KR102378811B1 - Rotor automatic feeding mechanism - Google Patents

Abstract

The present invention relates to automation technology, and more particularly, to a rotor automatic feeding mechanism. This includes a material collection box, the material collection box has an open front side and a rail installed with a slope is connected, the rail gradually decreases in height from back to front, and the material collection box has a bottom plate installed with a low front and a high rear slope. Including, on the left and right sides of the bottom plate of the material collection box, side plates extending upward are installed, a first driving device and a first cutting plate are installed in the material collection box, and the first cutting plate is raised and lowered by the action of the first driving device to adjust the distance between the lower edge of the first cutting plate and the upper edge of the bottom plate, and the rotor moves to the outside of the material collection box through the gap between the first cutting plate and the bottom plate. This can prevent jamming during the movement of the rotor, and it is possible to implement the rotor supply of various models.

Description

Rotor automatic feeding mechanism {ROTOR AUTOMATIC FEEDING MECHANISM}

The present invention relates to automation technology, and more particularly, to a rotor automatic feeding mechanism.

The rotor includes a rotor shaft and an iron core fixed to the rotor shaft, and further includes a series of other parts. sequential supply of

In the conventional rotor supply device, there are many cases where the rotor is jammed, and the failure rate is high. Also, the conventional rotor supply device has difficulty in supplying more models of rotors, so usually only one model of rotor can be supplied. .

Japanese Patent Application Laid-Open No. 2001-270612 (2001.10.02.)

It is an object of the present invention to provide a rotor automatic feeding mechanism that can prevent jamming during the movement of the rotor and supplies rotors of various models.

In order to realize the above object, the present invention adopts the following technical solution. The rotor automatic feeding mechanism includes a material collection box, the material collection box has an open front side and a rail installed at a slope is connected, the rail gradually decreases in height from back to front, and the material collection box has a low front and a high back. It includes a bottom plate installed at an angle, and side plates extending upward are installed on both left and right sides of the bottom plate of the material collection box, a first driving device and a first cutting plate are installed in the material collection box, and the first cutting plate is a first driving The device moves up and down to adjust the distance between the lower edge of the first cutting plate and the upper edge of the bottom plate, and the rotor moves to the outside of the material collection box through the gap between the first cutting plate and the bottom plate.

The rotor of the present invention moves on the inclined bottom plate and rail through its own gravity, and proceeds the movement of the rotor without employing a mechanical hand, the failure rate is low, and the production cost is lower. The present invention is equipped with a material collection box, can accommodate a larger number of rotors, can supply a larger number of rotors without interruption, is more convenient to use, and is more suitable for automated production equipment. The present invention is provided with a first cutting plate to control the movement height of the first cutting plate and the time required for movement, so that only one rotor can roll out of the opening of the material collection box each time.

Preferably, the side plate includes a stationary side plate and a movable side plate, the rotor in the material collection box is limited between the stationary side plate and the movable side plate, and the movable side plate moves left and right in the material collection box and moves the stationary member It is fixed to the material collection box through The rotor is placed horizontally between the fixed side plate and the movable side plate, and the distance between the fixed side plate and the movable side plate is controlled by adjusting the left and right positions of the movable side plate, thereby preventing the rotor from being caught in the slope when rolling down. By making the distance between the movable side plate and the fixed side plate slightly larger than the length of the rotor, tilting of the rotor as it rolls is avoided. Prevents the rotor from leaving the rails. Here, the movable side plate can be moved left and right, so that the device of the present invention can be used to supply more different lengths of different models of rotors.

Preferably, the front end of the material collection box is opened downward, and a bearing platform is installed below the opening of the material collection box, the bearing platform is always located below the opening of the material collection box, and the rear end of the rail ( rear block) and the bearing platform are in contact with each other, the bearing platform positioning plates are installed on both left and right sides of the bearing platform, the rear blocking block is installed at the rear side of the bearing platform, and the front end face of the rear blocking block is a slope type with a low front and a high back and located below the front of the material collection box opening, a lifting mechanism is matched to the bearing platform, the lifting mechanism is used to adjust the bearing platform height, and the elevation position of the upper edge of the rear end of the rail is the elevation position of the upper surface of the bearing platform higher than; The movable side plate and the top plate on which the bearing platform is located are fixed and interlocked.

The bearing platform is located below the opening point of the material collection box, and the bearing platform can accommodate a certain number of rotors, and through the newly fallen rotor, the most forward rotor of the bearing platform is pushed from the bearing platform. Move the inner, frontmost rotor to the rail. Here, the deflection of the rotor is limited through the bearing platform located on both sides of the bearing platform, and axial displacement is prevented from occurring in the rotor dropped from the material collection box, thereby ensuring that the rotor of the rail can move on the set route. Prevents departure from rail.

