CN216371721U - Pendant tool structure of shot blasting rust remover - Google Patents
Pendant tool structure of shot blasting rust remover Download PDFInfo
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- CN216371721U CN216371721U CN202122943256.4U CN202122943256U CN216371721U CN 216371721 U CN216371721 U CN 216371721U CN 202122943256 U CN202122943256 U CN 202122943256U CN 216371721 U CN216371721 U CN 216371721U
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Abstract
The utility model relates to a hanging part tool structure of a shot blasting rust remover, which comprises a bottom frame, a stand column, a cross beam, a hook rod, a vertical plate, a lifting lug and the like. The device can bear short steel structural members and long steel structural members, can bear large rust removal members and small rust removal members, various types of rust removal members are placed on different positions of the hanger tool structure according to requirements, then the hanger tool structure is lifted by the lifting machine and placed on a conveying rail of the through type shot blasting rust remover, and the hanger tool structure enters the inside of the shot blasting rust remover to complete surface rust removal under the driving of the conveying rail. The hanger tool structure can simultaneously bear various different types of rust removal components, so that the rust removal components can be simultaneously subjected to rust removal treatment conveniently through the shot blasting rust remover, the rust removal efficiency is improved, and the rust removal effect is ensured.
Description
Technical Field
The utility model relates to a hanging part tool structure of a shot blasting rust remover.
Background
In recent years, the steel structure building industry is rapidly developed, the steel structure building structure forms are more and more diversified, and a large number of steel structure members with different sizes and shapes can be used on the steel structure building structure. These steel structural members first need to be surface treated for rust removal before use. The traditional steel structural member derusting mode is to polish a derusting member manually, however, the derusting mode has low efficiency and general derusting effect. It can be seen that further improvements are needed in the art.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a pendant tool structure of a shot blasting rust remover, which can simultaneously bear various types of rust removing components, is convenient for simultaneously carrying out rust removing treatment on the rust removing components and is beneficial to improving the rust removing efficiency.
In order to achieve the purpose, the utility model adopts the following technical scheme:
the utility model provides a pendant frock structure of shot-blasting rust cleaning machine, includes:
the bottom frame, the upright posts, the cross beam, the hooks, the hook rods, the upright plates and the lifting lugs;
the bottom frame is a square frame and comprises two parallel transverse vertical plates and a plurality of longitudinal vertical plates; each longitudinal vertical plate is positioned between the two transverse vertical plates and is parallel to each other;
defining the arrangement direction of the transverse vertical plate as the left-right direction, and the arrangement direction of the longitudinal vertical plate as the front-back direction;
the vertical columns are arranged on part or all of the longitudinal vertical plates, all the vertical columns are positioned on the same connecting line, and the connecting line direction is along the arrangement direction of the transverse vertical plates, namely the left and right directions;
the cross beams comprise a first bearing cross beam and a second bearing cross beam;
the front side surface of each upright post is provided with a first bearing beam, the rear side surface of each upright post is provided with a second bearing beam, and the first bearing beam and the second bearing beam are horizontally connected to the upright posts;
each first bearing cross beam is located at the same height, and each second bearing cross beam is located at the same height;
the setting height of the first bearing cross beam is higher than that of the second bearing cross beam;
the vertical plate comprises a first bearing vertical plate and a second bearing vertical plate;
each second bearing cross beam is provided with a first bearing vertical plate, and the heights of the first bearing vertical plates are equal; the hook rods are arranged along the direction of the transverse vertical plates and are supported by the first bearing vertical plates together;
the hook is provided with a plurality of hooks, and each hook is sequentially hung on the hook rod along the left-right direction;
the front part of each longitudinal vertical plate is respectively provided with a second bearing vertical plate, and the heights of the second bearing vertical plates are equal;
the lifting lugs are four and are respectively arranged at one corner position of the bottom frame, and lifting holes are formed in the lifting lugs.
Preferably, the first bearing cross beam and the second bearing cross beam are respectively welded and connected on the corresponding surfaces of the upright posts.
Preferably, the first vertical bearing plate and the second vertical bearing plate are both square iron plates.
