CN217726764U - Positioning and rotating flanging assembly for single-wheel push wheel sealing machine - Google Patents

Abstract

The utility model discloses a single round of pushing wheel capper is with rotatory turn-ups subassembly in location, including cylinder body location rotating assembly, the turn-ups wheel components of cooperation cylinder body location rotating assembly and the turn-ups depended wheel subassembly of cooperation turn-ups wheel components, cylinder body location rotating assembly includes the rotatory rotation driving motor of cylinder body location pivot and drive cylinder body location pivot, turn-ups wheel components includes the gyro wheel driving actuating cylinder of turn-ups gyro wheel and drive turn-ups gyro wheel back-and-forth movement, the turn-ups depended wheel subassembly includes turn-ups depended wheel and the depended wheel driving actuating cylinder of drive turn-ups depended wheel back-and-forth movement, be equipped with the turn-ups step that sets up down on the turn-ups gyro wheel. The utility model discloses design the structure of taking turn-ups step with the turn-ups gyro wheel for it need not the slope setting, only needs to provide the inside flanging that a vertical decurrent pressure can easily realize the cylinder body, can accomplish compact structure small and exquisite, and the turn-ups precision is high, can prevent that cylinder body outer wall from warping, and turn-ups is efficient, low in production cost, mainly is applied to turn-ups in the thin wall cylinder body.

Description

Positioning and rotating flanging assembly for single-wheel push wheel sealing machine

Technical Field

The utility model relates to a attenuator cylinder body processingequipment especially relates to a rotatory turn-ups subassembly of location for single round pushing wheel capper.

Background

At present, in order to save materials and simplify the processing technology, a cylinder cover end of a cylinder body is usually flanged inwards to form a cylinder cover structure by matching an oil seal assembly and a supporting sheet, so that the traditional cylinder cover structure is omitted; therefore, a special cylinder body inner flanging device is needed to carry out inner flanging on the cylinder head end of the cylinder body, while the conventional inner flanging device (cylinder body sealing machine) is usually used for extruding and flanging the end part of the cylinder body by a flanging roller which is obliquely arranged and driven by a hydraulic station, and the inner flanging device has the advantages of large volume, large occupied space and large energy consumption; on the other hand, the flanging assembly exerts large force on the outer wall of the cylinder body when flanging, and is generally only suitable for thick-wall cylinder bodies, when inward flanging is carried out on some thin-wall cylinder bodies, the outer wall of the cylinder body is easy to deform, the inclination angle of the flanging roller is also difficult to adjust, and the inclination angle is too large, so that the flanging is possibly too large, and the length space in the cylinder body is influenced; the inclination angle is too small, and the flanging is possibly too small, so that the flanging cannot be matched with the oil seal assembly to form a cylinder cover structure;

and the inside flanging of present thin wall cylinder body adopts artifical turn-ups or some simple and easy inside flanging device to carry out the turn-ups usually, and not only inefficiency, artifical turn-ups error is more moreover, influences product quality.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve the defect and not enough that exist among the above-mentioned prior art, a design the structure of turn-ups gyro wheel banding turn-ups step, make it need not the slope setting, only need provide the inside flanging that a vertical decurrent pressure can easily realize the cylinder body, possible compact structure is small and exquisite on the one hand, on the other hand turn-ups precision is high, can prevent that the cylinder body outer wall from warping, turn-ups is efficient simultaneously, low in production cost, mainly be applied to the single round of turn-ups in the thin wall cylinder body for the capper location rotation turn-ups subassembly.

The technical scheme of the utility model: the utility model provides a rotatory turn-ups subassembly of location for single round pushing wheel capper, includes cylinder body location rotating assembly, cooperation cylinder body location rotating assembly's turn-ups roller components and cooperation turn-ups roller components's turn-ups depended wheel subassembly, cylinder body location rotating assembly includes the rotatory rotary driving motor of cylinder body location pivot and drive cylinder body location pivot, turn-ups roller components includes turn-ups gyro wheel and the gyro wheel driving cylinder of drive turn-ups gyro wheel back-and-forth movement, turn-ups depended wheel subassembly includes turn-ups depended wheel and the depended wheel driving cylinder of drive turn-ups depended wheel back-and-forth movement, be equipped with the turn-ups step that sets up down on the turn-ups gyro wheel.

