CN221162830U - Transportation device - Google Patents

Abstract

The present disclosure provides a conveyer, relates to glass processing transportation apparatus technical field. A transportation device, comprising: the accommodating rack is provided with an accommodating space and used for storing transported products, and comprises a chassis, wherein the two edges of the bottom surface of the chassis, which are opposite in the first direction, are respectively provided with a first adjusting part, and the first adjusting parts extend along the second direction; the movable wheels comprise rollers, buffer parts and fixing parts, one end of each buffer part is rotationally connected with the rollers, the other end of each buffer part is fixedly connected with the fixing part, and the fixing parts are movably connected in the first adjusting parts and can be fixed at any position of the first adjusting parts through limiting parts; the first direction is the length or width direction of the chassis, and the second direction is perpendicular to the first direction. The conveying device has the advantages of reducing the shaking amplitude generated by the glass plate and the high-precision instrument and preventing the glass plate and the high-precision instrument from being damaged due to shaking.

Description

Transportation device

Technical Field

The disclosure relates to the technical field of glass processing transportation apparatuses, in particular to a transportation device.

Background

In the glass processing process, different glass plates and high-precision instruments need to be operated to different working areas of a dust-free workshop for subsequent processing, operators usually use a cart to transport the glass plates and the high-precision instruments, and in the transportation process, the quality of the glass plates on the cart and the precision of the high-precision instruments can be influenced by the running stability of the cart.

At present, the existing conveying device can be affected by reasons such as road surfaces and the like to generate jolt vibration when conveying the glass plate, so that the glass plate can shake or collide on a vehicle to cause scratch and quality loss. Similarly, due to jolt vibration of the transportation device, the high-precision instrument can shake, so that certain parts are shifted or damaged, and the precision of the high-precision instrument is affected.

Therefore, how to provide a transporting device capable of reducing vibration and thus reducing the shaking amplitude generated by glass plates and high-precision instruments is a technical problem to be solved.

Disclosure of utility model

One technical problem to be solved by the present disclosure is: the existing conveying device can be subjected to the influence of reasons such as road surfaces and the like to generate jolt vibration when conveying glass plates and high-precision instruments, so that the glass plates are rocked or collided on a vehicle to cause scratches and quality loss, and meanwhile, certain parts of the high-precision instruments are shifted or damaged to further influence the precision of the high-precision instruments.

To solve the above technical problems, an embodiment of the present disclosure provides a transportation device, including: the accommodating rack is provided with an accommodating space and used for storing transported products, and comprises a chassis, wherein the two edges of the bottom surface of the chassis, which are opposite in the first direction, are respectively provided with a first adjusting part, and the first adjusting parts extend along the second direction; the movable wheels comprise rollers, buffer parts and fixing parts, one end of each buffer part is rotationally connected with the rollers, the other end of each buffer part is fixedly connected with the fixing part, and the fixing parts are movably connected in the first adjusting parts and can be fixed at any position of the first adjusting parts through limiting parts; the first direction is the length or width direction of the chassis, and the second direction is perpendicular to the first direction.

In some embodiments, a plurality of second adjusting parts are arranged between the two first adjusting parts at intervals, the second adjusting parts extend along the second direction, any number of moving wheels are arranged in the second adjusting parts, and the fixing parts are movably connected in the second adjusting parts and can be fixed at any positions of the second adjusting parts through limiting parts; wherein, the second adjusting part has the same structure as the first adjusting part.

In some embodiments, the first adjustment portion includes: the sliding rail extends along the second direction, and the fixing part is in sliding connection with the sliding rail; the limiting piece includes: each group of positioning components comprises two sliding locking pieces which are respectively connected with the sliding rail in a sliding way and can be locked at two sides of the fixing part.

In some embodiments, the first adjustment portion includes: the mounting holes are arranged at intervals along the second direction; the limiting piece includes: the fixing part is detachably arranged in the corresponding mounting hole through the bolt locking piece.

In some embodiments, the housing comprises: the accommodating part is positioned at the upper side of the chassis and is provided with an accommodating space; damping single leaf spring installs between chassis and holding portion, and damping single leaf spring includes: the first connecting portion, the second connecting portion and the linking portion between the two, the first connecting portion is fixedly attached to the accommodating portion, the second connecting portion is located on the periphery of the first connecting portion and is fixedly attached to the chassis, and the first connecting portion and the second connecting portion are provided with height differences, so that a damping cavity is formed between the damping single leaf spring and the chassis.