Preferably, the first vertical bearing plate is provided with a groove for supporting the hook rod.
Preferably, the upright posts are made of H-shaped steel, wherein the bottom of the H-shaped steel is welded and connected to the middle position of the longitudinal vertical plate.
Preferably, five longitudinal vertical plates are provided, and three vertical columns are provided;
counting from the longitudinal vertical plate on the left side, defining five longitudinal vertical plates as a first longitudinal vertical plate, a second longitudinal vertical plate, a third longitudinal vertical plate, a fourth longitudinal vertical plate and a fifth longitudinal vertical plate respectively;
and the first vertical plate, the third vertical plate and the fifth vertical plate are provided with upright posts.
The utility model has the following advantages:
as mentioned above, the utility model relates to a hanging part tool structure of a shot blasting rust remover, which comprises a bottom frame, a stand column, a cross beam, a hook rod, a vertical plate, a lifting lug and the like. The device can bear short rust removal components and long rust removal components, can bear large rust removal components and small rust removal components, can place various types of rust removal components on different positions of the hanger tool structure according to requirements, then lifts the hanger tool structure through the lifting machine and places the hanger tool structure on a conveying rail of the through type shot blasting rust removal machine, and the hanger tool structure enters the inside of the shot blasting machine to complete surface rust removal under the driving of the conveying rail. The hanger tool structure can simultaneously bear various different types of rust removal components, so that the rust removal components can be simultaneously subjected to rust removal treatment conveniently through the shot blasting rust remover, the rust removal efficiency is improved, and the rust removal effect is ensured.
Drawings
FIG. 1 is a front view of a pendant tooling structure of a shot blasting rust remover in the embodiment of the utility model;
FIG. 2 is a rear view of a pendant tooling structure of the shot blasting rust remover in the embodiment of the utility model;
FIG. 3 is a left side view of a pendant tooling structure of the shot blasting rust remover in the embodiment of the utility model;
FIG. 4 is a top view of a pendant tooling structure of the shot blasting rust remover in the embodiment of the utility model;
fig. 5 is a schematic structural diagram of a through type shot blasting rust remover.
Wherein, 1-a bottom frame, 2-a column, 3-a hook, 4-a hook rod, 5-a lifting lug, 6-a transverse vertical plate, 7-a longitudinal vertical plate, 8-a first bearing beam, 9-a second bearing beam and 10-a first bearing vertical plate;
11-a second bearing vertical plate, 12-a groove, 13-a shot blasting rust remover, 14-a lifting hole and 15-a conveying track.
Detailed Description
The utility model is described in further detail below with reference to the following figures and detailed description:
as shown in fig. 1 to 4, this embodiment describes a hanger tooling structure of a shot blasting rust removing machine, and the hanger tooling structure includes a bottom frame 1, a column 2, a beam, a hook 3, a hook rod 4, a vertical plate, and a lifting lug 5.
The bottom frame 1 is a square frame and comprises two transverse vertical plates 6 and a plurality of longitudinal vertical plates 7. Wherein, two horizontal risers 6 parallel arrangement, the direction of setting of defining horizontal riser 6 is left and right sides direction.
Each longitudinal vertical plate 7 is positioned between two transverse vertical plates 6 and is parallel to each other, the arrangement direction of the longitudinal vertical plates 7 is defined as the front-back direction, and the front end part and the rear end part of each longitudinal vertical plate 7 are respectively connected with one transverse vertical plate 6.
The transverse vertical plate 6 and the longitudinal vertical plate 7 are both made of square iron plates and are connected with each other in a welding mode.
The stand 2 has a plurality ofly, and all is provided with the stand on part or whole vertical riser 7, and each stand is in on the same line, and the direction of being linked together is along the direction that sets up of horizontal riser 6, the left and right sides direction promptly.
As shown in fig. 4, five longitudinal vertical plates 7 and three vertical columns 2 are shown in this embodiment 1.
Counting from the longitudinal vertical plate 7 on the left side, five longitudinal vertical plates 7 are defined as a first longitudinal vertical plate, a second longitudinal vertical plate, a third longitudinal vertical plate, a fourth longitudinal vertical plate and a fifth longitudinal vertical plate respectively.