The utility model discloses design the structure of taking turn-ups step with the turn-ups gyro wheel for it need not the slope setting, only needs to provide a vertical decurrent pressure and can easily realize the inside turn-ups of cylinder body, can accomplish compact structure small and exquisite on the one hand, and on the other hand turn-ups precision is high, can prevent that the cylinder body outer wall from warping, and turn-ups efficiency is high simultaneously, low in production cost, mainly is applied to turn-ups in the thin wall cylinder body.

Preferably, the top of cylinder body location pivot is equipped with the position circle that is used for the cylinder body location, and the bottom of cylinder body location pivot is connected with the motor shaft of rotary driving motor through belt drive assembly, and the outside of cylinder body location pivot is equipped with the location axle sleeve that is used for the installation, the location axle sleeve is connected with rotary driving motor through an anti-rotating plate.

The structure ensures that the cylinder body positioning rotating shaft can firmly position the cylinder body and simultaneously drives the cylinder body to stably and reliably rotate.

Preferably, the cylinder body location pivot cavity design, its top is equipped with the position circle mounting disc of cooperation position circle, and the upper portion inboard of cylinder body location pivot is equipped with the constant head tank of cooperation cylinder body, the bottom of constant head tank is the location step.

The structure makes the structure simple and light, and simultaneously further ensures the positioning effect of the cylinder body.

Preferably, the belt transmission assembly comprises a driving pulley connected to the rotary driving motor, a driven pulley connected to the bottom of the cylinder positioning rotating shaft and a transmission belt connected with the driving pulley and the driven pulley, one end of the anti-rotation plate is sleeved outside the positioning shaft sleeve, and the other end of the anti-rotation plate is fixed to the rotary driving motor through a fixing plate.

The structure ensures that the rotary driving cylinder drives the cylinder body to rotate stably and reliably, and can be well fixed and fixed when not rotating.

Preferably, the roller driving cylinder is connected with a roller bracket for installing the flanging roller, the flanging roller is installed on the roller bracket through a ball bearing, one end of the roller bracket is fixed on a piston rod of the roller driving cylinder, and the other end of the roller bracket is provided with a roller installation groove matched with the flanging roller.

The structure ensures that the installation of the flanging roller is firm and reliable, and simultaneously ensures that the roller drives the cylinder to drive the flanging roller to move back and forth stably and reliably.

Preferably, the flanging roller is divided into an upper pressing part at the upper part and a side pressing part at the lower part from the flanging step, the joint of the upper pressing part and the side pressing part is arc-shaped, and the diameter of the side pressing part is gradually reduced from top to bottom.

The structure ensures that the flanging roller extrudes the cylinder body to form the inner flanging more stably and reliably.

Preferably, the idler wheel driving cylinder is connected with an idler wheel support for installing the flanging idler wheel, the flanging idler wheel is installed on the idler wheel support through an idler wheel shaft, one end of the idler wheel support is fixed on a piston rod of the idler wheel driving cylinder, and an idler wheel installation groove matched with the flanging idler wheel is formed in the other end of the idler wheel support.

The structure ensures that the flanging idler wheel is firmly and reliably installed, and simultaneously ensures that the idler wheel driving cylinder drives the flanging idler wheel to move back and forth stably and reliably.

Preferably, the number of the flanging idler wheels is two, a cylinder body limiting groove matched with the cylinder body is formed between the two flanging idler wheels, and two pairs of mounting shaft holes matched with the two flanging idler wheels are formed in the idler wheel support.

The structure ensures that the support of the flanging idler wheel to the cylinder body is more stable and reliable.

Preferably, the flanging roller assembly and the flanging idler wheel assembly are connected through a supporting vertical plate, the idler wheel driving air cylinder is fixed at one end of the supporting vertical plate through a first air cylinder frame, and the idler wheel driving air cylinder is fixed at the other end of the supporting vertical plate through a second air cylinder frame.

