CN210339177U - Bearing device of grounding module - Google Patents

Abstract

The utility model discloses a device is put to ground connection module's that relates to ground connection module storage equipment field, including outer support frame, outer support frame is hollow frame construction and is equipped with elevating system, elevating system and outer support frame fixed connection, be equipped with the layering frame that a plurality of are parallel to each other at outer support frame, layering frame and outer support frame fixed connection, be equipped with vertical spacing post at outer support frame, fixed connection between vertical spacing post and the layering frame, be equipped with the bearing inclined plane in the inside of outer support frame, the top of bearing inclined plane is equipped with the fixed guide who is parallel with the bearing inclined plane, fixed guide and outer support frame fixed connection; the grounding modules are conveyed to the corresponding height of the bearing inclined plane through the lifting mechanism, the bearing inclined plane quickly and orderly arranges the grounding modules, the fixed guide rail limits the movement direction of the grounding modules, and the grounding modules are effectively and conveniently arranged on the basis of saving the storage space.

Description

Bearing device of grounding module

Technical Field

The utility model relates to a ground connection module storage equipment field specifically is ground connection module's holding puts device.

Background

The grounding module is a grounding body mainly made of non-metallic materials, and consists of non-metallic minerals and electrolytic substances with good conductivity and stability, so that the problems that the metal grounding body has poor affinity in acid or alkaline soil and the surface of the metal body is easily rusted to change the grounding resistance are effectively solved, and when organic substances in the soil are excessive, the surface of the metal body is easily wrapped by ink, so that the conductivity and the current-draining capacity are weakened, the current-dissipating area of the grounding body is increased, the contact resistance between the grounding body and the soil is reduced, and the grounding module has strong moisture absorption and retention capacity, so that the resistivity of the soil nearby the grounding module is reduced, the dielectric constant is increased, the interlayer contact resistance is reduced, the corrosion resistance is enhanced, and smaller grounding resistance and longer service life can be obtained.

Although the grounding modules have different shapes and sizes, the weight of the grounding modules can reach dozens of jin and even hundreds of jin generally. Generally adopt the mode of artifical transport when holding ground module among the prior art, because the condition restriction of artifical transport, make ground module place mostly low individual layer supporter, be a very big waste to the storage space like this, if use multilayer supporter, to the staff, not only get and put the difficulty and the range of inconvenient ground module on the supporter, because at present most common ground module is cylindrical ground module, cylindrical ground module rolls so very easily and can't stack, further make storage space catch the front of a garment and see the elbow, so how to alleviate the staff on the basis of effectual utilization storage space and get the degree of difficulty of ground module and just become the problem that ground module storage equipment field waited for urgently to solve.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome prior art and store extravagant storage space and be difficult to arrange neatly not enough when cylindrical ground connection module, provide a ground connection module's bearing and put device, effectually make things convenient for ground connection module to arrange neatly on the basis of practicing thrift storage space.

The purpose of the utility model is mainly realized through the following technical scheme:

the supporting device of the grounding module comprises an outer supporting frame, wherein the outer supporting frame is of a hollow frame structure, a lifting mechanism is arranged on one side face of the outer supporting frame, the lifting mechanism is fixedly connected with the outer supporting frame, a plurality of parallel layered frames are uniformly distributed on the side face, provided with the lifting mechanism, of the outer supporting frame and the side face departing from the lifting mechanism from bottom to top, the layered frames are fixedly connected with the outer supporting frame, a vertical limiting column is arranged between every two adjacent layered frames on the side face, far away from the lifting mechanism, of the outer supporting frame, the vertical limiting columns are fixedly connected with the layered frames, a plurality of parallel supporting inclined planes are arranged inside the outer supporting frame from bottom to top, the supporting inclined planes obliquely downwards extend from the side face, provided with the lifting mechanism, of the outer supporting frame to the side face, departing from the lifting mechanism, of the outer supporting frame, and a fixed guide rail parallel to the supporting inclined planes, the fixed guide rail is fixedly connected with the outer support frame.

