CN215592365U - Hoisting auxiliary mechanism for pouring and forming of mutual inductor - Google Patents

Abstract

The utility model relates to a hoisting auxiliary mechanism for pouring and forming a mutual inductor, which comprises an auxiliary clamping mechanism, wherein the auxiliary clamping mechanism comprises a bearing plate, the upper surface of the bearing plate is connected with a pneumatic rotating shaft, the left end of the pneumatic rotating shaft is connected with a connecting groove, the connecting groove is connected with a connecting rod, the left end of the connecting rod is connected with a first support arm, the front side wall of the connecting groove is provided with a cylinder of which the output end is connected with the first support arm, the first support arm is connected with a second support arm, the second support arm is connected with a third support arm through a hinge groove, the left part of the third support arm is provided with a connecting shaft, the lower end of the connecting shaft is hinged with a connecting block, the lower end of the connecting block is connected with a clamping block, a pneumatic sliding rail is arranged in the clamping block in a penetrating manner, the lower surface of the pneumatic sliding rail is provided with a left sliding groove and a right sliding groove, the left sliding groove is internally provided with a sliding block, the lower surface of the sliding block is connected with a clamping plate, and the problem of low conveying efficiency when a mould is conveyed to a pouring machine by manpower is solved, influence the production efficiency and increase the production cost.

Description

Hoisting auxiliary mechanism for pouring and forming of mutual inductor

Technical Field

The utility model relates to the technical field of mutual inductors, in particular to a hoisting auxiliary mechanism for pouring and forming of a mutual inductor.

Background

The mutual inductor is also called instrument transformer, and is a general name of current mutual inductor and voltage mutual inductor. The high voltage can be changed into low voltage, and the large current can be changed into small current for measuring or protecting the system. Its function is mainly to convert high voltage or large current into standard low voltage (100V) or standard small current (5A or 1A, both referring to rated value) in proportion so as to implement standardization and miniaturization of measuring instrument, protective equipment and automatic control equipment, and the mutual inductor can also be used to isolate high voltage system so as to ensure the safety of human body and equipment.

Mutual-inductor production flow usually has the coil coiling, the oven heating, the die-filling, the shaping is pour in vacuum, the heat cure, the drawing of patterns, the solidification after the heating, burring and assembly, wherein, need use corresponding mould when the shaping is pour in mutual-inductor vacuum, but mould weight is great, when carrying the mould toward pouring machine, only carry the pouring machine next door with the help of the small handcart at present and then remove the corresponding position of pouring machine by the manpower again, the weak point lies in, mould weight is big, the extravagant a large amount of manpowers of transport, and artifical transport efficiency is low, cause production efficiency low, increase production cost, there is transport efficiency low, influence production efficiency, increase production cost's problem.

Disclosure of Invention

The hoisting auxiliary mechanism for the pouring of the mutual inductor aims at solving the problems that the conveying efficiency is low when the mould is conveyed to the pouring machine manually, the production efficiency is influenced, and the production cost is increased.

In order to solve the problems, the technical scheme of the utility model is as follows:

the hoisting auxiliary mechanism for casting and forming the mutual inductor comprises a casting machine and an auxiliary clamping mechanism;

