CN218800395U - Semi-automatic kludge of anchor clamps - Google Patents

Abstract

The utility model discloses a semi-automatic kludge of anchor clamps, including the equipment base, the top fixed mounting of equipment base has the assembly bench, and one side fixed mounting on assembly bench top has the torsional spring to push down the subassembly, and the opposite side fixed mounting on assembly bench top has PIN needle to press into the subassembly, and the middle part contact connection on assembly bench top has the frock locating component, the utility model discloses semi-automatic kludge of anchor clamps pushes down subassembly and PIN needle to press into the subassembly through setting up the torsional spring, and first top pushes away the cylinder and promotes the translation piece from one side and adjust the transverse position of pushing down the frame, and the cylinder pushes away the elevator from one side and adjusts the longitudinal position of pushing down the frame, and the frame is in the same place torsional spring and product equipment down, and second top pushes away the second cylinder fixed plate from one side and adjusts the position of PIN cylinder, rivets the PIN cylinder with PIN needle equipment on the product, and whole exerts pressure through the cylinder, avoids appearing the phenomenon that the tight degree of anchor clamps part equipment department is low, guarantees the life of post-assembly anchor clamps.

Description

Semi-automatic assembly machine for clamp

Technical Field

The utility model relates to an kludge technical field specifically is semi-automatic kludge of anchor clamps.

Background

The types of the clamps are more, the clamps used for processing different workpieces are different, and the clamps can stably ensure the processing precision of the workpieces; the auxiliary working hours can be reduced, and the labor productivity can be improved; the application range of the machine tool can be enlarged, and multiple functions of one machine can be realized; the labor intensity of workers is reduced, so the clamp is widely used, and before the clamp is used, parts for assembling the clamp are required to be assembled.

However, the conventional jig assembly has the following disadvantages:

when traditional anchor clamps were assembled, assemble product and torsional spring through the manual work, then assemble product and PIN needle, all be artifical from outside applied pressure, pulling force or screw up power in the assembling process, the artifical power of applying a force size of limitation, and the size of application of force at every turn can't be mastered, it is low to appear closely the degree of anchor clamps part equipment department easily, influences the life of equipment back anchor clamps.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a semi-automatic kludge of anchor clamps to when solving the traditional anchor clamps that provide in the above-mentioned background art and assembling, assemble product and torsional spring through the manual work, then assemble product and PIN needle again, all be artifical externally applied pressure in the assembling process, pulling force or screw up power, the artifical power degree of exerting size of exerting force is limited, and the size of application of force at every turn can't be mastered, it is low to appear closely spent of anchor clamps partial assembly department easily, the problem of the life of the anchor clamps of after the influence equipment.

In order to achieve the above purpose, the utility model provides a following technical scheme: semi-automatic kludge of anchor clamps, including the equipment base, the top fixed mounting of equipment base has the assembly bench, one side fixed mounting on assembly bench top has the torsional spring to push down the subassembly, the opposite side fixed mounting on assembly bench top has PIN needle to press into the subassembly, the middle part contact on assembly bench top is connected with frock locating component, the torsional spring pushes down the subassembly and includes first cylinder mounting bracket, first riser, second riser and first cylinder fixed plate, PIN needle is pressed into the subassembly and is included two guide rails, second cylinder fixed plate and second cylinder mounting bracket, frock locating component includes thimble cylinder and two locating plates, the fixed surface of equipment base installs a plurality of start button, and anchor clamps assembly personnel place product and torsional spring on the frock is placed the bench earlier.

