CN115947117B - Workshop transportation equipment for arc glass processing - Google Patents

Abstract

The invention discloses workshop transportation equipment for arc glass processing, which belongs to the technical field of transportation equipment and comprises a frame, a bearing mechanism and a moving mechanism, wherein the frame is used for driving transportation objects to be transferred, the bearing mechanism is arranged in the frame, the bearing mechanism after being arranged is kept in a vertical state, the bearing mechanism is combined by a plurality of bearing brackets and is used for loading arc glass, and the moving mechanism is arranged on the frame. The arc glass is placed on the two support rods, the side surfaces of the placed arc glass push the two support rods to rotate inwards, and as the rocker is connected with the bottom end of the rocker through the first connecting rod and the second connecting rod and the bottom end of the rocker, any one support rod pushes the rocker to deflect inwards in the process of rotating inwards, the other support rod is driven by the first connecting rod or the second connecting rod to rotate inwards by the same angle, and therefore centering placement of the arc glass is facilitated.

Description

Workshop transportation equipment for arc glass processing

Technical Field

The invention relates to the field of transportation equipment, in particular to workshop transportation equipment for arc-shaped glass processing.

Background

Glass is an amorphous inorganic nonmetallic material, which is generally prepared by taking various inorganic minerals (such as quartz sand, borax, boric acid, barite, barium carbonate, limestone, feldspar, sodium carbonate and the like) as main raw materials and adding a small amount of auxiliary raw materials, wherein the main components of the glass are silicon dioxide and other oxides, the chemical components of common glass are Na2SiO3, caSiO3, siO2 or Na2O.CaO.6SiO2 and the like, the main components of the glass are silicate double salts, and the glass is an amorphous solid with a random structure, is widely applied to buildings, is used for isolating wind and transmitting light, belongs to a mixture, is colored glass which is mixed with oxides or salts of certain metals to develop color, is toughened glass prepared by a physical or chemical method, and the like, and transparent plastics (such as polymethyl methacrylate) are sometimes called organic glass.

In the prior art, when cambered glass is transported, the cambered glass is inconvenient to stack, and the stacked cambered glass is easy to break due to uneven stress.

Disclosure of Invention

In order to solve the technical problems, the invention provides workshop transportation equipment for arc glass processing, which comprises a frame, a bearing mechanism and a moving mechanism, wherein the frame is used for driving transportation objects to be transferred, the bearing mechanism is arranged in the frame, the bearing mechanism after being arranged is kept in a vertical state, the bearing mechanism is composed of a plurality of bearing brackets and is used for loading arc glass, and the moving mechanism is arranged on the frame.

Further, the frame comprises two mutually parallel side plates and a cross bar, and the two side plates are fixed on the cross bar.

Further, the bayonet socket has been seted up on the top of curb plate, bearing mechanism includes riser, cylinder, stock, body of rod and support bracket, the riser is equipped with two to be parallel to each other, the equal fixed mounting in top of two risers has the cylinder that the coaxial line distributes, be equipped with the decurrent cell body of opening on the cylinder, the cylinder is placed in the bayonet socket, the cylinder rotates around the axis in the bayonet socket, two connect through the stock between the cylinder, the axis of stock and the axis coincidence of cylinder, two the inboard of riser all is equipped with a plurality of body of rod, installs the support bracket between two corresponding bodies of rod on two risers.

Further, the support bracket comprises a rocker II, the middle part of the rocker II is rotatably arranged on the rod body, a rocker I and a rocker III are respectively arranged on two sides of the rocker II, two ends of the rocker II are respectively connected with the bottom end of the rocker I and the bottom end of the rocker III through a connecting rod I and a connecting rod II, support rods are respectively arranged between the top ends of the corresponding two rockers I and between the top ends of the corresponding two rockers III, the support surface of the support rods is a plane, and a sponge layer is coated on the outer side of the support rods.

Further, two shaft holes are symmetrically distributed on the bottom side of the side plate, the moving mechanism comprises a shaft rod and a roller, the end part of the shaft rod is sleeved with a bearing and is installed in the shaft hole in a matched mode, the roller is arranged at the other end of the shaft rod, and the installed roller and the shaft rod synchronously rotate.

