped structure.

Preferably, one end part of the first die steel separation plate is sleeved outside the first rotating shaft, the first magnet is fixed at the other end part of the first die steel separation plate,

one end part of the second die steel separation plate is sleeved outside the second rotating shaft, and the second magnet is fixed to the other end part of the second die steel separation plate.

Preferably, the distance between the vertically adjacent first groove plates is 5cm, and the distance between the vertically adjacent second groove plates is 5cm

The utility model has the advantages of:

the utility model provides a first mould steel division board of range from top to bottom and second mould steel division board cooperation of range from top to bottom use and to make and have certain space between the tip of the mould steel of position about being in, and the tip of mould steel is not laminated about making to convenient hanging tongs is hoisted the mould steel.

Drawings

Fig. 1 is a schematic view of a three-dimensional structure of two symmetrically arranged die steel guardrails according to an embodiment of the present invention;

fig. 2 is a schematic front view of a die steel fence according to an embodiment of the present invention;

fig. 3 is a right side view schematic structure diagram of the right half part of the guardrail according to the embodiment of the utility model.

In the figure: 1-die steel guardrail, 101-left part of guardrail, 1011-first groove plate, 1012-first rotating shaft, 1013-first die steel separation plate, 102-right part of guardrail, 1021-second groove plate, 1022-second rotating shaft, 1023-second die steel separation plate, 2-connecting support plate, 3-first magnet, 4-second magnet and 5-die steel.

Detailed Description

In order to make the technical solutions of the present invention clearer and clearer for those skilled in the art, the present invention will be described in further detail with reference to the following embodiments and the accompanying drawings, but the embodiments of the present invention are not limited thereto.

As shown in fig. 1-3, the storage device for mold steel provided by the present embodiment comprises two symmetrically placed mold steel guardrails 1 and mold steel 5 to be stored, the mold steel guardrail 1 comprises a guardrail left half part 101 and a guardrail right half part 102,

a plurality of first groove plates 1011 penetrate through the front surface of the left half part 101 of the guardrail, the first groove plates 1011 are sequentially arranged from top to bottom and penetrate through the front surface of the left half part 101 of the guardrail, a gap with equal distance is reserved between every two first groove plates 1011, the distance between every two adjacent first groove plates 1011 is 5cm, namely the distance between every two adjacent first die steel separation plates 1013 at the upper position and the lower position is more than 5cm,

a first rotating shaft 1012 is fixed at the end part of the inner side of the first groove plate 1011, a first die steel separation plate 1013 is sleeved on the outer side of the first rotating shaft 1012,

a plurality of second groove plates 1021 penetrate through the front surface of the right guardrail half 102, the second groove plates 1021 are sequentially arranged from top to bottom and penetrate through the front surface of the right guardrail half 102, a gap with equal distance is reserved between every two second groove plates 1021, the distance between every two adjacent second groove plates 1021 is 5cm,

a second rotating shaft 1022 is fixed at the end of the inner side of the second groove plate 1021, a second die steel partition plate 1023 is sleeved outside the second rotating shaft 1022,

the first die steel separator plate 1013 and the second die steel separator plate 1023 are used to place the die steel 5.

In the present embodiment, as shown in fig. 2 and 3, the first magnet 3 is fixed to the end of the first die steel separation plate 1013, the second magnet 4 is fixed to the end of the second die steel separation plate 1023, the corresponding first magnets 3 on the two first die steel separation plates 1013 on the same horizontal plane are mutually attractable, the corresponding first magnets 3 are opposite magnets, and the same applies to the second magnets 4 on the second die steel separation plate 1023.

When the first die steel separation plates 1013 are used, the first die steel separation plates 1013 on the left half 101 of the two guardrails at the same level are rotated outwards to make the ends of the two first die steel separation plates 1013 close to each other until the two first die steel separation plates 1013 are fixed under the attraction of the two first magnets 3, the second die steel separation plates 1023 are operated as above, and then one end of the die steel is correspondingly placed on the upper surfaces of the two first die steel separation plates 1013, if the upper surfaces of the two first die steel separation plates 1013 and the two second die steel separation plates 1023 at the same level are filled with the die steel, the die steel separation plates at the upper layer can be used, and it should be noted that a gap is left between the die steels at the same level to lift and place the die steel by a lifting clamp,

one end of the first die steel separation plate 1013 is sleeved outside the first rotation shaft 1012, the first magnet 3 is fixed at the other end of the first die steel separation plate 1013, one end of the second die steel separation plate 1023 is sleeved outside the second rotation shaft 1022, the second magnet 4 is fixed at the other end of the second die steel separation plate 1023, the width of the first die steel separation plate 1013 is smaller than the width of the first groove plate 1011, when the first die steel separation plate 1013 is not used, the first die steel separation plate 1013 can be rotated to the inner side of the first groove plate 1011, and the second die steel separation plate 1023 is similar.

