CN213671926U - Circulating type clamp system for drilling - Google Patents

Abstract

The utility model relates to a circulating anchor clamps system for drilling, including two conveyer belts that set up from top to bottom, the conveyer belt transportation of top is not drilling the part, and the conveyer belt of below transports the part that has drilled. The rotating clamp positions parts through limiting plates (7) and limiting grooves (11) in the permanent magnetic chucks (1), then the parts are sucked and rotated to the lower side, a motor is retreated after drilling of the drilling machine (3) is pushed, the air cylinder (8) is started to convert the state of the permanent magnetic chucks (1), the parts fall down from the permanent magnetic chucks (1) and fall onto a conveying belt below, and therefore machining is completed. Because the rotary clamp is provided with the two permanent magnetic chucks (1), one part can be processed by rotating the rotary clamp for each half circle.

Description

Circulating type clamp system for drilling

Technical Field

The utility model relates to a circulating anchor clamps system for drilling.

Background

When the metal part is drilled, the part needs to be clamped firstly, and then the drilling is carried out after the clamping is finished. The clamping needs manual clamping, and clamping is needed before drilling each part. The manual clamping mode leads to low drilling efficiency, and the rejection rate can be gradually increased along with the working time. Resulting in a large amount of cost waste. And when the parts are made of metal materials, the parts are heavy and inconvenient to carry. Although the processing workshop is basically provided with the lifting equipment, the lifting equipment also always needs manual operation, and the production efficiency is low.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's shortcoming, provide a boring grab system that positioning speed is fast, machining efficiency is high.

The purpose of the utility model is realized through the following technical scheme: a circulating type clamp system for drilling comprises two conveyer belts arranged up and down and a rotary clamp arranged between the two conveyer belts, wherein the rotary clamp comprises a connecting beam in the middle and permanent magnetic chucks at two ends, the chuck handles of the two permanent magnetic chucks are connected through a connecting rod, one of the two permanent magnetic chucks is in a holding state, and the other permanent magnetic chuck is in a releasing state; the connecting rod middle part articulates there is the cylinder, and the other end of cylinder articulates on the tie-beam, the tie-beam middle part is rotation center to through servo motor drive, the tie-beam is under vertical state, and the permanent magnetism sucking disc at top is on the same level with the conveyer belt that is located the top, and the permanent magnetism sucking disc of bottom is located the conveyer belt top of below, still be provided with the rig between two conveyer belts, the rig sets up on a horizontal track slidable.

And a base plate is also arranged between the two conveying belts, the lower space of the permanent magnetic chuck at the bottom is positioned between the drilling machine and the base plate, and the top of one side surface of the base plate is attached to one side surface of the permanent magnetic chuck.

The contact surface of the permanent magnetic chuck and the clamped part is provided with a limiting groove, the tail end of the conveying belt positioned above the permanent magnetic chuck is provided with a limiting plate, the bottom of one surface of the limiting plate is attached to one side surface of the permanent magnetic chuck, and the limiting plate and the conveying belt positioned above the limiting plate are respectively positioned on two sides of the permanent magnetic chuck at the top.

The backing plate, the servo motor and the limiting plate are all fixed through the support arranged between the conveying belts.

The distance between the bottom of the horizontal rail and the lower conveying belt is larger than the height of a clamped part.

The utility model has the advantages of it is following:

the part is clamped by the rotary clamp completely and automatically, manual positioning is not needed, and the machining efficiency is high. The clamp is directly arranged at the conveying belt, and the automation degree is high.

Drawings

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

FIG. 2 is a schematic structural view of a rotary jig;

in the figure: the method comprises the following steps of 1-permanent magnetic chuck, 2-connecting beam, 3-drilling machine, 4-horizontal rail, 5-backing plate, 6-servo motor, 7-limiting plate, 8-cylinder, 9-connecting rod, 10-chuck handle and 11-limiting groove.

Detailed Description

The invention will be further described with reference to the accompanying drawings, but the scope of the invention is not limited to the following description.

As shown in fig. 1, a circulating type clamp system for drilling comprises two conveyer belts arranged up and down and a rotary clamp arranged between the two conveyer belts, wherein parts on the upper conveyer belt are transferred to the lower conveyer belt through the rotary clamp, and the parts are drilled in the transferring process.

