CN213411887U - Directional adjusting device of coil skeleton - Google Patents

Abstract

The utility model relates to a coil skeleton directional adjustment device, it includes conveying slide rail, direction detection mechanism, direction guiding mechanism, it has first spout to open in the middle of the conveying slide rail, coil skeleton slidable is located first spout, conveying slide rail is close to the tip outside and designs and installs direction detection mechanism, conveying slide rail front end installs direction guiding mechanism, direction guiding mechanism includes the carousel, the rotation driving subassembly, it has the second spout to open on the carousel, the rotation driving subassembly is connected to the carousel lower extreme, conveying slide rail is close to the one end design arc form recess of carousel, the carousel is located conveying slide rail front end and carousel one side is located the arc form recess, the second spout is butted with first spout; the rotary driving component controls the rotary disc to rotate. The direction detection mechanism can detect whether the direction of the coil framework is correct or not, and the direction adjustment mechanism can adjust the coil framework in the wrong direction correctly.

Description

Directional adjusting device of coil skeleton

Technical Field

The utility model relates to a high-voltage coil production field, concretely relates to directional adjusting device of coil skeleton.

Background

In the past, when a high-voltage coil is produced and processed by a coil framework, a lead wire needs to be inserted, for example, when the high-voltage coil with the model of IPC304 is produced by Jiangsu Feier electro-mechanical technology Limited company of the company, eight lead wires are automatically inserted through equipment in the prior art, the lead wires are the same in length, no requirement is made on the direction of the coil framework in the automatic conveying process, but the lead wires required to be inserted by a client at present need to be inserted according to the length required by welding, so that the problem exists.

Disclosure of Invention

In order to solve the technical problem, the utility model provides a directional adjusting device of coil skeleton, the design is simple, and convenient to use can detect coil skeleton direction and adjust the coil skeleton to the mistake and wrong direction.

The technical scheme of the utility model:

a coil framework directional adjusting device comprises a conveying slide rail, a direction detection mechanism and a direction adjusting mechanism, wherein a first slide groove is formed in the middle of the conveying slide rail, a coil framework can be slidably positioned in the first slide groove, the direction detection mechanism is designed and installed on the outer side, close to the end part, of the conveying slide rail, the direction adjusting mechanism is installed at the front end of the conveying slide rail, the direction adjusting mechanism comprises a rotary table and a rotary driving assembly, a second slide groove is formed in the rotary table, the lower end of the rotary table is connected with the rotary driving assembly, an arc-shaped groove is designed at one end, close to the rotary table, of the conveying slide rail, the rotary table is positioned at the front end of the conveying slide rail, one side of; the rotary driving component controls the rotary disc to rotate.

The direction detection mechanism include the extension board, a slide rail, the slider, the slide, the cylinder, contact pick, thimble mechanism, the extension board is vertical to be installed on the workstation and to be located and carry slide rail front end one side, the slide rail is installed on being close to the extension board of carrying slide rail one side, the slide passes through slider slidable mounting on the slide rail, the extension board upper end is installed the cylinder and the cylinder front end can drive and is connected the slide, two fixed blocks of installation above the slide, be respectively last fixed block and lower fixed block, go up and install contact pick in the middle of the fixed block, thimble mechanism is installed to lower fixed block, contact pick is located thimble mechanism.

The rotary driving assembly comprises a rotary shaft, a gear, a rack, a rotary cylinder and a third sliding groove, the upper end of the rotary shaft is connected in the middle of the lower end of the rotary plate, the rotary shaft is close to the lower end of the rotary plate and provided with the gear, the front end of the rotary cylinder is connected with the rack in a driving mode, the rack is matched with the gear in a meshed mode, the lower end of the rotary shaft is rotatably installed on the second supporting plate, the rotary cylinder is also installed on the second supporting plate, a vertical plate is further installed on the second supporting plate, the vertical plate is provided with the third sliding groove.

Thimble mechanism include the sliding sleeve, the slide bar, a spring, the thimble, the slide bar passes through on the fixed block under the sliding sleeve installation, open slide bar upper end has jump ring groove and slide bar upper end to pass through the jump ring card and fix on fixed block under in the jump ring groove, the slide bar lower extreme stretches out down fixed block and spring housing on the slide bar, slide bar lower extreme design boss, spring one end top is on the boss, the spring other end top is in fixed block below down, still open the circular slot in the middle of the slide bar lower extreme, open boss one side has screw hole and screw hole UNICOM circular slot, the thimble upper end inserts in the circular slot and locks the thimble through screw in screw hole.

The coil framework is of a bilateral symmetry design structure, the left end and the right end are respectively provided with a square groove, and the two square grooves are close to the upper edge.

The conveying slide rail is fixed on the first supporting plate, the lower end of the first supporting plate is fixed on the second supporting plate through two vertical plates, a corresponding third chute is formed in one vertical plate, and the lower end of the second supporting plate is installed on the workbench.

