CN110586710B

CN110586710B - Symmetric type road side baffle bending device

Info

Publication number: CN110586710B
Application number: CN201910969861.3A
Authority: CN
Inventors: 程玟豪
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-10-12
Filing date: 2019-10-12
Publication date: 2022-11-29
Anticipated expiration: 2039-10-12
Also published as: CN110586710A

Abstract

The invention discloses a symmetrical type road side baffle bending device, wherein: the middle part below the connecting plate is provided with a rolling component B, the same rolling component A is arranged below the front end and the rear end, the rolling component C is provided with a walking wheel, the front part and the rear part of the rolling component C are respectively provided with a walking wheel, the walking wheel is connected with the connecting plate, the left part of the shaft A is inserted into the rotary sleeve A, the outer part of the rotary sleeve A is provided with a detection wheel B, the middle part of the shaft A is penetrated through the gear A and inserted into the rotary sleeve B, the outer part of the rotary sleeve B is provided with the detection wheel A, the top end of the detection wheel A is connected with the gear A, the right part of the shaft is respectively provided with the rolling wheel A, the rolling wheel B, the top end of the rolling wheel B is connected with the gear C, the gear B is arranged between the gear C and the gear A, the shaft sleeve A is sleeved outside the left end of the shaft A, and the connecting plate is connected with the two shaft sleeves A. The radian of the bent baffle is consistent with the actual radian, the bent baffle does not need to be bent or measured, the installation time is short, the speed is high, and the use is convenient.

Description

Symmetric type road side baffle bending device

Technical Field

The invention belongs to the technical field of machinery, and particularly relates to a symmetrical type road side baffle bending device.

Background

The road in the mountain area is dangerous due to the ground, and is a winding road, roadbeds need to be built on two sides of the road, and the baffle plates are installed on the roadbeds. The baffle is installed on a road after being transported by a manufacturer, but the baffle cannot be installed due to inconsistent bending degree of a winding mountain road and can be installed only after being bent.

Disclosure of Invention

The invention aims to overcome the defects and provides the symmetrical road side baffle bending device which has the advantages that the radian of the bent baffle is consistent with the actual radian, the bent baffle does not need to be bent, the measurement is not needed, the installation time is short, the speed is high, and the use is convenient.

The purpose of the invention and the main technical problem of solving the invention are realized by adopting the following technical scheme:

the invention discloses a symmetrical type road side baffle bending device, which is characterized in that: a rolling component B is fixedly arranged in the middle below the connecting plate, the same rolling component A and rolling component C which can move left and right are respectively fixedly arranged below the front end and the rear end, walking wheels are respectively arranged at the front and the rear of the rolling component A and the rolling component C, and the walking wheels are connected with the connecting plate; the rolling component A and the rolling component C are the same and respectively consist of a shaft A, a shaft sleeve A, a gear B, a gear C, a rolling wheel A, a supporting wheel A, a rolling wheel B, a detection wheel A, a detection wheel B, a rotary sleeve A and a rotary sleeve B, wherein the lower surface of the left side of the shaft A is inserted into the rotary sleeve A, the detection wheel B is fixedly installed outside the rotary sleeve A, the lower surface of the middle part of the shaft A penetrates through the gear A and is inserted into the rotary sleeve B, the detection wheel A is fixedly installed outside the rotary sleeve B, the top end of the detection wheel A is fixedly connected with the gear A, and the rolling wheel A and the rolling wheel B are respectively installed below the right end of the shaft A; the top end of the rolling wheel B is fixedly connected with a gear C, the gear B is installed between the gear C and the gear A and installed below the shaft A, the shaft sleeve A is sleeved outside the left end of the shaft A, the upper surfaces of the two shaft sleeve A are fixedly connected with a connecting plate, and the lower surface of the shaft A is screwed into the supporting wheel A.

