CN215618023U - Reactor storage rack - Google Patents

Abstract

The utility model discloses a reactor storage rack, wherein a storage rack body comprises a top plate, a support plate, a base, rollers and a groove, a placing plate is arranged on the surface of the base, the surface of the placing plate is movably connected with a reactor, a bearing plate is arranged on one side of the placing plate, the groove is arranged in the base, and rolling equipment is arranged in the groove. According to the reactor storage rack, when a reactor is placed, a user can provide power through the motor to enable the rotating shaft, the first sliding block and the second sliding block to rotate, so that the placing plate is driven to move outwards, then the reactor is placed on the placing plate through external equipment, the first damping column and the second damping column at the bottom of the placing plate can provide a damping effect through locking of the screws, and pressure damage of the reactor to a storage rack body is reduced; the reactor is conveyed through the motor, so that labor output of workers is reduced, and the working efficiency of the workers is improved.

Description

Reactor storage rack

Technical Field

The utility model relates to the technical field of storage racks, in particular to a reactor storage rack.

Background

Reactors, also called inductors, are electrical conductors that, when energized, generate a magnetic field in a certain spatial area occupied by a conductor, so that all electrical conductors capable of carrying current are inductive in the general sense. The reactance is divided into inductive reactance and capacitive reactance, and the more scientific classification is that the inductive reactance and the capacitive reactance are commonly called as a reactor, however, the reactor is called as the inductor in the past; along with the generation of the reactor, a reactor storage rack is derived; the existing reactor has the defects that the reactor is difficult to move when workers put in and take out the reactor due to heavy weight and deep inside the storage rack; the original method is that the top of the storage rack is dismantled and taken away through external equipment; however, for a user, the storage rack after being disassembled needs to be manually installed again, so that the labor force of a company is wasted, meanwhile, the storage rack is easily damaged after being disassembled and installed for a long time, and the service life is shortened.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a reactor storage rack which has the characteristics of facilitating the movement of a reactor in the storage rack and reducing labor force, and solves the problems in the prior art.

In order to achieve the purpose, the utility model provides the following technical scheme: a reactor storage rack comprises a storage rack body, wherein the storage rack body comprises a top plate, a supporting plate, a base, rollers and a groove, one side of the bottom of the top plate is welded with one side of the top of the supporting plate, one side of the bottom of the supporting plate is welded with one side of the top of the base, the bottom of the base is connected with the top of the rollers, a placing plate is arranged on the surface of the base, the surface of the placing plate is movably connected with a reactor, a bearing plate is arranged on the other side of the base, the groove is formed in the base, and rolling equipment is arranged in the groove;

the rolling equipment comprises a motor, a rotating shaft, a fixing block, a first sliding block, a second sliding block, a first damping column and a second damping column, wherein the motor is installed on one side of the outside of the base, the fixing block is installed on one side of the inside of the groove, the rotating shaft is installed in the groove, two ends of the rotating shaft are respectively connected with the motor and the fixing block, the first sliding block and the second sliding block are respectively sleeved on the rotating shaft in a movable mode, and the first damping column and the second damping column are respectively installed on the tops of the first sliding block and the second sliding block in a fixed mode.

Preferably, the supporting plate has a group, and is fixed between the top plate and the base.

Preferably, place the board and include interarea board, shrinkage pool and screw, the bottom of interarea board welds with the top of first shock attenuation post and second shock attenuation post respectively, and four groups of shrinkage pools have been seted up on the surface of interarea board, and the inside swing joint of shrinkage pool is passed to the screw.

Preferably, four groups of holes are formed in the surface of the baffle below the reactor, and the baffle penetrates through the inner part of each hole through a screw to be movably connected with the placing plate.

Preferably, the bearing plate comprises two groups of bearing columns and two groups of bearing panels, the two groups of bearing columns are welded on the surface of the base and fixed, and the bottom of each bearing panel is welded with the top of each bearing column; wherein the bearing plate is arranged on the opposite surface of the supporting plate, and the surface of the bearing column is provided with a damping spring.

Preferably, the rolling equipment and the grooves are provided with two groups, the grooves are respectively arranged on two sides of the surface of the base, and the two groups of rolling equipment are respectively arranged inside the two groups of grooves.

Preferably, a brake pedal is arranged on the roller.

Compared with the prior art, the utility model has the following beneficial effects:

according to the reactor storage rack, the storage rack body comprises the top plate, the supporting plate, the base, the roller and the groove, and the brake pedal is arranged on the roller, so that a user can conveniently move or fix the storage rack body; the rolling device is arranged inside the groove and comprises a motor, a rotating shaft, a fixed block, a first sliding block, a second sliding block, a first shock absorption column and a second shock absorption column, the motor is arranged on one side outside the base, the fixed block is arranged on one side inside the groove, the rotating shaft is arranged inside the groove, two ends of the rotating shaft are respectively connected with the motor and the fixed block, the first sliding block and the second sliding block are respectively sleeved on the rotating shaft and movably connected, and the first shock absorption column and the second shock absorption column are respectively arranged on the tops of the first sliding block and the second sliding block and are fixed; the tops of the first damping column and the second damping column are connected with a placing plate, and the placing plate penetrates through the concave hole through a screw to be movably connected with the reactor; when the reactor is placed, a user can provide power through the motor to enable the rotating shaft, the first sliding block and the second sliding block to rotate, so that the placing plate is driven to move outwards, the reactor is placed on the placing plate through external equipment, the first damping column and the second damping column at the bottom of the placing plate can provide a damping effect through locking of the screws, and pressure damage of the reactor to the storage rack body is reduced; similarly, if the reactor in the storage rack body needs to be moved out for installation, the motor can be started to drive the placing plate to move outwards, and the reactor is moved out of the storage rack body; the reactor is conveyed through the motor, so that labor output of workers is reduced, and the working efficiency of the workers is improved.

Drawings

FIG. 1 is an elevational view of the overall construction of the present invention;

FIG. 2 is a top view of the rolling apparatus of the present invention;

FIG. 3 is a connection diagram of a reactor and a placing plate according to the present invention;

FIG. 4 is a front view of the load bearing plate of the present invention;

fig. 5 is a top view of the placement board of the present invention.

In the figure: 1. a storage rack body; 2. placing the plate; 3. a reactor; 4. a bearing plate; 5. a scrolling device; 11. a top plate; 12. a support plate; 13. a base; 14. a roller; 141. a brake pedal; 15. a groove; 21. a main panel; 22. concave holes; 23. a screw; 41. a load-bearing column; 42. a load bearing panel; 51. a motor; 52. a rotating shaft; 53. a fixed block; 54. a first slider; 55. a second slider; 56. a first shock-absorbing post; 57. a second shock post.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, a reactor storage rack comprises a storage rack body 1, wherein the storage rack body 1 comprises a top plate 11, a support plate 12, a base 13, rollers 14 and grooves 15, the support plate 12 is provided with a group and is fixedly arranged between the top plate 11 and the base 13; wherein one side of the bottom of the top plate 11 is welded with one side of the top of the support plate 12, one side of the bottom of the support plate 12 is welded with one side of the top of the base 13, the bottom of the base 13 is connected with the top of the roller 14, and the roller 14 is provided with a brake pedal 141, so that a user can conveniently move or fix the storage rack body 1; the surface of the base 13 is provided with a placing plate 2, wherein the placing plate 2 comprises a main panel 21, concave holes 22 and screws 23, the bottom of the main panel 21 is respectively welded with the tops of a first shock absorption column 56 and a second shock absorption column 57 in the rolling equipment 5, four groups of concave holes 22 are formed in the surface of the main panel 21, and the screws 23 penetrate through the insides of the concave holes 22 to be movably connected; the surface of the placing plate 2 is movably connected with the reactor 3, four groups of holes are formed in the surface of the baffle below the reactor 3, and the four groups of holes penetrate through the inside of the holes through screws 23 and are movably connected with the placing plate 2; the other side of the base 13 is provided with a bearing plate 4, the bearing plate 4 comprises two groups of bearing columns 41 and bearing panels 42, the two groups of bearing columns 41 are welded on the surface of the base 13 and fixed, and the bottom of the bearing panel 42 is welded with the top of the bearing column 41; wherein, the bearing plate 4 is arranged on the opposite surface of the support plate 12, and the surface of the bearing column 41 is provided with a damping spring, thereby reducing the pressure of the reactor 3 on the base 13; the other end of the placing plate 2 is placed on the bearing panel 42 and is mainly used for balancing the stability of the placing plate 2; a groove 15 is formed in the base 13, the rolling devices 5 are arranged in the groove 15, the rolling devices 5 and the grooves 15 are respectively provided with two groups, the grooves 15 are respectively arranged on two sides of the surface of the base 13, and the two groups of rolling devices 5 are respectively arranged in the two groups of grooves 15; the movement of the placing plate 2 can be more effectively driven by the two sets of rolling devices 5.

Referring to fig. 1-2, the rolling device 5 includes a motor 51, a rotating shaft 52, a fixed block 53, a first slider 54, a second slider 55, a first shock-absorbing column 56 and a second shock-absorbing column 57, the motor 51 is installed at one side outside the base 13, the fixed block 53 is installed at one side inside the groove 15, the rotating shaft 52 is installed inside the groove 15, two ends of the rotating shaft 52 are respectively connected with the motor 51 and the fixed block 53, the first slider 54 and the second slider 55 are respectively sleeved on the rotating shaft 52 and movably connected, and the first shock-absorbing column 56 and the second shock-absorbing column 57 are respectively installed at the tops of the first slider 54 and the second slider 55 and fixed; the driving force is provided by the motor 51, which drives the rotation shaft 52 to rotate, thereby driving the first slider 54 and the second slider 55 to move; wherein the placing plate 2 is connected with the first slider 54 and the second slider 55 through the first shock-absorbing column 56 and the second shock-absorbing column 57; like the same thing first slider 54 and second slider 55 drive the removal of placing board 2, accomplish the work of the inside mobile reactor 3 of storage rack body 1 to reactor 3 has been reduced to storage rack body 1's pressure through first shock attenuation post 56 and second shock attenuation post 57, has avoided the drawback of long-term dismouting storage rack body 1, provides staff's work efficiency.