the auxiliary clamping mechanism comprises a bearing plate, the bearing plate is a horizontal rectangular plate body, the rear end face of the bearing plate is connected with the front surface of a casting machine, the upper surface of the bearing plate is rotatably connected with a pneumatic rotating shaft, the upper surface of the pneumatic rotating shaft is provided with a first pneumatic valve, the left end of the pneumatic rotating shaft is connected with a connecting groove, the connecting groove is a hollow cuboid with an upper end face and a lower end face which are flush with the upper end face and the lower end face of the pneumatic rotating shaft and provided with an opening at the left end, a connecting rod is connected in the connecting groove and is a round rod body, the peripheral walls at the front side and the rear side of the right end of the connecting rod are hinged with the lower parts of the front side wall and the rear side wall of the connecting groove, the left end of the connecting rod is connected with a first support arm, the first support arm is a hollow cuboid with openings at the left end and the right end, the left end of the connecting rod is positioned in the first support arm and hinged with the front side wall and rear side wall of the first support arm, be connected with the cylinder between spread groove and the first support arm, cylinder and connecting rod parallel arrangement and output end are towards a left side, the surface of the preceding lateral wall of spread groove is connected to the right-hand member of cylinder, the surface of the preceding lateral wall of left end connection first support arm, the lower lateral wall of first support arm is connected with the second support arm, the second support arm is the body of rod that the level set up, the right-hand member of second support arm is connected with the first support arm through the upper and lower surface that runs through the second support arm and the connecting rod that lateral wall is connected under the first support arm, the left end of second support arm is provided with the hinge groove, the hinge groove is the rectangle cell body that runs through second support arm front and back surface and left surface, the hinge inslot is connected with the third support arm, the third support arm is the body of rod that the level set up, the right-hand member of third support arm is located the hinge groove, the upper end of second support arm is provided with the motor, the output shaft of motor from the top down runs through the upper lateral wall in proper order in hinge groove, The upper surface and the lower surface of a third support arm are fixedly connected with the lower side wall of a hinge groove, the third support arm is fixedly connected with an output shaft of a motor, a connecting shaft penetrating through the upper surface and the lower surface of the third support arm is arranged at the left part of the third support arm, the connecting shaft is rotatably connected with the third support arm, a connecting block is hinged at the lower end of the connecting shaft, the lower end of the connecting block is connected with a clamping block, the clamping block is a hollow cuboid with openings at the left end and the right end, a pneumatic slide rail is arranged in the clamping block in a penetrating manner, the middle part of the pneumatic slide rail is positioned in the clamping block, a second pneumatic valve is arranged on the upper surface of the pneumatic slide rail, a left slide groove and a right slide groove which are identical in structure size and symmetrical left and right are arranged on the lower surface of the pneumatic slide rail, the left slide groove is a T-shaped groove which is arranged along the length direction of the slide rail, is upwards sunken along the lower surface of the slide rail and has a downward opening, and a stop block is connected on the lower surface at the left side of the left slide rail, the pneumatic slide rail is characterized in that the stop block is a rectangular block-shaped body, the left surface of the stop block is flush with the left end face of the pneumatic slide rail, a slide block corresponding to the left slide groove is arranged in the left slide groove, the lower surface of the slide block is connected with a clamping plate, and the clamping plate is a vertically arranged rectangular plate body.

Further, the slider in the left spout and the lateral wall sliding contact of left spout, the slider in the right spout and the lateral wall sliding contact of right spout.

Further, the width of the clamping plate below the left sliding groove is larger than that of the left sliding groove, and the width of the clamping plate below the right sliding groove is larger than that of the right sliding groove.

Further, the upper surface of the clamping plate below the left sliding groove and the upper surface of the clamping plate below the right sliding groove are in sliding contact with the lower surface of the pneumatic sliding rail.

Furthermore, the right surface of the clamping plate below the left sliding groove and the left surface of the clamping plate below the right sliding groove are provided with cushion pads matched with the surfaces of the connected clamping plates.

Further, the buffer pad is a sheet-shaped body made of elastic rubber materials.

Through the technical scheme, the utility model has the beneficial effects that:

the method comprises the steps of conveying a mutual inductor mould to the position below a hoisting auxiliary mechanism for casting and forming the mutual inductor in front of a casting machine, controlling a cylinder to contract, driving a first support arm, a second support arm, a third support arm and a pneumatic slide rail to move downwards, enabling the third support arm and the second support arm to rotate relatively through a motor, enabling a connecting shaft and the third support arm to rotate relatively, enabling the connecting block and the connecting shaft to rotate relatively, adjusting the position of the pneumatic slide rail to enable the pneumatic slide rail to be located above the mould, controlling the pneumatic slide rail to enable a left clamp plate and a right clamp plate to move relatively to clamp the mould, controlling the cylinder to extend, enabling the mould to move upwards, controlling the pneumatic rotating shaft to enable the mould to rotate relatively to the casting machine until the mould is conveyed to the corresponding position of the casting machine, and solving the problems of low carrying efficiency when the mould is conveyed to the casting machine manually and affecting the production efficiency, Increase the production cost.