The rolling component B consists of a shaft sleeve B, a motor frame, a motor A, a shaft sleeve C, a bolt, a motor B, a shaft sleeve D, a gear E, a gear F, a shaft B, a rolling wheel C, a supporting wheel B, a rolling wheel D, a detection wheel C, a detection wheel D, a rotary sleeve C and a rotary sleeve D, wherein the shaft sleeve B and the shaft sleeve D are arranged on the left side and the middle part of the shaft B respectively and integrated with each other; the top end of the rolling wheel D is fixedly connected with a gear F, a gear E is installed between the gear F and the gear D and installed below a shaft B, a connecting plate is fixedly connected to the upper surface of the shaft sleeve C in a screwing mode, the shaft B is locked and fixed on the shaft sleeve C through a bolt, a motor frame is installed on the connecting plate, and a supporting wheel B is screwed below the shaft B.

The rotating sleeve A and the rotating sleeve B can rotate on the shaft A.

The shaft A can move left and right on the shaft sleeve A.

The gear B is rotatable on the axis a.

The rolling wheels A and B can rotate on the shaft A.

The gear A, the gear B and the gear C, wherein; the gear B in the middle part is respectively meshed with the gear A and the gear C at the two ends.

The two ends and the middle part of the shaft A extend downwards vertically, the left side is right-angled, and the right side is vertical, and the upper side and the lower side are arc-shaped O-shaped.

The right side of the shaft B is vertical to the left and right sides, and the upper part and the lower part of the shaft B are in an arc shape.

The detection wheel A, the detection wheel B, the detection wheel C and the detection wheel D are made of deformable rubber.

Compared with the prior art, the invention has obvious advantages and beneficial effects. According to the technical scheme, the rolling assembly B is fixedly arranged in the middle of the lower surface of the connecting plate, the same rolling assembly A and rolling assembly C which can move left and right are fixedly arranged on the lower surfaces of the front end and the rear end of the connecting plate, the front end and the rear end of the rolling assembly A and the rolling assembly C are respectively provided with the traveling wheel, the traveling wheels are connected with the connecting plate, after a roadbed is repaired, a formed unbent baffle is conveyed to the side of the roadbed, the two detection wheels A, the two detection wheels B, the detection wheel C and the detection wheel D are clamped into the two sides of the roadbed, the baffle is inserted into a gap between the rolling wheels A and the rolling wheels B, the synchronous motor A and the motor B are started, so that the detection wheels C and the detection wheels D roll along the two sides of the roadbed, the detection wheel C, detection wheel D drives two detection wheel A of card on the road bed simultaneously, two detection wheel B roll, when detection wheel A, detection wheel B, detection wheel C, detection wheel D meets when turning, detection wheel A, detection wheel B left and right sides skew, axle A is along with detection wheel A, detection wheel B left and right sides skew slip, make two sets of rolling wheel A, rolling wheel B left and right sides skew roll, make the baffle roll thereupon and penetrate rolling wheel A, rolling wheel B, rolling wheel C, carry out the bending between the rolling wheel D, two detection wheel B, detection wheel C, the distance that detection wheel D removed and rolling wheel A, rolling wheel B, rolling wheel C, rolling wheel D etc. form the arc and equals. The radian of the baffle after bending is consistent with the actual radian of the roadbed, the baffle does not need to be bent or measured, the installation time is short, the speed is high, and the use is convenient.

Drawings

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

FIG. 2 is a front view of the present invention;

FIG. 3 is a right side view of the present invention;

figure 4 is a schematic structural view of a rolling assembly a of the present invention;

figure 5 is a front view of the roll-on-roll assembly a of the present invention;

FIG. 6 isbase:Sub>A cross-sectional view of FIG. 5A-A;

FIG. 7 is a front view of the shaft A of the present invention;

figure 8 is a schematic structural view of a rolling assembly B of the present invention;

figure 9 is a front view of the roll-on-roll assembly B of the present invention;

FIG. 10 is a cross-sectional view of FIG. 9B-B;

FIG. 11 is a schematic view of the structure of the shaft B of the present invention;

FIG. 12 is a schematic view of a connection plate structure of the present invention;

FIG. 13 is a bottom view of the connecting plate of the present invention;

fig. 14 is a use state diagram of the present invention.

