CN117799951B - Stabilizing device for carrying process of perforated materials and using method of stabilizing device - Google Patents

Abstract

The invention provides a stabilizing device for a perforated material handling process and a using method thereof, and belongs to the technical field of logistics equipment. Including stable structure, stable structure includes the base, be equipped with the movable seat that carries out the upper and lower displacement along the base in the base, be equipped with in the movable seat with the movable seat link to each other and be used for bearing the supporting seat of foraminiferous material, be equipped with in the supporting seat and be used for carrying out spacing locating part to foraminiferous material, be equipped with the lid box with movable seat looks adaptation on the movable seat, be equipped with in the lid box and be used for carrying out assistance-localization real-time's setting element and this setting element to foraminiferous material in the supporting seat and be used for carrying out the hole treatment to foraminiferous material. The invention has the advantages of providing semiautomatic hole adjusting treatment, improving the stabilizing effect after hole compaction, along with convenient adjustment, higher stability and the like.

Description

Stabilizing device for carrying process of perforated materials and using method of stabilizing device

Technical Field

The invention relates to the technical field of logistics equipment, in particular to a stabilizing device for a perforated material conveying process and a using method thereof.

Background

In modern mass production processes, large batches of materials are often transported, and in the process of transporting, the materials inevitably shake, and particularly, some upright barrel-shaped materials are more difficult to stabilize in the process of transporting. At present, most of conveying methods are to place materials in a container to reduce or prevent the shaking of the materials during conveying, or directly reduce the running speed of conveying equipment to reduce the shaking of the materials, so that the working efficiency of personnel is greatly reduced, and the large-scale production is not facilitated.

In the prior art, when the perforated material is carried, the perforated material is placed in a container, and a compressing structure is driven by a driving mechanism to move and be pressed into the holes of the material, but because the positions of the holes of part of the perforated material are different, the driving mechanism corresponding to the holes of the material and the compressing structure corresponding to the driving structure also need to be replaced during compressing; or the perforated material is moved to a position corresponding to the compacting structure, and the first mode increases the production cost of the production equipment; the second mode has increased production workman's working strength, has also reduced work efficiency to a certain extent, and has increased manufacturing cost when production facility, consequently, now proposes a stabilising arrangement and application method for foraminiferous material handling process, provides semi-automatization on original basis that compresses tightly and to hole adjustment processing, has promoted the stable effect after compressing tightly the hole to it is convenient to adjust, stability is higher.

Disclosure of Invention

The invention aims to solve the technical problem of providing a stabilizing device for a perforated material conveying process and a use method thereof, and the stabilizing device is used for improving the perforation efficiency before conveying by arranging the supporting seat, the limiting piece, the positioning piece and other structures to be matched; by arranging the base, the movable seat, the supporting seat and other structures to be matched, the probability of shaking of materials caused by external factors is reduced, and the stability of the stable structure is further improved; through setting up the cooperation of structures such as lid box and movable seat, it is comparatively convenient when the installation and the dismantlement to the lid box, and then improved swiftly and the convenience of placing the material, improved personnel's work efficiency greatly.

In order to solve the technical problems, the invention provides the following technical scheme:

A stabilising arrangement for foraminiferous material handling process, including stable structure, stable structure includes the base, be equipped with the movable seat that carries out the upper and lower displacement along the base in the base, be equipped with in the movable seat with the movable seat link to each other and be used for bearing foraminiferous material's supporting seat, be equipped with in the supporting seat and be used for carrying out spacing locating part to foraminiferous material, be equipped with the lid box with the movable seat looks adaptation on the movable seat, be equipped with in the lid box and be used for carrying out assistance-localization real-time's setting element and this setting element to foraminiferous material in the supporting seat and be used for carrying out the hole treatment to foraminiferous material.

Optionally, the locating part includes the limiting plate, the limiting plate is the symmetry setting and slides along the bottom of supporting seat in the supporting seat of limiting plate, the limiting plate includes the arc bent plate, the both ends of arc bent plate are equipped with the extension board that links to each other with the arc bent plate respectively.

