CN213858230U - Eight-wheel machine capable of stably feeding - Google Patents

Abstract

The application discloses an eight-wheel machine capable of stably feeding materials, which comprises a rack and a conveying device arranged on the rack, wherein a base for the conveying device to be arranged is arranged at the bottom end of the conveying device, the eight-wheel machine further comprises limiting devices arranged on two sides of the conveying device and a feeding device arranged on one side, far away from the conveying device, of the limiting devices; the limiting device comprises a connecting plate vertically arranged on the base and a supporting frame fixed on the connecting plate; the feeding device comprises supporting plates fixed on two sides of the base, a moving plate connected to the top end of the supporting plates in a sliding mode, a first driving piece driving the moving plate to move, a moving block connected to the moving plate in a sliding mode, a second hydraulic driving piece driving the moving block to move and a clamping plate fixed on one side, close to the conveying device, of the moving block. This application has the reduction because of the skew takes place for the position of ladle body and leads to the ladle body and the barrel head to connect the effect that the precision reduces the condition and appears.

Description

Eight-wheel machine capable of stably feeding

Technical Field

The application relates to an iron bucket processing field especially relates to an eight turbine of stable feeding.

Background

In the production process of the iron bucket, the iron sheet is rolled into a barrel and welded to form a bucket body of the iron bucket, and then the bucket bottom is turned over to the bucket body in a curling manner to complete the connection of the bucket body and the bucket bottom. And the barrel bottom is crimped and connected through an eight-wheel machine in the process of installing the barrel bottom. During installation, the ladle is transported by means of a conveyor belt. If in the transportation process, the position of the barrel body can influence the precision of the connection between the barrel body and the barrel bottom after being deviated, and the quality of products is influenced.

SUMMERY OF THE UTILITY MODEL

In order to increase the stability in the bottom of a barrel transportation process, reduce and lead to the circumstances that body and bottom of a barrel connection precision reduce to appear because of the position emergence skew of body, the application provides an eight turbine of stable feeding.

The subject name provided by the application adopts the following technical scheme:

an eight-wheel machine for stable feeding comprises a frame and a conveying device arranged on the frame, wherein a base for the conveying device to be arranged is arranged at the bottom end of the conveying device, the eight-wheel machine also comprises limiting devices arranged on two sides of the conveying device and a feeding device arranged on one side, far away from the conveying device, of the limiting devices; the limiting device comprises a connecting plate vertically arranged on the base and a supporting frame fixed on the connecting plate; the feeding device comprises supporting plates fixed on two sides of the base, a moving plate connected to the top end of the supporting plates in a sliding mode, a first driving piece driving the moving plate to move, a moving block connected to the moving plate in a sliding mode, a second hydraulic driving piece driving the moving block to move and a clamping plate fixed on one side, close to the conveying device, of the moving block.

By adopting the technical scheme, in the process of transporting the barrel body, the support frames positioned at two sides of the conveying device limit the barrel body, so that the barrel body can be stably transported, when the barrel body is transported to the tail end of the conveying device, the barrel body is clamped by the clamping plates and then moved to the bottom end of the processing device, and the barrel body positioned at the tail end of the conveying device can be transported to the same position all the time by the reciprocating motion of the movable plate moving block; in the transportation process, the limiting device is used for limiting, the transportation stability of the barrel body is improved, the position of the barrel body caused in the transportation process is reduced, and the connection precision of the barrel body and the barrel bottom is reduced.

Optionally: the two ends of the connecting plate are rotatably connected with rotating rollers, and belts are wound on the rotating rollers.

Through adopting above-mentioned technical scheme, at the in-process of ladle body transportation, the lateral wall and the belt butt of ladle body, the belt follows the motion of ladle body and moves together, plays the effect of falling the resistance through the motion of belt, reduces the resistance that receives in the ladle body data send process and reduces the wearing and tearing to the ladle body lateral wall in the transportation.

Optionally: the connecting plate is connected with the base in a sliding manner; set up the T-slot that sets up along base width direction on the base, the bottom mounting of connecting plate has the gliding T-shaped piece in the T-slot.