Preferably, a first pushing cylinder is fixedly installed at the top end of the first cylinder installation frame, sliding rods are fixedly installed at both ends of one side of the first vertical plate, one ends of the two sliding rods, far away from the first vertical plate, are fixedly connected with both ends of one side of the second vertical plate, a sliding block is slidably connected to the middle portion between the two sliding rods, lifting rods are fixedly installed at both sides of the top end of the sliding block, the top ends of the two lifting rods are fixedly connected with both sides of the bottom end of the first cylinder fixing plate, a lifting block is slidably connected between the two lifting rods, a pressing cylinder is fixedly installed at the top end of the first cylinder fixing plate, the movable end of the pressing cylinder penetrates through the first cylinder fixing plate and is fixedly connected with one end, facing the lifting block, of the lifting block is fixedly installed with a pressing frame, the sliding block is fixedly mounted on one side of the sliding block, the movable end of the first pushing cylinder is fixedly connected with one side, right opposite to the sliding block, of the first pushing cylinder, the electromagnetic valve on the first pushing cylinder is opened, compressed air is input into the first pushing cylinder, the pushing piston does reciprocating motion in a first pushing cylinder barrel, the first pushing cylinder performs telescopic motion, the first pushing cylinder pushes the sliding block from one side, the sliding block drives the sliding block to slide along the sliding rod, the transverse position of the pressing frame is adjusted, the electromagnetic valve on the pressing cylinder is opened, compressed air is input into the pressing cylinder, the pushing piston does reciprocating motion in the pressing cylinder barrel, the pressing cylinder performs telescopic motion, the pressing cylinder pushes the lifting block from the top, the lifting block slides along the lifting rod, the height of the pressing frame is adjusted, and the torsion spring is mounted on a product by the pressing frame.

Preferably, the bottom of first cylinder mounting bracket, the bottom of first riser and the bottom of second riser all with equipment platform fixed connection, the torsional spring pushes down the subassembly and installs on the equipment platform through first cylinder mounting bracket, first riser and second riser.

Preferably, the middle parts of the two guide rails are respectively connected with a displacement block in a sliding manner, the top ends of the two displacement blocks are respectively fixedly connected with two sides of the bottom end of a second cylinder fixing plate, a riveting PIN cylinder is fixedly mounted at the top end of the second cylinder fixing plate, a second pushing cylinder is fixedly mounted at the top end of a second cylinder mounting frame, the movable end of the second pushing cylinder is fixedly connected with one side of the second cylinder fixing plate, which is just opposite to the movable end, an electromagnetic valve on the second pushing cylinder is opened, compressed air is input into the second pushing cylinder, a pushing piston reciprocates in a second pushing cylinder barrel, the second pushing cylinder performs telescopic motion, the second pushing cylinder pushes the second cylinder fixing plate from one side, the second cylinder fixing plate slides along the guide rails along with the displacement blocks, the machining position of the riveting PIN cylinder is adjusted, and the riveting PIN cylinder applies pressure from one side to install a PIN on a product.

Preferably, the bottom of second cylinder mounting bracket and the bottom of two guide rails all with assembly bench fixed connection, the subassembly is installed on the assembly bench through second cylinder mounting bracket and guide rail to PIN needle pressing subassembly.

Preferably, the movable end of the ejector PIN cylinder is fixedly provided with a tool placing table, two sides of the tool placing table are fixedly connected with one side of the two positioning plates respectively, one end of the tool placing table is fixedly provided with a first limiting frame, the tool placing table is fixedly provided with a second limiting frame positioned on one side of the positioning plates, the middle of the ejector PIN cylinder is fixedly connected with the middle of the bottom end of the assembling base, the bottom end of the tool placing table is in contact connection with the assembling base, the tool positioning assembly is installed on the assembling base through the ejector PIN cylinder, the electromagnetic valve on the ejector PIN cylinder is opened, compressed air is input into the ejector PIN cylinder, the push piston reciprocates in the ejector PIN cylinder, the ejector PIN cylinder performs telescopic motion, the ejector PIN cylinder pushes the tool placing table from the bottom, the height of a product, a torsion spring or a PIN needle placed on the tool placing table is adjusted, and the first limiting frame and the second limiting frame perform limiting blocking from the side surface of the tool placing table.

Compared with the prior art, the beneficial effects of the utility model are that: the assembly is pressed down through setting up the torsional spring and the subassembly is pressed into to PIN needle, first top pushes away the cylinder and promotes the translation piece from one side and adjust the horizontal position of pushing down the frame, push down the cylinder and promote the vertical position of lifter to pushing down the frame from one side and adjust, push down the frame and assemble torsional spring and product together, the second top pushes away the cylinder and promotes the second cylinder fixed plate from one side and adjusts the position of riveting the PIN cylinder, it assembles the PIN needle on the product to rivet the PIN cylinder, exert pressure through the cylinder in whole journey, avoid appearing the phenomenon that the closely knit degree of anchor clamps part equipment department is low, guarantee the life of anchor clamps after the equipment.