Optionally, be equipped with on the wall of supporting seat with arc bent plate link to each other and be return spring A that elasticity returns, still be equipped with on the wall of supporting seat with the extension board link to each other and carry out spacing guide to the removal of arc bent plate flexible guide bar.

Optionally, the setting element includes adjusting screw, adjusting screw sets up in the lid box and adjusting screw's output downwardly extending is connected with the supporting disk in the lid box, be equipped with the movable rod that sets up mutually empty cover with adjusting screw in the adjusting screw and the most distal end of this movable rod can be inconsistent with foraminiferous material, still be equipped with the link that links to each other with the movable rod in the movable rod and this link can imbed in the supporting disk, be equipped with the slider that carries out displacement and regulation along the spout of link in the link, be equipped with on the slider with the slider continuous and can insert the inserted bar in the foraminiferous material.

Optionally, be equipped with the annular pipe that overlaps mutually with adjusting screw and be equipped with in the annular pipe and be used for carrying out spacing stop bolt of adjusting screw and movable rod on the lid box, be equipped with in the spout of link and be used for driving the adjusting screw that the slider shifted and adjusting screw's rotation is driven through self-locking servo motor. The self-locking servo motor can be used for driving the rotation of the adjusting screw rod, and after the driving is finished, the adjusting screw rod can be locked in a self-locking mode, so that the follow-up rotation is prevented.

Optionally, the outer wall of the movable seat is provided with at least one dovetail groove, the inner wall of the cover box is provided with a fitting block matched with the dovetail groove, the hole of the outer wall of the movable seat is provided with a positioning ball, the hole of the outer wall of the movable seat is also provided with an abutting spring which is connected with the positioning ball and elastically returns, and the cover box is provided with a positioning hole matched with the positioning ball and a push rod contacted with the positioning ball.

Optionally, at least one arc groove is arranged in the wall of the movable seat, the supporting seat moves along the arc groove in the wall of the movable seat, a limit column connected with the supporting seat and extending into the arc groove is arranged outside the supporting seat, an annular ring sliding along the annular groove of the movable seat is arranged at the bottom end of the movable seat, and a telescopic push rod connected with the supporting seat is arranged on the annular ring.

Optionally, the arc groove in the wall of movable seat is equipped with four and four arc grooves and is interval form evenly distributed, the quantity of spacing post is the same with the quantity of arc groove, flexible push rod is the symmetry form and distributes and set up in annular circle, flexible push rod's output sky cover has the supporting spring that links to each other and be the elasticity return with the supporting seat.

Optionally, a cavity is arranged in the base, the lowest end of the movable seat is arranged in the cavity of the base, the bottom end of the cavity is provided with a hydraulic push rod, the output end of the hydraulic push rod is in bearing connection with the supporting seat, the output end of the hydraulic push rod is provided with a connecting plate connected with the hydraulic push rod, the connecting plate is in contact with the lowest end of the movable seat, and a return spring B which is connected with the connecting plate and elastically returns is sleeved above the hydraulic push rod; and an observation window is also arranged on the cover box.

The application also provides a method for using the stabilizing device for the perforated material handling process, which comprises the following steps: step one: the method comprises the steps of using the material according to the weight condition of the perforated material, judging whether the material is carried out in a carrying or lifting mode, and moving the material into a supporting seat;

step two: after the perforated material is moved into the supporting seat, the limiting plate in the limiting piece is made to be in contact with the perforated material;

Step three: then, after the cover box is installed on the movable seat and the installation is finished, the hole on the upper surface of the material with the hole is positioned through the positioning piece, so that the insertion rod in the positioning piece is inserted into the hole of the material, and the material is positioned;

Step four: finally, the stable structure is transported or lifted into a conventional transport vehicle.

In order to ensure the stability in the carrying process, the base can be additionally provided with a fixing structure for preventing the base from falling off when placed in the conventional carrier, or increasing the contact surface between the bottom surface of the base and the conventional carrier. The length of the insertion rod in the scheme is preferably half of the depth of the hole in the material with the hole, so that the insertion rod can be conveniently moved, and the hole of the material with the hole can be conveniently positioned and inserted.