Further, the deep groove has been seted up on the lateral surface of curb plate, install the lid on the opening of deep groove, be fixed with the stopper on the bottom surface of deep groove, the sliding block is installed to the cooperation on the stopper, be equipped with the push rod on the sliding block, the push rod rotates to be installed on the round pin pole that deep groove bottom surface was equipped with, the one end of push rod stretches into in the cell body of cylinder, and pivoted cylinder passes through the push rod and drives the sliding block skew, the swinging member is installed in the cooperation of one side of sliding block, the friction arm is installed to the end of swinging member, the inboard of friction arm is equipped with the reducing gear, the reducing gear is fixed cup joints on the axostylus axostyle, and the swinging member promotes the friction arm and pastes tight reducing gear.

Further, the middle part of sliding block has seted up the bar groove, the stopper is the cuboid, the lateral surface of bar groove along the stopper slides, the limit groove has been seted up to one side that the sliding block is close to the push rod, the other end of push rod is located the limit groove.

Further, one side that the sliding block is close to the swinging member is equipped with the convex surface, the main part of swinging member is the arc piece, the arc piece rotates and installs on another round pin pole of deep groove bottom surface, the middle part of an arc piece side is the concave surface, the concave surface cooperatees with the convex surface, the both sides of concave surface are the arch, the arc piece extends to both sides has the extension arm, the tip of extension arm is the arc end.

Further, one end of the friction arm is rotatably arranged in the deep groove, and the other end of the friction arm is connected with the side wall of the friction arm deep groove through a spring.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the arc glass is placed on the two support rods, the side surfaces of the placed arc glass push the two support rods to rotate inwards, and as the rocker is connected with the bottom end of the rocker I and the bottom end of the rocker III through the connecting rod I and the connecting rod II, in the process that any one support rod rotates inwards, the connecting rod I or the connecting rod II pushes the rocker II to deflect, so that the other support rod rotates inwards by the same angle under the driving of the connecting rod I or the connecting rod II, and centering of the arc glass is facilitated.

2. The frame provided by the invention has a U-shaped structure, is large in opening, is convenient for placing the bearing mechanism, is formed by welding the side plates and the cross bars, and is simple in structure and convenient for processing.

3. In the invention, if the transportation equipment needs to move on a downhill surface, the two shaft rods of one side plate are sleeved with the speed reducing discs, and the bearing mechanism rotates around the axis of the cylinder under the action of gravity and keeps a vertical state, so that the opening direction of the groove body of the cylinder and the angle between the side plates are changed relative to the rotation of the frame bearing mechanism, thereby driving the push rod to rotate, realizing the movement of the sliding block to one side, realizing the rotation of the swinging member by extruding the bulge of the swinging member through the convex surface of the sliding block, and pushing one friction arm to cling to the speed reducing disc to realize the speed reduction.

Drawings

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

FIG. 2 is a schematic view of a supporting mechanism according to the present invention;

FIG. 3 is a schematic view of the structure of the support bracket of the present invention;

FIG. 4 is a schematic diagram of a frame structure of the present invention;

FIG. 5 is a schematic view of the engaging structure of the frame and the reduction mechanism of the present invention;

FIG. 6 is an enlarged schematic view of the structure of the present invention shown in FIG. 5;

FIG. 7 is a schematic diagram showing the cooperation structure of the slider and the swinging member according to the present invention;

fig. 8 is a schematic diagram of the structure of the oscillating member of the present invention.

In the figure: 1. a frame; 101. a side plate; 102. a cross bar; 103. a bayonet; 104. a shaft hole; 105. a deep groove; 2. a shaft lever; 3. a roller; 4. a vertical plate; 5. a column; 6. a long rod; 7. a rod body; 8. a support bracket; 801. a rocker I; 802. a first connecting rod; 803. a rocker II; 804. a rocker III; 805. a second connecting rod; 806. a support rod; 9. a push rod; 10. a sliding block; 1001. a convex surface; 1002. a limit groove; 1003. a bar-shaped groove; 11. a swinging member; 1101. an arc-shaped block; 1102. a concave surface; 1103. a bulge; 1104. an extension arm; 1105. an arc end; 12. a friction arm; 13. a speed reducing disc; 14. a spring; 15. a limiting block; 16. a connecting seat; 17. and a cover body.