In the prior art, the most important grounding modules are flat and cylindrical, when the grounding modules are stored, the two grounding modules are different in bearing and placing modes, the flat grounding modules can be overlapped and placed, the cylindrical grounding modules are easy to slide when being overlapped and placed, the grounding modules are divided into main bodies and conductive columns symmetrically arranged outside the main bodies, and the conductive columns can not be stacked very densely for protection, so compared with the flat grounding modules, the storage difficulty of the cylindrical grounding modules is higher, the utility model mainly aims at the storage of the cylindrical grounding modules, the grounding modules are mainly carried by manpower in the prior art, although the shapes of the grounding modules are different, the weight of the grounding modules can reach dozens of jin or even hundreds of jin generally, and the grounding modules are stored by adopting a multilayer shelf by manpower, and is a great waste to manpower resources, under this background, the utility model discloses a support of outer support frame as the whole device, set up the elevating system that can transport the ground connection module in the side of outer support frame, arrange several layers of parallel bearing inclined planes from bottom to top on outer support frame, the bearing inclined plane extends downwards to the side that deviates from the elevating system from the side of outer support frame that is equipped with the elevating system, after the elevating system transports the ground connection module to the corresponding height of bearing inclined plane, imbed the conductive pillar of ground connection module into the fixed guide rail of bearing inclined plane top, the fixed guide rail expends a certain distance to the inside so as to block the conductive pillar of ground connection module steadily, the ground connection module can roll to the oblique below along fixed guide rail and bearing inclined plane, in order to avoid space utilization ratio lower and ground connection module to accelerate too fast, the inclination angle of bearing inclined plane is controlled at the minimum angle that can make the ground connection module move as far as possible, when the grounding module moves to the tail end of the bearing inclined plane, the movement of the grounding module is stopped through the vertical limiting column, the grounding module cannot be damaged for protection, a layer of flexible material can be coated on the vertical limiting column to serve as a buffer, the weight of the grounding module is large due to the fact that the grounding module is large in weight, the weight of the grounding module can be borne for guarantee, the bearing inclined plane can bear the weight of the grounding module, the fixed guide rail is also a main structure bearing the weight of the fixed guide rail, the layered frame arranged on the outer support frame is further enabled to be more stable in the whole structure, the pressure distribution of the grounding module to the device is enabled to be more uniform, and the grounding module is effectively convenient to arrange in order on the basis of saving storage space through the lifting mechanism and the effect of.

Further, elevating system includes the lift shell, the lift shell is hollow rectangle frame structure, the bottom surface of the inside of lift shell is equipped with the direction inclined plane, the bottom surface fixed connection of the inside of direction inclined plane and lift shell, direction inclined plane top is equipped with the elevating platform, the upper surface and the lower surface of elevating platform are free, the both sides wall of lift shell all is equipped with a pair of pulley, the lateral wall of pulley embedding lift shell, and one of them pulley is close to the top of lift shell, another is close to the bottom of lift shell, be equipped with the conveyer belt on the rotor plane of pulley, the conveyer belt runs through the lift shell and forms the closed conveyer belt circle of round on a pair of pulley, be equipped with the connecting block between conveyer belt and the elevating platform, pass through connecting block fixed connection between conveyer belt and. The pulleys are positioned on two symmetrical side walls of the lifting shell, the pulleys are embedded into the side walls, the diameters of the pulleys are larger than the wall thickness, a certain gap is kept between the rotating surface of each pulley and the corresponding side wall to ensure that the side walls cannot influence the normal rotation of the pulleys, the two pairs of pulleys are driven by a group of motors, the grounding module is placed on the lifting platform along the guide inclined plane through the rolling grounding module, a groove capable of preventing the grounding module from rolling randomly is formed in the lifting platform, the groove is shallow and can still push the grounding module when external force is applied, after the grounding module is sunk into the groove, a worker turns on the motor on the side surface of the lifting mechanism to enable the lifting platform to move upwards under the driving of the conveyor belt, the sliding friction of the conveyor belt is converted into rolling friction by the pulleys, the difficulty of conveying the grounding module is effectively reduced, when the lifting platform is, control motor reversal makes the elevating platform descend to the bottom of lift shell, carries out next ground connection module's transportation, and in the same way, when ground connection module was taken off to needs, also can rise to the relevant position with the elevating platform, and tools such as for example with a hook stock or rope pull ground connection module to the elevating platform on transport again, effectually alleviateed the staff like this and transported ground connection module to the high-rise pressure of holding on the inclined plane.