Preferably, the rail is provided with a gap blocking mechanism, the gap blocking mechanism includes a second cutting plate and a third cutting plate, the third cutting plate is located in front of the second cutting plate, the second cutting plate One second driving device is matched to each of the plate and the third cutting plate, the second cutting plate and the third cutting plate are both used to block the continuous movement of the rotor on the rail; The first cut plate, the second cut plate, and the third cut plate all have a panel-like structure, or the thickness of the first cut plate, the second cut plate, and the third cut plate is gradually reduced from top to bottom. With the above installation, it is realized to feed the rotor in order.

Preferably, the rail includes a first rail and a second rail for supporting both ends of the rotor shaft of the rotor, and when the rotor rolls on the rail, the iron core of the rotor is formed between the first rail and the second rail. limited between By guiding the iron core between the first rail and the second rail, there is no deflection in the movement of the rotor, and the rotor can be supplied to roll along the rail setting route.

Preferably, both the first rail and the second rail are fixed to a rail support plate, and a first strip-shaped groove installed along the left and right directions is installed on the rail support plate and a position fixing member is disposed, A position fixing hole matching the position fixing member is installed in the second rail, and the position fixing member includes a first bolt and a first nut, and the second rail moves left and right along the first belt-shaped groove to fix the position It is fixed to the rail support plate through the member. The distance between the first rail and the second rail of the present invention is also adjustable, and can also be used for rolling of rotors of different iron core lengths.

Preferably, a position fixing plate is provided on the front side of the bottom plate, the position fixing plate is installed at a vertical interval and a plurality of second belt-shaped grooves penetrating back and forth are installed, and the second belt-shaped groove is installed along the left and right directions, , The fixing member includes a second bolt that fits in the second belt-shaped groove, and a first fixing hole used for matching with the second bolt is installed on the front end surface of the movable side plate. With the above installation, the movable side plate of the present invention has a better induction effect during movement, the movable side plate and the fixed side plate can be installed in parallel, and the space between the movable side plate and the fixed side plate can be avoided from getting smaller or larger, so that the rotor It can prevent being caught between the movable side plate and the fixed side plate. Here, the side plate is installed on the left and right sides of the material collection box of the present invention, the position fixing plate is installed on the front side, and no plate is installed on the rear side, so it is convenient for the operator to put the rotor into the material collection box.

Preferably, the guide rod installed along the left and right direction is fixed to the fixed side plate, the guide rod is provided with a third belt-shaped groove penetrating up and down and installed along the left-right direction, and the movable side plate has a third belt-shaped groove penetrating upward. and a second fixing hole communicating with each other is installed, and the fixing member includes a second fixing hole and a third bolt fitted in the third belt-shaped groove.

Preferably, the shape of the outer edge of the guide rod cross-section and the inner edge of the guide rod cross-section are both rectangular.

Preferably, a guide block is fixed to the movable side plate, the guide block extends to an upper side of the positioning plate, and the guide block has a fourth belt-shaped groove penetrating up and down and installed along the left and right directions, and the upper surface of the positioning plate A plurality of third fixing holes concavely installed at left and right intervals are formed, and the fixing member includes a fourth belt-shaped groove and a third bolt fitted in the third fixing hole.

The invention has the advantage that it is possible to prevent being caught during the movement of the rotor, and it is possible to implement the rotor supply of various models.

1 is a structural schematic diagram of the present invention.
2 is a schematic diagram of another structure of the present invention.
3 is a cross-sectional view of the present invention.
Figure 4 is a structural schematic diagram of the present invention removing one side of the fixed side plate.

Hereinafter, the present invention will be further described based on the drawings and specific embodiments.

As shown in Figures 1 to 4, the rotor automatic feeding mechanism of the present invention includes a material collection box (1), the material collection box (1) has an open front side and a rail 200 installed with a slope is connected. The rail 200 gradually decreases in height from back to front, and the material collection box 1 includes a bottom plate 11 installed with a low front and a high slope at the back, and side plates extending upwards on the left and right sides of the bottom plate 11 This is installed, the first driving device 2 and the first cutting plate 21 are installed in the material collection box 1, and the first cutting plate 21 is raised and lowered by the action of the first driving device 2 The distance between the lower edge of the first cutting plate 21 and the upper edge of the bottom plate 11 is adjusted, and the rotor 300 closes the gap between the first cutting plate 21 and the bottom plate 11 . It moves to the outside of the material collection box (1) through the

The side plate includes two fixed side plates 31 and a movable side plate 32 located between the two fixed side plates, and the rotor in the material collection box 1 is between the fixed side plate 31 and the movable side plate 32. The movable side plate 32 moves left and right in the material collection box 1 and is fixed with the material collection box 1 through a fixing member.