Drawings

Fig. 1 is a front view of the present invention.

The reference numbers in the drawings are as follows: 1 is the casting machine, 2 is the loading board, 3 is pneumatic axis of rotation, 4 is first pneumatic valve, 5 is the spread groove, 6 is the connecting rod, 7 is first support arm, 8 is the cylinder, 9 is the second support arm, 10 is the hinge groove, 11 is the third support arm, 12 is the motor, 13 is the connecting axle, 14 is the connecting block, 15 is the grip block, 16 is pneumatic slide rail, 17 is the second pneumatic valve, 18 is the dog, 19 is the splint, 20 is the blotter.

Detailed Description

The utility model is further described with reference to the following figures and detailed description:

as shown in fig. 1, the hoisting auxiliary mechanism for casting and forming the mutual inductor comprises a casting machine 1 and an auxiliary clamping mechanism;

the auxiliary clamping mechanism comprises a bearing plate 2, the bearing plate 2 is a horizontal rectangular plate body, the rear end face of the bearing plate 2 is connected with the front surface of a casting machine 1, the upper surface of the bearing plate 2 is connected with a pneumatic rotating shaft 3 in a rotating mode, the upper surface of the pneumatic rotating shaft 3 is provided with a first pneumatic valve 4, the left end of the pneumatic rotating shaft 3 is connected with a connecting groove 5, the connecting groove 5 is a hollow cuboid with an upper end face and a lower end face flush with the upper end face and the lower end face of the pneumatic rotating shaft 3 and provided with an opening at the left end, a connecting rod 6 is connected in the connecting groove 5 and is a round rod body, the peripheral walls at the front side and the rear side of the right end of the connecting rod 6 are hinged with the lower portions of the front side wall and the rear side wall of the connecting groove 5, the left end of the connecting rod 6 is connected with a first arm 7, the first arm 7 is a hollow cuboid with openings at the left end and the right end of the connecting rod 6 are positioned in the first arm 7 and hinged with the front side wall and rear side wall of the first arm 7, the connecting device is characterized in that a cylinder 8 is connected between the connecting groove 5 and the first support arm 7, the cylinder 8 and the connecting rod 6 are arranged in parallel, the output end of the cylinder 8 faces to the left, the right end of the cylinder 8 is connected with the outer surface of the front side wall of the connecting groove 5, the left end of the front side wall of the first support arm 7 is connected with a second support arm 9, the second support arm 9 is a horizontally arranged rod body, the right end of the second support arm 9 is connected with the first support arm 7 through a connecting rod which penetrates through the upper surface and the lower surface of the second support arm 9 and is connected with the lower side wall of the first support arm 7, the left end of the second support arm 9 is provided with a hinge groove 10, the hinge groove 10 is a rectangular groove body which penetrates through the front surface, the rear surface and the left surface of the second support arm 9, a third support arm 11 is connected in the hinge groove 10, the third support arm 11 is a horizontally arranged rod body, and the right end of the third support arm 11 is positioned in the hinge groove 10, the upper end of second support arm 9 is provided with motor 12, the output shaft of motor 12 from the top down runs through the last lateral wall of hinge groove 10, the upper and lower surface of third support arm 11 and the lower lateral wall of hinge groove 10 in proper order, the output shaft fixed connection of third support arm and motor, the left part of third support arm 11 is provided with the connecting axle 13 that runs through the upper and lower surface of third support arm 11, connecting axle 13 rotates with third support arm 11 to be connected, the lower extreme of connecting axle 13 articulates there is connecting block 14, the lower extreme of connecting block 14 is connected with grip block 15, grip block 15 is the hollow cuboid of controlling both ends open-ended, pneumatic slide rail 16 wears to be equipped with in the grip block 15, the middle part of pneumatic slide rail 16 is located grip block 15, the upper surface of pneumatic slide rail 16 is provided with second pneumatic valve 17, pneumatic slide rail 16 lower surface is provided with the equal looks isostructure size, Bilateral symmetry's left spout and right spout, left side spout be along the length direction setting of slide rail, along the lower surface undercut of slide rail, the decurrent T-slot of opening, dog 18 is connected to the left slide rail lower surface of left side spout, dog 18 is the rectangular block body, the left surface of dog 18 and pneumatic slide rail 16's left end face parallel and level, be provided with the slider corresponding with left spout in the spout of a left side, the lower surface of slider is connected with splint 19, splint 19 is the rectangular plate body of vertical setting.