Through adopting above-mentioned technical scheme, sliding connection between connecting plate and the base can change the distance that is located between the connecting plate of base both sides, and after the diameter of the ladle body that needs to connect changed, through the position that changes the connecting plate, be convenient for carry on spacingly to the ladle body that the diameter is different.

Optionally: and the connecting plates are provided with synchronizing components capable of driving the two connecting plates to move synchronously.

Through adopting above-mentioned technical scheme, synchronizing assembly can drive the connecting plate simultaneously to the direction motion of being close to each other or keeping away from, keeps the central line of two clamp plates unchangeable for the ladle body of different diameters can be along same rectilinear motion all the time, the later stage grip block of being convenient for to the centre gripping of ladle body.

Optionally: the synchronous component comprises racks which are fixed on one side, close to each other, of the connecting plate and are parallel to the base, and gears which are meshed with the two racks simultaneously.

By adopting the technical scheme, after the connecting plate on one side moves, the rack fixedly connected with the connecting plate moves, so that the gear connected with the rack is driven to rotate; after the gear rotates, the gear can drive the other rack to move, so that the connecting plate on the other side is driven to move. Through the cooperation of gear and rack, can drive two connecting plates simultaneously to the direction motion that is close to each other or keeps away from each other.

Optionally: and the connecting plate is provided with an adjusting component for driving the connecting plate to move.

Through adopting above-mentioned technical scheme, adjusting part drives the connecting plate and removes, conveniently changes the regulation to the position of connecting plate.

Optionally: the adjusting component comprises a screw rod vertically fixed on one side, away from each other, of the connecting plate, a worm wheel in threaded connection with the screw rod, a worm meshed with the worm wheel and a shell fixed on the base, and the worm wheel and the worm are arranged inside the shell.

Through adopting above-mentioned technical scheme, rotate the worm and drive the worm wheel and rotate, the worm wheel rotates the back and can drive the position of the screw rod with worm wheel threaded connection and change to the position that drives the connecting plate changes, through rotating the worm, is convenient for drive the position of connecting plate and changes.

In summary, the present application includes at least one of the following beneficial technical effects:

1. during transportation of the barrel body, the support frames positioned on two sides of the conveying device limit the barrel body, so that the barrel body can be stably transported, when the barrel body is transported to the tail end of the conveying device, the barrel body is clamped through the clamping plates and then moved to the bottom end of the machining device, and the barrel body positioned at the tail end of the conveying device can be transported to the same position all the time by the reciprocating motion of the movable plate moving block; in the transportation process, the limiting device is used for limiting, so that the transportation stability of the barrel body is improved, and the condition that the connection precision of the barrel body and the barrel bottom is reduced due to the deviation of the position of the barrel body caused in the transportation process is reduced;

2. in the process of transporting the barrel body, the side wall of the barrel body is abutted against the belt, the belt moves along with the movement of the barrel body, the resistance reducing effect is achieved through the movement of the belt, the resistance applied in the process of conveying the barrel body is reduced, and the abrasion to the side wall of the barrel body in the process of transporting is reduced;

3. the synchronizing assembly can drive the connecting plate to move towards the direction close to or away from each other, the central lines of the two clamping plates are kept unchanged, so that barrels with different diameters can move along the same straight line all the time, and the clamping plates can clamp the barrels conveniently in the later period.

Drawings

FIG. 1 is a schematic view of the overall structure of the embodiment;

FIG. 2 is a schematic diagram showing the structure of a transfer device;

FIG. 3 is a schematic structural view showing a position limiting device;

FIG. 4 is a schematic view showing the structure of the feeding device;

fig. 5 is a schematic structural diagram showing the material ejecting device.

Description of reference numerals: 1. a frame; 11. a base; 111. a T-shaped slot; 2. a connecting device; 3. a conveying device; 31. a delivery carriage; 311. a support leg; 32. a sprocket; 33. a chain; 4. a limiting device; 41. an adjustment assembly; 411. a screw; 412. a worm gear; 413. a worm; 414. a housing; 42. a connecting plate; 421. a rack; 422. a gear; 4221. a support bar; 423. a T-shaped block; 43. a support frame; 44. a rotating roller; 45. a belt; 5. a feeding device; 51. a support plate; 52. moving the plate; 53. a first hydraulic cylinder; 54. a moving block; 55. a second hydraulic cylinder; 56. a clamping plate; 6. a material ejecting device; 61. a fixed mount; 62. a cylinder; 63. a material placing plate; 631. and (4) a groove.