Detailed Description

The invention will be described in further detail with reference to the drawings and the detailed description. The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Referring to fig. 1-8, the present invention is a shop transporting device for arc glass processing, comprising:

the frame 1 is used for driving the transported objects to be transferred;

the frame 1 comprises two mutually parallel side plates 101 and a cross bar 102, wherein the two side plates are fixed on the cross bar 102, and the frame 1 is made of metal materials.

The frame 1 that is equipped with is U type structure, and the opening is big, is convenient for realize bearing mechanism's placement, and frame 1 passes through curb plate 101 and horizontal pole 102 welding constitution in addition, simple structure is convenient for process.

The bearing mechanism is arranged in the frame 1, and the bearing mechanism after being arranged is kept in a vertical state and is combined by a plurality of bearing brackets and used for loading arc glass;

the top end of the side plate 101 is provided with a bayonet 103, the bearing mechanism comprises two vertical plates 4, two columns 5, a long rod 6, rod bodies 7 and a bearing bracket 8, the vertical plates 4 are parallel to each other, the tops of the two vertical plates 4 are fixedly provided with the columns 5 which are coaxially distributed, the columns 5 are provided with grooves with downward openings, the columns 5 are placed in the bayonet 103, the columns 5 rotate around the axis in the bayonet 103, the two columns 5 are connected through the long rod 6, the axis of the long rod 6 coincides with the axis of the column 5, the inner sides of the two vertical plates 4 are provided with a plurality of rod bodies 7, and the bearing bracket 8 is arranged between the two corresponding rod bodies 7 on the two vertical plates 4;

the support bracket 8 comprises a second rocker 803, the middle part of the second rocker 803 is rotatably arranged on the rod body 7, a first rocker 801 and a third rocker 804 are respectively arranged on two sides of the second rocker 803, two ends of the second rocker 803 are respectively connected with the bottom end of the first rocker 801 and the bottom end of the third rocker 804 through a first connecting rod 802 and a second connecting rod 805, support rods 806 are respectively arranged between the top ends of the corresponding two first rockers 801 and between the top ends of the corresponding two third rockers 804, the support surface of the support rods 806 is a plane, and a sponge layer is coated on the outer side of the support rods 806.

The arc glass is placed on the two supporting rods 806, the side surfaces of the placed arc glass push the two supporting rods 806 to rotate inwards, and as the rocker 803 is connected with the bottom end of the rocker 801 and the bottom end of the rocker 804 through the connecting rod 802 and the connecting rod 805, the rocker 803 is pushed to deflect through the connecting rod 802 or the connecting rod 805 in the process that any one supporting rod 806 rotates inwards, so that the other supporting rod 806 rotates inwards by the same angle under the drive of the connecting rod 802 or the connecting rod 805, and centering placement of the arc glass is facilitated;

the stock 6 that is equipped with in addition is convenient for hoist and mount, places arc glass on support bracket 8 after, hangs the supporting mechanism through lifting means through stock 6, keeps the supporting mechanism in vertical state at the in-process of falling the lacquer, places the supporting mechanism in frame 1's inside, and cylinder 5 cooperation is in bayonet socket 103, and the cell body on the cylinder 5 cooperates with push rod 9 simultaneously.

A moving mechanism mounted on the frame 1;

two shaft holes 104 are symmetrically distributed on the bottom side of the side plate 101, the moving mechanism comprises a shaft lever 2 and a roller 3, the end part of the shaft lever 2 is sleeved with a bearing and is installed in the shaft hole 104 in a matched mode, the roller 3 is arranged at the other end of the shaft lever 2, and the installed roller 3 and the shaft lever 2 synchronously rotate.

The cross bar 102 is provided with the connecting seat 16, so that the connection between different conveying devices can be conveniently realized, and the conveying of multiple pieces of glass can be completed.

