CN219487463U - Movable glass commodity shelf for glass production and transportation - Google Patents

Abstract

The utility model discloses a movable glass storage rack for glass production and transportation, which comprises a rack body and a chassis, wherein the chassis is arranged below the rack body in an up-and-down adjustable manner through a hydraulic component, and the bottom of the chassis is provided with a wheel set for the chassis to move; the support body is including supporting back of body and base, is formed with the holding district that is used for placing glass between supporting back of body and the base, and the upper portion of base is the slope structure, and the lower part of base is located to the chassis and passes through spacing movable part swing joint with the lower part bottom surface of base, supports back of body and locates on the base and with ground horizontal plane mutually perpendicular, supports the contained angle between the upper portion top surface of back of body and base and is less than 90 degrees. The utility model can adapt to the use requirements of factory building production lines with different floors and heights, is convenient for placing, storing and transporting the glass after the processing is finished, effectively reduces the crushing risk caused by vibration and extrusion in the placing and transporting processes of the glass, and has convenient operation and use and reasonable overall structure arrangement.

Description

Movable glass commodity shelf for glass production and transportation

Technical Field

The utility model relates to the technical field of glass placing equipment, in particular to a movable glass storage rack for glass production and transportation.

Background

Glass products are generally called daily necessities and industrial necessities which are processed by using glass as a main raw material, the glass is a relatively transparent solid substance, a continuous network structure is formed when the glass is melted, and the viscosity of the glass products is gradually increased and hardened without crystallizing silicate nonmetallic materials in the cooling process, so that the glass products need special protection in the transportation process, and can be completely stored in the process. In the glass production field, glass is cut and is carried to the supporter and temporarily stored after finishing, in order to reduce the occupation of horizontal space and thereby can place the glass of more polylith, all adopt the mode of slope to put glass on the supporter generally, nevertheless because the supporter is mostly horizontal structure, take place glass slippage broken risk easily when glass is placed and transported.

In addition, as the glass production line is in a continuous working state, the cut glass is required to be placed on a commodity shelf, and the glass on the commodity shelf is transported to a warehouse for storage and delivery after stacking; at present, the glass on the production line is transported in a cart or forklift, however, the two modes have the following problems: 1. after glass is cut on a production line, the glass is placed on a trolley storage rack, and the trolley can greatly facilitate the transportation of the glass, but the trolley is easy to misplace and move when the glass is placed, so that the difficulty of placing the glass is increased, and in addition, the trolley is required to be limited, so that the production efficiency is influenced; 2. the cut glass is placed on the fixed storage rack, the fixed storage rack is convenient for placing the glass, but after the glass is placed, a fork truck is required to fork the storage rack and then transport the glass, the requirements on the overall structure of the storage rack are high, the glass is easy to squeeze and shake to crush in the fork-up and fork-down processes, and meanwhile, the requirements on the operation level of workers are high; 3. the glass placing and transporting in the two modes are mostly limited to the factory building with the production line arranged at the first floor, and the production line of the second floor and other high-rise factory buildings has the limitation of inconvenient transportation and storage, so that the requirements of different production lines are difficult to meet.

Disclosure of Invention

The application provides a portable glass supporter for glass production transportation can adapt to different floors and the user demand of high factory building production line, and convenient processing is accomplished back glass place the storage and the transportation, effectively reduces glass and places and because vibrations and the broken risk that the extrusion takes place in the transportation, operation convenient to use, overall structure sets up rationally.

The technical scheme of the application is as follows:

the movable glass storage rack for glass production and transportation comprises a rack body and a chassis, wherein the chassis is arranged below the rack body in an up-and-down adjustable manner through a hydraulic component, and a wheel set for chassis movement is arranged at the bottom of the chassis; the frame body comprises a support back and a base, a containing area for placing glass is formed between the support back and the base, the upper part of the base is of an inclined structure, the chassis is arranged on the lower part of the base and is movably connected with the bottom surface of the lower part of the base through a limiting movable part, the support back is arranged on the base and is mutually perpendicular to the ground horizontal plane, and an included angle between the support back and the top surface of the upper part of the base is smaller than 90 degrees; the support back is provided with a connecting plate, the chassis is fixedly provided with a hydraulic part, and the upper end of the hydraulic part is fixedly connected with the connecting plate; when the glass is placed, the glass is placed on the base and is abutted against the support back, and after the glass is placed, the hydraulic component works to drive the frame body and the chassis to lift upwards, so that the wheel set contacts with the storage rack to support and move.