The structure ensures that the installation of the flanging roller component and the flanging idler wheel component is firm and reliable, and ensures that the flanging roller component and the flanging idler wheel component are stable and reliable in action.

Preferably, the support vertical plate is provided with two guide rails, the roller wheel bracket is connected to the guide rails through a first sliding plate in a sliding manner, and the idler wheel bracket is connected to the guide rails through a second sliding plate in a sliding manner.

The structure further ensures that the roller driving cylinder drives the flanging roller to move back and forth and the idler wheel driving cylinder drives the flanging idler wheel to move back and forth stably and reliably.

The utility model discloses design the structure of taking turn-ups step with the turn-ups gyro wheel for it need not the slope setting, only needs to provide the inside flanging that a vertical decurrent pressure can easily realize the cylinder body, and possible compact structure is small and exquisite on the one hand, and on the other hand turn-ups precision is high, can prevent that cylinder body outer wall from warping, and turn-ups efficiency is high simultaneously, low in production cost, mainly is applied to turn-ups in the thin wall cylinder body.

Drawings

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

FIG. 2 is a schematic structural view of the middle flanging roller of the present invention;

FIG. 3 is a schematic structural view of the middle flanging roller bracket of the present invention;

FIG. 4 is a schematic structural view of the middle flanged idler bracket of the present invention;

FIG. 5 is a cross-sectional view of the positioning shaft of the cylinder body of the present invention;

fig. 6 is a schematic structural view of the positioning sleeve of the present invention;

in the drawing, 1, a cylinder body positioning rotating shaft, 2, a rotary driving motor, 3, a flanging roller, 4, a roller driving cylinder, 5, a flanging idler wheel, 6, an idler wheel driving cylinder, 7, a flanging step, 8, a positioning ring, 9, a positioning shaft sleeve, 10, an anti-rotation plate, 11, a positioning ring mounting plate, 12, a positioning groove, 13, a positioning step, 14, a driving pulley, 15, a driven pulley, 16, a transmission belt, 17, a fixing plate, 18, a roller bracket, 19, a ball bearing, 20, a roller mounting groove, 21, an idler wheel bracket, 22, an idler wheel shaft, 23, an idler wheel mounting groove, 24, a mounting shaft hole, 25, a supporting vertical plate, 26, a first cylinder frame, 27, a second cylinder frame, 28, a guide rail, 29, a first sliding plate and 30, a second sliding plate are arranged.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings, but the present invention is not limited thereto.