The slider in the left spout and the lateral wall sliding contact of left spout, the slider in the right spout and the lateral wall sliding contact of right spout.

The width of splint 19 below the left spout is greater than the width of left spout, the width of splint 19 below the right spout is greater than the width of right spout.

The upper surface of the clamping plate 19 below the left sliding chute and the upper surface of the clamping plate 19 below the right sliding chute are in sliding contact with the lower surface of the pneumatic sliding rail 16.

The right surface of the clamping plate 19 below the left sliding chute and the left surface of the clamping plate 19 below the right sliding chute are both provided with a buffer cushion 20 which is matched with the surface of the connected clamping plate 19.

The cushion pad 20 is a sheet-shaped body made of elastic rubber material.

When the device is used, the mutual inductor mould is conveyed to the position below the hoisting auxiliary mechanism for pouring and forming the mutual inductor in front of the pouring machine, the cylinder is controlled to contract and simultaneously drive the first support arm, the second support arm, the third support arm and the pneumatic slide rail to move downwards, the third support arm and the second support arm can rotate relatively through the motor, the connecting shaft and the third support arm can rotate relatively, the connecting block and the connecting shaft can rotate relatively, so that the pneumatic slide rail is positioned above the mould by adjusting the position of the pneumatic slide rail, the pneumatic slide rail is controlled, the left clamp plate and the right clamp plate move relatively to clamp the mould, the cylinder is controlled to extend, so that the mould moves upwards, the pneumatic rotating shaft is controlled, the mould can rotate relative to the pouring machine until the mould is conveyed to the corresponding position of the pouring machine, the device has a simple structure and is easy to realize, and the problem of low carrying efficiency when the mould is conveyed to the pouring machine by manpower is solved, influence the production efficiency and increase the production cost.

The detailed description of the present invention is provided in conjunction with the accompanying drawings, but the above description is not intended to limit the present invention, and it is within the scope of the disclosure that various equivalent or equivalent modifications or substitutions may be made to the technical solution of the present invention without departing from the spirit of the present invention.

Claims (6)

1. The hoisting auxiliary mechanism for the pouring forming of the mutual inductor comprises a pouring machine (1) and is characterized by further comprising an auxiliary clamping mechanism;