In some embodiments, the receptacle comprises: at least two storage plates are arranged at intervals in the longitudinal direction in sequence, and a containing space is formed between every two adjacent storage plates; and the supporting pieces are respectively arranged between the adjacent object placing plates, each supporting piece comprises at least two supporting rods, each supporting rod is positioned at the edge of the object placing plate, and the height of each supporting rod is adjustable.

In some embodiments, the housing further comprises: the hand pushing part is arranged at the side part of the accommodating part.

In some embodiments, the buffer includes: the hydraulic rod is arranged between the roller and the fixed part.

In some embodiments, the buffer includes: the damper is arranged at the top of the roller, and the top end of the damper is arranged at the bottom of the fixed part; and the damping spring is sleeved outside the damper, and two ends of the damping spring are fixedly connected with the bottom of the fixing part and the top end of the roller respectively.

In some embodiments, the rollers employ vacuum tires.

Through above-mentioned technical scheme, the conveyer that this disclosure provided, including holding frame, it has the accommodation space to be used for placing the transportation article, and holding frame bottom is provided with first regulation portion, installs in the first regulation portion and removes the wheel. When the glass plate or the high-precision instrument is required to be conveyed, an operator pushes the conveying device to move after placing the glass plate or the high-precision instrument in the accommodating space in the accommodating frame, if the conveying device encounters uneven ground, the conveying device can receive impact force from the ground, at the moment, the buffer part connected with the roller can weaken the impact force from the ground on the conveying device, and the existence of the buffer part reduces the vibration amplitude of the conveying device when the conveying device runs on the road surface, so that the running stability of the conveying device is ensured. In addition, if a bad road surface condition is encountered, a plurality of moving wheels can be installed in each first adjusting portion, and since each moving wheel comprises one buffer portion, increasing the number of moving wheels is equivalent to increasing the buffer portions, thereby further increasing the buffer effect. According to the conveying device, the buffer parts are arranged on the moving wheels, the first adjusting parts are arranged at the bottoms of the accommodating frames, so that the number of the moving wheels is increased, the vibration amplitude of the conveying device in running is reduced, the vibration amplitude of the glass plate and high-precision instruments is reduced, the glass plate is prevented from being scratched and lost in quality due to the fact that the vibration amplitude of the glass plate is large on the conveying device, and meanwhile, the high-precision instruments are prevented from being shifted or damaged due to vibration, so that the precision of the high-precision instruments is influenced.

Drawings

In order to more clearly illustrate the embodiments of the present disclosure or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present disclosure, and other drawings may be obtained according to these drawings without inventive effort to a person of ordinary skill in the art.

FIG. 1 is a schematic perspective view of a transport device according to an embodiment of the present disclosure;

FIG. 2 is a schematic bottom view of a transporter disclosed in an embodiment of the present disclosure;

FIG. 3 is a schematic bottom view of another transport device according to an embodiment of the present disclosure;

FIG. 4 is a schematic side view of a transport device according to an embodiment of the present disclosure;

FIG. 5 is a schematic side view of yet another transport apparatus disclosed in an embodiment of the present disclosure;

FIG. 6 is a partial schematic structural view of a support of the transport device disclosed in an embodiment of the present disclosure;

Fig. 7 is a partial structural schematic view of a moving wheel of a transporting device according to an embodiment of the present disclosure.

Reference numerals illustrate:

1. A holding rack; 11. a hand pushing part; 12. a chassis; 13. damping single leaf spring; 131. a joint portion; 132. a first connection portion; 133. a second connecting portion; 14. an accommodating portion; 141. a storage plate; 142. a support rod; 142a, loop bar; 2. a moving wheel; 21. a roller; 22. a buffer section; 23. a fixing part; 221. a hydraulic rod; 222. a damper; 223. a damping spring; 3. sliding the locking member; 4. a bolt locking member; 5. a first adjusting part; 6. a second adjusting part; 7. a slide rail; 8. a mounting hole; 9. a bolt; 10. a clamping part; 15. an ear; A. a first direction; B. a second direction.