The labels in the figure are:

1. rolling assemblies a,2, rolling assemblies B,3, rolling assemblies C,4, connecting plates, 5, road wheels, 6, shafts a,7, bushings a,8, gears a,9, gears B,10, gears C,11, rolling wheels a,12, support wheels a,13, rolling wheels B,14, probe wheels a,15, probe wheels B,16, swivel sleeves a,17, swivel sleeves B,18, bushings B,19, motor mounts, 20, motors a,21, bushings C,22, bolts, 23, motors B,24, bushings D,25, gears D,26, gears, 27, E-gears F,28, shafts B,29, rolling wheels C,30, support wheels B,31, rolling wheels D,32, probe wheels C,33, probe wheels D,34, swivel sleeves C,35, swivel sleeves D,36, road beds, 37, baffles.

Detailed Description

The details of the embodiments, structures, features and functions of the invention are set forth in the accompanying drawings and the description of the preferred embodiments.

Referring to fig. 1-13, the invention provides a symmetrical road edge dam curving device, which is characterized in that: a rolling component B2 is fixedly arranged in the middle of the lower surface of the connecting plate 4, the same rolling component A1 and rolling component C3 which can move left and right are respectively fixedly arranged on the lower surfaces of the front end and the rear end, walking wheels 5 are respectively arranged on the front and the rear of the rolling component A1 and the rolling component C3, and the walking wheels 5 are connected with the connecting plate 4; the rolling component A1 and the rolling component C3 are the same and respectively consist of a shaft A6, a shaft sleeve A7, a gear A8, a gear B9, a gear C10, a rolling wheel A11, a supporting wheel A12, a rolling wheel B13, a detection wheel A14, a detection wheel B15, a rotary sleeve A16 and a rotary sleeve B17, wherein the lower surface of the left side of the shaft A6 is inserted into the rotary sleeve A16, the detection wheel B15 is fixedly installed outside the rotary sleeve A16, the lower surface of the middle part of the shaft A6 penetrates through the gear A8 and is inserted into the rotary sleeve B17, the detection wheel A14 is fixedly installed outside the rotary sleeve B17, the top end of the detection wheel A14 is fixedly connected with the gear A8, and the lower surface of the right end of the shaft A6 is respectively provided with the rolling wheel A11 and the rolling wheel B13, wherein; the top end of the rolling wheel B13 is fixedly connected with a gear C10, a gear B9 is installed between the gear C10 and a gear A8, the gear B9 is installed below a shaft A6, a shaft sleeve A7 is sleeved outside the left end of the shaft A6, the upper surfaces of the two shaft sleeves A7 are fixedly connected with a connecting plate 4, and a supporting wheel A12 is screwed below the shaft A6.

The rolling assembly B2 consists of a shaft sleeve B18, a motor frame 19, a motor A20, a shaft sleeve C21, a bolt 22, a motor B23, a shaft sleeve D24, a gear D25, a gear E26, a gear F27, a shaft B28, a rolling wheel C29, a supporting wheel B30, a rolling wheel D31, a detection wheel C32, a detection wheel D33, a rotating sleeve C34 and a rotating sleeve D35, wherein the left side and the middle part of the shaft B28 are respectively provided with the shaft sleeve B18 and the shaft sleeve D24 which are integrated, the shaft sleeve C21 is sleeved outside the shaft B28 between the shaft sleeve B18 and the shaft sleeve D24, output shafts of the motor A20 and the motor B23 can respectively penetrate through the shaft sleeve B18 in a rotatable mode, the shaft sleeve D24 is fixedly connected with the rotating sleeve C34 and the rotating sleeve D35, the outer sides of the rotating sleeve C34 and the rotating sleeve D35 are respectively and fixedly provided with the detection wheel C32 and the detection wheel D33, the upper side of the detection wheel C32 is fixedly connected with the gear D25, and the rolling wheel C29 and the lower side of the right end of the shaft B28 are respectively provided with the rolling wheel D31, and the rolling wheel D31; the top end of the rolling wheel D31 is fixedly connected with a gear F27, a gear E26 is arranged between the gear F27 and the gear D25, the gear E26 is arranged below a shaft B28, a connecting plate 4 is fixedly connected to the upper surface of a shaft sleeve C21, a bolt 22 is screwed in to lock and fix the shaft B28 on the shaft sleeve C21, a motor frame 19 is arranged on the connecting plate 4, and a supporting wheel B30 is screwed in to the lower surface of the shaft B28.

