CN212449424U - Conveying device for moving material parts - Google Patents

Abstract

The utility model relates to a conveying device for moving material parts; the method is characterized in that: the material conveying device comprises a driving device, an underframe, a supporting piece movably arranged in the underframe, a conveying frame body arranged on the supporting piece, a rotating shaft arranged in the conveying frame body in a parallel rotating mode and a material belt for moving material pieces; the material belt is wound on the rotating shaft; the driving device drives the rotating shaft to rotate; the material belt moves along the conveying frame body. The problem of the material spare removal conveyor commonality that adopts different conveyor to accomplish different situations that current scheme caused is relatively poor can't adapt to complicated removal demand and conveyor long-time work back material area can produce not hard up removal that influences the material spare is solved.

Description

Conveying device for moving material parts

Technical Field

The utility model relates to a conveyor, concretely relates to a conveyor for removing material spare.

Background

Generally, the material piece needs to be moved in the production process. The conveying device can convey the material on a certain conveying line to finish the conveying process of the material. The conveying device can convey the bulk material pieces and the whole material pieces. The conveying device can also be matched with the requirements of the production process to form a rhythmic flow production conveying line. However, the existing conveying device is a special device, one conveying device is adopted for horizontally moving the material part, and the material part is moved to another conveying device adopted for moving the material part to a moving height, so that resource waste is caused, and the universality is poor. How to solve this problem becomes crucial.

The current scheme adopts the rotatory pivot that sets up on the support, and the material area is around establishing in the pivot, and is rotatory through motor drive pivot. Such a solution has the following problems: (1) different conveying devices are adopted to complete the movement of the material parts under different conditions, and the conveying devices have poor universality and cannot adapt to complex movement requirements; (2) after the conveying device works for a long time, the material belt can be loosened to influence the movement of the material parts.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a be not enough to prior art, the utility model discloses a conveyor for removing material to the material that adopts different conveyor to accomplish the different condition among the solution prior art removes the relatively poor unable complicated removal demand of adaptation of material section removal conveyor commonality and the long-time work back material area of conveyor can produce not hard up removal scheduling problem that influences the material section.

The utility model discloses the technical scheme who adopts as follows:

a conveyor for moving a material;

the material conveying device comprises a driving device, an underframe, a supporting piece movably arranged in the underframe, a conveying frame body arranged on the supporting piece, a rotating shaft arranged in the conveying frame body in a parallel rotating mode and a material belt for moving material pieces; the material belt is wound on the rotating shaft; the driving device drives the rotating shaft to rotate; the material belt moves along the conveying frame body.

The further technical scheme is as follows: the bottom frame comprises a bottom frame, a fixing frame for fixing the bottom frame and a roller for moving the conveying device; the bottom frame is vertically arranged on the fixed frame; the roller is rotatably arranged on the bottom frame; the support moves along the inside of the bottom frame.

The further technical scheme is as follows: the bottom frame is provided with an adjusting mechanism for driving the supporting piece to move; the adjusting mechanism comprises a screw rod in threaded connection with the bottom frame, a hand wheel rotationally arranged on the bottom frame and a cross beam arranged on the screw rod; the hand wheel is in threaded fit with the screw; the supporting pieces are respectively arranged at two ends of the cross beam.

The further technical scheme is as follows: the support piece is provided with a first swing mechanism connected with the conveying frame body; the first swinging mechanism comprises a first screw and a first connecting plate rotatably arranged on the supporting piece; one end of the first connecting plate is connected with the conveying frame body, and the other end of the first connecting plate is provided with a first arc hole; the first screw penetrates through the first arc hole, and the first screw is screwed into the supporting piece.

The further technical scheme is as follows: the conveying frame body comprises a main frame body and an auxiliary frame body; the main frame body is provided with a second swing mechanism connected with the auxiliary frame body; the second swinging mechanism comprises a second screw and a second connecting plate arranged on the main frame body; one end of the second connecting plate is connected with the main frame body; the other end of the second connecting plate is provided with a second arc hole; and the second screw penetrates through the second arc hole and is screwed into the subframe body.