Furthermore, the bearing inclined plane comprises two limit guide rails, the limit guide rails are respectively positioned on the front side and the back side of the outer support frame and fixedly connected with the outer support frame, a movable stop lever capable of lifting is arranged below the limit guide rails, the movable stop lever is fixedly connected with the limit guide rails, a contact belt is arranged between the two limit guide rails, a contact belt winding drum is further arranged below the limit guide rails, the contact belt winding drum is fixedly connected with the outer support frame, a limit lever is embedded in the limit guide rails, one end of the contact belt is wound in the contact belt winding drum, and the other end of the contact belt is fixedly connected with the limit lever. The motion direction through spacing guide restriction gag lever post, a plurality of movable stop levers all can block the gag lever post and limit the position at gag lever post place, the contact zone is connected to the gag lever post, release the gag lever post through descending movable stop lever, rethread contact zone reel rolling contact area, contact zone pulling gag lever post is along spacing guide motion, or the gag lever post drives the contact zone motion, thereby adjust the length that the contact zone arranged on bearing and putting the inclined plane, can pass through the roughness of adjusting the contact zone on the contact zone, for example, set up comparatively smooth acceleration zone, comparatively coarse deceleration strip or the uniform velocity motion area of accurate adjustment roughness etc. through the distribution position of the contact zone of different roughness and the setting of length, the speed of control ground module motion on bearing and putting the inclined plane, thereby strengthen the controllability of ground module arrangement process.

Further, the contact area includes free contact area and speed reduction contact area, and the one end and the contact area reel fixed connection in free contact area, the other end and speed reduction contact area fixed connection, the one end and the free contact area fixed connection in speed reduction contact area, the other end and gag lever post fixed connection. The contact belt in the utility model is divided into two sections, the part near the bottom end of the bearing inclined plane is set as a deceleration contact belt with higher roughness, the rest part of the contact belt is a free contact belt with smaller roughness, in order to avoid the grounding module from stopping on the bearing inclined plane too early, the length of the deceleration contact belt is set to be 3 to 4 grounding module widths, the contact belt is continuously rolled up by lifting the movable stop lever to adjust the position of the deceleration contact belt, thereby ensuring that the movement of all the grounding modules on the bearing inclined plane is controllable, and simultaneously the roughness of the free contact belt is small, but not too small to avoid excessive acceleration of the grounded module at the free contact zone into an uncontrolled speed range, through the setting in free contact area and speed reduction contact area, the effectual control dynamics of holding the motion of putting the bevel to the ground connection module that has strengthened.

Further, the movable stop lever comprises a synchronous connecting rod, a straight stop lever and an inclined stop lever are arranged above the synchronous connecting rod, the straight stop lever is close to the end part of the synchronous connecting rod, the inclined stop lever is far away from the end part of the synchronous connecting rod, a tension spring is arranged between the straight stop lever and the inclined stop lever, one end of the tension spring is fixedly connected with the synchronous connecting rod, and the other end of the tension spring is fixedly connected with the limiting guide rail. The extension spring can pull synchronous connecting rod and be close to limit guide for straight pin and inclined plane pin can just restrict the removal of gag lever post under natural state, and synchronous connecting rod can make the whole synchronous motion of activity pin, avoids its one side to release the gag lever post and the opposite side does not release, the inclined plane of inclined plane pin moves to the direction towards ground connection module, pushes down the inclined plane dog when making things convenient for ground connection module process, and when ground connection module motion stopped, terminal inclined plane dog can be pushed down, thereby only need light movable pin and gag lever post just can remove the gag lever post rolling contact area at this moment, the effectual degree of difficulty that has alleviateed lift activity pin and adjustment contact area.