A position fixing plate 4 is provided on the front side of the bottom plate 1, and a plurality of second belt grooves 41 that are installed at vertical intervals and penetrate back and forth are installed in the position fixing plate 4, and a second belt groove 41 ) is installed along the left and right direction, the fixing member includes a second bolt 42 that fits in the second belt-shaped groove 41, and the movable side plate 32 is used for matching with the second bolt 42 on the front end surface. A first fixing hole is installed.

The guide rod 5 installed along the left and right direction is fixed to the fixed side plate, the guide rod 5 is vertically penetrated and a third belt-shaped groove 51 installed along the left and right direction is installed, and the movable side plate 32 penetrates upward. Thus, a second fixing hole communicating with the third belt-shaped groove 51 is installed, and the fixing member includes a second fixing hole and a third bolt fitted in the third belt-shaped groove 51 . Here, the shape of the outer edge of the guide rod 5 cross section and the inner edge of the guide rod cross section are both rectangular.

The guide block 6 is fixed to the movable side plate 32, the guide block 6 extends to the upper side of the position fixing plate 4, and the guide block 6 penetrates up and down and is a fourth belt-shaped groove installed along the left and right directions. 61, and a plurality of third fixing holes 43 concavely installed at left and right intervals are formed on the upper surface of the position fixing plate 4, and the fixing member includes a fourth belt-shaped groove 61 and a third fixing hole ( 43) with a 3rd bolt that fits inside.

The front end of the material collection box (1) is opened downward, the opening is located between the bottom of the bottom plate (11) and the lower end of the position fixing plate (4), and the bearing platform (7) below the opening of the material collection box (1) is installed, the bearing platform 7 is always located below the opening of the material collection box 1, the rear end of the rail 200 and the bearing platform 7 are in contact with each other, and the bearing platform 7 is on the left and right sides The bearing platform positioning plate 71 is installed, the rear blocking block 72 is installed on the rear side of the bearing platform 7, and the front end face of the rear blocking block 72 is a slope type with a low front and a high back, and a material collection box ( 1) Located below the front of the opening, the lifting mechanism 73 is disposed on the bearing platform 7, the lifting mechanism 73 is used to adjust the bearing platform height, and the height of the upper edge of the rear end of the rail 200 (高度) position is higher than the elevation position of the top surface of the bearing platform (7); The movable side plate 32 and the bearing platform positioning plate 71 are fixed and interlocked. Here, the hoisting mechanism is a mechanism that can make all the height changes, either manually or electrically.

The rail 200 is provided with a gap blocking mechanism, the gap blocking mechanism includes a second cutting plate 81 and a third cutting plate 82 , and the third cutting plate 82 is a second cutting plate 81 . Located on the front side, one second driving device 83 is matched to the second cutting plate 81 and the third cutting plate 82, respectively, and the second cutting plate 81 and the third cutting plate 82 are Both block the continuous movement of the rotor 300 on the rail 200; The thickness of the first cutting plate 21 , the second cutting plate 81 and the third cutting plate 82 is gradually decreased from top to bottom.

The rail 200 includes a first rail 91 and a second rail 92 for supporting both ends of the shaft of the rotor 300 of the rotor, and when the rotor 300 rolls on the rail 200 , , the iron core of the rotor 300 is limited between the first rail 91 and the second rail 92 . The first rail 91 and the second rail 92 are both fixed to the rail support plate 93, and the first belt-shaped groove 94 installed along the left and right directions is installed in the rail support plate 93, and the position fixing member is is disposed, the second rail 92 is provided with a position fixing hole 95 matching the position fixing member, the position fixing member includes a first bolt and a first nut, and the second rail 92 is a first belt-shaped It moves left and right along the groove 95 and is fixed to the rail support plate 93 through a position fixing member.

When using the device of the present invention, a plurality of rotors are put in a material collection box, and only a gap exists between both ends of the rotor axial direction and the side plate through the movement of the movable side plate, and the first cutting is performed through the first driving device Control the plate up and down movement so that only one rotor rolls forward under the action of gravity each time; A certain height difference is placed between the top surface of the bearing platform and the top surface of the rear end of the rail, so that a number of rotors are gathered on the bearing platform so that one rotor at the frontmost side of the bearing platform and the rear end of the guide rail come into contact with each other, and a new rotor falls on the bearing platform. When doing so, the rotor falls and matches the rearmost rotor of the bearing platform, and moves the frontmost rotor forward and upward to move it to the rail.