As shown in fig. 1-6, a positioning and rotating flanging assembly for a single-wheel push wheel sealing machine comprises a cylinder body positioning and rotating assembly, a flanging roller assembly matched with the cylinder body positioning and rotating assembly and a flanging idler wheel assembly matched with the flanging roller assembly, wherein the cylinder body positioning and rotating assembly comprises a cylinder body positioning rotating shaft 1 and a rotary driving motor 2 driving the cylinder body positioning rotating shaft 1 to rotate, the flanging roller assembly comprises a flanging idler wheel 3 and a roller driving cylinder 4 driving the flanging idler wheel 3 to move back and forth, the flanging idler wheel assembly comprises a flanging idler wheel 5 and an idler wheel driving cylinder 6 driving the flanging idler wheel 5 to move back and forth, and a flanging step 7 arranged downwards is arranged on the flanging idler wheel 3. The top of cylinder body location pivot 1 is equipped with the position circle 8 that is used for the cylinder body location, and the bottom of cylinder body location pivot 1 is connected with the motor shaft of rotary driving motor 2 through belt drive assembly, and the outside of cylinder body location pivot 1 is equipped with the location axle sleeve 9 that is used for the installation, and location axle sleeve 9 is connected with rotary driving motor 2 through an anti-rotating plate 10. The cylinder body positioning rotating shaft 1 is hollow, a positioning ring mounting disc 11 matched with the positioning ring 8 is arranged at the top of the cylinder body positioning rotating shaft 1, a positioning groove 12 matched with the cylinder body is arranged on the inner side of the upper portion of the cylinder body positioning rotating shaft 1, and a positioning step 13 is arranged at the bottom of the positioning groove 12. The belt transmission assembly comprises a driving belt wheel 14 connected to the rotary driving motor 2, a driven belt wheel 15 connected to the bottom of the cylinder body positioning rotating shaft 1 and a transmission belt 20 connected with the driving belt wheel 14 and the driven belt wheel 15, one end of the anti-rotation plate 10 is sleeved outside the positioning shaft sleeve 9, and the other end of the anti-rotation plate 10 is fixed to the rotary driving motor 2 through a fixing plate 17. The roller driving cylinder 4 is connected with a roller bracket 18 for installing the flanging roller 3, the flanging roller 3 is installed on the roller bracket 18 through a ball bearing 19, one end of the roller bracket 18 is fixed on a piston rod of the roller driving cylinder 4, and the other end of the roller bracket 18 is provided with a roller installation groove 20 matched with the flanging roller 3. The flanging roller 3 is divided into an upper pressing part at the upper part and a side pressing part at the lower part from the flanging step 7, the joint of the upper pressing part and the side pressing part is arc-shaped, and the diameter of the side pressing part is gradually reduced from top to bottom. The idler wheel driving cylinder 6 is connected with an idler wheel support 21 for installing the flanging idler wheel 5, the flanging idler wheel 5 is installed on the idler wheel support 21 through an idler wheel shaft 22, one end of the idler wheel support 21 is fixed on a piston rod of the idler wheel driving cylinder 6, and an idler wheel installation groove 23 matched with the flanging idler wheel 5 is formed in the other end of the idler wheel support 21. The number of the flanging idler wheels 5 is two, a cylinder body limiting groove matched with the cylinder body is formed between the two flanging idler wheels, and two pairs of installation shaft holes 24 matched with the two flanging idler wheels are arranged on the idler wheel support 21. The flanging roller component and the flanging idler wheel component are connected through a supporting vertical plate 25, the idler wheel driving air cylinder 4 is fixed at one end of the supporting vertical plate 25 through a first air cylinder frame 26, and the idler wheel driving air cylinder 6 is fixed at the other end of the supporting vertical plate 25 through a second air cylinder frame 27. Two guide rails 28 are arranged on the supporting vertical plate 25, the roller bracket 18 is slidably connected on the guide rails 28 through a first sliding plate 29, and the idler wheel bracket 21 is slidably connected on the guide rails 28 through a second sliding plate 30.

The utility model discloses need cooperate and push down the subassembly and use, during the action, will treat the turn-ups cylinder body and pass through the position circle and install in cylinder body location pivot, the gyro wheel drives the turn-ups step of actuating cylinder drive turn-ups gyro wheel and leans on the top one side of treating the turn-ups cylinder body, it leans on the top opposite side of waiting the turn-ups cylinder body to lean on wheel drive actuating cylinder drive turn-ups to move to lean on, the rotatory drive of rotation driving motor drive cylinder body location pivot is waited the turn-ups cylinder body rotatory, then push down (turn-ups lean on wheel and turn-ups gyro wheel to push down in step) through pushing down the subassembly (generally adopting to push down and drive actuating cylinder and provide down power) drive turn-ups gyro wheel and push down in step can easily realize treating the turn-ups in top of turn-ups cylinder body.

The utility model discloses can adjust the hole diameter of position circle and cylinder body location pivot according to the cylinder body size.

The utility model discloses design the structure of taking turn-ups step with the turn-ups gyro wheel for it need not the slope setting, only needs to provide the inside flanging that a vertical decurrent pressure can easily realize the cylinder body, and possible compact structure is small and exquisite on the one hand, and on the other hand turn-ups precision is high, can prevent that cylinder body outer wall from warping, and turn-ups efficiency is high simultaneously, low in production cost, mainly is applied to turn-ups in the thin wall cylinder body.