Further, the contact belt reel comprises a hollow reel shell, a central shaft is arranged at the center of the interior of the reel shell, the central shaft is fixedly connected with the inner wall of the reel shell, a steel belt shell which takes the central shaft as the center is further arranged inside the reel shell, a coiled spring steel belt is further arranged inside the steel belt shell, the contact belt is wound between the outer surface of the steel belt shell and the inner surface of the reel shell, one end of the spring steel belt is fixedly connected with the central shaft, and the other end of the spring steel belt is fixedly connected with the contact belt. With contact zone and spring steel band fixed connection, when pulling out the contact zone, the spring steel band is also pulled out the steel band shell and is coiled in contact zone place position before, when the gag lever post is fixed, the contact zone can not be rewound, and when the gag lever post is released, the spring steel band of being pulled out can the coiling naturally, the coiling of spring steel band will drive the contact zone and retrieve the coiling, thereby make the contact zone retrieve the inside of reel shell, the power of rewinding has been provided for the rewinding of contact zone like this, the effectual manpower and the time of having saved staff rolling contact zone and consuming.

The supporting device further comprises an inclined plane supporting rod, the inclined plane supporting rod penetrates through the whole bearing inclined plane and is parallel to the bearing inclined plane, one end of the inclined plane supporting rod is fixedly connected with the high position of the bearing inclined plane, and the other end of the inclined plane supporting rod is fixedly connected with the layered frame on the side, away from the lifting mechanism, of the outer supporting frame. Because the weight of a single grounding module can generally reach dozens of jin or even hundreds of jin, in order to enhance the supporting capability of the bearing and placing inclined plane and avoid the bearing pressure of the bearing and placing inclined plane and the fixed guide rail from being too large, the pressure of the bearing and placing inclined plane and the fixed guide rail supporting the grounding module is effectively relieved on the basis of not influencing the bearing and placing inclined plane by arranging the inclined plane supporting rod and arranging the inclined plane supporting rod below the upper surface of the bearing and placing inclined plane.

To sum up, compared with the prior art, the utility model has the following beneficial effects:

(1) the grounding modules are conveyed to the corresponding height of the bearing inclined plane through the lifting mechanism, the bearing inclined plane quickly and orderly arranges the grounding modules, the fixed guide rail limits the movement direction of the grounding modules, and the grounding modules are effectively and conveniently arranged on the basis of saving the storage space.

(2) The sliding friction of the conveyor belt is converted into rolling friction through the pulleys, the conveyor belt drives the lifting platform to lift, and the pressure of conveying the grounding module to the high-rise object placing frame by workers is effectively reduced.

(3) Through the setting in free contact area and speed reduction contact area, controlled the velocity of motion of ground module on bearing the inclined plane to effectual control dynamics of bearing the inclined plane to ground module motion of putting has been strengthened.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the lifting mechanism of the present invention;

FIG. 3 is a schematic view of the inclined bearing surface of the present invention;

FIG. 4 is a schematic view of the movable stop lever of the present invention;

FIG. 5 is a schematic view of the contact strip reel structure of the present invention;

1-outer support frame, 2-lifting mechanism, 3-fixed guide rail, 4-inclined plane support rod, 5-vertical limit column, 6-layered frame, 7-bearing inclined plane, 21-lifting shell, 22-pulley, 23-conveyor belt, 24-guide inclined plane, 25-lifting platform, 26-connecting block, 71-limit guide rail, 72-movable stop rod, 73-limit rod, 74-deceleration contact belt, 75-free contact belt, 76-contact belt reel, 721-synchronous connecting rod, 722-straight stop rod, 723-tension spring, 724-inclined plane stop rod, 761-reel shell, 762-central shaft, 763-steel belt shell, 764-spring steel belt, 765-contact belt outlet.

Detailed Description

To make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the following examples and drawings, and the exemplary embodiments and descriptions thereof of the present invention are only used for explaining the present invention, and are not intended as limitations of the present invention.