Drawings

Fig. 1 is a perspective view of the present invention;

fig. 2 is a bottom view of the present invention;

FIG. 3 is a side view of the tool positioning assembly of the present invention;

FIG. 4 is a side view of the torsion spring hold-down assembly of the present invention;

figure 5 is a side view of the PIN depressing assembly of the present invention.

In the figure: 1. assembling a base; 2. a torsion spring hold-down assembly; 201. pressing down the air cylinder; 202. a first cylinder mount; 203. a first pushing cylinder; 204. a sliding block; 205. a translation block; 206. a second vertical plate; 207. pressing down the frame; 208. a first vertical plate; 209. a lifting block; 210. a first cylinder fixing plate; 211. a lifting rod; 212. a slide bar; 3. a PIN press-in component; 31. riveting a PIN cylinder; 32. a second pushing cylinder; 33. a second cylinder mount; 34. a guide rail; 35. a displacement block; 36. a second cylinder fixing plate; 4. a tooling positioning assembly; 41. a thimble cylinder; 42. a first limit bracket; 43. a second limiting frame; 44. positioning a plate; 45. a tool placing table; 5. a start button; 6. and (7) assembling the table.

Detailed Description

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

Please refer to fig. 1-5, the utility model provides a semi-automatic kludge of anchor clamps, including equipment base 1, the top fixed mounting of equipment base 1 has assembly table 6, one side fixed mounting on assembly table 6 top has torsional spring to push down subassembly 2, the opposite side fixed mounting on assembly table 6 top has PIN needle pressing in subassembly 3, the middle part contact on assembly table 6 top is connected with frock locating component 4, torsional spring pushes down subassembly 2 and includes first cylinder mounting bracket 202, first riser 208, second riser 206 and first cylinder fixed plate 210, PIN needle pressing in subassembly 3 includes two guide rails 34, second cylinder fixed plate 36 and second cylinder mounting bracket 33, frock locating component 4 includes thimble cylinder 41 and two locating plates 44, the fixed surface of equipment base 1 installs a plurality of start button 5, anchor clamps assembly personnel place the product and torsional spring on the platform 45 at the frock earlier.

A first pushing cylinder 203 is fixedly installed at the top end of the first cylinder installation frame 202, sliding rods 212 are fixedly installed at two ends of one side of the first vertical plate 208, one ends of the two sliding rods 212 far away from the first vertical plate 208 are fixedly connected with two ends of one side of the second vertical plate 206 respectively, a sliding block 204 is slidably connected in the middle between the two sliding rods 212, lifting rods 211 are fixedly installed at two sides of the top end of the sliding block 204 respectively, the top ends of the two lifting rods 211 are fixedly connected with two sides of the bottom end of a first cylinder fixing plate 210 respectively, a lifting block 209 is slidably connected between the two lifting rods 211, a pressing cylinder 201 is fixedly installed at the top end of the first cylinder fixing plate 210, a movable end of the pressing cylinder 201 penetrates through the first cylinder fixing plate 210 and is fixedly connected with one end, opposite to the lifting block 209, a pressing frame 207 is fixedly installed at one side of the lifting block 209, a translation block 205 is fixedly installed at one side of the sliding block 204, a movable end of the first pushing cylinder 203 is fixedly connected with one side, a translation block 205 is fixedly connected with one side, the movable end, the first pushing cylinder 203 is opened, compressed air is used for inputting compressed air into the first pushing cylinder 203, the first pushing cylinder 203 to move along the sliding block 204, and the first pushing cylinder 203, the translation block 204, and the first pushing cylinder 203 moves along the sliding rod 204, the transverse position of the lower pressure frame 207 is adjusted, the electromagnetic valve on the lower pressure cylinder 201 is opened, compressed air is input into the lower pressure cylinder 201 to push the piston to do reciprocating motion in the cylinder of the lower pressure cylinder 201, the lower pressure cylinder 201 makes telescopic motion, the lower pressure cylinder 201 pushes the lifting block 209 from the top, the lifting block 209 slides along the lifting rod 211, the height of the lower pressing frame 207 is adjusted, and the torsion spring is mounted on the product by the lower pressing frame 207.