The utility model has the advantages that the design is simple, and convenient to use can detect whether the coil skeleton's direction is correct through direction detection mechanism, and the coil skeleton adjustment of wrong direction is correct through direction adjustment mechanism.

Drawings

Fig. 1 is a schematic view of the usage state of the present invention.

Fig. 2 is a schematic diagram of the present invention.

Fig. 3 is a plan view of the present invention.

Fig. 4 is a partial view of the rotary drive assembly of the present invention.

Fig. 5 is a schematic partial sectional view of the direction detecting mechanism of the present invention.

Fig. 6 is a plan view of the coil bobbin of the present invention.

Fig. 7 is a perspective view of the bobbin.

Detailed Description

Referring to the attached drawings 1-7, a coil framework 4 directional adjustment device comprises a conveying slide rail 1, a direction detection mechanism 2 and a direction adjustment mechanism 3, wherein a first slide groove 11 is formed in the middle of the conveying slide rail 1, the coil framework 4 is slidably positioned in the first slide groove 11, the direction detection mechanism 2 is arranged on the outer side of the end part of the conveying slide rail 1, the direction adjustment mechanism 3 is arranged at the front end of the conveying slide rail 1, the direction adjustment mechanism 3 comprises a rotary table 31 and a rotary driving component, a second slide groove 37 is formed in the rotary table 31, the lower end of the rotary table 31 is connected with the rotary driving component, an arc-shaped groove 12 is formed in one end, close to the rotary table 31, of the conveying slide rail 1, the rotary table 31 is positioned at the front end of the conveying slide rail 1, one side of the rotary table 31 is positioned in the; the rotary drive assembly controls the rotation of the turntable 31.

Direction detection mechanism 2 include extension board 21, a slide rail, the slider, slide 22, the cylinder, contact pick up 25, thimble 29 mechanism, extension board 21 is vertical to be installed on workstation 5 and is located and carries slide 1 front end one side, the slide rail is installed on being close to extension board 21 of carrying slide 1 one side, slide 22 passes through slider slidable mounting on the slide rail, extension board 21 upper end is installed the cylinder and the cylinder front end can drive and is connected slide 22, two fixed blocks of installation on slide 22, respectively be last fixed block 23 and lower fixed block 24, go up and install contact pick up 25 in the middle of the fixed block 23, thimble 29 mechanism is installed to lower fixed block 24, contact pick up 25 is located thimble 29 mechanism directly over. Thimble 29 mechanism include sliding sleeve 26, slide bar 27, spring 28, thimble 29, slide bar 27 passes through sliding sleeve 26 and installs down on the fixed block 24, slide bar 27 upper end is opened jump ring groove and slide bar 27 upper end passes through the jump ring card and fixes on fixed block 24 down in the jump ring groove, slide bar 27 lower extreme stretches out fixed block 24 down and spring 28 overlaps on slide bar 27, slide bar 27 lower extreme design boss 30, spring 28 one end top is on boss 30, spring 28 other end top is below fixed block 24 down, still open the circular slot in the middle of slide bar 27 lower extreme, boss 30 one side is opened has the screw hole and the circular slot of screw hole UNICOM, thimble 29 upper end inserts in the circular slot and locks thimble 29 through screw in the screw hole, thimble 29 is located the tip top of coil skeleton 4 in first spout 11.

The rotary driving assembly comprises a rotating shaft 32, a gear 33, a rack 34, a rotary cylinder 35 and a third sliding groove 36, the upper end of the rotating shaft 32 is connected to the middle of the lower end of the rotating disc 31, the gear 33 is installed at a position, close to the lower end, of the rotating shaft 32, the front end of the rotary cylinder 35 is in driving connection with the rack 34, the rack 34 is in meshing fit with the gear 33, the lower end of the rotating shaft 32 is rotatably installed on the second supporting plate 6, the rotary cylinder 35 is also installed on the second supporting plate 6, a vertical plate 61 is further installed on the second supporting plate 6, the vertical plate 61 is provided with the third sliding groove 36, and the back of.

As shown in fig. 6-7, the bobbin 4 has a left-right symmetrical design, and the left and right ends are respectively provided with a square groove 41, and the two square grooves 41 are close to the upper side.

The conveying sliding rail 1 is fixed on the first supporting plate 7, the lower end of the first supporting plate 7 is fixed on the second supporting plate 6 through two vertical plates 61, one vertical plate 61 is provided with a corresponding third sliding groove 36, and the lower end of the second supporting plate 6 is arranged on the workbench 5.