Detailed Description

Embodiments of the present disclosure are described in further detail below with reference to the drawings and examples. The following detailed description of the embodiments and the accompanying drawings are provided to illustrate the principles of the disclosure and not to limit the scope of the disclosure, which may be embodied in many different forms and not limited to the specific embodiments disclosed herein, but rather to include all technical solutions falling within the scope of the claims.

The present disclosure provides these embodiments in order to make the present disclosure thorough and complete, and fully convey the scope of the disclosure to those skilled in the art. It should be noted that: the relative arrangement of parts and steps, the composition of materials, numerical expressions and numerical values set forth in these embodiments should be construed as exemplary only and not limiting unless otherwise specifically stated.

In the description of the present disclosure, unless otherwise indicated, the meaning of "plurality" is greater than or equal to two; the terms "upper," "lower," "left," "right," "inner," "outer," and the like indicate an orientation or positional relationship merely for convenience of describing the present disclosure and simplifying the description, and do not indicate or imply that the devices or elements being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus are not to be construed as limiting the present disclosure. When the absolute position of the object to be described is changed, the relative positional relationship may be changed accordingly.

Furthermore, the use of the terms first, second, and the like in this disclosure do not denote any order, quantity, or importance, but rather are used to distinguish one element from another. The "vertical" is not strictly vertical but is within the allowable error range. "parallel" is not strictly parallel but is within the tolerance of the error. The word "comprising" or "comprises" and the like means that elements preceding the word encompass the elements recited after the word, and not exclude the possibility of also encompassing other elements.

It should also be noted that, in the description of the present disclosure, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the terms in the present disclosure may be understood as appropriate by those of ordinary skill in the art. When a particular device is described as being located between a first device and a second device, there may or may not be an intervening device between the particular device and either the first device or the second device.

All terms used in the present disclosure have the same meaning as understood by one of ordinary skill in the art to which the present disclosure pertains, unless specifically defined otherwise. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the relevant art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

Techniques, methods, and apparatus known to one of ordinary skill in the relevant art may not be discussed in detail, but where appropriate, the techniques, methods, and apparatus should be considered part of the specification.

When the glass product is manufactured, an operator often runs the glass plate and the high-precision instrument between different working areas of the dust-free workshop through the cart, in the transportation process, the running stability of the cart can be influenced by the road surface, if the road surface is slightly uneven, the cart can jolt to generate vibration, so that the glass plate which is easy to damage on the cart can jolt along with the vibration of the cart and even rub and collide with each other, the high-precision instrument can keep the initial state of the internal parts as much as possible in the transportation process without jolt, and when the cart jolt, the high-precision instrument can jolt along with the cart to cause displacement or damage of certain parts, thereby influencing the precision.

Therefore, in order to solve the problem that the existing conveying device can be subjected to the influence of reasons such as road surfaces and the like to generate jolt vibration when conveying glass plates and high-precision instruments, so that the glass plates shake or collide on a vehicle to cause scratches and quality loss, and meanwhile, certain parts of the high-precision instruments can be shifted or damaged to further influence the precision of the high-precision instruments. As shown in fig. 1-4, an embodiment of the present disclosure provides a transportation device, comprising: the accommodating rack 1 is provided with an accommodating space for storing the transported articles, the accommodating rack 1 comprises a chassis 12, two opposite edges of the bottom surface of the chassis 12 in a first direction A are respectively provided with a first adjusting part 5, and the first adjusting part 5 extends along a second direction B; the movable wheels 2 comprise rollers 21, buffer parts 22 and fixing parts 23, one end of each buffer part 22 is rotationally connected with the corresponding roller 21, the other end of each buffer part 22 is fixedly connected with the corresponding fixing part 23, and the fixing part 23 is movably connected in the corresponding first adjusting part 5 and can be fixed at any position of the corresponding first adjusting part 5 through a limiting piece; wherein the first direction a is the length or width direction of the chassis 12, and the second direction B is perpendicular to the first direction a.