The bottom end of the first cylinder mounting frame 202, the bottom end of the first vertical plate 208 and the bottom end of the second vertical plate 206 are all fixedly connected with the assembly table 6, and the torsion spring pressing assembly 2 is mounted on the assembly table 6 through the first cylinder mounting frame 202, the first vertical plate 208 and the second vertical plate 206.

The middle parts of the two guide rails 34 are respectively connected with displacement blocks 35 in a sliding manner, the top ends of the two displacement blocks 35 are respectively and fixedly connected with two sides of the bottom end of a second cylinder fixing plate 36, a riveting PIN cylinder 31 is fixedly mounted at the top end of the second cylinder fixing plate 36, a second pushing cylinder 32 is fixedly mounted at the top end of a second cylinder mounting frame 33, the movable end of the second pushing cylinder 32 is fixedly connected with one side, right opposite to the second cylinder fixing plate 36, of the second pushing cylinder 32, an electromagnetic valve is opened, compressed air is input into the second pushing cylinder 32, a pushing piston reciprocates in the second pushing cylinder 32, the second pushing cylinder 32 performs telescopic motion, the second pushing cylinder 32 pushes the second cylinder fixing plate 36 from one side, the second cylinder fixing plate 36 slides along with the displacement blocks 35 along the guide rails 34 to adjust the machining position of the riveting PIN cylinder 31, and the riveting PIN cylinder 31 applies pressure from one side to install a PIN needle on a product.

The bottom of second cylinder mounting bracket 33 and the bottom of two guide rails 34 all with assembled bench 6 fixed connection, PIN needle pressing component 3 passes through second cylinder mounting bracket 33 and guide rails 34 and installs on assembled bench 6.

A tool placing table 45 is fixedly mounted at the movable end of the ejector PIN cylinder 41, two sides of the tool placing table 45 are respectively and fixedly connected with one side of two positioning plates 44, a first limiting frame 42 is fixedly mounted at one end of the tool placing table 45, a second limiting frame 43 located on one side of the positioning plates 44 is fixedly mounted on the tool placing table 45, the middle of the ejector PIN cylinder 41 is fixedly connected with the middle of the bottom end of the assembly base 1, the bottom end of the tool placing table 45 is in contact connection with the assembly table 6, the tool positioning assembly 4 is mounted on the assembly base 1 through the ejector PIN cylinder 41, an electromagnetic valve is opened on the ejector PIN cylinder 41, compressed air is input into the ejector PIN cylinder 41 to push a piston to reciprocate in the ejector PIN cylinder 41, the ejector PIN cylinder 41 performs telescopic motion, the ejector PIN cylinder 41 pushes the tool placing table 45 from the bottom, the height of a product, a torsion spring or a PIN needle placed on the tool placing table 45 is adjusted, and the first limiting frame 42 and the second limiting frame 43 perform limiting blocking from the side of the tool placing table 45.

When the embodiment of the application is used: the fixture assembling personnel firstly place the product and the torsion spring on the fixture placing table 45, the electromagnetic valve on the first pushing cylinder 203 is opened, compressed air is input into the first pushing cylinder 203, the pushing piston does reciprocating motion in the cylinder of the first pushing cylinder 203, the first pushing cylinder 203 performs telescopic motion, the first pushing cylinder 203 pushes the translation block 205 from one side, the translation block 205 drives the sliding block 204 to slide along the sliding rod 212 to adjust the transverse position of the lower pressing frame 207, the electromagnetic valve on the lower pressing cylinder 201 is opened, compressed air is input into the lower pressing cylinder 201, the pushing piston does reciprocating motion in the cylinder of the lower pressing cylinder 201, the lower pressing cylinder 201 performs telescopic motion, the lower pressing cylinder 201 pushes the lifting block 209 from the top, the lifting block 209 slides along the lifting rod 211, the height of the lower pressing frame 207 is adjusted, the torsion spring is installed on the product by the lower pressing frame 207, then a clamp assembling worker places the assembled product and the PIN on a tool placing table 45, an electromagnetic valve on a second pushing cylinder 32 is opened, compressed air is input into the second pushing cylinder 32, a pushing piston reciprocates in a second pushing cylinder 32 barrel, the second pushing cylinder 32 performs telescopic motion, the second pushing cylinder 32 pushes a second cylinder fixing plate 36 from one side, the second cylinder fixing plate 36 slides along a guide rail 34 along with a displacement block 35 to adjust the machining position of a riveting PIN cylinder 31, the riveting PIN cylinder 31 applies pressure from one side to install the PIN on the product, the electromagnetic valve on a thimble cylinder 41 is opened, the compressed air is input into the thimble cylinder 41, the pushing piston reciprocates in the thimble cylinder 41 barrel, the thimble cylinder 41 performs telescopic motion, the thimble cylinder 41 pushes the tool placing table 45 from the bottom, and the product placed on the tool placing table 45 is subjected to, the height of the torsion spring or the PIN needle is adjusted, so that a clamp assembling worker can conveniently take the assembled product, and then the thimble cylinder 41 contracts to keep the whole in a standby state.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (6)