The further technical scheme is as follows: the main frame body is provided with a driven shaft for supporting the material belt; the driven shaft is rotatably arranged at one end, close to the auxiliary frame body, of the main frame body.

The further technical scheme is as follows: the driving device comprises a chain, a main chain wheel rotationally arranged in the conveying frame body, a driven chain wheel arranged on the rotating shaft and a power device for driving the main chain wheel to rotate; the main chain wheel is arranged at the driving end of the power device; the chain is respectively wound on the main chain wheel and the auxiliary chain wheel.

The further technical scheme is as follows: the conveying frame body is provided with a tensioning device for tensioning the material belt; the tensioning device comprises a bearing arranged on the rotating shaft and a third screw in threaded connection with the conveyor frame body; the rotating shaft rotates along the inner ring of the bearing; and the outer ring of the bearing is connected with the third screw.

The utility model has the advantages as follows: the utility model discloses a conveyor for removing material adopts a swing mechanism to connect support piece and transport support body. And a second swing mechanism is adopted to connect the main frame body and the auxiliary frame body. The conveying device for moving the material piece brings the following effects: (1) the adjusting mechanism enables the material pieces to be moved to different heights, so that the capability of the conveying device for coping with different complex moving environments is improved, and the conveying device not only can horizontally move the material pieces, but also can move the material pieces to different heights; (2) after the conveying frame body inclines for a certain angle, the first swing mechanism can ensure that the support piece and the conveying frame body can be stably connected; (3) the main frame body and the auxiliary frame body are respectively connected through the second swinging mechanism, so that the main frame body and the auxiliary frame body can be stably connected; (4) when the conveying frame body inclines for a certain angle, the driven shaft outwards supports the material belt, and the driven shaft avoids the loosening of the material belt so that the material belt can stably move the material parts; (5) the third screw drives the bearing and the rotating shaft to move leftwards, so that the tensioning of the material belt is completed, and the looseness of the material belt is avoided.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

In the figure: 1. a chassis; 11. a bottom frame; 12. a fixed mount; 13. a roller; 2. a support member; 21. a first swing mechanism; 22. a first connecting plate; 23. a first circular arc hole; 24. a first screw; 3. a conveyor body; 31. a main frame body; 32. a subframe body; 33. a second swing mechanism; 34. a second connecting plate; 35. a second circular arc hole; 36. a driven shaft; 37. a second screw; 4. a rotating shaft; 5. a drive device; 51. a main sprocket; 52. a chain; 53. a power plant; 54. a slave sprocket; 6. a material belt; 7. an adjustment mechanism; 71. a screw; 72. a hand wheel; 73. a cross beam; 8. a tensioning device; 81. a bearing; 82. and a third screw.

Detailed Description

The following describes a specific embodiment of the present embodiment with reference to the drawings.

Fig. 1 is a schematic structural diagram of the present invention. With reference to fig. 1, the utility model discloses a conveying device for moving material parts. The direction of X in the figure does the utility model discloses structure schematic's upper end, the direction of Y in the figure does the utility model discloses structure schematic's right-hand member. The conveying device for moving the material comprises a driving device 5, an underframe 1, a support piece 2 movably arranged in the underframe 1, a conveying frame body 3 arranged on the support piece 2, a rotating shaft 4 parallelly and rotatably arranged in the conveying frame body 3 and a material belt 6 for moving the material. The material belt 6 is wound around the rotating shaft 4. The drive device 5 drives the rotation shaft 4 to rotate. The strip of material 6 moves along the inside of the carrier body 3.

The base frame 1 includes a base frame 11, a fixing frame 12 for fixing the base frame 11, and rollers 13 for moving the conveyor. The bottom frame 11 is vertically arranged on a fixed frame 12. The roller 13 is rotatably provided on the base frame 11. The support 2 moves along the base frame 11.