the auxiliary clamping mechanism comprises a bearing plate (2), the bearing plate (2) is a horizontal rectangular plate body, the rear end face of the bearing plate (2) is connected with the front surface of a casting machine (1), the upper surface of the bearing plate (2) is connected with a pneumatic rotating shaft (3) in a rotating mode, the upper surface of the pneumatic rotating shaft (3) is provided with a first pneumatic valve (4), the left end of the pneumatic rotating shaft (3) is connected with a connecting groove (5), the connecting groove (5) is a hollow cuboid with an upper end face and a lower end face flush with the upper end face and the lower end face of the pneumatic rotating shaft (3), a connecting rod (6) is connected in the connecting groove (5), the connecting rod (6) is a round rod body, the peripheral walls of the front side and the rear side of the right end of the connecting rod (6) are hinged with the lower portions of the front side wall and the rear side of the connecting groove (5), and the left end of the connecting rod (6) is connected with a first support arm (7), the utility model discloses a support arm, including first support arm (7), connecting rod (6), connecting rod (7), connecting groove (5), connecting rod (7), first support arm (7) are for controlling both ends open-ended cavity cuboid, the left end of connecting rod (6) is located first support arm (7) and is articulated with the front and back lateral wall of first support arm (7), be connected with cylinder (8) between connecting groove (5) and first support arm (7), cylinder (8) and connecting rod (6) parallel arrangement and output are towards left, the surface of the preceding lateral wall of connecting groove (5), the surface of the preceding lateral wall of left end connection first support arm (7) are connected to the right-hand member of cylinder (8), the lower lateral wall of first support arm (7) is connected with second support arm (9), second support arm (9) are the body of rod that the level set up, the right-hand member of second support arm (9) is connected with first support arm (7) through the connecting rod that runs through the upper and lower surface of second support arm (9) and be connected with first support arm (7), the left end of second support arm (9) is provided with hinge groove (10), hinge groove (10) is the rectangle cell body that runs through second support arm (9) front and back surface and left surface, hinge groove (10) in-connection has third support arm (11), third support arm (11) is the body of rod that the level set up, the right-hand member of third support arm (11) is located hinge groove (10), the upper end of second support arm (9) is provided with motor (12), the output shaft of motor (12) from the top down runs through the last lateral wall of hinge groove (10), the upper and lower surface of third support arm (11) and the lower lateral wall of hinge groove (10) in proper order, the output shaft fixed connection of third support arm and motor, the left part of third support arm (11) is provided with connecting axle (13) that runs through the upper and lower surface of third support arm (11), connecting axle (13) rotates with third support arm (11) and is connected, the lower end of the connecting shaft (13) is hinged with a connecting block (14), the lower end of the connecting block (14) is connected with a clamping block (15), the clamping block (15) is a hollow cuboid with an open left end and an open right end, a pneumatic sliding rail (16) is arranged in the clamping block (15) in a penetrating manner, the middle of the pneumatic sliding rail (16) is positioned in the clamping block (15), the upper surface of the pneumatic sliding rail (16) is provided with a second pneumatic valve (17), the lower surface of the pneumatic sliding rail (16) is provided with a left sliding chute and a right sliding chute which are identical in structure and size and symmetrical in left and right, the left sliding chute is a T-shaped groove which is arranged along the length direction of the sliding rail, is upwards sunken along the lower surface of the sliding rail and downwards open, the lower surface of the left sliding rail of the left sliding chute is connected with a check block (18), the check block (18) is a rectangular block body, and the left surface of the check block (18) is flush with the left end surface of the pneumatic sliding rail (16), a sliding block corresponding to the left sliding groove is arranged in the left sliding groove, a clamping plate (19) is connected to the lower surface of the sliding block, and the clamping plate (19) is a vertically-arranged rectangular plate body.

2. The hoisting auxiliary mechanism for the pouring forming of the mutual inductor according to claim 1, wherein the sliding block in the left sliding groove is in sliding contact with the side wall of the left sliding groove, and the sliding block in the right sliding groove is in sliding contact with the side wall of the right sliding groove.

3. The hoisting auxiliary mechanism for the casting and forming of the mutual inductor according to claim 1, wherein the width of the clamping plate (19) below the left sliding chute is larger than that of the left sliding chute, and the width of the clamping plate (19) below the right sliding chute is larger than that of the right sliding chute.

4. The hoisting auxiliary mechanism for mutual inductor casting according to claim 3, wherein the upper surface of the clamping plate (19) below the left sliding chute and the upper surface of the clamping plate (19) below the right sliding chute are in sliding contact with the lower surface of the pneumatic sliding rail (16).

5. The hoisting auxiliary mechanism for the casting and forming of the mutual inductor according to claim 1, wherein the right surface of the clamping plate (19) below the left sliding chute and the left surface of the clamping plate (19) below the right sliding chute are provided with cushion pads (20) corresponding to the surfaces of the connected clamping plates (19).

6. The hoisting auxiliary mechanism for casting and forming of the mutual inductor according to claim 5, wherein the cushion pad (20) is a sheet-shaped body made of elastic rubber material.

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