Specifically, the accommodating frame 1 may be made of stainless steel, the accommodating frame 1 has an accommodating space for storing the transported articles, the transported articles may be, but not limited to, glass plates or high-precision apparatuses, the size of the accommodating frame 1 may be set according to the size, number, etc. of the transported articles actually required to be transported, and the specific size and shape of the accommodating frame 1 are not limited. This conveyer includes a plurality of removal wheels 2, removes wheel 2 and includes gyro wheel 21, buffer unit 22 and fixed part 23, and the one end and the gyro wheel 21 rotation of buffer unit 22 are connected, and the other end and fixed part 23 fixed connection, and here fixed connection can be the welding, and when conveyer received the impact force that comes from ground and produced vibrations or jolt, buffer unit 22 can cushion the impact force, reduces conveyer's vibration amplitude, prevents that glass board and high-precision's instrument from damaging because of rocking the range too big. In addition, in order to further increase the cushioning effect, the first adjusting portions 5 are provided at two edges opposite to each other in the first direction a on the bottom surface of the chassis 12 of the housing frame 1, and the first adjusting portions 5 may be sliding grooves extending in the second direction B, sliding rails, or connecting holes uniformly arranged at intervals in the second direction B, or the like. The length of each first adjustment part 5 extending in the second direction B is adapted to the length of the chassis 12 of the housing rack 1 in that direction; at least two moving wheels 2 are arranged in each first adjusting part 5 so as to reliably support and conveniently move the accommodating frame 1.

The movable wheels 2 are movably connected with the first adjusting part 5 through the fixing part 23, so that the number of the movable wheels 2 in the first adjusting part 5 can be increased or reduced, and the position of the movable wheels 2 in the first adjusting part 5 can be adjusted, and the position of the fixing part 23 of the movable wheels 2 in the first adjusting part 5 can be fixed through a limiting piece after adjustment, wherein the movable connection can be realized by adopting a sliding connection mode, a detachable connection mode and the like. The number of moving wheels 2 in each first adjusting portion 5 may be set according to the actual road surface condition, the number of transported articles stored in the accommodating space, and the like, for example: if the road surface is relatively flat, two moving wheels 2 can be set in each first adjusting part 5, if the road surface is uneven, more than two moving wheels 2 can be set in each first adjusting part 5 to reduce jolting vibration of the transportation device, and because each moving wheel 2 is provided with a buffer part 22, increasing the number of the moving wheels 2 is equivalent to increasing the number of the buffer parts 22, so that the transportation device can run more smoothly by increasing the damping effect, and the specific number and positions of the moving wheels 2 in each first adjusting part 5 are not limited. Specifically, the movable wheel 2 can be a fixed castor or a movable castor, and can rotate by 360 degrees; in addition, can set up locking structure on the movable wheel 2, when operating personnel loads and unloads the transportation article, in order to prevent that conveyer from removing, can lock it through locking structure, when needs transportation, will lock the structure and open and continue push-pull conveyer and transport.

According to the conveying device, the buffer parts 22 are arranged on the movable wheels 2, the first adjusting parts 5 are arranged at the bottom of the accommodating frame 1, so that the number of the movable wheels 2 is increased, the vibration amplitude of the conveying device in running is reduced, the vibration amplitude of a glass plate and high-precision instruments is reduced, the glass plate is prevented from being scratched and lost in quality due to the fact that the vibration amplitude of the conveying device is large, and meanwhile, the high-precision instruments are prevented from being shifted or damaged due to vibration, so that the precision of the high-precision instruments is influenced.

In some embodiments, as shown in fig. 2-3, a plurality of second adjusting parts 6 are arranged between two first adjusting parts 5 at intervals, the second adjusting parts 6 extend along a second direction B, any number of moving wheels 2 are arranged in the second adjusting parts 6, and a fixing part 23 is movably connected in the second adjusting parts 6 and can be fixed at any position of the second adjusting parts 6 through a limiting piece; wherein the second adjusting part 6 has the same structure as the first adjusting part 5.

Specifically, the second adjusting portions 6 are provided between the first adjusting portions 5, and the structure of the second adjusting portions 6 is the same as that of the first adjusting portions 5, and the number of the second adjusting portions 6 is not limited here. The second adjusting part 6 is internally provided with any number of movable wheels 2, and the second adjusting part 6 is added to increase the number of the movable wheels 2, so that the supporting stability is improved, the damping effect is increased, and the transportation device runs more stably. In addition, increasing the number of moving wheels 2 also reduces the pressure of each moving wheel 2 against the bottom surface, helps to protect the road surface, prevents the road surface from being dented due to excessive pressure applied to the roller 21, and helps to improve the service life of the roller 21.

