CN217050536U - Cement resistor automatic transfer device - Google Patents

Abstract

The utility model discloses a cement resistance automatic transfer device belongs to cement resistance and carries technical field, including fixed platform, the top of fixed platform is equipped with rotatory mainboard, and one side at rotatory mainboard top sets up flutedly, the top of recess is equipped with the delivery board that has a plurality of resistance grooves, and the interior week of recess is equipped with the transport lead screw, the periphery cover of transport lead screw is equipped with the nut seat of being connected with the delivery board, a plurality of square cavities have been seted up to the opposite side at rotatory mainboard top, and the interior week in square cavity is equipped with sleeve pipe and threaded rod, one side that rotatory mainboard is close to the square cavity is equipped with a plurality of arc clamp plates that are used for the presser foot, and one side of arc clamp plate is connected with the hydraulic stem. This cement resistance automatic transfer device not only can carry out the automation to cement resistance and carry, can also carry out the design of bending to the pin of cement resistance.

Description

Cement resistor automatic transfer device

Technical Field

The utility model belongs to the technical field of the cement resistance is carried, concretely relates to cement resistance automatic transfer device.

Background

Cement resistance: the resistor is wound on a non-alkali heat-resistant porcelain, and is protected and fixed by a heat-resistant, moisture-resistant and corrosion-resistant material, and the wound resistor is placed in a square porcelain frame and is filled and sealed by special non-combustible heat-resistant cement. The outer side of the cement resistor is mainly made of ceramic materials (generally, the cement resistor can be divided into high-alumina porcelain and feldspar porcelain).

Cement resistor is at the in-process of carrying, need carry out the plastic to required camber or shape and size to the pin of cement resistor and carry again, and current plastic method is mostly gone on through the manual work, and the effect of its plastic is relatively poor, the error is great, if has a conveyor with plastic structure, can solve above-mentioned problem.

Therefore, in order to meet the current situation, the design and production of the cement resistor automatic transfer device are urgently needed to meet the requirement of practical use.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a cement resistance automatic transfer device to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above purpose, the utility model provides a following technical scheme: the utility model provides a cement resistor automatic transfer device, includes fixed platform, fixed platform's top is equipped with rotatory mainboard, and one side at rotatory mainboard top is seted up flutedly, the top of recess is equipped with the delivery board that has a plurality of resistance grooves, and the interior week of recess is equipped with feed screw, feed screw's periphery cover is equipped with the nut seat of being connected with the delivery board, a plurality of square cavitys have been seted up to the opposite side at rotatory mainboard top, and the interior week in square cavity is equipped with sleeve pipe and threaded rod, one side that rotatory mainboard is close to the square cavity is equipped with a plurality of arc clamp plates that are used for the presser foot, and one side of arc clamp plate is connected with the hydraulic stem.

Preferably, one end of the conveying screw rod is rotatably connected with the inner periphery of the groove through a bearing, and the other end of the conveying screw rod penetrates through the rotating main board and is connected with the conveying motor.

Preferably, a thickened plate is integrally formed at the part of the rotating main plate, which is located in the square cavity, a plurality of transmission grooves corresponding to the square cavity are formed in the inner periphery of the thickened plate, and a driving rod is arranged in the inner periphery of the thickened plate.

Preferably, the drive rod is connected with hollow bevel gears at the peripheries of the plurality of transmission cavities, and one side of each hollow bevel gear is meshed with the corresponding transmission bevel gear.

Preferably, the sleeve is in threaded connection with the threaded rod, and the bottom end of the threaded rod penetrates through the rotating main plate and is connected with one side of the transmission bevel gear.

Preferably, one side of the fixed platform and one side of the rotating main board are both connected with hinged plates, and one side of one hinged plate is provided with a rotating motor.

Preferably, one side of the rotating main plate, which is close to the square cavity, is connected with a plurality of partition plates which are distributed equidistantly.

The utility model discloses a technological effect and advantage:

the conveying motor works to drive the conveying screw rod to rotate, so that the nut seat moves, the conveying plate is driven to move, and the cement resistor in the resistor groove further moves;

the arc pressing plate is driven to move by the operation of the hydraulic rod, so that the arc pressing plate bends two pins of the cement resistor to a required degree;

the driving rod is driven to rotate through the work of the driving motor, so that the hollow bevel gear rotates, and the transmission bevel gear rotates;

the bevel gear is driven to rotate, so that the threaded rod rotates, the sleeve is moved, and the cement resistor is pushed to move out of the resistor groove;

then the rotating motor is started to drive the hinged plate to rotate, so that the angle can be inclined, and the cement resistor can conveniently fall down through the blocking protection of the partition plate;

this cement resistance automatic transfer device not only can carry out the automation to cement resistance and carry out the bending design to the pin of cement resistance.