In summary, the following steps: according to the reactor storage rack, the storage rack body 1 comprises the base 13, the roller 14 and the groove 15, the roller 14 is provided with the brake pedal 141, and a user can move or fix the storage rack body 1 conveniently; the surface of the base 13 is provided with a placing plate 2 and a bearing plate 4, and the other end of the placing plate 2 is placed on the bearing panel 42 for balancing the stability of the placing plate 2; the grooves 15 are provided with two groups which are respectively arranged at two sides of the surface of the base 13, and the two groups of rolling equipment 5 are respectively arranged inside the two groups of grooves 15; the rolling equipment 5 comprises a motor 51, a rotating shaft 52, a fixed block 53, a first sliding block 54, a second sliding block 55, a first shock absorption column 56 and a second shock absorption column 57, the motor 51 is installed on one side outside the base 13, the fixed block 53 is installed on one side inside the groove 15, the rotating shaft 52 is installed inside the groove 15, two ends of the rotating shaft 52 are respectively connected with the motor 51 and the fixed block 53, the first sliding block 54 and the second sliding block 55 are respectively sleeved on the rotating shaft 52 and movably connected, and the first shock absorption column 56 and the second shock absorption column 57 are respectively installed on the tops of the first sliding block 54 and the second sliding block 55 and fixed; the driving force is provided by the motor 51, which drives the rotation shaft 52 to rotate, thereby driving the first slider 54 and the second slider 55 to move; wherein the placing plate 2 is connected with the first slider 54 and the second slider 55 through the first shock-absorbing column 56 and the second shock-absorbing column 57; like the same, first slider 54 and second slider 55 drive the removal of placing board 2, accomplish the work of the inside mobile reactor 3 of storage rack body 1 to reactor 3 has been reduced to storage rack body 1's pressure through first shock attenuation post 56 and second shock attenuation post 57, has avoided the drawback of long-term dismouting storage rack body 1, has improved staff's work efficiency.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a reactor storage rack, includes storage rack body (1), its characterized in that: the storage rack body (1) comprises a top plate (11), a supporting plate (12), a base (13), rollers (14) and a groove (15), one side of the bottom of the top plate (11) is welded with one side of the top of the supporting plate (12), one side of the bottom of the supporting plate (12) is welded with one side of the top of the base (13), the bottom of the base (13) is connected with the top of the rollers (14), a placing plate (2) is arranged on the surface of the base (13), the surface of the placing plate (2) is movably connected with a reactor (3), a bearing plate (4) is arranged on the other side of the base (13), the groove (15) is formed in the base (13), and rolling equipment (5) is arranged in the groove (15);

the rolling equipment (5) comprises a motor (51), a rotating shaft (52), a fixed block (53), a first sliding block (54), a second sliding block (55), a first shock absorption column (56) and a second shock absorption column (57), wherein the motor (51) is installed on one side of the outside of the base (13), the fixed block (53) is installed on one side of the inside of the groove (15), the rotating shaft (52) is installed inside the groove (15), two ends of the rotating shaft (52) are respectively connected with the motor (51) and the fixed block (53), the first sliding block (54) and the second sliding block (55) are respectively sleeved on the rotating shaft (52) in a movable mode, and the first shock absorption column (56) and the second shock absorption column (57) are respectively installed at the tops of the first sliding block (54) and the second sliding block (55) and are fixed.

2. A reactor storage rack according to claim 1, characterized in that: the supporting plates (12) are provided with a group and are fixedly arranged between the top plate (11) and the base (13).

3. A reactor storage rack according to claim 1, characterized in that: place board (2) and include main panel (21), shrinkage pool (22) and screw (23), the bottom of main panel (21) respectively with the top welding of first shock attenuation post (56) and second shock attenuation post (57), four groups of shrinkage pools (22) have been seted up on the surface of main panel (21), screw (23) pass the inside swing joint of shrinkage pool (22).

4. A reactor storage rack according to claim 1, characterized in that: four groups of holes are formed in the surface of the baffle below the reactor (3), and the baffle penetrates through the holes through screws (23) and is movably connected with the placing plate (2).

5. A reactor storage rack according to claim 1, characterized in that: the bearing plate (4) comprises two groups of bearing columns (41) and two groups of bearing panels (42), the two groups of bearing columns (41) are welded on the surface of the base (13) and fixed, and the bottom of each bearing panel (42) is welded with the top of each bearing column (41); wherein the bearing plate (4) is arranged on the opposite surface of the support plate (12), and the surface of the bearing column (41) is provided with a damping spring.

6. A reactor storage rack according to claim 1, characterized in that: the rolling equipment (5) and the grooves (15) are provided with two groups, the grooves (15) are respectively arranged on two sides of the surface of the base (13), and the two groups of rolling equipment (5) are respectively arranged in the two groups of grooves (15).

7. A reactor storage rack according to claim 1, characterized in that: and a brake pedal (141) is arranged on the roller (14).

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