In some embodiments, as shown in fig. 2, the first adjusting part 5 includes: the sliding rail 7, the sliding rail 7 extends along the second direction B, and the fixed part 23 is connected with the sliding rail 7 in a sliding way; the limiting piece includes: each positioning assembly comprises two sliding locking pieces 3, and the two sliding locking pieces 3 are respectively connected with the sliding rail 7 in a sliding manner and can be locked on two sides of the fixing part 23.

Specifically, the first adjusting portion 5 and the second adjusting portion 6 each include a sliding rail 7, the sliding rails 7 extend along the second direction B, and the fixing portion 23 is slidably connected with the sliding rails 7, so that the moving wheel 2 can be mounted at any position of the sliding rails 7, and when the moving wheel 2 is located at a designated position, the moving wheel 2 can be limited and fixed by a limiting member. The locating part includes multiunit locating component, and every group locating component includes two slip retaining members 3, and slip retaining member 3 includes slider, chucking piece, pulley and regulation pole, and the pulley setting is in slider's bottom and slidable in slide rail 7, chucking piece and regulation pole swing joint and be located the recess of slider bottom, and the regulation pole is used for adjusting chucking piece, and chucking piece can be for pulley side-to-side movement through adjusting the pole. The sliding locking pieces 3 can slide on the sliding rails 7, and when the movable wheel 2 needs to be fixed, the sliding locking pieces 3 on two sides can be locked on two sides of the fixed part 23. When the position of the movable wheel 2 is required to be adjusted again, the sliding locking pieces 3 on both sides of the fixed part 23 are loosened, and the fixed part 23 is moved again. In addition, the size and shape of the fixing portion 23 are adapted to the size and shape of the slide rail 7.

In some embodiments, as shown in fig. 3, the first adjusting part 5 includes: a plurality of mounting holes 8, the plurality of mounting holes 8 being arranged at intervals along the second direction B; the limiting piece includes: the bolt locker 4 and the fixing portion 23 are detachably mounted to the corresponding mounting hole 8 through the bolt locker 4.

Specifically, the first adjusting portion 5 and the second adjusting portion 6 each include a plurality of mounting holes 8, the plurality of mounting holes 8 are arranged at intervals along the second direction B, the intervals and the number between the mounting holes 8 can be set according to actual needs, the fixing portions 23 can be stainless steel plates, through holes corresponding to the mounting holes 8 are formed in two ends of each stainless steel plate, the fixing portions 23 are fixedly mounted in the corresponding mounting holes 8 through the bolt locking pieces 4 so as to mount the movable wheel 2 at specified positions, and when the positions of the movable wheel 2 need to be adjusted again, the positions to be mounted are selected again by the loose bolt locking pieces 4.

In some embodiments, as shown in fig. 4, the buffer 22 includes: the hydraulic rod 221 is mounted between the roller 21 and the fixed portion 23.

Specifically, the hydraulic rod 221 is installed between the roller 21 and the fixing portion 23, and the rod length and the rod diameter of the hydraulic rod 221 may be set according to actual conditions. When the transportation device jolts and vibrates, the hydraulic rod 221 converts the impact force received by the roller 21 into the reciprocating flow of the liquid at two sides of the piston, so that the impact force from the road surface is reduced, the buffer effect is achieved, the vibration amplitude of the transportation device is reduced, and the glass plate and high-precision instruments are prevented from being damaged due to shaking.

In some embodiments, as shown in fig. 7, the buffer 22 includes: a damper 222 mounted on the top of the roller 21, the top of the damper 222 being mounted on the bottom of the fixing portion 23; and a shock-absorbing spring 223 sleeved outside the damper 222, both ends of the shock-absorbing spring 223 being fixedly connected with the bottom of the fixing portion 23 and the top end of the roller 21, respectively.