An upright post 2 is arranged on the first longitudinal vertical plate, the third longitudinal vertical plate and the fifth longitudinal vertical plate.
The number of the longitudinal vertical plates 7 and the vertical columns 2 is only exemplary and can be reasonably set according to needs.
In this embodiment, the upright post 2 preferably adopts H-shaped steel, wherein the bottom of the H-shaped steel is welded and connected to the middle position of the longitudinal vertical plate 7. Wherein, two pterygoid laminas of H shaped steel are as the preceding curb plate and the back plate use of stand respectively.
As shown in fig. 3, the cross beams comprise a first load carrying cross beam 8 and a second load carrying cross beam 9.
The front side surface of each upright 2 is provided with a first bearing beam 8, the rear side surface of each upright 2 is provided with a second bearing beam 9, and the first bearing beams 8 and the second bearing beams 9 are horizontally connected to the uprights 2.
The first bearing beam 8 and the second bearing beam 9 are both made of iron, and the first bearing beam 8 and the second bearing beam 9 are connected to the corresponding surfaces of the upright 2 by welding, for example.
Each first bearing beam 8 is at the same height, each second bearing beam 9 is at the same height, and the setting height of the first bearing beam 8 is higher than that of the second bearing beam 9.
The height of each first bearing beam 8 is the same, so that the derusting machine can bear some derusting components with different lengths, and meanwhile, the height of each second bearing beam 9 is also the same, so that the derusting machine can also bear some derusting components with different lengths.
In addition, the height of the first bearing cross beam 8 is different from that of the second bearing cross beam 9, so that the hanger tool structure is convenient to form high-low arrangement, the space of the hanger tool structure is fully utilized, and the rust removing effect is favorably improved.
As shown in fig. 3, the vertical plates include a first vertical carrier plate 10 and a second vertical carrier plate 11.
Each second bearing cross beam 9 is provided with a first bearing vertical plate 10, and the heights of the first bearing vertical plates 10 are equal; the hooking rods 4 are arranged along the direction of the transversal risers 6 and are jointly supported by the respective first load-bearing risers 10.
In order to ensure the effect of placing the hook rod 4 on the first vertical carrier plates 10, each first vertical carrier plate 10 is provided with a groove 12 for supporting the hook rod 4, so as to prevent the hook rod 4 from falling off the first vertical carrier plate 10.
The grooves 12 on the first vertical carrier plates 10 are aligned with each other, so that the first vertical carrier plates 10 can be conveniently placed.
The hooks 3 are multiple, and the hooks 3 are sequentially hung on the hook rod 4 along the left-right direction, wherein small rust removing components can be hung on the hooks 3, so that the space of the hanger tool structure is fully utilized.
The front part of each vertical plate 7 is provided with a second vertical bearing plate 11, wherein the second vertical bearing plates 11 are connected to the vertical plates 7 in a welding manner, and the heights of the second vertical bearing plates 11 are equal.
Some rust removing members can also be placed on second carrier riser 11.
In this embodiment, the first vertical supporting plate 10 and the second vertical supporting plate 11 are made of square iron plates.
The four corners of the bottom frame 1 are respectively provided with a lifting lug 5, the lifting lugs 5 are provided with lifting holes 14, and the hanging tool structure can be conveniently lifted to a conveying rail 15 of the through type shot blasting rust remover through a lifting machine.
Through the structural design, the hanger tool structure is convenient to place at different positions of the hanger tool structure according to the size and the length of the rust removing component, and further a plurality of rust removing components can be hung at the same time.
After the rust removing component is placed, the rope of the crane is hung on the hanging hole 14, and the crane is used for hoisting the hanger tool structure to the conveying rail 15 of the through type shot blasting rust removing machine, as shown in fig. 5.
Under the drive of the conveying rail 15, the pendant tool structure enters the shot blasting rust remover 13 to complete the surface rust removal work.
The utility model can simultaneously bear various different types of rust removal components, is convenient for simultaneously carrying out rust removal treatment on the rust removal components through the shot blasting rust remover, is beneficial to improving the rust removal efficiency and simultaneously ensures the rust removal effect.