The lateral surface of the side plate 101 is provided with a deep groove 105, an opening of the deep groove 105 is provided with a cover body 17, the bottom surface of the deep groove 105 is fixedly provided with a limiting block 15, the limiting block 15 is provided with a sliding block 10 in a matched mode, the sliding block 10 is provided with a push rod 9, the push rod 9 is rotatably arranged on a pin rod arranged on the bottom surface of the deep groove 105, one end of the push rod 9 stretches into a groove body of the column body 5, the rotating column body 5 drives the sliding block 10 to deviate through the push rod 9, one side of the sliding block 10 is provided with a swinging piece 11 in a matched mode, the tail end of the swinging piece 11 is provided with a friction arm 12, the inner side of the friction arm 12 is provided with a speed reducing disc 13, the speed reducing disc 13 is fixedly sleeved on the shaft lever 2, and the swinging piece 11 pushes the friction arm 12 to be tightly adhered to the speed reducing disc 13.

The middle part of sliding block 10 has seted up bar groove 1003, and stopper 15 is the cuboid, and bar groove 1003 slides along the lateral surface of stopper 15, and the limit groove 1002 has been seted up to one side that sliding block 10 is close to push rod 9, and the other end of push rod 9 is located limit groove 1002.

The sliding block 10 is close to one side of the swinging member 11 and is provided with a convex surface 1001, the main body of the swinging member 11 is an arc-shaped block 1101, the arc-shaped block 1101 is rotatably arranged on another pin rod on the bottom surface of the deep groove 105, the middle part of one side surface of the arc-shaped block 1101 is a concave surface 1102, the concave surface 1102 is matched with the convex surface 1001, two sides of the concave surface 1102 are bulges 1103, the two sides of the arc-shaped block 1101 are extended with extension arms 1104, and the end parts of the extension arms 1104 are arc-shaped ends 1105.

One end of the friction arm 12 is rotatably installed in the deep groove 105, and the other end of the friction arm 12 is connected with the side wall of the deep groove 105 of the friction arm 12 through a spring 14.

In the process of moving in the workshop, as a slope structure exists in the workshop, if the transportation equipment needs to move on a downward slope, a speed reducing disc 13 is sleeved on two shaft rods 2 of one side plate 101, and as the bearing mechanism is provided with arc glass which rotates around the axis of the column 5 under the action of gravity and keeps a vertical state, the bearing mechanism rotates relative to the bearing mechanism of the frame 1, the opening direction of the groove body of the column 5 changes with the angle between the side plates 101, so that a push rod 9 is driven to rotate, the sliding block 10 is pushed to move to one side, the bulge 1103 of the swinging piece 11 is extruded through the convex surface 1001 of the sliding block 10, the swinging piece 11 is rotated, and one friction arm 12 is pushed to be tightly attached to the speed reducing disc 13, so that the speed is reduced;

if the transportation device needs to perform the movement of ascending and descending, the speed reducing disc 13 can be sleeved on one of the two shaft rods 2 of one side plate 101, one side of the shaft rod 2 sleeved with the speed reducing disc 13 is the advancing direction, so that the friction arm 12 is prevented from being tightly attached to the speed reducing disc 13 to increase the ascending resistance in the ascending process.

It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art and which are included in the embodiments of the present invention without the inventive step, are intended to be within the scope of the present invention. Structures, devices and methods of operation not specifically described and illustrated herein, unless otherwise indicated and limited, are implemented according to conventional means in the art.

Claims (1)

1. Workshop transportation equipment that arc glass processing used, characterized in that includes:

a frame (1), wherein the frame (1) is used for driving transportation articles to be transferred;

the bearing mechanism is arranged in the frame (1), and the bearing mechanism after installation is kept in a vertical state and is combined by a plurality of bearing brackets and used for loading arc glass;

a moving mechanism mounted on the frame (1);

the frame (1) comprises two mutually parallel side plates (101) and a cross rod (102), and the two side plates are fixed on the cross rod (102);

a bayonet (103) is formed at the top end of the side plate (101);