Compared with the prior art, the invention has at least the following beneficial effects:

In the above-mentioned scheme, through the cooperation that sets up structures such as supporting seat, locating part and setting element, thereby the hole efficiency before having promoted the transport, after placing the foraminiferous material on the supporting seat, the accessible sets up the locating part carries out spacing clamp to the foraminiferous material, make this foraminiferous material keep in the center department of supporting seat, then install the lid box on the movable seat, afterwards in adjusting the setting element, make adjusting screw in the setting element move downwards, when there is the hole in the middle part of foraminiferous material, then can through adjusting movable rod in the middle pole downwardly moving one section distance can, afterwards, link and slider through setting up can adjust according to the hole in other regions on the foraminiferous material, make slider and hole correspond, afterwards, the last insert rod on continuing to push down the movable rod, make on the slider insert in the hole on the foraminiferous material, finally, through spacing bolt and movable rod carry out spacing, thereby the efficiency to the hole has been greatly improved, and the condition of rocking appears in the transport, thereby the appearance of the condition has greatly improved, stability of the band when placing in the hand, and the manual work intensity has been reduced.

Through setting up the cooperation of base, movable seat and supporting seat isotructure, reduce the probability that rocks appears because of the material that external factor leads to, and then improved this stable structure's stability, place foraminiferous material in the supporting seat and carry out to the hole after handling, the accessible conventional carrier carries stable structure, when the material that leads to because of external factor produces decurrent displacement force in the handling, will promote the supporting seat and move down along the movable seat, thereby extrude flexible push rod at the in-process that the supporting seat moved down, supporting spring, hydraulic push rod and return spring, and under gravity inertia's effect, drive movable seat downwardly moving to certain distance, at this moment, at flexible push rod, supporting spring, hydraulic push rod and return spring's in-process that resets, reduce the material and produce decurrent displacement force, thereby reduce the probability that rocks because of the material that external factor leads to appears, and then improved this stable structure's stability.

Through setting up the cooperation of structures such as lid box and movable seat, it is comparatively convenient when the installation and dismantlement to the lid box, when installation and dismantlement, only need insert can along the dovetail to make the locating ball remove to in the locating hole, thereby play the fixed action to the lid box, and then make things convenient for subsequent to hole processing, when needs take out the material, only need press the locating ball through the push rod can, thereby make the locating ball remove to the hole of movable seat in, afterwards can dismantle the lid box, and then improved swiftly and convenience of placing the material, improved personnel's work efficiency greatly.

In conclusion, the semi-automatic hole adjusting device has the advantages of being capable of providing semi-automatic hole adjusting treatment, improving the stabilizing effect after hole compaction, being convenient to adjust, being high in stability and the like.

Drawings

The accompanying drawings, which are incorporated herein and form a part of the specification, illustrate embodiments of the present application and, together with the description, further serve to explain the principles of the application and to enable a person skilled in the pertinent art to make and use the application.

FIG. 1 is a schematic diagram of the overall structure of the present invention.

Fig. 2 is a partially disassembled structural view of fig. 1 according to the present invention.

Fig. 3 is a schematic structural diagram of the base and the movable seat of the present invention.

Fig. 4 is a schematic cross-sectional view of fig. 3 illustrating the structure of the present invention.

Fig. 5 is a schematic diagram illustrating a structure of the movable seat and the supporting seat in fig. 3 separated.

Fig. 6 is a schematic top view of the movable seat and the supporting seat of the present invention.

Fig. 7 is a schematic view of the bottom structure of the cover case of the present invention.

Fig. 8 is an enlarged schematic view of the structure of fig. 7C according to the present invention.

Fig. 9 is a schematic diagram showing the cooperation of the positioning ball and the push rod according to the present invention.

The reference numerals are: 1. a base; 2. a movable seat; 3. a support base; 4. a limiting piece; 5. a cover case; 6. a positioning piece; 7. a limiting plate; 8. an arc-shaped bending plate; 9. an extension plate; 10. a return spring A; 11. a telescopic guide rod; 12. adjusting a screw; 13. a movable rod; 14. a connecting frame; 15. a slide block; 16. an insertion rod; 17. an annular tube; 18. a limit bolt; 19. adjusting a screw rod; 20. self-locking servo motor; 21. a dovetail groove; 22. a fitting block; 23. a positioning ball; 24. a contact spring; 25. a push rod; 26. an arc-shaped groove; 27. a limit column; 28. an annular ring; 29. a telescopic push rod; 30. a support spring; 31. a cavity; 32. a hydraulic push rod; 33. a support plate; 34. a connecting plate; 35. a return spring B; 36. an observation window; 37. a stabilizing structure; 38. and positioning holes.