The bottom frame 11 is vertically disposed. The fixing frame 12 is arranged in the horizontal direction. The roller 13 is rotatably provided at the lower end of the base frame 11. The support 2 is embedded in the upper end of the bottom frame 11. The support 2 moves up and down along the inside of the base frame 11. The movement of the conveying device can be realized through the rollers 13, and the usability of the conveying device is improved.

The chassis 1 is provided with an adjusting mechanism 7 which drives the support member 2 to move. The adjusting mechanism 7 comprises a screw 71 which is in threaded connection with the chassis 1, a hand wheel 72 which is rotatably arranged on the chassis 1, and a cross beam 73 which is arranged on the screw 71. The hand wheel 72 is screw-fitted to the screw 71. The supports 2 are respectively provided at both ends of the cross beam 73.

Preferably, there are two adjustment mechanisms 7. The adjusting mechanisms 7 are respectively arranged at the left end and the right end of the underframe 1. The screw 71 is vertically disposed. The lower end of the hand wheel 72 is rotatably provided on the base frame 1. The cross member 73 is disposed in the front-rear direction. The upper end of the screw 71 is connected to the middle position of the cross beam 73. The supports 2 are respectively provided at the front and rear ends of the cross member 73.

When the hand wheel 72 is rotated, the hand wheel 72 drives the screw 71 to move up and down. The screw 71 drives the cross beam 73 and the support 2 to move up and down, thereby completing the adjustment of the inclination angle of the carriage body 3. The right end of the conveying frame body 3 moves upwards to form an angle by adjusting the adjusting mechanism 7 positioned at the right end of the bottom frame 1. Sometimes, the material part needs to be moved to a certain height, the material part can be moved to different heights through the adjusting mechanism 7, and the capability of the conveying device for dealing with different complex moving environments is improved. The adjusting mechanism 7 enables the conveying device to horizontally move the material part and move the material part to different heights.

The support member 2 is provided with a first swing mechanism 21 connected to the carriage body 3. The first swing mechanism 21 includes a first screw 24 and a first link plate 22 rotatably provided on the support 2. One end of the first connecting plate 22 is connected with the conveying frame body 3, and the other end of the first connecting plate 22 is provided with a first arc hole 23. The first screw 24 passes through the first circular arc hole 23, and the first screw 24 is screwed into the support member 2.

The upper end of the first connecting plate 22 is connected with the carriage body 3. The intermediate position of the first connection plate 22 is rotatably provided at the upper end of the support 2. The lower end of the rear surface of the first connecting plate 22 is provided with a first arc hole 23. After the front end of the first screw 24 passes through the first circular arc hole 23, the front end of the first screw 24 is screwed into the support member 2.

After the carriage body 3 is inclined by a certain angle, the first swing mechanism 21 can ensure the stable connection between the support member 2 and the carriage body 3.

The carriage body 3 includes a main frame body 31 and a sub-frame body 32. The main frame 31 is provided with a second swing mechanism 33 connected to the sub-frame 32. The second swing mechanism 33 includes a second screw 37 and a second link plate 34 provided on the main frame body 31. One end of the second connecting plate 34 is connected to the main frame body 31. The other end of the second connecting plate 34 is provided with a second circular hole 35. The second screw 37 passes through the second circular hole 35, and the second screw 37 is screwed into the subframe body 32.

The main frame body 31 is provided in the left-right direction. The subframe body 32 is disposed in the left-right direction. The subframe body 32 is located at the right end of the main frame body 31. The left end of the second connecting plate 34 is connected to the right end of the main frame body 31. The right end of the rear surface of the second connecting plate 34 is provided with a second circular hole 35. The front end of the second screw 37 passes through the second circular arc hole 35, and the front end of the second screw 37 is screwed into the subframe body 32.