When the third cutting plate is moved upward through the two second driving devices, the second cutting plate can block the movement of the rear rotor, and then move the third cutting plate downward, and move the second cutting plate upward moved, again with a rotor between the second and third cutting plates, making it possible to feed the rotors in sequence.

If you need to supply a rotor of a different model, you only need to move the movable side plate and the second rail left and right.

The invention has the advantage that it is possible to prevent being caught during the movement of the rotor, and it is possible to implement the rotor supply of various models.

Claims (10)

A material collection box is included, wherein the material collection box has an open front side and a rail installed with a slope is connected, the rail gradually decreases in height from back to front, and the material collection box includes a bottom plate installed with a low front and a high rear slope. and side plates extending upward are installed on both left and right sides of the bottom plate of the material collection box, a first driving device and a first cutting plate are installed in the material collection box, and the first cutting plate is raised and lowered by the action of the first driving device. Adjusting the distance between the lower edge of the first cutting plate and the upper edge of the bottom plate, the rotor moves to the outside of the material collection box through the gap between the first cutting plate and the bottom plate,
The side plate includes a stationary side plate and a movable side plate, the rotor in the material collection box is limited between the stationary side plate and the movable side plate, and the movable side plate moves left and right in the material collection box and moves through the stationary member to the material collection box and fixed,
A position fixing plate is provided on the front side of the bottom plate, the position fixing plate is installed at a vertical interval and a plurality of second belt-shaped grooves penetrating back and forth are installed, and the second belt-shaped groove is installed along the left and right direction, and the fixing member includes a second bolt that fits in a second belt-shaped groove, and a first fixing hole used for matching with the second bolt is installed on the front end surface of the movable side plate,
The front end of the material collection box is opened downward, and a bearing platform is installed below the opening of the material collection box, and the bearing platform is always located below the opening of the material collection box, the rear end of the rail and The bearing platforms are in contact with each other, the bearing platform positioning plates are installed on the left and right sides of the bearing platform, the rear blocking block is installed on the rear side of the bearing platform, the front end face of the rear blocking block is a slope type with a low front and a high back, and material collection located below the front of the box opening, the bearing platform is matched with a lifting mechanism, the lifting mechanism is used to adjust the bearing platform height, and the elevation position of the upper edge of the rear end of the rail is higher than the elevation position of the top surface of the bearing platform; Rotor automatic feeding mechanism, characterized in that the movable side plate and the bearing platform positioning plate are fixed and interlocked. delete delete According to claim 1,
A gap blocking mechanism is installed on the rail, the gap blocking mechanism includes a second cut plate and a third cut plate, the third cut plate is located in front of the second cut plate, the second cut plate and the third cut plate Each cutting plate is matched with one second driving device, and both the second cutting plate and the third cutting plate are used to block the continuous movement of the rotor on the rail; The first cut plate, the second cut plate, and the third cut plate all have a panel-like structure, or the thickness of the first cut plate, the second cut plate, and the third cut plate is gradually reduced from top to bottom. Rotor automatic feeding mechanism. 5. The method of claim 1 or 4,
The rail includes a first rail and a second rail for supporting both ends of the rotor shaft of the rotor, and when the rotor rolls on the rail, the iron core of the rotor is limited between the first rail and the second rail Rotor automatic feeding mechanism, characterized in that. 6. The method of claim 5,
The first rail and the second rail are both fixed to a rail support plate, and a first strip-shaped groove installed along the left and right directions is installed on the rail support plate and a position fixing member is disposed, and the second rail has the A position fixing hole matching the position fixing member is installed, the position fixing member includes a first bolt and a first nut, and the second rail moves left and right along the first belt-shaped groove and the rail through the position fixing member Rotor automatic feeding mechanism, characterized in that fixed to the support plate. delete According to claim 1,
A guide rod installed along the left and right directions is fixed to the fixed side plate, the guide rod has a third belt-shaped groove that penetrates vertically and is installed along the left-right direction, and the movable side plate penetrates upward and communicates with the third belt-shaped groove 2 fixing holes are installed, and the fixing member includes a third bolt fitted in the second fixing hole and the third belt-shaped groove. 9. The method of claim 8,
The shape of the outer edge of the guide rod cross section and the inner edge of the guide rod cross section are both rectangular. According to claim 1,
A guide block is fixed to the movable side plate, the guide block extends to the upper side of the positioning plate, the guide block penetrates vertically and has a fourth belt-shaped groove installed along the left and right directions, and the upper surface of the positioning plate is concavely left and right A plurality of third fixing holes installed at intervals are formed, and the fixing member includes a fourth belt-shaped groove and a third bolt fitted in the third fixing hole.

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