Specific structures and devices are labeled in the drawings to enable clear implementation of embodiments of the invention, but this is merely illustrative and is not intended to limit the invention to the specific structures, devices and environments that may be modified or adapted by those of ordinary skill in the art, based on the specific needs.

Detailed Description

The invention provides a stabilizing device for a foraminous material handling process and a method of using the same, as described in detail below with reference to the accompanying drawings and examples. While the invention has been described herein in terms of the preferred and preferred embodiments, the following embodiments are intended to be more illustrative, and may be implemented in many alternative ways as will occur to those of skill in the art; and the accompanying drawings are only for the purpose of describing the embodiments more specifically and are not intended to limit the invention specifically.

It should be noted that references in the specification to "one embodiment," "an example embodiment," "some embodiments," etc., indicate that the embodiment described may include a particular feature, structure, or characteristic, but every embodiment may not necessarily include the particular feature, structure, or characteristic. Further, when a particular feature, structure, or characteristic is described in connection with an embodiment, it is submitted that it is within the knowledge of one skilled in the relevant art to effect such feature, structure, or characteristic in connection with other embodiments whether or not explicitly described.

Generally, the terminology may be understood, at least in part, from the use of context. For example, the term "one or more" as used herein may be used to describe any feature, structure, or characteristic in a singular sense, or may be used to describe a combination of features, structures, or characteristics in a plural sense, depending at least in part on the context. In addition, the term "based on" may be understood as not necessarily intended to convey an exclusive set of factors, but may instead, depending at least in part on the context, allow for other factors that are not necessarily explicitly described.

It is to be understood that the meaning of "on … …", "on … …" and "over … …" in this disclosure should be read in the broadest sense so that "on … …" means not only "directly on" but also "on" something with intervening features or layers therebetween, and "on … …" or "over … …" means not only "on" or "over" something, but also may include its meaning "on" or "over" something without intervening features or layers therebetween.

Furthermore, spatially relative terms such as "under …," "under …," "lower," "above …," "upper," and the like may be used herein for ease of description to describe one element or feature's relationship to another element or feature as illustrated in the figures. Spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. The device may be otherwise oriented and the spatially relative descriptors used herein may similarly be interpreted accordingly.

As shown in fig. 1 to 9, an embodiment of the present invention provides a stabilizing device for a process of carrying a perforated material, which includes a stabilizing structure 37, the stabilizing structure 37 includes a base 1, a movable seat 2 that moves up and down along the base 1 is provided in the base 1, a supporting seat 3 that is connected with the movable seat 2 and is used for carrying the perforated material is provided in the movable seat 2, a limiting member 4 that is used for limiting the perforated material is provided in the supporting seat 3, a cover box 5 that is adapted to the movable seat 2 is provided on the movable seat 2, a positioning member 6 that is used for performing auxiliary positioning on the perforated material in the supporting seat 3 is provided in the cover box 5, and the positioning member 6 is used for performing hole processing on the perforated material.

Through the cooperation of above-mentioned structure, can place the foraminiferous material wherein through supporting seat 3, afterwards, carry out spacingly through the side of locating part 4 to the foraminiferous material for guarantee that the foraminiferous material is placed at the middle part of supporting seat 3, afterwards install lid box 5 on movable seat 2, then, fix a position the hole of the upper surface of foraminiferous material through locating part 6 and insert in this hole, be used for preventing that the foraminiferous material from appearing lateral shifting, the longitudinal movement that produces the foraminiferous material through supporting seat 3 and movable seat 2 and the base 1 that set up is used for buffering, reduce the longitudinal vibration power that the foraminiferous material produced, and then improved the stability in the foraminiferous material handling.