Claims (10)

1. The utility model provides a rotatory turn-ups subassembly of single round pushing wheel capper location which characterized in that: the flanging mechanism comprises a cylinder body positioning rotating assembly, a flanging roller assembly matched with the cylinder body positioning rotating assembly and a flanging idler wheel assembly matched with the flanging roller assembly, wherein the cylinder body positioning rotating assembly comprises a cylinder body positioning rotating shaft and a rotary driving motor driving the cylinder body positioning rotating shaft to rotate, the flanging roller assembly comprises a flanging roller and a roller driving cylinder driving the flanging roller to move back and forth, the flanging idler wheel assembly comprises a flanging idler wheel and an idler wheel driving cylinder driving the flanging idler wheel to move back and forth, and flanging steps arranged downwards are arranged on the flanging roller.

2. The positioning and rotating flanging assembly for the single-wheel push-wheel sealing machine according to claim 1, is characterized in that: the top of cylinder body location pivot is equipped with the position circle that is used for the cylinder body location, and the bottom of cylinder body location pivot is connected with rotary drive motor's motor shaft through belt drive assembly, and the outside of cylinder body location pivot is equipped with the location axle sleeve that is used for the installation, the location axle sleeve is connected with rotary drive motor through an anti-rotating plate.

3. The positioning and rotating flanging assembly for the single-wheel push-wheel sealing machine according to claim 2, is characterized in that: the cylinder body location pivot cavity design, its top is equipped with the position circle mounting disc of cooperation position circle, and the upper portion inboard of cylinder body location pivot is equipped with the constant head tank of cooperation cylinder body, the bottom of constant head tank is the location step.

4. The positioning and rotating flanging assembly for the single-wheel push-wheel sealing machine according to claim 2, is characterized in that: the belt transmission assembly comprises a driving belt wheel connected to the rotary driving motor, a driven belt wheel connected to the bottom of the cylinder body positioning rotating shaft and a transmission belt connected with the driving belt wheel and the driven belt wheel, one end of the anti-rotation plate is sleeved outside the positioning shaft sleeve, and the other end of the anti-rotation plate is fixed to the rotary driving motor through a fixing plate.

5. The positioning and rotating flanging assembly for the single-wheel push-wheel sealing machine according to claim 1, is characterized in that: the roller driving cylinder is connected with a roller support for installing the flanging roller, the flanging roller is installed on the roller support through a ball bearing, one end of the roller support is fixed on a piston rod of the roller driving cylinder, and the other end of the roller support is provided with a roller installation groove matched with the flanging roller.

6. The positioning and rotating flanging assembly for the single-wheel push-wheel sealing machine according to claim 5, characterized in that: the flanging roller is divided into an upper pressing part at the upper part and a side pressing part at the lower part from the flanging step, the joint of the upper pressing part and the side pressing part is arc-shaped, and the diameter of the side pressing part is gradually reduced from top to bottom.

7. The positioning and rotating flanging assembly for the single-wheel push-wheel sealing machine according to claim 5, is characterized in that: the idler wheel driving cylinder is connected with an idler wheel support for installing an idler wheel, the idler wheel is installed on the idler wheel support through an idler wheel shaft, one end of the idler wheel support is fixed on a piston rod of the idler wheel driving cylinder, and an idler wheel installation groove matched with the idler wheel is formed in the other end of the idler wheel support.

8. The positioning and rotating flanging assembly for the single-wheel push-wheel sealing machine according to claim 7, is characterized in that: the cylinder body limiting groove is formed between the two flanging idler wheels, and two pairs of installation shaft holes matched with the two flanging idler wheels are formed in the idler wheel support.

9. The positioning and rotating flanging assembly for the single-wheel push-wheel sealing machine according to claim 7, is characterized in that: the flanging roller assembly and the flanging idler wheel assembly are connected through a supporting vertical plate, the idler wheel driving air cylinder is fixed at one end of the supporting vertical plate through a first air cylinder frame, and the idler wheel driving air cylinder is fixed at the other end of the supporting vertical plate through a second air cylinder frame.

10. The positioning and rotating flanging assembly for the single-wheel push-wheel sealing machine according to claim 9, wherein: the support vertical plate is provided with two guide rails, the roller wheel support is connected to the guide rails through a first sliding plate in a sliding mode, and the idler wheel support is connected to the guide rails through a second sliding plate in a sliding mode.

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