Specifically, the damper 222 may be a liquid damper 222, and is mounted on the top of the roller 21, the top end of the damper 222 is mounted on the bottom of the fixed portion 23, a damping spring 223 is sleeved outside the damper 222, and two ends of the damping spring 223 are fixedly connected with the bottom of the fixed portion 23 and the top end of the roller 21 respectively. When the transportation device jolts and vibrates, the shock absorbing spring 223 weakens the impact force from the ground through compression and rebound, and the damper 222 can restrain the rebound of the shock absorbing spring 223 and play a damping role on the rebound of the shock absorbing spring 223, so that the shock absorbing spring 223 tends to be stable after rebound, even if the transportation device tends to be stable, the vibration amplitude of the transportation device caused by the unevenness of the road surface is reduced, and the damage of the glass plate and high-precision instruments caused by shaking is prevented.

In some embodiments, as shown in FIG. 1, the roller 21 employs a vacuum tire.

Specifically, the roller 21 adopts a vacuum tire, and the vacuum tire utilizes the negative pressure effect of vacuum to form a vacuum layer between the vacuum tire and the ground, thereby achieving the damping effect. The diameter of the vacuum tire may be appropriately increased according to the weight of the transported article, and the diameter of the vacuum tire is not limited here.

In some embodiments, as shown in fig. 5, the housing rack 1 includes: the chassis 12 and the accommodating part 14, the accommodating part 14 is positioned on the upper side of the chassis 12 and is provided with an accommodating space; the damping single leaf spring 13 is installed between the chassis 12 and the accommodating portion 14, and the damping single leaf spring 13 includes: the first connecting part 132, the second connecting part 133 and the connecting part 131 between the first connecting part 132 and the second connecting part 133 are fixedly attached to the accommodating part 14, the second connecting part 133 is positioned on the periphery of the first connecting part 132 and is fixedly attached to the chassis 12, and a height difference is formed between the first connecting part 132 and the second connecting part 133, so that a damping cavity is formed between the damping single leaf spring 13 and the chassis 12.

Specifically, a damper single leaf spring 13 is provided between the chassis 12 and the accommodating portion 14, and the damper single leaf spring 13 includes: the first connecting portion 132, the second connecting portion 133 and the engagement portion 131 therebetween. The joint 131 has a certain inclination angle, and contributes to buffering, and the specific inclination angle is not set here, but can be set according to the weight of an actual transported product and the condition of the road surface. The size of the first connecting portion 132 is matched with the bottom size of the accommodating portion 14 and is adhered to the accommodating portion, the fixing mode can be selected to be welded and fixed or fixed by bolts, the second connecting portion 133 is located on the periphery of the first connecting portion 132 and is fixed and adhered to the chassis 12, the fixing mode can be selected to be welded and fixed or fixed by bolts, a damping cavity is formed between the damping single leaf spring 13 and the chassis 12, and the damping cavity and the damping single leaf spring 13 have elasticity so that the damping single leaf spring 13 can better share and absorb impact force from a road surface. The difference in height between the first and second connection portions 132 and 133 should be determined according to actual conditions, and a specific difference in height between the first and second connection portions 132 and 133 is not limited herein. The impact force from the road surface received by the transportation device is buffered for the first time at the buffer part 22, the buffering can enable the transportation device to run more stably, the damping single leaf spring 13 buffers the impact force from the road surface for the second time, the buffering not only is beneficial to the stable running of the transportation device, but also reduces the vibration amplitude of the accommodating frame 1, so that the vibration amplitude of the glass plate and the high-precision instrument in the accommodating frame 1 is also reduced, and the damage of the glass plate and the high-precision instrument due to vibration is prevented.

In some embodiments, as shown in fig. 5 and 6, the receiving portion 14 includes: at least two storage plates 141, which are longitudinally and sequentially arranged at intervals, and a storage space is formed between adjacent storage plates 141; and a plurality of groups of supporting members respectively arranged between the adjacent object placing plates 141, wherein each group of supporting members respectively comprises at least two supporting rods 142, the supporting rods 142 are positioned at the edge of the object placing plate 141, and the height of each supporting rod 142 is adjustable.