As shown in fig. 2,3 and 5, in this embodiment, the limiting member 4 includes a limiting plate 7, the limiting plate 7 is symmetrically disposed in the supporting seat 3 and slides along the bottom end of the supporting seat 3, the limiting plate 7 includes an arc-shaped bending plate 8, two ends of the arc-shaped bending plate 8 are respectively provided with an extension plate 9 connected with the arc-shaped bending plate 8, a return spring a10 connected with the arc-shaped bending plate 8 and elastically returned is disposed on the wall of the supporting seat 3, and a telescopic guide rod 11 connected with the extension plate 9 and used for limiting and guiding the movement of the arc-shaped bending plate 8 is also disposed on the wall of the supporting seat 3.

Through the cooperation of locating part 4 isotructure, through the limiting plate 7 that sets up, place the foraminiferous material before supporting seat 3, can be with two limiting plates 7 through supplementary fixed instrument with manual mode and remove the both sides limit of supporting seat 3, and then extrude return spring A10 and flexible guide bar 11, and make return spring A10 produce deformation, and the output of flexible guide bar 11 moves to flexible guide bar 11 inside, then, place foraminiferous material in supporting seat 3, afterwards, loosen supplementary fixed instrument, make two limiting plates 7 under the reset of return spring A10 and flexible guide bar 11, promote two limiting plates 7 and foraminiferous material and contradict, both can ensure whether this foraminiferous material is placed in the middle part position department of supporting seat 3, play certain cushioning effect when also appearing lateral force to this foraminiferous material, avoid appearing lateral force too big and lead to foraminiferous material to appear rocking.

Through the arc bent plate 8 and the extension plate 9 that set up, both be adapted to square shape's foraminiferous material, also be adapted to the foraminiferous material of tubbiness type, be convenient for carry out spacing clamp to square shape's foraminiferous material and tubbiness type foraminiferous material.

As shown in fig. 1, 2, 7 and 8, in this embodiment, the positioning member 6 includes an adjusting screw 12, the adjusting screw 12 is disposed in the cover box 5, the output end of the adjusting screw 12 extends downward into the cover box 5 and is connected with a supporting disc 33, a movable rod 13 disposed in the adjusting screw 12 and sleeved with the adjusting screw 12 is disposed in the adjusting screw 12, the most distal end of the movable rod 13 may collide with the perforated material, a connecting frame 14 connected with the movable rod 13 is further disposed in the movable rod 13, the connecting frame 14 may be embedded into the supporting disc 33, a sliding block 15 that is disposed in the connecting frame 14 and moves along a sliding groove of the connecting frame 14 is disposed in the connecting frame 14, an inserting rod 16 that is connected with the sliding block 15 and may be inserted into the perforated material is disposed on the sliding block 15, a limit bolt 18 for limiting the adjusting screw 12 and the movable rod 13 is disposed in the annular tube 17, an adjusting screw 19 for driving the sliding block 15 to move is disposed in the sliding groove of the connecting frame 14, and the rotation of the adjusting screw 19 is driven by a self-locking servo motor 20.

Through the cooperation of setting element 6 isotructure, place the foraminiferous material in supporting seat 3 after, insert the lid box 5 on movable seat 2, thereby make lid box 5 carry out spacing fixed to foraminiferous material, at this moment, observe foraminiferous material through observation window 36, conveniently confirm foraminiferous material upper surface's hole position, then adjust adjusting screw 12, make adjusting screw 12 move down, after adjusting screw 12 moves down to a take the altitude, make supporting disk 33 move down to be close to with foraminiferous material, afterwards when carrying out the jack operation, only need rotate through self-locking servo motor 20 drive adjusting screw 19, thereby drive slider 15 at adjusting screw 19 pivoted in-process can, afterwards, push down movable rod 13, make inserting rod 16 insert with it corresponding foraminiferous material in the hole, through this semi-automatization's regulation, conveniently carry out jack operation to the hole in different regions, and effectively place the material and produce the operational efficiency who rocks in the transport, the operational efficiency of can be improved, the operational efficiency of operation equipment is improved, the effective carrier link is improved.