In this embodiment, as shown in fig. 1-3, the positions of the first and second recessed plates 1011, 1021 are symmetrical so that the mold steel does not tilt when both ends of the mold steel are placed on the first and second mold steel separation plates 1013, 1023, respectively, which helps to increase the cumulative storage height of the mold steel so that more mold steel can be accumulated together without tilting or falling.

In this embodiment, as shown in fig. 1, the bottom of two symmetrically placed die steel guard rails 1 is fixed with joint support plate 2, and joint support plate 2 is the cuboid structure, and joint support plate 2 is for making the die steel middle part that is in the bottommost layer can not the great camber of downward sloping to the die steel that makes above is in more straight state, avoids the die steel because of being in the damage that the state leads to of bending for a long time.

In summary, in this embodiment, the vertically arranged first die steel separation plates 1013 and the vertically arranged second die steel separation plates 1023 provided in this embodiment are used in combination, so that a certain gap exists between the ends of the vertically arranged die steels, and the ends of the vertically arranged die steels are not attached to each other, thereby facilitating the lifting of the die steels by the lifting tongs.

The above description is only a further embodiment of the present invention, but the scope of protection of the present invention is not limited thereto, and any person skilled in the art can replace or change the technical solution and the concept of the present invention within the scope of the present invention.

Claims (9)

1. The utility model provides a strorage device for mould steel, includes two symmetrical mould steel guardrails (1) of placing and the mould steel (5) of waiting to deposit, its characterized in that: the mould steel guardrail (1) comprises a guardrail left half part (101) and a guardrail right half part (102), a plurality of first groove plates (1011) penetrate through the front surface of the guardrail left half part (101), the end part of the inner side of each first groove plate (1011) is fixed with a first rotating shaft (1012), the outer side of each first rotating shaft (1012) is sleeved with a first mould steel separation plate (1013), the front surface of the guardrail right half part (102) penetrates through a plurality of second groove plates (1021), the end part of the inner side of each second groove plate (1021) is fixed with a second rotating shaft (1022), the outer side of each second rotating shaft (1022) is sleeved with a second mould steel separation plate (1023),

the first die steel separator plate (1013) and the second die steel separator plate (1023) are used for placing the die steel (5).

2. The storage device for die steel according to claim 1, wherein: a first magnet (3) is fixed at the end of the first die steel separation plate (1013), and a second magnet (4) is fixed at the end of the second die steel separation plate (1023).

3. The storage device for die steel according to claim 1, wherein: a plurality of first recess board (1011) from last to arranging in proper order down and running through the front surface of guardrail left half portion (101), and every all leave the equidistance clearance between first recess board (1011).

4. The storage device for die steel according to claim 1, wherein: the second groove plates (1021) are sequentially arranged from top to bottom and penetrate through the front surface of the right half part (102) of the guardrail, and equidistant gaps are reserved between every two second groove plates (1021).

5. The storage device for die steel according to claim 3 or 4, wherein: the positions of the first groove plates (1011) and the positions of the second groove plates (1021) are symmetrical one by one.

6. The storage device for die steel according to claim 1, wherein: and the bottom parts of the two symmetrically-arranged die steel guardrails (1) are fixedly provided with connecting supporting plates (2).

7. The storage device for die steel according to claim 6, wherein: the connecting support plate (2) is of a cuboid structure.

8. The storage device for die steel according to claim 2, wherein: one end part of the first die steel separation plate (1013) is sleeved outside the first rotating shaft (1012), the first magnet (3) is fixed at the other end part of the first die steel separation plate (1013),

one end part of the second die steel separation plate (1023) is sleeved outside the second rotating shaft (1022), and the second magnet (4) is fixed at the other end part of the second die steel separation plate (1023).

9. The storage device for die steel according to claim 5, wherein: the distance between the first groove plates (1011) which are adjacent up and down is 5cm, and the distance between the second groove plates (1021) which are adjacent up and down is 5 cm.

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