Specifically, the accommodating portion 14 includes at least two accommodating plates 141, the number, shape and size of the accommodating plates 141 can be set according to the glass plates actually transported and the high-precision apparatuses, the shape of the accommodating plates 141 can be set to be rectangular plates, square plates or other shapes, the accommodating plates 141 are sequentially arranged at intervals along the longitudinal direction, and accommodating spaces are formed between adjacent accommodating plates 141. In addition, in order to prevent the glass plate from sliding on the object placing plate 141, a plurality of anti-slip pads may be arranged on the surface of the object placing plate 141 at intervals, and the anti-slip pads may be made of carbon fiber, and the size, number and position of the anti-slip pads are not specifically limited, and may be set according to actual needs. In order to further stabilize the transported article against sliding or shaking, elastic binding bands may be disposed on two sides of each storage plate 141, so as to fix the transported article, and when transported, the binding bands on two sides of the storage plates 141 may be connected to each other by means of a buckle.

The accommodating portion 14 further includes a plurality of groups of supporting members respectively disposed between the adjacent storage boards 141, each group of supporting members includes at least two supporting rods 142, the length and the diameter of the supporting rods 142 are set according to the weight of the transported article, the supporting rods 142 are located at the edges of the storage boards 141, and the height of each supporting rod 142 is adjustable. Each support bar 142 includes a plurality of loop bars 142a, and the loop bars 142a are movably sleeved and fixed to each other by fixing members, wherein the fixing members include: the positioning holes are arranged on the side wall of the loop bar 142a at intervals and are sequentially distributed along the length direction of the loop bar 142a; and a plurality of positioning pins inserted into the corresponding and communicated positioning holes of the two adjacent loop bars 142a to fix the two adjacent loop bars 142a. When the height of the support rod 142 needs to be increased, one sleeve rod 142a of the support rod 142 to be adjusted is pulled upwards, and when the support rod is pulled to a designated position, a positioning pin is inserted into a corresponding and communicated positioning hole of the two adjacent sleeve rods 142a to fix the two adjacent sleeve rods 142a; when the height of the support rod 142 needs to be adjusted down, one of the loop bars 142a of the support rod 142 to be adjusted is pressed down to a designated position, and when the support rod is pressed to the designated position, the positioning pins are inserted into the corresponding and communicated positioning holes of the two adjacent loop bars 142a to fix the two adjacent loop bars 142a. The distance between the adjacent two storage plates 141 can be adjusted by adjusting the height of the support bar 142 to adjust the size of the receiving space.

In addition, the height of the supporting rod 142 can be adjusted by arranging two clamping portions 10 between two adjacent loop bars 142a, the two adjacent loop bars 142a are fixedly connected through the two clamping portions 10, two ends of each clamping portion 10 are provided with an ear portion 15, the ear portions 15 are provided with through holes which are sequentially arranged along the length direction of the ear portions, the through holes are used for inserting bolts 9, connecting portions are arranged between the ear portions 15, and the connecting portions are attached to the loop bars 142 a. When the height of the support rod 142 needs to be adjusted, loosening the bolts 9, pulling the two adjacent sleeve rods 142a apart to increase the distance between the two end parts of the two adjacent sleeve rods 142a, and screwing the bolts 9 after adjusting the height; when the height of the support rod 142 needs to be adjusted down, the bolts 9 are loosened, the distance between the end parts of the two adjacent sleeve rods 142a is reduced, and then the bolts 9 are screwed down.

In some embodiments, as shown in fig. 1, the housing rack 1 further includes: the hand pushing part 11 is arranged at the side part of the accommodating part 14.

Specifically, the hand pushing portion 11 may be configured in a U shape or other shapes, the hand pushing portion 11 may be fixed on any side portion of the accommodating portion 14 according to needs, or one hand pushing portion 11 may be respectively disposed on two opposite side edges of the accommodating portion 14, and the number, the size and the position of the hand pushing portions may be set according to the operation habits of operators, which is not limited herein specifically.

Thus, various embodiments of the present disclosure have been described in detail. In order to avoid obscuring the concepts of the present disclosure, some details known in the art are not described. How to implement the solutions disclosed herein will be fully apparent to those skilled in the art from the above description.

Although some specific embodiments of the present disclosure have been described in detail by way of example, it should be understood by those skilled in the art that the above examples are for illustration only and are not intended to limit the scope of the present disclosure. It will be understood by those skilled in the art that the foregoing embodiments may be modified and equivalents substituted for elements thereof without departing from the scope and spirit of the disclosure. In particular, the technical features mentioned in the respective embodiments may be combined in any manner as long as there is no structural conflict.