Drawings

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

fig. 2 is a sectional view of the rotating main plate of the present invention;

fig. 3 is a cross-sectional view of the thickened plate of the present invention.

In the figure: 1. fixing the platform; 2. rotating the main board; 3. a conveying plate; 4. conveying a screw rod; 5. a nut seat; 6. a sleeve; 7. a threaded rod; 8. an arc pressing plate; 9. a conveying motor; 10. thickening the plate; 11. a driving lever; 12. a hollow bevel gear; 13. a drive bevel gear; 14. a hinge plate; 15. a rotating electric machine; 16. a partition plate; 17. a connecting plate; 18. an active motor; 81. a hydraulic rod.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

As shown in fig. 1, a rotating main plate 2 is arranged at the top of a fixed platform 1; one side of the top of the rotating main board 2 is provided with a groove;

the bottom of the fixed platform 1 is connected with four supporting legs which are distributed in a rectangular array;

a conveying plate 3 with a plurality of resistance grooves is arranged above the groove, the resistance grooves are matched with the shape of a cement resistor to be conveyed, and a conveying screw rod 4 is arranged on the inner periphery of the groove;

the other side of the top of the rotating main plate 2 is provided with a plurality of square cavities, the inner peripheries of the square cavities are provided with sleeves 6 and threaded rods 7, and the sleeves 6 are matched with the square cavities;

the part of the rotating main board 2 in the square cavity is integrally formed with a thickened board 10, the inner periphery of the thickened board 10 is provided with a plurality of transmission grooves corresponding to the square cavity, and the inner periphery of the thickened board 10 is provided with a driving rod 11.

The mounting, connecting and connecting modes can be selected from fasteners, bonding or welding and the like.

In order to realize automatic conveying, as shown in fig. 2, one end of the conveying screw rod 4 is rotatably connected with the inner periphery of the groove through a bearing;

the other end of the conveying screw rod 4 penetrates through the rotating main board 2 and is connected with a conveying motor 9, the conveying motor 9 is connected with one side of the rotating main board 2, a nut seat 5 is sleeved on the periphery of the conveying screw rod 4, and the top of the nut seat 5 is connected with the bottom of the conveying board 3;

the conveying motor 9 works to drive the conveying screw rod 4 to rotate, so that the nut seat 5 moves, the conveying plate 3 is driven to move, and the cement resistor in the resistor groove further moves;

when the conveying plate 3 moves to the most lateral side, the square cavity is positioned in the center of the resistance groove.

In order to automatically shape the pins, as shown in fig. 1, a plurality of arc pressing plates 8 for pressing the pins are arranged on one side of the rotating main plate 2 close to the square cavity, and a connecting plate 17 is connected to one side of the arc pressing plates 8 far away from the square cavity;

one side of the connecting plate 17 is connected with a plurality of hydraulic rods 81, and the driving ends of the hydraulic rods 81 are connected with the arc pressing plate 8;

through the work of hydraulic stem 81, drive arc clamp plate 8 and remove, make arc clamp plate 8 to the bending of two pins of cement resistance to required degree.

In order to realize transmission, as shown in fig. 3, one end of the driving rod 11 penetrates through the thickened plate 10 and is rotatably connected with the thickened plate 10 through a bearing, and the other end of the driving rod 11 is connected with a driving motor 18;

the periphery of the driving rod 11, which is positioned in the plurality of transmission cavities, is connected with hollow bevel gears 12, and one sides of the hollow bevel gears 12 are engaged with transmission bevel gears 13;

the driving rod 11 is driven to rotate by the operation of the driving motor 18, so that the hollow bevel gear 12 rotates, and the transmission bevel gear 13 rotates;

the sleeve 6 is in threaded connection with the threaded rod 7, and the bottom end of the threaded rod 7 penetrates through the rotating main plate 2 and is connected with one side of the transmission bevel gear 13;

the rotation of the transmission bevel gear 13 enables the threaded rod 7 to rotate, so that the sleeve 6 moves and pushes the cement resistor to move out of the resistor groove;

in order to drive the rotating main board 2 to rotate, as shown in fig. 1, hinged plates 14 are connected to one sides of the fixed platform 1 and the rotating main board 2, and a rotating motor 15 is installed on one side of one of the hinged plates 14;

the output end of the rotating motor 15 is connected with a rotating shaft, and one end of the rotating shaft penetrates through the hinged plate 14 connected with the fixed platform 1 and is connected with the center of the hinged plate 14 connected with the rotating main board 2;

the hinged plate 14 is driven to rotate by the work of the rotating motor 15, so that the angle can be inclined, and the cement resistor can fall conveniently;

both ends of one side of the rotating main plate 2 are connected with supporting blocks for supporting.