As shown in fig. 2, 3 and 5-7, in this embodiment, at least one dovetail groove 21 is provided on the outer wall of the movable seat 2, four dovetail grooves 21 may be uniformly provided to increase the stability of the cover case 5 during installation, a fitting block 22 adapted to the dovetail groove 21 is provided in the inner wall of the cover case 5, a positioning ball 23 is provided in a hole on the outer wall of the movable seat 2, a contact spring 24 connected to the positioning ball 23 and elastically returning is further provided in a hole on the outer wall of the movable seat 2, a positioning hole 38 adapted to the positioning ball 23 is provided in the cover case 5, and a push rod 25 contacting the positioning ball 23 is provided in the positioning hole 38.

Through the cooperation of structures such as movable seat 2, lid box 5, it is comparatively convenient when the installation and dismantlement to lid box 5, when installation and dismantlement, only need insert can along dovetail 21, thereby make the locating ball 23 in the movable seat 2 remove to in the locating hole 38, and then play the fixed action to lid box 5, and then make things convenient for follow-up to hole operation and handling, when taking out the material, only need through push rod 25 press the locating ball 23 can, make the locating ball 23 remove to in the hole of movable seat 2, afterwards can dismantle lid box 5, the shortcut and the convenience when placing the material have been improved greatly to this mode, staff's work efficiency has also been improved, through the setting of lid box 5, also play certain auxiliary spacing's effect to the downmovement of movable seat 2, avoid the downmovement volume of movable seat 2 too big and influence support spring 30 and return spring B35's life.

As shown in fig. 1, fig. 2, fig. 4 and fig. 5, in this embodiment, at least one arc groove 26 is provided in the wall of the movable seat 2, the supporting seat 3 moves along the arc groove 26 in the wall of the movable seat 2, a supporting spring 30 which is connected with the supporting seat 3 and extends into the arc groove 26 is provided outside the supporting seat 3, a cavity 31 is provided in the base 1, an annular ring 28 which slides along the annular groove of the movable seat 2 is provided at the bottom end of the movable seat 2, telescopic push rods 29 which are connected with the supporting seat 3 are provided on the annular ring 28, the arc grooves 26 in the wall of the movable seat 2 are provided with four and four arc grooves 26 which are uniformly distributed at intervals, the number of the limiting columns 27 is the same as the number of the arc grooves 26, the telescopic push rods 29 are symmetrically distributed in the annular ring 28, a supporting spring 30 which is connected with the supporting seat 3 and is elastically returned is sleeved on the output end of the telescopic push rods 29, a cavity 31 is provided in the base 1, the lowest end of the cavity 31 is provided with the base 1, a hydraulic push rod 32 is provided at the bottom end of the cavity 31, an output end of the cavity 32 is connected with the supporting seat 3, an output end 34 of the hydraulic rod 32 is connected with a connecting plate 34 which is connected with a hydraulic rod 32 which is provided with a connecting plate 34 which is connected with the lowest end of the hydraulic rod 32; the cover case 5 is also provided with a viewing window 36.

Through the cooperation of structures such as arc wall 26 and spacing post 27 for supporting seat 3 can carry out spiral lift along arc wall 26 in the movable seat 2 wall through spacing post 27, thereby at spiral lift's in-process, can play the vibration power that buffering foraminiferous material produced in the handling, and then played the effect of stabilizing to foraminiferous material handling, and arc wall 26 and spacing post 27 that set up can offset the horizontal vibration power that produces. The arcuate slot 26 and the stop post 27 are configured in a manner similar to the rotation of lipstick.

Through the cooperation of movable seat 2, annular ring 28, telescopic push rod 29, supporting spring 30, base 1, hydraulic push rod 32 and return spring B35 isotructure, when supporting seat 3 carries out spiral lift, can play the effect of supporting seat 3, and be used for buffering and offset the decurrent vibrations that take out in the foraminiferous material handling, and after taking out foraminiferous material, under the cooperation of movable seat 2, annular ring 28, telescopic push rod 29, supporting spring 30, base 1, hydraulic push rod 32 and return spring B35 isotructure for supporting seat 3 resets to the normal position, and then convenient transportation of follow-up foraminiferous material.