Example 1:

as shown in fig. 1, the supporting device of the grounding module comprises an outer support frame 1, wherein the outer support frame 1 is a hollow frame structure, a lifting mechanism 2 is arranged on one side surface of the outer support frame 1, the lifting mechanism 2 is fixedly connected with the outer support frame 1, a plurality of parallel layered frames 6 are uniformly distributed on the side surface of the outer support frame 1 provided with the lifting mechanism 2 and the side surface deviating from the lifting mechanism 2 from bottom to top, the layered frames 6 are fixedly connected with the outer support frame 1, a vertical spacing column 5 is arranged between two adjacent layered frames 6 on the side surface of the outer support frame 1 far away from the lifting mechanism 2, the vertical spacing column 5 is fixedly connected with the layered frames 6, a plurality of parallel supporting inclined planes 7 are arranged inside the outer support frame 1 from bottom to top, the supporting inclined planes 7 extend downwards from the side surface of the outer support frame 1 provided with the lifting mechanism 2 to the side surface of the outer support frame 1 deviating from the lifting mechanism 2, a fixed guide rail 3 parallel to the bearing inclined plane 7 is arranged above each bearing inclined plane 7, the fixed guide rail 3 is fixedly connected with the outer support frame 1, an inclined plane support rod 4 is arranged in each bearing inclined plane 7, each inclined plane support rod 4 penetrates through the whole bearing inclined plane 7 and is parallel to the bearing inclined plane 7, one end of each inclined plane support rod 4 is fixedly connected with the high position of each bearing inclined plane 7, and the other end of each inclined plane support rod is fixedly connected with the layered frame 6 on the side, deviating from the lifting mechanism 2, of the outer support frame 1.

In practical application, the grounding module is first conveyed to the lifting mechanism 2, the grounding module is conveyed to the bearing inclined plane 7 with corresponding height through the lifting mechanism 2, the conductive column of the grounding module is sleeved in the fixed guide rail 3 and pushes the grounding module onto the bearing inclined plane 7, the grounding module moves on the bearing inclined plane 7 under the action of gravity until the grounding module or the vertical limiting column 5 in front stops, in the embodiment, only one vertical limiting column 5 is arranged at the center of the layered frame 6, a plurality of vertical limiting columns 5 can be uniformly distributed according to the size of the grounding module in practical application, the surface of the vertical limiting column 5 is coated with a layer of flexible material to avoid damaging the grounding module, the flexible material can adopt cotton pads, silica gel or foam, the tail end of the fixed guide rail 3 is sealed to avoid derailing of the grounding module, the outer support frame 1 supports the whole weight of the device, the bearing inclined plane 7 and the fixed guide rail 3 support the weight of the grounding module, the inclined plane support rod 4 inside the bearing inclined plane 7 is fixedly connected with the center of the layered frame 6, only one inclined plane support rod 4 is arranged in the embodiment, and a plurality of inclined plane support rods 4 can be uniformly distributed to dispersedly support the weight of the grounding module as required in practical application.

In the embodiment, the field trial is carried out in a test point factory for one month to test the efficacy of the grounding module, the storage amount of the same size space and the time consumed by arranging the grounding modules in the same number and scale during the trial period are recorded, and comparison with historical data of the factory shows that the storage amount of the same size space is increased to original 267%, the time consumed by arranging the grounding modules in the same number and scale is reduced by 23.6%, and the grounding modules are effectively and conveniently arranged neatly on the basis of saving the storage space.

Example 2:

as shown in fig. 1 to 2, in addition to embodiment 1, preferably, the lifting mechanism 2 includes a lifting housing 21, the lifting housing 21 is a hollow rectangular frame structure, a guiding inclined plane 24 is disposed on a bottom surface of an inside of the lifting housing 21, the guiding inclined plane 24 is fixedly connected to the bottom surface of the inside of the lifting housing 21, a lifting platform 25 is disposed above the guiding inclined plane 24, a groove capable of limiting rolling of the grounding module is disposed on an upper surface of the lifting platform 25, the groove is shallow and only capable of limiting free rolling of the grounding module and does not affect an external force to push the grounding module to move, the width of the lifting platform 25 can be set to be sufficient to accommodate a plurality of grounding modules in parallel, so that the plurality of grounding modules can be transported at one time, transportation efficiency can be effectively improved, the upper surface and the lower surface of the lifting platform 25 are free, a pair of pulleys 22 is disposed on both side walls of the lifting housing 21, the pulleys 22 are, one of the pulleys 22 is close to the top end of the lifting shell 21, the other one is close to the bottom end of the lifting shell 21, a conveyor belt 23 is arranged on a rotating surface of the pulley 22, the conveyor belt 23 penetrates through the lifting shell 21 to form a closed conveyor belt ring on the pair of pulleys 22, a connecting block 26 is arranged between the conveyor belt 23 and the lifting platform 25, and the conveyor belt 23 and the lifting platform 25 are fixedly connected through the connecting block 26.

In this embodiment, a lifting structure is further optimized and selected on the basis of embodiment 1, when the grounding module is conveyed to the lifting structure, the grounding module is placed on the lifting table 25 through the guide slope 24, the motor is started to drive the conveyor belt 23 on the side surface of the lifting housing 21, the motor in this embodiment adopts a motor with a model belonging to Y series, the motor is fixedly connected with the pulleys 22 on the top of the two side walls of the lifting housing 21, the switch is synchronously opened and closed, the movement of the conveyor belt 23 drives the lifting table 25 to move so as to convey the grounding module to a corresponding height, the sliding friction of the conveyor belt 23 is converted into rolling friction through the pulleys 22 on the inner wall of the lifting housing 21, meanwhile, the pulleys 22 above are taken as fulcrums, and the conveyor belt 23 is driven by the motor to move, so that the difficulty in lifting the grounding module is greatly reduced, the pressure of conveying the grounding module to the high-rise bearing inclined plane 7 by workers is effectively reduced, and after the grounding module is conveyed to a corresponding position by the lifting platform 25, subsequent operation is carried out according to the embodiment 1.

In the practical trial process, the conveying of the grounding module is effectively completed, and the pressure of conveying the grounding module to the high-rise bearing inclined plane 7 by workers is relieved.

Example 3:

as shown in fig. 1 to 5, on the basis of embodiment 1 or embodiment 2, preferably, the supporting and placing inclined plane 7 includes two limiting guide rails 71, the limiting guide rails 71 are respectively located on the front and back of the outer support frame 1 and fixedly connected with the outer support frame 1, a movable blocking rod 72 capable of lifting is arranged below the limiting guide rails 71, the movable blocking rod 72 includes a synchronous connecting rod 721, a straight blocking rod 722 and an inclined blocking rod 724 are arranged above the synchronous connecting rod 721, the straight blocking rod 722 is close to the end of the synchronous connecting rod 721, the inclined blocking rod 724 is far from the end of the synchronous connecting rod 721, a tension spring 723 is arranged between the straight blocking rod 722 and the inclined blocking rod 724, one end of the tension spring 723 is fixedly connected with the synchronous connecting rod 721, the other end is fixedly connected with the limiting guide rails 71, a contact belt is arranged between the two limiting guide rails 71, a contact belt reel 76 is further arranged below the limiting guide rails 71, the contact belt reel 76 includes a reel housing 761 with a hollow, a central shaft 762 is arranged at the center of the interior of the winding drum shell 761, the central shaft 762 is fixedly connected with the inner wall of the winding drum shell 761, a steel belt shell 763 which takes the central shaft 762 as the center is further arranged in the interior of the winding drum shell 761, a coiled spring steel belt 764 is further arranged in the interior of the steel belt shell 763, the contact belt is wound between the outer surface of the steel belt shell 763 and the inner surface of the winding drum shell 761, one end of the spring steel belt 764 is fixedly connected with the central shaft 762, the other end of the spring steel belt is fixedly connected with the contact belt, and a contact belt outlet 765 which is enough for accommodating the contact belt to enter; the contact belt reel 76 is fixedly connected with the outer support frame 1, the limiting guide rail 71 is embedded with a limiting rod 73, one end of the contact belt is fixedly connected with the contact belt reel 76, and the other end of the contact belt is fixedly connected with the limiting rod 73. The contact belt comprises a free contact belt 75 and a deceleration contact belt 74, and a contact belt reel 76, the free contact belt 75, the deceleration contact belt 74 and the limiting rod 73 are fixedly connected in sequence.