As shown in fig. 2, the rotary fixture includes a connecting beam 2 at the middle and permanent magnetic chucks 1 at two ends, the chuck handles 10 of the two permanent magnetic chucks 1 are connected through a connecting rod 9, the two permanent magnetic chucks 1 rotate around the middle of the connecting beam 2, so that the up-and-down position conversion of the two permanent magnetic chucks 1 is completed, one of the two permanent magnetic chucks 1 is in a holding state, the other permanent magnetic chuck is in a releasing state, when the permanent magnetic chuck 1 at the bottom is in the releasing state, the permanent magnetic chuck 1 at the top is in the holding state, so that the holding of the top part and the releasing of the bottom part are completed; the middle part of the connecting rod 9 is hinged with an air cylinder 8, the other end of the air cylinder 8 is hinged on the connecting beam 2, the air cylinder 8 is used for controlling the two permanent magnetic suckers 1 to be switched between two states of holding or releasing, two sucker handles 10 can be directly controlled through a connecting rod 9, a cylinder 8 is used as a driving force for driving the connecting rod 9 to move, the middle part of the connecting beam 2 is a rotating center, and is driven by a servo motor 6, the rotation angle of the connecting beam 2 can be controlled by adopting the servo motor 6, thereby ensuring that the connecting beam 2 rotates in place each time, the permanent magnetic chuck 1 at the top is level with the conveyer belt positioned above the connecting beam 2 in a vertical state, parts on the conveyer belt can directly slide onto the permanent magnetic chuck 1, the permanent magnetic chuck 1 at the bottom is positioned above the conveyer belt positioned below the conveyer belt, a drilling machine 3 is further arranged between the two conveying belts, and the drilling machine 3 can be slidably arranged on a horizontal track 4. The horizontal rail 4 enables the drilling machine 3 to move back and forth along the horizontal rail 4, thereby completing drilling and withdrawal.

A backing plate 5 is further arranged between the two conveying belts, the lower space of the permanent magnetic chuck 1 at the bottom is positioned between the drilling machine 3 and the backing plate 5, and the top of one side surface of the backing plate 5 is attached to one side surface of the permanent magnetic chuck 1.

The contact surface of part is got with the quilt clamp to permanent magnetism sucking disc 1 is provided with spacing groove 11, and the conveyer belt end that is located the top is provided with limiting plate 7, the bottom of limiting plate 7 one side pastes with a side of permanent magnetism sucking disc 1 mutually to the conveyer belt of limiting plate 7 and top is located the both sides of the permanent magnetism sucking disc 1 at top respectively.

Backing plate 5, servo motor 6 and limiting plate 7 are all fixed through the support that sets up between the conveyer belt. The backing plate 5 is used for supporting the part, and the drilling machine 3 drills to ensure that the backing plate 5 supports the back of the part and the part cannot move. Limiting plate 7 and spacing groove 11 all are used for fixing a position the part.

The distance between the bottom of the horizontal rail 4 and the conveyor belt below is greater than the height of a clamped part. Allowing the passage of parts from the bottom of the horizontal rail 4.

Claims (5)

1. A cyclical fixture system for drilling, comprising: the rotary clamp comprises two conveyer belts arranged up and down and a rotary clamp arranged between the two conveyer belts, wherein the rotary clamp comprises a connecting beam (2) in the middle and permanent magnetic chucks (1) at two ends, the chuck handles (10) of the two permanent magnetic chucks (1) are connected through a connecting rod (9), one of the two permanent magnetic chucks (1) is in a holding state, and the other permanent magnetic chuck (1) is in a releasing state; the utility model discloses a horizontal track, including connecting rod (9), connecting rod (8), connecting beam (2), coupling beam (2), connecting beam (2) middle part are the center of rotation to drive through servo motor (6), coupling beam (2) are under vertical state, and the permanent magnetism sucking disc (1) at top is kept level with the conveyer belt that is located the top, and the permanent magnetism sucking disc (1) of bottom is located the conveyer belt top of below, still be provided with rig (3) between two conveyer belts, rig (3) slidable sets up on a horizontal track (4).

2. A circulating jig system for drilling according to claim 1, wherein: a base plate (5) is further arranged between the two conveying belts, the lower space of the permanent magnetic chuck (1) positioned at the bottom is positioned between the drilling machine (3) and the base plate (5), and the top of one side face of the base plate (5) is attached to one side face of the permanent magnetic chuck (1).

3. A circulating jig system for drilling according to claim 2, wherein: the contact surface of part is got with the clamp to permanent magnetism sucking disc (1) is provided with spacing groove (11), and the conveyer belt end that is located the top is provided with limiting plate (7), the bottom of limiting plate (7) one side pastes with a side of permanent magnetism sucking disc (1) mutually to limiting plate (7) and the conveyer belt of top are located the both sides of permanent magnetism sucking disc (1) at top respectively.

4. A circulating jig system for drilling according to claim 3, wherein: backing plate (5), servo motor (6) and limiting plate (7) are all fixed through the support that sets up between the conveyer belt.

5. A circulating jig system for drilling according to claim 1, wherein: the distance between the bottom of the horizontal rail (4) and the lower conveying belt is larger than the height of a clamped part.

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