As shown in fig. 1-9, embodiments of the present invention provide a method of using a stabilization device for a foraminous material handling process, the method comprising:

Step one: the method is used according to the weight condition of the perforated material, and is used for judging whether to carry or hoist the perforated material and moving the perforated material into the supporting seat 3;

step two: after the perforated material is moved into the supporting seat 3, the limiting plate 7 in the limiting piece 4 is made to be in contact with the perforated material;

Step three: then, after the cover box 5 is installed on the movable seat 2 and the installation is finished, the hole on the upper surface of the material with the hole is positioned by the positioning piece 6, so that the insertion rod 16 in the positioning piece 6 is inserted into the hole of the material, and the material is positioned;

Step four: finally, the stabilizing structure 37 may be transported or hoisted into a conventional truck.

According to the technical scheme, the hole aligning efficiency before carrying is improved by arranging the supporting seat, the limiting piece, the locating piece and the like, after the hole-carrying material is placed on the supporting seat, the hole-carrying material can be limited and clamped through the arranged limiting piece, the hole-carrying material is kept at the center of the supporting seat, then the cover box is arranged on the movable seat, the locating piece is adjusted, the adjusting screw rod in the locating piece moves downwards, when the middle part of the hole-carrying material is provided with the hole, the movable rod in the adjusting screw rod can be moved downwards for a certain distance, then the connecting frame and the sliding block are arranged, the hole in other areas on the hole-carrying material can be adjusted according to the hole of the hole-carrying material, the sliding block corresponds to the hole, then the movable rod is continuously pressed down, the inserting rod on the sliding block is inserted into the hole on the hole-carrying material, finally, the adjusting screw rod and the movable rod are limited through the limiting bolt, so that the hole aligning efficiency is greatly improved, the hole-carrying material is prevented from shaking in the process, the hole-carrying material is greatly improved, the stability of the hole-carrying material is greatly improved, and the manual operation stability is reduced when the hole-carrying material is placed.

After that, through setting up the cooperation of structures such as base, movable seat and supporting seat, place foraminiferous material in the supporting seat and carry out to the hole back, the accessible conventional carrier carries stable structure, when the material that leads to because of external factor produces decurrent displacement force in the handling, will promote the supporting seat and move down along movable seat, thereby extrude flexible push rod at the in-process that the supporting seat moved down, supporting spring, hydraulic push rod and return spring, and under the effect of gravity inertia, drive movable seat and move down to certain distance, at this moment, in the reset process of flexible push rod, supporting spring, hydraulic push rod and return spring, reduce the material and produce decurrent displacement force, thereby reduce the probability that rocks appears because of the material that external factor leads to, and then improved this stable structure's stability.

Then, through setting up the cooperation of structures such as lid box and movable seat, it is comparatively convenient when the installation and dismantlement to the lid box, when the installation with dismantle, only need insert can along the dovetail, thereby make the locating ball remove to the locating hole in, thereby play the fixed action to the lid box, and then convenient subsequent to hole processing, when needs take out the material, only need press the locating ball through the push rod can, thereby make the locating ball remove to the hole of movable seat in, afterwards can dismantle the lid box, and then improved swiftly and convenience of placing the material, staff's work efficiency has been improved greatly.

The invention is intended to cover any alternatives, modifications, equivalents, and variations that fall within the spirit and scope of the invention. In the following description of preferred embodiments of the invention, specific details are set forth in order to provide a thorough understanding of the invention, and the invention will be fully understood to those skilled in the art without such details. In other instances, well-known methods, procedures, flows, components, circuits, and the like have not been described in detail so as not to unnecessarily obscure aspects of the present invention.

The foregoing is merely a preferred embodiment of the present invention and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present invention, which are intended to be comprehended within the scope of the present invention.