In special cases, after the material part moves to the moving height, the material part also needs to horizontally move for a certain distance, and the situation can be met by the auxiliary frame body 32. After the main frame body 31 is tilted by an angle, the sub-frame body 32 is made to be horizontal by adjusting the angle of the sub-frame body 32. The main frame body 31 and the sub-frame body 32 are connected by the second swing mechanism 33, respectively, so that the main frame body 31 and the sub-frame body 32 can be stably connected.

The main frame body 31 is provided with a driven shaft 36 that supports the strip 6. The driven shaft 36 is rotatably provided on one end of the main frame body 31 adjacent to the sub-frame body 32.

Preferably, the rotating shaft 4 is cylindrical. Preferably, the driven shaft 36 is cylindrical. The rotary shaft 4 is rotatably provided at the left end of the main frame body 31 and the right end of the sub-frame body 32, respectively. The driven shaft 36 is rotatably provided at the right end of the main frame 31.

When the carriage body 3 is inclined at a certain angle, the driven shaft 36 supports the strip 6 outwards. Loosening of the material strip 6 is avoided by the driven shaft 36, so that the material strip 6 can move the material elements smoothly.

The driving device 5 includes a chain 52, a main sprocket 51 rotatably provided in the carriage body 3, a sub sprocket 54 provided on the rotary shaft 4, and a power device 53 for driving the main sprocket 51 to rotate. The main sprocket 51 is disposed at the drive end of the power unit 53. The chain 52 is wound around the main sprocket 51 and the sub sprocket 54, respectively.

Preferably, the power device 53 is an electric motor. The driving device 5 is arranged at the left end of the conveyor frame body 3. The master sprocket 51 is located at the right end of the slave sprocket 54. The power unit 53 is disposed in the front-rear direction. The rear end of the power unit 53 is the driving end of the power unit 53. The main sprocket 51 is disposed at the rear end of the power unit 53. The right end of the chain 52 is wound around the main sprocket 51. The left end of the chain 52 is wound around a driven sprocket 54.

The power unit 53 drives the main chain wheel 51 to rotate, and the main chain wheel 51 drives the chain 52 to move. The chain 52 rotates the driven sprocket 54 and the rotary shaft 4, and the rotary shaft 4 moves the tape 6. The driving device 5 provides stable power for the conveying device, and the stable movement of the material part is ensured.

The power unit 53 is a motor, and the selection of the motor type is common knowledge. Those skilled in the art can select the motor based on the operation of the device, such as the 5IK120RGU-CF motor.

The conveyer body 3 is provided with a tensioning device 8 for tensioning the material belt 6. The tensioning device 8 comprises a bearing 81 arranged on the rotary shaft 4 and a third screw 82 screwed to the carriage body 3. The rotary shaft 4 rotates along the inner race of the bearing 81. The outer race of the bearing 81 is connected to a third screw 82.

Preferably, there are two bearings 81. The tensioning device 8 is arranged at the left end of the carriage body 3. The bearings 81 are provided at the front and rear ends of the rotary shaft 4, respectively. The outer surface of the rotary shaft 4 is fitted to the inner race of the bearing 81. The third screws 82 are screwed to the front and rear sides of the left end of the main frame body 31. The right end of the third screw 82 is connected to the outer race of the bearing 81.

By screwing the third screw 82, the third screw 82 moves leftwards along the main frame body 31, and the third screw 82 drives the bearing 81 and the rotating shaft 4 to move leftwards, so that the tensioning of the material belt 6 is completed. The material web 6 is tensioned by the tensioning device 8, so that loosening of the material web 6 is avoided.

In the present embodiment, the power unit 53 is described as a motor, but the present invention is not limited thereto, and may be another power unit within a range capable of functioning.

In the present specification, terms such as "cylindrical" are used, and these terms are not exactly "cylindrical" and may be in a state of "substantially cylindrical" within a range capable of exhibiting the functions thereof.

In the present specification, the number of "two" or the like is used, but the present invention is not limited thereto, and other numbers may be used within a range where the functions thereof can be exerted.