Detailed Description

The present application is described in further detail below with reference to the attached figures.

Example (b): the embodiment of the application discloses eight turbines of stable feeding, refer to fig. 1, including frame 1, set up connecting device 2 that connects the barrel head and ladle body at 1 top of frame, set up the conveyer 3 in connecting device 2 bottom, set up the stop device 4 in conveyer 3 both sides, set up and keep away from material feeding unit 5 of conveyer 3 one side and set up the liftout device 6 at the 3 discharge end of conveyer at stop device 4.

Referring to fig. 2, the transfer device 3 includes a transfer bracket 31, sprockets 32 rotatably coupled to both ends of the transfer bracket 31, and a chain 33 engaged with the sprockets 32. The chain 33 is higher than the upper surface of the conveying support 31, the barrel body placed on the conveying device 3 is abutted to the chain 33, and the movement of the chain 33 drives the barrel body to move from one end of the conveying device 3 to the other end. The bottom end of the conveying bracket 31 is fixed with a supporting leg 311 for supporting the conveying bracket 31, and the conveying bracket 31 is also fixed with a driving member (generally a motor, not shown) for driving the chain wheel 32 to rotate.

Referring to fig. 2 and 3, the bottom end of the conveying frame 31 is a base 11, and the legs 311 are vertically fixed on the base 11. The limiting device 4 comprises a connecting plate 42 vertically arranged on the base 11 and slidably connected with the base 11, a supporting frame 43 fixed on the connecting plate 42, rotating rollers 44 rotatably connected at two ends of the supporting frame 43, a belt 45 arranged around the rotating rollers 44, and an adjusting assembly 41 driving the connecting plate 42 to move. The number of the limiting devices 4 is two, and the limiting devices are respectively arranged on two sides of the base 11.

The base 11 is provided with a T-shaped groove 111 along the width direction of the base 11, and a T-shaped block 423 sliding in the T-shaped groove 111 is fixed to the bottom end of the connecting plate 42.

Racks 421 parallel to the base 11 are fixed on the sides of the connecting plates 42 close to each other, the heights of the racks 421 on the two sides of the base 11 are different, and a gear 422 meshed with the two racks 421 is arranged between the two racks 421 connected to the two connecting plates 42. Two sides of the gear 422 are provided with support rods 4221 fixed on the base 11, and the gear 422 is rotatably connected with the support rods 4221. When the connecting plate 42 on one side moves, the rack 421 fixedly connected with the connecting plate moves, so as to drive the gear 422 of the rack 421 to rotate; after the gear 422 rotates, it will drive another rack 421 to move, and thus drive the connecting plate 42 on the other side to move. Through the cooperation of the gear 422 and the rack 421, the two connecting plates 42 can be driven to move towards or away from each other at the same time.

The adjusting assembly 41 includes a screw 411 vertically fixed to a side of the connecting plate 42 away from each other, a worm wheel 412 screw-coupled to the screw 411, a worm 413 engaged with the worm wheel 412, and a housing 414 fixed to the base 11. The worm wheel 412 and the worm 413 are arranged inside the shell 414, one end of the worm 413 extends out of the shell 414, and a hand wheel which is convenient for driving the worm 413 to rotate is fixed at one end of the worm 413 extending out of the shell 414. The worm 413 rotates to drive the worm wheel 412 to rotate, and the rotation of the worm wheel 412 drives the position of the screw rod 411 in threaded connection with the worm wheel 412 to change, so as to drive the position of the connecting plate 42 fixedly connected with the screw rod 411 to change.

Referring to fig. 4, the feeding device 5 includes a supporting plate 51 fixed on both sides of the base 11, a moving plate 52 slidably connected to a top end of the supporting plate 51, a first hydraulic cylinder 53 having a cylinder body fixed on the supporting plate 51 and driving the moving plate 52 to move, a moving block 54 slidably connected on the moving plate 52, a second hydraulic cylinder 55 having a cylinder body fixed on the moving plate 52 and driving the moving block 54 to move, and two clamping plates 56 fixed on one side of the moving block 54 close to the conveyor 3.