In this embodiment, when the grounding module is transported to the placing slant 7 by the lifting mechanism 2, the conductive posts at both sides of the grounding module are sleeved in the fixed track, the main body of the grounding module contacts with the contact strip on the placing slant 7, when the grounding module moves to the bottom end of the slant, the free contact strip 75 is contacted first, the grounding module on the free contact strip 75 can keep a small acceleration for acceleration movement, the main body of the grounding module will roll on the slant bar 724 on the movable bar 72, the grounding module will press down the slant bar 724 along the slant, when the grounding module passes through the rear movable bar 72, the movable bar 72 will automatically rise under the action of the tension spring 723, the grounding module will be separated from the free contact strip 75 and contact with the deceleration contact strip 74 when approaching the bottom of the placing slant 7, the grounding module on the deceleration contact strip 74 can decelerate the grounding module as much as possible to avoid the damage caused by the collision, in this embodiment, the position of the movable blocking rod 72 needs to be adjusted according to the type of the grounding module, the grounding module stops to press down the inclined blocking rod 724 at the extreme end, the inclined blocking rod 724 drives the straight blocking rod 722 to descend through the synchronous connecting rod 721 when pressed down, at this time, the limiting rod 73 can be released by slightly moving the movable blocking rod 72 and the limiting rod 73, the contact belt can be wound under the action of the spring steel belt 764 until the limiting rod 73 moves to the next movable blocking rod 72, the movement tracks of the contact belt and the limiting rod 73 are limited by the limiting guide rail 71, the innermost end of the spring steel belt 764 is fixed by the central shaft 762, it is avoided that the contact belt spool 76 loses the rewinding capability due to excessive pulling out of the spring steel belt 764, the contact belt enters and exits the contact belt spool 76 from the contact belt outlet 765 located at the upper end of the spool housing 761, the grounding module is slightly damaged and the use of the grounding module, it is not necessary to protect the grounding modules excessively and to avoid contact of the grounding modules with each other.

In the embodiment, the ground module is not damaged and failed within one month of field trial in a pilot plant, and meanwhile, the ground modules are effectively and orderly arranged on the bearing inclined plane 7.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above description is only the embodiments of the present invention, and is not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (7)

1. The supporting and placing device of the grounding module is characterized by comprising an outer supporting frame (1), wherein the outer supporting frame (1) is of a hollow frame structure, a lifting mechanism (2) is arranged on one side surface of the outer supporting frame (1), the lifting mechanism (2) is fixedly connected with the outer supporting frame (1), a plurality of parallel layered frames (6) are uniformly distributed on the side surface of the outer supporting frame (1) where the lifting mechanism (2) is arranged and the side surface of the outer supporting frame (1) away from the lifting mechanism (2) from bottom to top, the layered frames (6) are fixedly connected with the outer supporting frame (1), a vertical limiting column (5) is arranged between two adjacent layered frames (6) on the side surface of the outer supporting frame (1) away from the lifting mechanism (2), the vertical limiting column (5) is fixedly connected with the layered frames (6), a plurality of supporting and placing inclined planes (7) which are parallel to each other are arranged in the outer supporting frame (1) from bottom to top, the supporting inclined planes (7) extend downwards obliquely from the side face, provided with the lifting mechanism (2), of the outer support frame (1) to the side face, deviating from the lifting mechanism (2), of the outer support frame (1), a fixed guide rail (3) parallel to the supporting inclined planes (7) is arranged above each supporting inclined plane (7), and the fixed guide rails (3) are fixedly connected with the outer support frame (1).