In the scheme of the utility model, the upper part is combined with the base with the inclined structure and the support back to enable the base of the commodity shelf to form a certain angle with the ground level, so that the contact area between the bottom surface of the glass and the base is increased when the glass is placed, and the stability of the glass in the placing and transporting processes is improved; the hydraulic assembly can realize lifting effect on the frame body after glass is placed, the chassis and the wheel set are utilized to realize integral transportation of the storage frame, a traditional forklift fork transportation mode is abandoned, meanwhile, transportation of glass is facilitated, and transportation efficiency is improved.

Further, the base comprises a cross rod, front supporting legs and rear supporting legs, wherein the front supporting legs and the rear supporting legs are respectively arranged at two ends of the cross rod, and the height of the front supporting legs is larger than that of the rear supporting legs.

In the scheme of the utility model, the front supporting leg and the rear supporting leg play a supporting role on the base, so that the whole movement of the storage rack is prevented when the glass is placed, the stability of the glass is improved when the glass is placed, and the upper part of the base is of an inclined structure, so that the storage rack is ensured to be horizontally stable when the storage rack is placed on the ground through the height of the front supporting leg being larger than that of the rear supporting leg.

Further, the support backpack comprises vertical rods and connecting rods A, wherein the vertical rods on two sides are respectively arranged on the transverse rods on two sides, and the connecting rods A are connected with the vertical rods on two sides. In the scheme of the utility model, the vertical rods play a role in supporting glass, and the connecting rods A are connected with the vertical rods at two sides, so that the overall structural stability of the support back is improved.

As optimization, a connecting rod B is arranged between the cross rods, the connecting rod B is connected with the cross rods on two sides, and the limiting movable piece is correspondingly arranged below the connecting rod B and the cross rods; the limiting movable piece comprises a limiting seat and a movable block matched with the limiting seat, the limiting seat is fixedly arranged on the chassis, and the movable block is fixedly arranged on the cross rod or the connecting rod B.

In the scheme of the utility model, the cross rod plays a supporting role on the bottom of the placed glass, the connecting rod B is used for connecting the cross rod, the limiting seat plays a limiting role on the movable block, so that the movable block can be movably adjusted up and down in the limiting seat, in addition, the cooperation of the limiting seat and the movable block is convenient for the lifting of the base and the movement of the chassis by the hydraulic component, and the whole structure is reasonable.

As optimization, the inclined rods which are obliquely arranged are fixedly arranged between the vertical rods and the transverse rods, and the areas formed between the inclined rods, the vertical rods and the transverse rods are triangular.

In the scheme of the utility model, the inclined rod is used for connecting the cross rod and the vertical rod and plays a supporting role on the vertical rod, and the triangular structure ensures that the connection among the inclined rod, the cross rod and the vertical rod is more stable, so that the commodity shelf can bear more glass weight and is not easy to deform.

As optimization, one side of the vertical rod and one side of the horizontal rod are provided with soft cushions. In the scheme of the utility model, the soft cushion plays a role in buffering and damping the glass, so that the risk of breakage of the glass in the processes of placing, transporting and moving is effectively prevented.

Further, an installation seat is arranged on the chassis, a through hole corresponding to the installation seat is formed in the connecting plate, and a driving rod acting on the hydraulic part penetrates through the through hole and is arranged on the installation seat. In the scheme of the utility model, the mounting seat and the through hole facilitate the placement and the taking of the driving rod, are convenient for a user to operate and use, and effectively reduce the occupation of space.

Preferably, the frame body and the chassis are made of iron materials. In the scheme of the utility model, the frame body and the chassis made of the iron material can effectively improve the overall strength, reduce the deformation risk of the frame body and the chassis and prolong the service life of the glass storage frame.

Drawings

FIG. 1 is a front perspective view of the present application;

FIG. 2 is a rear perspective view of the present application;

FIG. 3 is a side view of the present application;

FIG. 4 is a schematic view of the structure of the frame of the present application;

fig. 5 is a schematic structural view of the chassis and hydraulic assembly of the present application.

The marks in the drawings are: 1-frame body, 101-supporting back, 1011-vertical rod, 1012-connecting rod A, 102-base, 1021-cross rod, 1022-front supporting leg, 1023-rear supporting leg, 1024-connecting rod B, 103-connecting plate, 1031-through hole and 104-diagonal rod; 2-chassis, 201-wheelset, 202-mount pad; 3-hydraulic components, 301-limiting movable parts, 3011-limiting seats, 3012-movable blocks, 302-hydraulic parts and 303-driving rods; 4-a receiving area; 5-soft cushion.

Detailed Description

The present application is further illustrated in the following figures and examples, which are not intended to be limiting.