The rotary sleeve A16 and the rotary sleeve B17 can rotate on the shaft A6.

The shaft A6 can move left and right on the shaft sleeve A7.

The gear B9 is rotatable on the shaft A6.

The rolling wheels A11 and B13 can rotate on the shaft A6.

The gear A8, the gear B9 and the gear C10 are arranged on the frame; the gear B9 in the middle part is respectively meshed with the gear A8 and the gear C10 at the two ends.

The two ends and the middle part of the shaft A6 extend downwards vertically, the left side is right-angled, and the right side is vertical, and the upper side and the lower side are arc-shaped O-shaped.

The right side of the shaft B28 is vertical at the left and right sides and is in an arc shape at the upper and lower sides.

The detection wheels A14, B15, C32 and D33 are made of deformable rubber.

When the roadbed is repaired, the molded and unbent baffle is transported to the roadbed, the two detection wheels A14, the two detection wheels B15, the detection wheels C32 and the detection wheels D33 are clamped into the two sides of the roadbed, the baffle is inserted into a gap between the rolling wheels A11 and the rolling wheels B13, the synchronous motor A20 and the motor B23 are started, the detection wheels C32 and D33 roll along the two sides of the roadbed, the detection wheels C32 and D33 simultaneously drive the two detection wheels A14 and B15 clamped on the roadbed to roll, and when the detection wheels A14, B15, C32 and D33 turn, the detection wheels A14 and B15 are offset left and right, the shaft A6 slides along with the detection wheels A14 and B15 in a left and right offset manner, two groups of rolling wheels A11 and B13 roll in a left and right offset manner, the gear A8, the gear B9, the gear C10, the gear D25, the gear E26 and the gear F27 are respectively driven to roll, the baffle is driven to roll to penetrate into the rolling wheels A11, B13, C29 and D31 along with the rolling wheels A11, B13, C29 and D31 to be bent and penetrate out from the other end of the baffle, and the moving distances of the two detection wheels B15, C32 and D33 are equal to those of the rolling wheels A11, B13, C29 and D31, so that arcs are equal.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and any simple modification, equivalent change and modification made to the above embodiments according to the technical spirit of the present invention are within the scope of the present invention without departing from the technical spirit of the present invention.