In order to protect the cement resistors, as shown in fig. 1, a plurality of partition plates 16 are connected to one side of the rotating main plate 2 close to the square cavity, and the partition plates 16 are distributed at equal intervals, so that collision between the cement resistors can be avoided.

The conveying motor 9, the rotating motor 15 and the driving motor 18 can BE selected as forward and reverse rotating motors, the type of the hydraulic rod 81 can BE selected as BE-R412B, and the conveying motor 9, the rotating motor 15, the driving motor 18 and the hydraulic rod 81 are all electrically connected with an external power supply.

The working principle is as follows:

when the automatic cement resistor transferring device needs to be used, the device body is arranged on one side of the external conveyor, and the cement resistor is placed on the inner periphery of the resistor groove;

starting a conveying motor 9 to drive a conveying screw rod 4 to rotate, so that a nut seat 5 moves, and a cement resistor in a conveying plate 3 is driven to move to the other side;

starting the hydraulic rod 81 to drive the arc pressing plate 8 to move, so that the arc pressing plate 8 bends two pins of the cement resistor to a required degree;

then starting a driving motor 18 to drive a driving rod 11 to rotate, so that a hollow bevel gear 12 rotates, a transmission bevel gear 13 rotates, the transmission bevel gear 13 rotates, a threaded rod 7 rotates, and the sleeve 6 moves and pushes the cement resistor to move out of the resistor slot;

meanwhile, the rotating motor 15 is started to drive the hinged plate 14 to rotate, so that the angle can be inclined, and the cement resistor falls;

in the falling process of the cement resistor, the cement resistor can fall to the upper part of the conveyor through the blocking and limiting of the partition plate 16.

Finally, it should be noted that: the above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not intended to limit the present invention.

Claims (7)

1. The utility model provides a cement resistance automatic transfer device, includes fixed platform (1), the top of fixed platform (1) be equipped with rotatory mainboard (2), and one side at rotatory mainboard (2) top is seted up flutedly, its characterized in that: the top of recess is equipped with delivery board (3) that have a plurality of resistance grooves, and the interior week of recess is equipped with feed screw (4), the periphery cover of feed screw (4) is equipped with nut seat (5) of being connected with delivery board (3), a plurality of square cavities have been seted up to the opposite side at rotatory mainboard (2) top, and the interior week in square cavity is equipped with sleeve pipe (6) and threaded rod (7), one side that rotatory mainboard (2) are close to the square cavity is equipped with a plurality of arc clamp plates (8) that are used for the presser foot, and one side of arc clamp plate (8) is connected with hydraulic stem (81).

2. The cement resistor automatic transfer device according to claim 1, characterized in that: one end of the conveying screw rod (4) is rotatably connected with the inner periphery of the groove through a bearing, and the other end of the conveying screw rod (4) penetrates through the rotating main board (2) and is connected with a conveying motor (9).

3. The cement resistor automatic transfer device as claimed in claim 1, wherein: the part, located in the square cavity, of the rotating main plate (2) is integrally formed with a thickened plate (10), a plurality of transmission grooves corresponding to the square cavity are formed in the inner periphery of the thickened plate (10), and a driving rod (11) is arranged on the inner periphery of the thickened plate (10).

4. The cement resistor automatic transfer device according to claim 3, characterized in that: the periphery of the driving rod (11) in the transmission cavities is connected with hollow bevel gears (12), and one sides of the hollow bevel gears (12) are meshed with the transmission bevel gears (13).

5. The cement resistor automatic transfer device as claimed in claim 4, wherein: the sleeve (6) is in threaded connection with the threaded rod (7), and the bottom end of the threaded rod (7) penetrates through the rotating main plate (2) and is connected with one side of the transmission bevel gear (13).

6. The cement resistor automatic transfer device according to claim 1, characterized in that: one side of fixed platform (1) and rotatory mainboard (2) all is connected with articulated slab (14), and rotating electrical machines (15) are installed to one side of one of them articulated slab (14).

7. The cement resistor automatic transfer device as claimed in claim 1, wherein: one side of the rotating main plate (2) close to the square cavity is connected with a plurality of partition plates (16) which are distributed equidistantly.

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