Examples (see fig. 1-5):

the movable glass storage rack for glass production and transportation comprises a rack body 1 and a chassis 2, wherein the chassis 2 is arranged below the rack body 1 in an up-down adjustable manner through a hydraulic component 3, and a wheel set 201 for moving the chassis 2 is arranged at the bottom of the chassis 2; the frame body 1 comprises a support back 101 and a base 102, a containing area 4 for placing glass is formed between the support back 101 and the base 102, the upper part of the base 102 is of an inclined structure, the chassis 2 is arranged at the lower part of the base 102 and is movably connected with the bottom surface of the lower part of the base 102 through a limiting movable piece 301, the support back 101 is arranged on the base 102 and is mutually perpendicular to the ground horizontal plane, and an included angle between the support back 101 and the top surface of the upper part of the base 102 is smaller than 90 degrees; wherein, the support back 101 is provided with a connecting plate 103, the chassis 2 is fixedly provided with a hydraulic part 302, and the upper end of the hydraulic part 302 is fixedly connected with the connecting plate 103; when the glass is placed, the glass is placed on the base 102 and is abutted against the support back 101, and after the glass is placed, the hydraulic component 3 works to drive the frame body 1 and the chassis 2 to lift upwards, so that the wheel set 201 supports and moves the frame in a contact manner.

The frame body 1 and the chassis 2 are made of iron materials, the frame body 1 and the chassis 2 made of the iron materials can effectively improve the integral strength, reduce the deformation risk of the frame body 1 and the chassis 2, prolong the service life of the glass storage rack, enable the base 102 of the rack to be in a certain angle with the ground level by combining the base 102 with the support back 101, enable the contact area between the bottom surface of glass and the base 102 to be increased when the glass is placed, and improve the stability of the glass in the placing and transporting processes; the lifting effect to support body 1 after completion can be realized to hydraulic pressure subassembly 3, utilizes chassis 2 and wheelset 201 to realize the holistic transportation of supporter, abandons traditional fork truck fork fortune mode simultaneously, makes things convenient for glass's transportation, improves conveying efficiency.

In a specific embodiment, the base 102 includes a cross bar 1021, a front support leg 1022 and a rear support leg 1023, the front support leg 1022 and the rear support leg 1023 being disposed at opposite ends of the cross bar 1021, respectively, the front support leg 1022 being greater in height than the rear support leg 1023.

Front support leg 1022 and back support leg 1023 play the supporting role to base 102, prevent that the supporter from wholly removing when glass is placed, improve the stability when glass is placed, because the upper portion of base 102 is the slope structure, make the supporter guarantee the level of bottom stable when placing in ground through the height of front support leg 1022 is greater than back support leg 1023.

In a specific embodiment, the support back 101 includes a vertical rod 1011 and a connecting rod a1012, the vertical rods 1011 on two sides are respectively disposed on the cross rods 1021 on two sides, the connecting rod a1012 is connected to the vertical rods 1011 on two sides, the vertical rods 1011 play a role in supporting glass, and the connecting rod a1012 is connected to the vertical rods 1011 on two sides, so that the overall structural stability of the support back 101 is improved.

In a specific embodiment, a connecting rod B1024 is arranged between the cross rods 1021, the connecting rod B1024 is connected with the cross rods 1021 on two sides, and the limiting movable piece 301 is correspondingly arranged below the connecting rod B1024 and the cross rods 1021; the limiting movable part 301 comprises a limiting base 3011 and a movable block 3012 matched with the limiting base 3011, the limiting base 3011 is fixedly arranged on the chassis 2, and the movable block 3012 is fixedly arranged on the cross rod 1021 or the connecting rod B1024.

The horizontal pole 1021 plays the supporting role to the glass bottom of placing, and connecting rod B1024 is used for connecting horizontal pole 1021, and spacing seat 3011 plays spacing effect to movable block 3012, makes movable block 3012 at spacing seat 3011 inside activity regulation from top to bottom, and the cooperation of spacing seat 3011 and movable block 3012 makes things convenient for the hydraulic assembly 3 to the lifting of base 102 and the removal of chassis 2 in addition, and overall structure sets up rationally.

In a specific embodiment, an inclined rod 104 is fixedly arranged between the vertical rod 1011 and the horizontal rod 1021, and the area formed among the inclined rod 104, the vertical rod 1011 and the horizontal rod 1021 is triangular.

The diagonal rods 104 are used for connecting the transverse rods 1021 and the vertical rods 1011, and play a supporting role on the vertical rods 1011, and the triangular structure enables the connection among the diagonal rods 104, the transverse rods 1021 and the vertical rods 1011 to be more stable, so that the rack can bear more glass weight and is not easy to deform.

In the specific embodiment, one side of the vertical bar 1011 and the horizontal bar 1021 is provided with a cushion 5. Therefore, the soft cushion 5 plays a role in buffering and damping the glass, and effectively prevents the glass from breaking risk in the process of placing, transporting and moving.

