CN213770427U - Clamping mechanism for transferring ceramic capacitor - Google Patents

Abstract

The utility model provides a mechanism is got to clamp of ceramic capacitor transfer, it is including the crossbeam, the crossbeam both ends are bent downwards and are formed with the side arm, be equipped with the lifing arm of rectangular shape between two side arms, crossbeam top center department installs the lift cylinder, movable sleeve is equipped with the sliding sleeve on the lifing arm of lift cylinder both sides, sliding sleeve one side articulates there is first hinge arm, first hinge arm bottom slope is articulated downwards with the side arm lower part, two side arm bottoms extend relatively and are formed with the bearing arm, two relative one end tops of bearing arm are fixed with the axle sleeve, the activity suit in the middle part of the cartridge arm is in the axle sleeve, two relative one ends of cartridge arm are bent downwards and are formed with the arm lock, splint are installed to two relative one sides in arm lock bottoms, form between two splint after the installation and press from both sides the dress district. The utility model discloses rational in infrastructure, be equipped with effectually after adopting above-mentioned scheme.

Description

Clamping mechanism for transferring ceramic capacitor

Technical Field

The utility model belongs to the technical field of the condenser technique and specifically relates to indicate a mechanism is got to clamp of ceramic capacitor transfer.

Background

The existing ceramic capacitor is processed, the external power drives the sucker to clamp and transfer the ceramic capacitor, the mode is only suitable for processing of small ceramic capacitors, and when the ceramic capacitor is used for large ceramic capacitors, unstable sucking of the sucker can occur sometimes, and the capacitor is easy to drop.

Disclosure of Invention

An object of the utility model is to overcome prior art not enough, provide a mechanism is got to rational in infrastructure, be equipped with effectual clamp of ceramic capacitor transfer.

In order to achieve the above object, the present invention provides a technical solution: a clamping mechanism for transferring ceramic capacitors comprises a cross beam, wherein two ends of the cross beam are bent downwards to form side arms, a long lifting arm is arranged between the two side arms, the length direction of the lifting arm is consistent with the length direction of the cross beam, a lifting cylinder is arranged at the center of the top of the cross beam, a piston rod of the lifting cylinder penetrates through the cross beam downwards to be connected with the center of the top of the lifting arm, sliding sleeves are movably sleeved on the lifting arms at two sides of the lifting cylinder, one side of each sliding sleeve is hinged with a first hinged arm, the bottom of the first hinged arm is obliquely and downwards hinged with the lower parts of the side arms, supporting arms are formed by extending the bottoms of the two side arms oppositely, shaft sleeves are fixed at the tops of opposite ends of the two supporting arms, the middle parts of the inserting arms are movably sleeved in the shaft sleeves, opposite ends of the two inserting arms are bent downwards to form clamping arms, clamping plates are arranged at opposite sides of the bottoms of the two clamping arms, and a clamping area is formed between the two clamping plates after being installed, the top of the bending part of the clamping arm is movably hinged with a second hinged arm, and the top of the second hinged arm is obliquely and upwards hinged with the sliding sleeve.

The crossbeam top is fixed with the mounting bracket, and the mounting bracket is n shape, and the lift cylinder after the installation is located the n shape inslot of mounting bracket.

And the clamping plate on one side of the clamping area is provided with an anti-slip pad which is made of rubber materials.

After the scheme is adopted, the piston rod of the cylinder in the initial state contracts, the two clamp plates are in an opening state, after the ceramic capacitor finishes the processing of the previous process, the external power drives the mounting frame to move above the ceramic capacitor, the ceramic capacitor after the processing of the previous process is positioned in the clamping area, the piston rod of the cylinder stretches out to drive the lifting arm to descend, the lifting arm synchronously drives the sliding sleeve to descend, simultaneously, the two sliding sleeves are relatively closed to operate under the action of the corresponding first hinge arm, the sliding sleeve pushes the two clamp arms to relatively operate through the corresponding second hinge arm when being closed, the two clamp plates relatively operate under the driving of the clamp arms to clamp the ceramic capacitor, after being clamped, the ceramic capacitor is moved to a station of the next process through the external power, the piston rod of the cylinder contracts to drive the lifting arm to ascend, the lifting arm drives the sliding sleeve to descend, simultaneously, the two sliding sleeves are opened in the opposite direction under the action of the corresponding first hinge arm, the sliding sleeve drives the two clamping arms to move and open in the opposite direction through the corresponding second hinged arms, the two clamping plates move and open the porcelain capacitor in the opposite direction under the driving of the clamping arms, and then the external conveying arm moves away the clamping plates to process the lower process of the porcelain capacitor; this scheme is particularly suitable for being used for large-scale ceramic capacitor's processing to use, the utility model discloses rational in infrastructure, be equipped with effectual after adopting above-mentioned scheme.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Detailed Description