It should be understood, however, that the description herein of specific embodiments is not intended to limit the utility model to the particular forms disclosed, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the utility model as defined by the appended claims.
Claims (6)
1. A hanging part tooling structure of a shot blasting rust removing machine is characterized in that,
comprises a bottom frame, a vertical column, a cross beam, a hook rod, a vertical plate and a lifting lug;
the bottom frame is a square frame and comprises two parallel transverse vertical plates and a plurality of longitudinal vertical plates; each longitudinal vertical plate is positioned between the two transverse vertical plates and is parallel to each other;
defining the arrangement direction of the transverse vertical plate as the left-right direction, and the arrangement direction of the longitudinal vertical plate as the front-back direction;
the number of the upright columns is multiple, the upright columns are arranged on part or all of the longitudinal vertical plates, all the upright columns are positioned on the same connecting line, and the connecting line direction is along the arrangement direction of the transverse vertical plates, namely the left and right directions;
the cross beams comprise a first bearing cross beam and a second bearing cross beam;
the front side surface of each upright post is provided with a first bearing beam, the rear side surface of each upright post is provided with a second bearing beam, and the first bearing beam and the second bearing beam are horizontally connected to the upright posts;
each first bearing cross beam is located at the same height, and each second bearing cross beam is located at the same height;
the setting height of the first bearing cross beam is higher than that of the second bearing cross beam;
the vertical plates comprise a first bearing vertical plate and a second bearing vertical plate;
each second bearing cross beam is provided with a first bearing vertical plate, and the heights of the first bearing vertical plates are equal; the hook rods are arranged along the direction of the transverse vertical plates and are supported by the first bearing vertical plates together;
the hook is provided with a plurality of hooks, and each hook is sequentially hung on the hook rod along the left-right direction;
the front part of each longitudinal vertical plate is respectively provided with a second bearing vertical plate, and the heights of the second bearing vertical plates are equal;
the lifting lugs are four and are respectively arranged at one corner position of the bottom frame, and lifting holes are formed in the lifting lugs.
2. The pendant tooling structure of the shot blasting and rust removing machine as recited in claim 1,
and the first bearing cross beam and the second bearing cross beam are respectively connected to the corresponding surfaces of the upright posts in a welding manner.
3. The pendant tooling structure of the shot blasting and rust removing machine as recited in claim 1,
the first bearing vertical plate and the second bearing vertical plate are both square iron plates.
4. The pendant tooling structure of the shot blasting and rust removing machine as recited in claim 1,
the first bearing vertical plate is provided with a groove for supporting the hook rod.
5. The pendant tooling structure of the shot blasting and rust removing machine as recited in claim 1,
the upright posts are made of H-shaped steel, wherein the bottom of the H-shaped steel is welded and connected to the middle position of the longitudinal vertical plate.
6. The pendant tooling structure of the shot blasting and rust removing machine as recited in claim 1,
the number of the longitudinal vertical plates is five, and the number of the vertical columns is three;
counting from the longitudinal vertical plate on the left side, defining five longitudinal vertical plates as a first longitudinal vertical plate, a second longitudinal vertical plate, a third longitudinal vertical plate, a fourth longitudinal vertical plate and a fifth longitudinal vertical plate respectively;
and an upright post is arranged on the first longitudinal vertical plate, the third longitudinal vertical plate and the fifth longitudinal vertical plate.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202122943256.4U CN216371721U (en) | 2021-11-26 | 2021-11-26 | Pendant tool structure of shot blasting rust remover |
Applications Claiming Priority (1)
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CN202122943256.4U CN216371721U (en) | 2021-11-26 | 2021-11-26 | Pendant tool structure of shot blasting rust remover |
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CN216371721U true CN216371721U (en) | 2022-04-26 |
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CN202122943256.4U Active CN216371721U (en) | 2021-11-26 | 2021-11-26 | Pendant tool structure of shot blasting rust remover |
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- 2021-11-26 CN CN202122943256.4U patent/CN216371721U/en active Active
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