When the utility model is used, the coil frame 4 is sequentially conveyed from the first sliding groove 11 in the conveying sliding rail 1, when the coil frame 4 moves to the position below the direction detection mechanism 2, the cylinder controls the sliding plate 22 to slide downwards, so as to drive the thimble 29 mechanism to descend, and the thimble 29 of the thimble 29 mechanism descends and just falls into the square groove 41 of the coil frame 4, so that the direction of the coil frame 4 is correct; if the ejector pin 29 is pushed against the end part of the coil framework 4 in the descending process and does not fall into the square groove 41, the ejector pin 29 is pushed upwards, the ejector pin 29 acts on the ejector pin, the ejector pin overcomes the spring force to move upwards in the sliding sleeve 26 in the lower fixed block 24, and the upper end of the ejector pin touches the contact inductor, which indicates that the direction of the coil framework 4 is wrong; the correct bobbin 4 enters the second chute 37 of the rotary disc 31 of the direction adjusting mechanism 3, the direction adjusting mechanism 3 is not operated, and the bobbin 4 waits for being conveyed to the next process from the second chute 37; the wrong bobbin 4 enters the second chute 37 on the rotating disc 31 of the direction adjusting mechanism 3, the direction adjusting mechanism 3 starts to act, the rotating cylinder 35 drives the rack 34 to drive the gear 33 to rotate 180 degrees, and thus the direction of the wrong bobbin 4 is adjusted to be correct, and the next process is waited to be conveyed from the second chute 37.

Claims (6)

1. A coil skeleton directional adjusting device is characterized by comprising a conveying slide rail, a direction detection mechanism and a direction adjusting mechanism, wherein a first slide groove is formed in the middle of the conveying slide rail, a coil skeleton can be slidably positioned in the first slide groove, the direction detection mechanism is arranged on the outer side, close to the end part, of the conveying slide rail, the direction adjusting mechanism is arranged at the front end of the conveying slide rail, the direction adjusting mechanism comprises a rotary table and a rotary driving assembly, a second slide groove is formed in the rotary table, the lower end of the rotary table is connected with the rotary driving assembly, an arc-shaped groove is formed in one end, close to the rotary table, of the conveying slide rail, one side of the rotary table, located at the front end of the conveying slide rail, is positioned in; the rotary driving component controls the rotary disc to rotate.

2. The coil skeleton orientation adjusting device of claim 1, wherein the direction detecting mechanism comprises a support plate, a slide rail, a slider, a slide plate, a cylinder, a contact sensor and a thimble mechanism, the support plate is vertically mounted on the workbench and located on one side of the front end of the conveying slide rail, the slide rail is mounted on the support plate close to one side of the conveying slide rail, the slide plate is slidably mounted on the slide rail through the slider, the cylinder is mounted at the upper end of the support plate, the front end of the cylinder can drive the connecting slide plate, two fixed blocks, namely an upper fixed block and a lower fixed block, are mounted on the slide plate, the contact sensor is mounted in the middle of the upper fixed block, the thimble mechanism is mounted on the lower fixed block.

3. The coil bobbin orientation adjusting device of claim 1, wherein the rotary driving assembly comprises a rotary shaft, a gear, a rack, a rotary cylinder and a third sliding groove, the upper end of the rotary shaft is connected to the middle of the lower end of the rotary plate, the gear is installed on the rotary shaft near the lower end, the rack is connected to the front end of the rotary cylinder in a driving manner, the rack is engaged with the gear, the lower end of the rotary shaft is rotatably installed on the second supporting plate, the rotary cylinder is also installed on the second supporting plate, a vertical plate is further installed on the second supporting plate, the third sliding groove is formed in the vertical plate, and the back of the rack is slidably located in the third sliding groove.

4. The coil skeleton directional adjustment device of claim 2, wherein the thimble mechanism comprises a sliding sleeve, a sliding rod, a spring and a thimble, the sliding rod is mounted on the lower fixed block through the sliding sleeve, a clamp spring groove is formed in the upper end of the sliding rod, the upper end of the sliding rod is clamped on the lower fixed block through a clamp spring, the lower end of the sliding rod extends out of the lower fixed block, the spring is sleeved on the sliding rod, a boss is arranged at the lower end of the sliding rod, one end of the spring abuts against the boss, the other end of the spring abuts against the lower fixed block, a circular groove is further formed in the middle of the lower end of the sliding rod, a screw hole and a circular groove communicated with the screw hole are formed in one side of the boss, and the upper end of the thimble is.

5. A coil bobbin orientation adjustment device according to claim 1, 2, 3 or 4, wherein the coil bobbin is of a bilateral symmetry design, and the left and right ends are respectively provided with a square groove, and the two square grooves are close to the upper side.

6. The coil bobbin orientation adjusting device of claim 3, wherein the conveying slide rail is fixed on a first supporting plate, the lower end of the first supporting plate is fixed on a second supporting plate through two vertical plates, one of the vertical plates is provided with a corresponding third sliding groove, and the lower end of the second supporting plate is mounted on the workbench.

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