2. The device for supporting and placing the grounding module as claimed in claim 1, wherein the lifting mechanism (2) comprises a lifting housing (21), the lifting housing (21) is a hollow rectangular frame structure, a guide inclined plane (24) is provided on the bottom surface of the interior of the lifting housing (21), the guide inclined plane (24) is fixedly connected with the bottom surface of the interior of the lifting housing (21), a lifting platform (25) is provided above the guide inclined plane (24), the upper surface and the lower surface of the lifting platform (25) are free, a pair of pulleys (22) are provided on two side walls of the lifting housing (21), the pulleys (22) are embedded into the side walls of the lifting housing (21), one pulley (22) is close to the top end of the lifting housing (21), the other pulley is close to the bottom end of the lifting housing (21), a conveyor belt (23) is provided on the rotating surface of the pulley (22), the conveyor belt (23) penetrates through the lifting housing (21) to form a closed conveyor belt loop on the pair of pulleys (22, a connecting block (26) is arranged between the conveyor belt (23) and the lifting platform (25), and the conveyor belt (23) and the lifting platform (25) are fixedly connected through the connecting block (26).

3. The supporting device of the grounding module according to claim 1, wherein the supporting inclined plane (7) comprises two limiting guide rails (71), the limiting guide rails (71) are respectively located on the front side and the back side of the outer support frame (1) and fixedly connected with the outer support frame (1), a movable stop lever (72) capable of lifting is arranged below the limiting guide rails (71), the movable stop lever (72) is fixedly connected with the limiting guide rails (71), a contact belt is arranged between the two limiting guide rails (71), a contact belt winding drum (76) is further arranged below the limiting guide rails (71), the contact belt winding drum (76) is fixedly connected with the outer support frame (1), a limiting rod (73) is embedded in the limiting guide rails (71), one end of the contact belt is wound in the contact belt winding drum (76), and the other end of the contact belt is fixedly connected with the limiting rod (73).

4. The device for supporting and placing the grounding module according to claim 3, wherein the contact belt comprises a free contact belt (75) and a deceleration contact belt (74), one end of the free contact belt (75) is fixedly connected with the contact belt reel (76), the other end of the free contact belt is fixedly connected with the deceleration contact belt (74), one end of the deceleration contact belt (74) is fixedly connected with the free contact belt (75), and the other end of the deceleration contact belt is fixedly connected with the limiting rod (73).

5. The device for supporting and placing the grounding module as claimed in claim 3, wherein the movable blocking rod (72) comprises a synchronous connecting rod (721), a straight blocking rod (722) and an inclined blocking rod (724) are arranged above the synchronous connecting rod (721), the straight blocking rod (722) is close to the end of the synchronous connecting rod (721), the inclined blocking rod (724) is far away from the end of the synchronous connecting rod (721), a tension spring (723) is arranged between the straight blocking rod (722) and the inclined blocking rod (724), one end of the tension spring (723) is fixedly connected with the synchronous connecting rod (721), and the other end of the tension spring (723) is fixedly connected with the limit guide rail (71).

6. The apparatus for supporting and placing the grounding module as claimed in claim 3, wherein the contact strip reel (76) comprises a reel housing (761) with a hollow interior, a central shaft (762) is disposed at the center of the interior of the reel housing (761), the central shaft (762) is fixedly connected to the inner wall of the reel housing (761), a steel strip housing (763) centered on the central shaft (762) is further disposed inside the reel housing (761), a coiled spring steel strip (764) is further disposed inside the steel strip housing (763), the contact strip is wound between the outer surface of the steel strip housing (763) and the inner surface of the reel housing (761), one end of the spring steel strip (764) is fixedly connected to the central shaft (762), and the other end is fixedly connected to the contact strip.

7. The supporting device of the grounding module according to claim 1, further comprising an inclined plane supporting rod (4), wherein the inclined plane supporting rod (4) penetrates through the whole supporting inclined plane (7) and is parallel to the supporting inclined plane (7), one end of the inclined plane supporting rod (4) is fixedly connected with a high position of the supporting inclined plane (7), and the other end of the inclined plane supporting rod is fixedly connected with the layered frame (6) on the side of the outer supporting frame (1) away from the lifting mechanism (2).

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