Claims (10)

1. A transportation device, comprising:

the storage rack (1) is provided with a storage space and is used for storing transported products, the storage rack (1) comprises a chassis (12), two opposite edges of the bottom surface of the chassis (12) in a first direction (A) are respectively provided with a first adjusting part (5), and the first adjusting parts (5) extend along a second direction (B); and

The device comprises a plurality of moving wheels (2), wherein at least two moving wheels (2) are arranged in each first adjusting part (5), each moving wheel (2) comprises a roller (21), a buffer part (22) and a fixing part (23), one end of each buffer part (22) is rotationally connected with each roller (21), the other end of each buffer part (22) is fixedly connected with each fixing part (23), and each fixing part (23) is movably connected in each first adjusting part (5) and can be fixed at any position of each first adjusting part (5) through a limiting piece;

Wherein the first direction (A) is a length or width direction of the chassis (12), and the second direction (B) is perpendicular to the first direction (A).

2. The transport device of claim 1, wherein the transport device comprises a frame,

A plurality of second adjusting parts (6) are arranged between the two first adjusting parts (5) at intervals, the second adjusting parts (6) extend along the second direction (B), any number of moving wheels (2) are arranged in the second adjusting parts (6), and the fixing parts (23) are movably connected in the second adjusting parts (6) and can be fixed at any positions of the second adjusting parts (6) through limiting pieces;

Wherein the second adjusting part (6) has the same structure as the first adjusting part (5).

3. The transport device according to claim 1 or 2, wherein,

The first adjusting part (5) comprises: a slide rail (7), wherein the slide rail (7) extends along the second direction (B), and the fixing part (23) is in sliding connection with the slide rail (7);

The limiting piece includes: the positioning assembly comprises two sliding locking pieces (3), wherein the two sliding locking pieces (3) are respectively connected with the sliding rail (7) in a sliding manner and can be locked on two sides of the fixing part (23).

4. The transport device according to claim 1 or 2, wherein,

The first adjusting part (5) comprises: a plurality of mounting holes (8), the plurality of mounting holes (8) being arranged at intervals along the second direction (B);

The limiting piece includes: the fixing part (23) is detachably arranged in the corresponding mounting hole (8) through the bolt locking piece (4).

5. The transport device according to claim 1, characterized in that the housing frame (1) comprises:

The chassis (12) and the accommodating part (14), wherein the accommodating part (14) is positioned on the upper side of the chassis (12) and is provided with the accommodating space; and

A shock absorbing single leaf spring (13) mounted between the chassis (12) and the receiving portion (14), the shock absorbing single leaf spring (13) comprising: the shock-absorbing single leaf spring comprises a first connecting portion (132), a second connecting portion (133) and a connecting portion (131) between the first connecting portion (132) and the second connecting portion (133), wherein the first connecting portion (132) is fixedly attached to the accommodating portion (14), the second connecting portion (133) is located on the periphery of the first connecting portion (132) and fixedly attached to the chassis (12), and a height difference is formed between the first connecting portion (132) and the second connecting portion (133), so that a shock-absorbing cavity is formed between the shock-absorbing single leaf spring (13) and the chassis (12).

6. The transport device according to claim 5, wherein the receiving portion (14) comprises:

At least two storage plates (141) are arranged at intervals in the longitudinal direction in sequence, and the storage space is formed between the adjacent storage plates (141); and

The support members are respectively arranged between the adjacent storage plates (141), each group of support members respectively comprises at least two support rods (142), each support rod (142) is positioned at the edge of each storage plate (141), and the height of each support rod (142) is adjustable.

7. The transport device according to claim 5, characterized in that the housing frame (1) further comprises:

and a hand pushing part (11) arranged at the side part of the accommodating part (14).

8. The transport device according to claim 1, wherein the buffer (22) comprises:

And a hydraulic rod (221) mounted between the roller (21) and the fixing portion (23).

9. The transport device according to claim 1, wherein the buffer (22) comprises:

A damper (222) mounted on the top of the roller (21), the top end of the damper (222) being mounted on the bottom of the fixed portion (23); and

The damping spring (223) is sleeved outside the damper (222), and two ends of the damping spring (223) are fixedly connected with the bottom of the fixing part (23) and the top end of the roller (21) respectively.

10. The transport device of claim 1, wherein the transport device comprises a frame,

The roller (21) adopts a vacuum tire.