Claims

1. The utility model provides a symmetry formula road side baffle bending apparatus which characterized in that: a rolling component B (2) is fixedly arranged in the middle below the connecting plate (4), the same rolling component A (1) and rolling component C (3) which can move left and right are respectively and fixedly arranged below the front end and the rear end, walking wheels (5) are respectively arranged at the front and the rear of the rolling component A (1) and the rolling component C (3), and the walking wheels (5) are connected with the connecting plate (4); the rolling component A (1) and the rolling component C (3) are the same and respectively consist of a shaft A (6), a shaft sleeve A (7), a gear A (8), a gear B (9), a gear C (10), a rolling wheel A (11), a supporting wheel A (12), a rolling wheel B (13), a detection wheel A (14), a detection wheel B (15), a rotary sleeve A (16) and a rotary sleeve B (17), wherein the lower left side of the shaft A (6) is inserted into the rotary sleeve A (16), the detection wheel B (15) is fixedly installed outside the rotary sleeve A (16), the lower middle part of the shaft A (6) penetrates through the gear A (8) and is inserted into the rotary sleeve B (17), the detection wheel A (14) is fixedly installed outside the rotary sleeve B (17), the top end of the detection wheel A (14) is fixedly connected with the gear A (8), and the rolling wheel A (11) and the rolling wheel B (13) are respectively installed below the right end of the shaft A (6); rolling wheel B (13) top fixed connection gear C (10), install gear B (9) between gear C (10) and gear A (8), gear B (9) are installed below axle A (6), axle sleeve A (7) cover is in axle A (6) left end outside, fixed connection connecting plate (4) above two axle sleeve A (7), screw in supporting wheel A (12) below axle A (6), rolling subassembly B (2) by axle sleeve B (18), motor frame (19), motor A (20), axle sleeve C (21), bolt (22), motor B (23), axle sleeve D (24), gear D (25), gear E (26), gear F (27), axle B (28), rolling wheel C (29), supporting wheel B (30), rolling wheel D (31), detection wheel C (32), detection wheel D (33), swivel housing C (34), swivel housing D (35) are constituteed, axle B (28) the left side and the middle part are provided with axle sleeve B (18) respectively, axle sleeve D (24), rotatable axle sleeve B (18) between axle B (18) and the motor B (21) passes through, motor B (23) outside motor B (18) and axle B (23), swivel housing C (23) outside The shaft sleeve D (24) is fixedly connected with a rotary sleeve C (34) and a rotary sleeve D (35), the outer surfaces of the rotary sleeve C (34) and the rotary sleeve D (35) are respectively and fixedly provided with a detection wheel C (32) and a detection wheel D (33), the upper surface of the detection wheel C (32) is fixedly connected with a gear D (25), and the lower surface of the right end of the shaft B (28) is respectively provided with a rolling wheel C (29) and a rolling wheel D (31), wherein; the top end of the rolling wheel D (31) is fixedly connected with a gear F (27), a gear E (26) is installed between the gear F (27) and the gear D (25), the gear E (26) is installed below the shaft B (28), a connecting plate (4) is fixedly connected to the upper surface of the shaft sleeve C (21) and screwed into a bolt (22) to lock and fix the shaft B (28) on the shaft sleeve C (21), a motor frame (19) is installed on the connecting plate (4), and a supporting wheel B (30) is screwed into the lower surface of the shaft B (28).

2. The symmetrical roadside hazard bending device of claim 1, wherein: the rotating sleeve A (16) and the rotating sleeve B (17) can rotate on the shaft A (6).

3. The symmetrical roadside hazard device of claim 1, wherein: the shaft A (6) can move left and right on the shaft sleeve A (7).

4. The symmetrical roadside hazard device of claim 1, wherein: the gear B (9) is rotatable on the axis A (6).

5. The symmetrical roadside hazard device of claim 1, wherein: the rolling wheels A (11) and B (13) can rotate on the shaft A (6).

6. The symmetrical roadside hazard bending device of claim 1, wherein: the gear A (8), the gear B (9) and the gear C (10), wherein; the gear B (9) in the middle part is respectively meshed with the gear A (8) and the gear C (10) at the two ends.

7. The symmetrical roadside hazard device of claim 1, wherein: the two ends and the middle part of the shaft A (6) extend downwards vertically, the left side is right-angled, and the right side is vertical to the left and right sides and is in an arc-shaped O shape from top to bottom.

8. The symmetrical roadside hazard device of claim 1, wherein: the right side of the shaft B (28) is vertical to the left and right sides, and the upper and lower sides are in an arc-shaped O shape.

9. The symmetrical roadside hazard device of claim 1, wherein: the detection wheel A (14), the detection wheel B (15), the detection wheel C (32) and the detection wheel D (33) are made of deformable rubber.