In the description of the embodiments of the present invention, it should be further noted that unless explicitly stated or limited otherwise, the terms "disposed" and "connected" should be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The above description is for the purpose of explanation and not limitation of the invention, which is defined in the claims, and any modifications may be made without departing from the basic structure of the invention.

Claims (8)

1. A conveyor for moving parts, characterized by: the device comprises a driving device (5), an underframe (1), a support piece (2) movably arranged in the underframe (1), a conveying frame body (3) arranged on the support piece (2), a rotating shaft (4) parallelly and rotatably arranged in the conveying frame body (3) and a material belt (6) for moving the material piece; the material belt (6) is wound on the rotating shaft (4); the driving device (5) drives the rotating shaft (4) to rotate; the material belt (6) moves along the conveying frame body (3).

2. The transfer device for moving a material member according to claim 1, wherein: the underframe (1) comprises a underframe (11), a fixed frame (12) for fixing the underframe (11) and a roller (13) for moving the conveying device; the bottom frame (11) is vertically arranged on the fixed frame (12); the roller (13) is rotatably arranged on the bottom frame (11); the support (2) moves along the inside of the bottom frame (11).

3. The transfer device for moving a material member according to claim 1, wherein: the bottom frame (1) is provided with an adjusting mechanism (7) for driving the supporting piece (2) to move; the adjusting mechanism (7) comprises a screw rod (71) in threaded connection with the underframe (1), a hand wheel (72) rotationally arranged on the underframe (1) and a cross beam (73) arranged on the screw rod (71); the hand wheel (72) is in threaded fit with the screw rod (71); the supporting pieces (2) are respectively arranged at two ends of the cross beam (73).

4. The transfer device for moving a material member according to claim 1, wherein: a first swing mechanism (21) connected with the conveying frame body (3) is arranged on the supporting piece (2); the first oscillating mechanism (21) comprises a first screw (24) and a first connecting plate (22) rotatably arranged on the support (2); one end of the first connecting plate (22) is connected with the conveying frame body (3), and the other end of the first connecting plate (22) is provided with a first arc hole (23); the first screw (24) penetrates through the first arc hole (23), and the first screw (24) is screwed into the support piece (2).

5. The transfer device for moving a material member according to claim 1, wherein: the conveying frame body (3) comprises a main frame body (31) and an auxiliary frame body (32); the main frame body (31) is provided with a second swinging mechanism (33) connected with the auxiliary frame body (32); the second swinging mechanism (33) comprises a second screw (37) and a second connecting plate (34) arranged on the main frame body (31); one end of the second connecting plate (34) is connected with the main frame body (31); a second arc hole (35) is formed in the other end of the second connecting plate (34); the second screw (37) penetrates through the second arc hole (35), and the second screw (37) is screwed into the subframe body (32).

6. The transfer device for moving a material member according to claim 5, wherein: the main frame body (31) is provided with a driven shaft (36) for supporting the material belt (6); the driven shaft (36) is rotatably arranged at one end of the main frame body (31) close to the auxiliary frame body (32).

7. The transfer device for moving a material member according to claim 1, wherein: the driving device (5) comprises a chain (52), a main chain wheel (51) rotatably arranged in the conveying frame body (3), a driven chain wheel (54) arranged on the rotating shaft (4) and a power device (53) for driving the main chain wheel (51) to rotate; the main chain wheel (51) is arranged at the driving end of the power device (53); the chain (52) is wound on the main chain wheel (51) and the auxiliary chain wheel (54) respectively.

8. The transfer device for moving a material member according to claim 1, wherein: a tensioning device (8) for tensioning the material belt (6) is arranged on the conveying frame body (3); the tensioning device (8) comprises a bearing (81) arranged on the rotating shaft (4) and a third screw (82) in threaded connection with the conveyor frame body (3); the rotating shaft (4) rotates along the inner ring of the bearing (81); the outer ring of the bearing (81) is connected with the third screw (82).

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