In a specific embodiment, the chassis 2 is provided with a mounting seat 202, the connecting plate 103 is provided with a through hole 1031 corresponding to the mounting seat 202, and the driving rod 303 acting on the hydraulic component 302 passes through the through hole 1031 and is placed on the mounting seat 202. The mounting seat 202 and the through hole 1031 facilitate the placement and the taking of the driving rod 303, are convenient for a user to operate and use, and effectively reduce the occupation of space.

The embodiment is used for the portable glass supporter of glass production transportation, can adapt to different floors and the user demand of high factory building production line, and convenient processing is accomplished back glass place the storage and the transportation, effectively reduces glass and places and because vibrations and the crushing risk that the extrusion takes place in the transportation, operation convenient to use, overall structure sets up rationally.

The above general description of the utility model and the description of specific embodiments thereof referred to in this application should not be construed as limiting the scope of the utility model. Those skilled in the art can add, subtract or combine the features disclosed in the foregoing general description and/or the detailed description (including examples) to form other technical solutions within the scope of the present application without departing from the disclosure of the present application.

Claims (8)

1. A portable glass supporter for glass production transportation, its characterized in that: the hydraulic lifting device comprises a frame body (1) and a chassis (2), wherein the chassis (2) is arranged below the frame body (1) in an up-down adjustable manner through a hydraulic component (3), and a wheel set (201) for moving the chassis (2) is arranged at the bottom of the chassis (2); the frame body (1) comprises a support back (101) and a base (102), a containing area (4) for placing glass is formed between the support back (101) and the base (102), the upper portion of the base (102) is of an inclined structure, the chassis (2) is arranged at the lower portion of the base (102) and is movably connected with the lower bottom surface of the base (102) through a limiting movable piece (301), the support back (101) is arranged on the base (102) and is mutually perpendicular to the ground level, and an included angle between the support back (101) and the upper top surface of the base (102) is smaller than 90 degrees; the support back (101) is provided with a connecting plate (103), the chassis (2) is fixedly provided with a hydraulic part (302), and the upper end of the hydraulic part (302) is fixedly connected with the connecting plate (103); when the glass is placed, the glass is placed on the base (102) and is abutted against the support back (101), and after the glass is placed, the hydraulic component (3) works to drive the frame body (1) and the chassis (2) to lift upwards, so that the wheel set (201) supports and moves the storage frame in a contact manner.

2. The movable glass commodity shelf for glass production and transportation according to claim 1, wherein: the base (102) comprises a cross rod (1021), front supporting legs (1022) and rear supporting legs (1023), wherein the front supporting legs (1022) and the rear supporting legs (1023) are respectively arranged at two ends of the cross rod (1021), and the height of the front supporting legs (1022) is larger than that of the rear supporting legs (1023).

3. The movable glass commodity shelf for glass production and transportation according to claim 2, wherein: the support back (101) comprises vertical rods (1011) and connecting rods A (1012), wherein the vertical rods (1011) on two sides are respectively arranged on transverse rods (1021) on two sides, and the connecting rods A (1012) are connected with the vertical rods (1011) on two sides.

4. The movable glass commodity shelf for glass production and transportation according to claim 2, wherein: a connecting rod B (1024) is arranged between the cross rods (1021), the connecting rod B (1024) is connected with the cross rods (1021) at two sides, and the limiting movable piece (301) is correspondingly arranged below the connecting rod B (1024) and the cross rods (1021); the limiting movable piece (301) comprises a limiting seat (3011) and a movable block (3012) matched with the limiting seat (3011), the limiting seat (3011) is fixedly arranged on the chassis (2), and the movable block (3012) is fixedly arranged on the cross rod (1021) or the connecting rod B (1024).

5. A removable glass commodity shelf for use in glass production and transportation according to claim 3, wherein: an inclined rod (104) which is obliquely arranged is fixedly arranged between the vertical rod (1011) and the transverse rod (1021), and a region formed between the inclined rod (104), the vertical rod (1011) and the transverse rod (1021) is triangular.

6. A removable glass commodity shelf for use in glass production and transportation according to claim 3, wherein: one side of the vertical rod (1011) and one side of the transverse rod (1021) are provided with soft cushions (5).

7. The movable glass commodity shelf for glass production and transportation according to claim 1, wherein: the chassis (2) is provided with a mounting seat (202), the connecting plate (103) is provided with a through hole (1031) corresponding to the mounting seat (202), and a driving rod (303) acting on the hydraulic part (302) passes through the through hole (1031) to be arranged on the mounting seat (202).

8. The movable glass commodity shelf for glass production and transportation according to claim 1, wherein: the frame body (1) and the chassis (2) are both made of iron materials.