the bearing mechanism comprises two vertical plates (4), two columns (5), a long rod (6), a rod body (7) and a bearing bracket (8), wherein the two vertical plates (4) are parallel to each other, the top ends of the two vertical plates (4) are fixedly provided with the columns (5) which are distributed coaxially, and the columns (5) are provided with grooves with downward openings;

the cylinder (5) is placed in the bayonet (103), and the cylinder (5) rotates around an axis in the bayonet (103);

the two columns (5) are connected through a long rod (6), and the axis of the long rod (6) is coincident with the axis of the column (5);

a plurality of rod bodies (7) are arranged on the inner sides of the two vertical plates (4), and a support bracket (8) is arranged between the two corresponding rod bodies (7) on the two vertical plates (4);

the support bracket (8) comprises a rocker II (803), the middle part of the rocker II (803) is rotatably arranged on the rod body (7), the rocker I (801) and the rocker III (804) are respectively arranged on two sides of the rocker II (803), and two ends of the rocker II (803) are respectively connected with the bottom end of the rocker I (801) and the bottom end of the rocker III (804) through a connecting rod I (802) and a connecting rod II (805);

a bearing rod (806) is arranged between the top ends of the two corresponding rocker I (801) and the top ends of the two corresponding rocker III (804), and the bearing surface of the bearing rod (806) is a plane;

wherein the outer side of the supporting rod (806) is coated with a sponge layer;

two shaft holes (104) are symmetrically distributed on the bottom side of the side plate (101);

the moving mechanism comprises a shaft lever (2) and a roller (3), wherein the end part of the shaft lever (2) is sleeved with a bearing and is installed in the shaft hole (104) in a matched mode, the roller (3) is arranged at the other end of the shaft lever (2), and the installed roller (3) and the shaft lever (2) synchronously rotate;

a deep groove (105) is formed in the outer side face of the side plate (101), and a cover body (17) is arranged on an opening of the deep groove (105);

a limiting block (15) is fixed on the bottom surface of the deep groove (105), a sliding block (10) is cooperatively arranged on the limiting block (15), a push rod (9) is arranged on the sliding block (10), the push rod (9) is rotatably arranged on a pin rod arranged on the bottom surface of the deep groove (105), one end of the push rod (9) stretches into a groove body of the column body (5), and the rotating column body (5) drives the sliding block (10) to deviate through the push rod (9);

a swinging piece (11) is arranged on one side of the sliding block (10) in a matched mode, a friction arm (12) is arranged at the tail end of the swinging piece (11), a speed reduction disc (13) is arranged on the inner side of the friction arm (12), and the speed reduction disc (13) is fixedly sleeved on the shaft rod (2);

the swinging piece (11) swings to push the friction arm (12) to be closely attached to the speed reducing disc (13);

the middle part of the sliding block (10) is provided with a strip-shaped groove (1003), the limiting block (15) is a cuboid, and the strip-shaped groove (1003) slides along the outer side surface of the limiting block (15);

a limiting groove (1002) is formed in one side, close to the push rod (9), of the sliding block (10), and the other end of the push rod (9) is located in the limiting groove (1002);

a convex surface (1001) is arranged on one side, close to the swinging piece (11), of the sliding block (10);

the main body of the swinging piece (11) is an arc-shaped block (1101), the arc-shaped block (1101) is rotatably arranged on the other pin rod at the bottom surface of the deep groove (105), the middle part of one side surface of the arc-shaped block (1101) is a concave surface (1102), the concave surface (1102) is matched with the convex surface (1001), and both sides of the concave surface (1102) are bulges (1103);

the arc-shaped block (1101) extends to two sides to form extension arms (1104), and the end parts of the extension arms (1104) are arc-shaped ends (1105);

one end of the friction arm (12) is rotatably arranged in the deep groove (105), and the other end of the friction arm (12) is connected with the side wall of the deep groove (105) of the friction arm (12) through a spring;

the bulge (1103) of the swinging piece (11) is pressed by the convex surface (1001) of the sliding block (10), so that the swinging piece (11) rotates, and one friction arm (12) is pushed to be closely attached to the speed reducing disc (13) to realize speed reduction.