1. Semi-automatic kludge of anchor clamps, including equipment base (1), its characterized in that: the top fixed mounting of equipment base (1) has assembly table (6), one side fixed mounting on assembly table (6) top has torsional spring to push down subassembly (2), the opposite side fixed mounting on assembly table (6) top has PIN needle to press into subassembly (3), the middle part contact on assembly table (6) top is connected with frock locating component (4), torsional spring pushes down subassembly (2) and includes first cylinder mounting bracket (202), first riser (208), second riser (206) and first cylinder fixed plate (210), PIN needle is pressed into subassembly (3) and is included two guide rails (34), second cylinder fixed plate (36) and second cylinder mounting bracket (33), frock locating component (4) are including thimble cylinder (41) and two locating plates (44), the fixed surface of equipment base (1) installs a plurality of start button (5).

2. The semiautomatic jig assembling machine according to claim 1, wherein: the top fixed mounting of first cylinder mounting bracket (202) has first top push cylinder (203), the equal fixed mounting in both ends of first riser (208) one side has slide bar (212), two slide bar (212) keep away from the one end of first riser (208) respectively with the both ends fixed connection of second riser (206) one side, two middle part sliding connection between slide bar (212) has slide block (204), the equal fixed mounting in both sides on slide block (204) top has lifter (211), two the top of lifter (211) respectively with the both sides fixed connection of first cylinder fixed plate (210) bottom, two sliding connection has elevator (209) between lifter (211), the top fixed mounting of first cylinder fixed plate (210) has down cylinder (201), the movable end of down cylinder (201) passes first cylinder fixed plate (210) and the just right one end fixed connection of elevator (209), one side fixed mounting of elevator (209) has down pressure frame (207), one side fixed mounting of slide block (204) has translation block (205), the movable end that the movable end of pushing down cylinder (205) just right with first top push away the movable block (205) is connected.

3. The semiautomatic jig assembling machine according to claim 1, wherein: the bottom end of the first cylinder mounting frame (202), the bottom end of the first vertical plate (208) and the bottom end of the second vertical plate (206) are fixedly connected with the assembling table (6).

4. The semiautomatic jig assembling machine according to claim 1, wherein: two equal sliding connection in middle part of guide rail (34) has displacement piece (35), two the top of displacement piece (35) respectively with the both sides fixed connection of second cylinder fixed plate (36) bottom, the top fixed mounting of second cylinder fixed plate (36) has rivet PIN cylinder (31), the top fixed mounting of second cylinder mounting bracket (33) has the second to push away cylinder (32), the expansion end that the second pushed away cylinder (32) and second cylinder fixed plate (36) just right one side fixed connection.

5. The semiautomatic jig assembling machine according to claim 1, wherein: the bottom end of the second cylinder mounting frame (33) and the bottom ends of the two guide rails (34) are fixedly connected with the assembling table (6).

6. The semiautomatic jig assembling machine according to claim 1, wherein: the utility model discloses a tool for assembling a thimble air cylinder, including the expansion end fixed mounting of thimble air cylinder (41) place platform (45), the both sides that the platform (45) was placed to the tool respectively with one side fixed connection of two locating plates (44), the one end fixed mounting that the platform (45) was placed to the tool has first spacing (42), the last fixed mounting of platform (45) was placed to the tool has spacing (43) of second that are located locating plate (44) one side, and the middle part fixed connection of the middle part of thimble air cylinder (41) and equipment base (1) bottom, the bottom that the platform (45) was placed to the tool is connected with equipment platform (6) contact.

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