When the ladle body moves to the discharge end of the conveying device 3, the feeding device 5 works to clamp the ladle body, the ladle body is moved to the material ejecting device 6, and the ladle body is moved to the connecting device 2 through the material ejecting device 6 to be processed.

Referring to fig. 5, the material ejecting device 6 includes a fixing frame 61 disposed at the discharging end of the conveying device 3, an air cylinder 62 with a cylinder body fixed on the fixing frame 61, and a material discharging plate 63 driven by the air cylinder 62 to lift. The cylinder body of the air cylinder 62 is fixed at the top end of the fixed frame 61, and the piston rod of the air cylinder 62 passes through the fixed frame 61 and is connected with the fixed frame 61 in a sliding mode. A plurality of grooves 631 are formed in the material placing plate 63, friction lines are formed by the grooves 631, and friction of the barrel body placed on the material placing plate 63 is increased, so that stability of placing the barrel body is improved.

The implementation principle of the eight-wheel machine capable of stably feeding is as follows: the ladle body is placed and is transported at conveyer 3, after the ladle body is placed, adjusts the position of stop device 4 connecting plate 42 for the distance between two connecting plates 42 of stop device 4 is the same with the diameter of ladle body. When the ladle body moves to the discharge end of the conveying device 3, the feeding device 5 works to clamp the ladle body to the material ejecting device 6, the ladle body is conveyed to the lower part of the connecting device 2 through the material ejecting device 6, and the ladle body is connected with the ladle bottom. In the transportation process, the limiting device 4 is used for limiting, and the transportation stability of the barrel body is improved.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (7)

1. The utility model provides a stabilize eight turbines of feeding, includes frame (1) and conveyer (3) of setting in frame (1), and the bottom of conveyer (3) is provided with base (11) that supply conveyer (3) to set up, its characterized in that: the conveying device also comprises limiting devices (4) arranged on two sides of the conveying device (3) and a feeding device (5) arranged on one side, far away from the conveying device (3), of the limiting devices (4); the limiting device (4) comprises a connecting plate (42) vertically arranged on the base (11) and a supporting frame (43) fixed on the connecting plate (42); the feeding device (5) comprises supporting plates (51) fixed on two sides of the base (11), a moving plate (52) connected to the top ends of the supporting plates (51) in a sliding mode, a first driving piece driving the moving plate (52) to do reciprocating motion, a moving block (54) connected to the moving plate (52) in a sliding mode, a second hydraulic driving piece driving the moving block (54) to do reciprocating motion, and a clamping plate (56) fixed on one side, close to the conveying device (3), of the moving block (54).

2. The eight-wheel machine of claim 1, wherein: two ends of the connecting plate (42) are rotatably connected with rotating rollers (44), and belts (45) are wound on the rotating rollers (44).

3. The eight-wheel machine of claim 1, wherein: the connecting plate (42) is connected with the base (11) in a sliding manner; a T-shaped groove (111) arranged along the width direction of the base (11) is formed in the base (11), and a T-shaped block (423) sliding in the T-shaped groove (111) is fixed at the bottom end of the connecting plate (42).

4. The eight-wheel machine of claim 3, wherein: the connecting plates (42) are provided with synchronizing components capable of driving the two connecting plates (42) to move synchronously.

5. The eight-wheel machine of claim 4, wherein: the synchronizing assembly comprises racks (421) fixed on one side of the connecting plate (42) close to each other and parallel to the base (11) and gears (422) meshed with the two racks (421).

6. The eight-wheel machine of claim 3, wherein: and the connecting plate (42) is provided with an adjusting component (41) which drives the connecting plate (42) to move.

7. The eight-wheel machine of claim 6, wherein: the adjusting assembly (41) comprises a screw rod (411) vertically fixed on one side, far away from each other, of the connecting plate (42), a worm wheel (412) in threaded connection with the screw rod (411), a worm (413) meshed with the worm wheel (412) and a shell (414) fixed on the base (11), and the worm wheel (412) and the worm (413) are arranged inside the shell (414).

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