Claims (4)

1. The stabilizing device for the perforated material conveying process comprises a stabilizing structure, wherein the stabilizing structure comprises a base, and is characterized in that a movable seat which is used for carrying out up-and-down displacement along the base is arranged in the base, and a supporting seat which is connected with the movable seat and used for bearing the perforated material is arranged in the movable seat;

The supporting seat is internally provided with a limiting piece for limiting the perforated material, the movable seat is provided with a cover box matched with the movable seat, the cover box is internally provided with a positioning piece for auxiliary positioning of the perforated material in the supporting seat, and the positioning piece is used for performing hole alignment treatment on the perforated material;

The limiting piece comprises limiting plates which are symmetrically arranged in the supporting seat and slide along the bottom end of the supporting seat, the limiting plates comprise arc-shaped bent plates, and extension plates connected with the arc-shaped bent plates are respectively arranged at two ends of each arc-shaped bent plate;

The wall of the supporting seat is provided with a return spring A which is connected with the arc-shaped bent plate and elastically returns, and the wall of the supporting seat is also provided with a telescopic guide rod which is connected with the extension plate and used for limiting and guiding the movement of the arc-shaped bent plate;

The positioning piece comprises an adjusting screw, the adjusting screw is arranged in the cover box, the output end of the adjusting screw extends downwards into the cover box and is connected with a supporting disk, a movable rod which is sleeved with the adjusting screw is arranged in the adjusting screw, the farthest end of the movable rod can be abutted against a perforated material, a connecting frame which is connected with the movable rod is also arranged in the movable rod, the connecting frame can be embedded into the supporting disk, a sliding block which is used for displacement and adjustment along a sliding groove of the connecting frame is arranged in the connecting frame, and an inserting rod which is connected with the sliding block and can be inserted into the perforated material is arranged on the sliding block;

The cover box is provided with an annular pipe which is sleeved with the adjusting screw in a sleeved mode, a limiting bolt used for limiting the adjusting screw and the movable rod is arranged in the annular pipe, an adjusting screw rod used for driving the sliding block to move is arranged in a sliding groove of the connecting frame, and the rotation of the adjusting screw rod is driven by a self-locking servo motor;

The outer wall of the movable seat is provided with at least one dovetail groove, the inner wall of the cover box is provided with a fitting block matched with the dovetail groove, a positioning ball is arranged in a hole of the outer wall of the movable seat, an abutting spring which is connected with the positioning ball and elastically returns is also arranged in the hole of the outer wall of the movable seat, the cover box is provided with a positioning hole matched with the positioning ball, and a push rod which is contacted with the positioning ball is arranged in the positioning hole;

The wall of the movable seat is provided with at least one arc-shaped groove, the supporting seat moves along the arc-shaped groove in the wall of the movable seat, a limit column connected with the supporting seat and extending into the arc-shaped groove is arranged outside the supporting seat, the bottom end of the movable seat is provided with an annular ring sliding along the annular groove of the movable seat, and the annular ring is provided with a telescopic push rod connected with the supporting seat.

2. The stabilizing device for a perforated material handling process according to claim 1, wherein the four arc-shaped grooves are uniformly distributed at intervals in the wall of the movable seat, the number of the limiting posts is the same as that of the arc-shaped grooves, the telescopic push rods are symmetrically distributed in the annular ring, and the supporting springs which are connected with the supporting seat and elastically return are sleeved above the output ends of the telescopic push rods.

3. The stabilizing device for a perforated material handling process according to claim 2, wherein a cavity is formed in the base, the lowest end of the movable seat is arranged in the cavity of the base, a hydraulic push rod is arranged at the bottom end of the cavity, the output end of the hydraulic push rod is in bearing connection with the supporting seat, a connecting plate connected with the hydraulic push rod is arranged at the output end of the hydraulic push rod and is in contact with the lowest end of the movable seat, and a return spring B which is connected with the connecting plate and elastically returns is sleeved above the hydraulic push rod; and an observation window is also arranged on the cover box.

4. A method of using a stabilization apparatus for use in a foraminous material handling process as recited in claim 3, wherein the method comprises:

Step one: the method comprises the steps of using the material according to the weight condition of the perforated material, judging whether the material is carried out in a carrying or lifting mode, and moving the material into a supporting seat;

step two: after the perforated material is moved into the supporting seat, the limiting plate in the limiting piece is made to be in contact with the perforated material;

Step three: then, after the cover box is installed on the movable seat and the installation is finished, the hole on the upper surface of the material with the hole is positioned through the positioning piece, so that the insertion rod in the positioning piece is inserted into the hole of the material, and the material is positioned;

Step four: finally, the stable structure is transported or lifted into a conventional transport vehicle.