The present invention will be further explained with reference to the drawings, and the preferred embodiment of the present invention is: referring to the attached drawing 1, the clamping mechanism for transferring the ceramic capacitor comprises a cross beam 1, two ends of the cross beam 1 are bent downwards to form side arms 2, a long strip-shaped lifting arm 3 is arranged between the two side arms 2, the length direction of the lifting arm 3 is consistent with that of the cross beam 1, a lifting cylinder 4 is installed at the center of the top of the cross beam 1, a piston rod of the lifting cylinder 4 penetrates through the cross beam 1 downwards to be connected with the center of the top of the lifting arm 3, an installation frame 13 is fixed at the top of the cross beam 1, the installation frame 13 is n-shaped, and the installed lifting cylinder 4 is located in an n-shaped groove of the installation frame 13. The movable sleeve is equipped with sliding sleeve 5 on the lifing arm 3 of 4 both sides of lift cylinder, sliding sleeve 5 one side articulates there is first hinge arm 6, first hinge arm 6 bottom slope is downwards articulated with 2 lower parts of side arm, 2 bottoms of two side arms extend relatively and are formed with bearing arm 7, two opposite end tops of bearing arm 7 are fixed with axle sleeve 8, the activity suit in axle sleeve 8 in the middle part of cartridge arm 9, two opposite ends of cartridge arm 9 are bent downwards and are formed with arm lock 10, splint 11 are installed to two opposite sides in arm lock 10 bottom, form between two splint 11 after the installation and press from both sides the dress district, press from both sides and install slipmat 14 on the splint 11 of dress district one side, slipmat 14 adopts the rubber materials preparation to form. The top of the bending part of the clamping arm 10 is movably hinged with a second hinged arm 12, and the top of the second hinged arm 12 is obliquely and upwards hinged with the sliding sleeve 5.

After the scheme is adopted, the piston rod of the cylinder in an initial state contracts, the two clamping plates are in an opening state, after the ceramic capacitor is processed in the previous process, the mounting frame is driven to move above the ceramic capacitor by external power, the ceramic capacitor processed in the previous process is located in a clamping area, the piston rod of the cylinder stretches out to drive the lifting arm to descend, the lifting arm synchronously drives the sliding sleeve to descend, the two sliding sleeves move relatively close to each other under the action of the corresponding first hinge arm, the sliding sleeve pushes the two clamping arms to move relatively through the corresponding second hinge arm while closing, the two clamping plates move relatively to clamp the ceramic capacitor under the drive of the clamping arms, after clamping, the ceramic capacitor is moved to a station of the next process by the external power, the piston rod of the cylinder contracts to drive the lifting arm to move up and down, the lifting arm drives the sliding sleeve to move up and down, and the two sliding sleeves move in opposite directions under the action of the corresponding first hinge arm to open, the sliding sleeve drives the two clamping arms to move and open in the opposite direction through the corresponding second hinged arms, the two clamping plates move and open the porcelain capacitor in the opposite direction under the driving of the clamping arms, and then the external conveying arm moves away the clamping plates to process the lower process of the porcelain capacitor; this scheme is particularly suitable for being used for large-scale ceramic capacitor's processing to use, and this embodiment is rational in infrastructure, be equipped with effectually after adopting above-mentioned scheme.

The above-mentioned embodiments are only preferred embodiments of the present invention, and the scope of the present invention is not limited thereto, so that all the changes made according to the shape and principle of the present invention should be covered within the protection scope of the present invention.

Claims (3)

1. The utility model provides a mechanism is got to clamp of ceramic capacitor transfer, it is including crossbeam (1), its characterized in that: two ends of a crossbeam (1) are bent downwards to form side arms (2), a strip-shaped lifting arm (3) is arranged between the two side arms (2), the length direction of the lifting arm (3) is consistent with that of the crossbeam (1), a lifting cylinder (4) is installed at the center of the top of the crossbeam (1), a piston rod of the lifting cylinder (4) downwards penetrates through the crossbeam (1) to be connected with the center of the top of the lifting arm (3), sliding sleeves (5) are movably sleeved on the lifting arms (3) at two sides of the lifting cylinder (4), a first hinged arm (6) is hinged at one side of each sliding sleeve (5), the bottom of the first hinged arm (6) is obliquely downwards hinged with the lower parts of the side arms (2), bearing arms (7) are formed by extending the bottoms of the two side arms (2) relatively, shaft sleeves (8) are fixed at the tops of opposite ends of the two bearing arms (7), and a middle part of an inserting arm (9) is movably sleeved in the shaft sleeves (8), the opposite ends of the two insertion arms (9) are bent downwards to form clamping arms (10), clamping plates (11) are installed on the opposite sides of the bottoms of the two clamping arms (10), a clamping area is formed between the two installed clamping plates (11), a second hinged arm (12) is movably hinged to the top of the bending part of each clamping arm (10), and the top of each second hinged arm (12) inclines upwards to be hinged to the sliding sleeve (5).

2. The clamping mechanism for transferring ceramic capacitors as claimed in claim 1, wherein: the top of the cross beam (1) is fixed with a mounting rack (13), the mounting rack (13) is n-shaped, and the mounted lifting cylinder (4) is located in an n-shaped groove of the mounting rack (13).

3. The clamping mechanism for transferring ceramic capacitors as claimed in claim 1, wherein: the clamping plate (11) on one side of the clamping area is provided with an anti-slip pad (14), and the anti-slip pad (14) is made of rubber materials.

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