CN216398669U - Automatic screw locking machine with structure for reducing moving resistance - Google Patents

Abstract

The utility model discloses an automatic screw locking machine with a structure for reducing moving resistance, which comprises a moving assembly, a feeding assembly and a processing assembly, wherein the moving assembly comprises: the lower surface of the chassis is provided with a ball; the screw rods are arranged on the left side and the right side of the chassis, handles are arranged above the screw rods, cushion blocks are arranged below the screw rods, and a feeding assembly is arranged above the chassis; the feeding assembly comprises: a material storage frame; the lifting rod is arranged inside the material storage frame, a lifting plate is arranged above the lifting rod, a guide groove is formed in the right side of the lifting plate, a blanking box is arranged in the right side of the guide groove, a guide rail is arranged below the blanking box, and a processing assembly is arranged above the guide rail. According to the utility model, through the matching of parts of each part, the equipment is convenient to move and fix, and the automatic feeding of bolts can be carried out, so that the working efficiency of the equipment is improved.

Description

Automatic screw locking machine with structure for reducing moving resistance

Technical Field

The utility model relates to the technical field of automatic screw locking machines, in particular to an automatic screw locking machine with a structure for reducing moving resistance.

Background

The automatic screw locking device is also called an automatic screw locking machine, an automatic screw feeding and locking machine, an automatic screw locking machine, an industrial tightening system and the like, is an automatic application specific device which uses an automatic mechanism to replace hands to finish taking, placing and tightening screws, can be used for automatic assembly of column-shaped small parts by slightly changing, and can be used for assembly of automobile part production, computers, display screens, motors, lamps, mobile phones, printers, circuit boards, batteries, instruments and the like, and all need to be subjected to screw fixing treatment.

The existing automatic screw locking machine in the market is inconvenient to move due to self weight when in use, and the bolt needs to be manually fed, so that the automatic screw locking machine with the structure for reducing the moving resistance is provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an automatic screw locking machine with a structure for reducing moving resistance, which aims to solve the problems that the existing automatic screw locking machine proposed in the background art is inconvenient to move due to the self weight and needs to manually feed bolts when in use.

In order to achieve the purpose, the utility model provides the following technical scheme: an auto-screwdriving machine having a structure for reducing movement resistance, comprising:

a moving assembly;

the moving assembly includes:

the lower surface of the chassis is provided with a ball;

the screw rods are arranged on the left side and the right side of the chassis, handles are arranged above the screw rods, cushion blocks are arranged below the screw rods, and a feeding assembly is arranged above the chassis;

the feeding assembly comprises:

a material storage frame;

the lifting rod is arranged inside the material storage frame, a lifting plate is arranged above the lifting rod, a guide groove is formed in the right side of the lifting plate, a blanking box is arranged in the right side of the guide groove, a guide rail is arranged below the blanking box, and a processing assembly is arranged above the guide rail.

Preferably, the balls are embedded with the chassis, the balls are distributed on the lower surface of the chassis in an array manner, the chassis is in threaded connection with the screw, the screw is fixedly connected with the handle, and the screw and the cushion block form an integrated structure.

Preferably, the storage frame internal surface closely laminates with the lifter plate, and the lifter plate constitutes integral structure with the lifter, the lifter constitutes fixed connection with the storage frame, and the lifter plate passes through the lifter and constitutes elevation structure with the storage frame.

Preferably, the storage frame right side is provided with the breach, and the baffle box is fixed at the breach lower extreme, the storage frame passes through the baffle box and constitutes the connectivity with the blanking case, and the junction between blanking case and the guide rail is the arc.

Preferably, the processing assembly comprises:

the object placing plate is fixed on the chassis;

the slide, it set up in it is right-hand to put the thing board, the slide top is provided with the telescopic link, the telescopic link top is provided with the bottom plate, the bottom plate top is provided with the motor, the motor left is provided with the sleeve, sleeve left surface is provided with the draw-in groove, the right-hand push rod that is provided with of slide.

Preferably, the push rod and the chassis form a fixed connection, the sliding plate and the chassis form an integrated structure through the push rod, the telescopic rod and the sliding plate form a fixed connection, the bottom plate and the sliding plate form an integrated structure through the telescopic rod, the motor and the bottom plate form a fixed connection, and the motor and the sleeve form a detachable structure.

The utility model provides an automatic screw locking machine with a structure for reducing moving resistance, which has the following beneficial effects: according to the automatic screw locking machine with the structure for reducing the moving resistance, the equipment is convenient to move and fix through the matching of parts of each part, the automatic feeding of bolts can be carried out, and the working efficiency of the equipment is improved;

1. according to the utility model, through the arrangement of the balls, the equipment can conveniently move on the ground in all directions, the balls cannot fall off from the chassis in the moving process of the equipment, the stability of the equipment can be ensured when the equipment moves, the screw rod can be rotated by rotating the handle after the equipment moves to a specified position, the cushion block is lowered, and the stable support is provided for the equipment while the position of the equipment is fixed;

2. according to the utility model, through the arrangement of the material storage frame, when the lifting rod drives the lifting plate to ascend in the material storage frame, the bolts in the material storage frame can be jacked up and sent into the material guide groove through the lifting plate, so that the bolts enter the blanking box, and when the bolts fall in the blanking box, the bolts downwards enter the guide rail due to the gravity center, so that the bolts arranged in the guide rail are ensured to be consistent in orientation, the processing is convenient, and the bolts are not required to be loaded manually;

3. according to the utility model, through the arrangement of the sleeve, the bolt head can enter the clamping groove by virtue of inertia after passing through the guide rail, then the telescopic rod can drive the bottom plate to ascend, after the bolt ascends to a specified height, the push rod drives the sliding plate to move, so that the bolt is contacted with a material, then the motor is started, the bolt is driven to rotate through the sleeve, the push rod continues to push the sliding plate, so that the bolt can be screwed on the material, and the fixation of the bolt is completed.

Drawings

FIG. 1 is a schematic cross-sectional front view of the present invention;

FIG. 2 is a schematic structural view of a cut-away right side view of the storage frame of the present invention;

fig. 3 is a schematic perspective view of the sleeve of the present invention.

In the figure: 1. a moving assembly; 2. a feeding assembly; 3. processing the assembly; 101. a chassis; 102. a ball bearing; 103. a screw; 104. a handle; 105. cushion blocks; 201. a material storage frame; 202. a lifting rod; 203. a lifting plate; 204. a material guide chute; 205. blanking the material box; 206. a guide rail; 301. a storage plate; 302. a slide plate; 303. a telescopic rod; 304. a base plate; 305. a motor; 306. a sleeve; 307. a card slot; 308. a push rod.

Detailed Description

As shown in fig. 1, an auto-screwdriving machine having a structure for reducing a movement resistance includes: a moving assembly 1; the moving assembly 1 comprises: the device comprises a chassis 101, wherein the lower surface of the chassis 101 is provided with a ball 102; screws 103 provided on both right and left sides of the base plate 101, a handle 104 provided above the screws 103, a spacer 105 provided below the screws 103, balls 102 fitted to the base plate 101, the balls 102 are distributed in an array on the lower surface of the base plate 101, the base plate 101 is in threaded connection with the screw 103, the screw 103 is fixedly connected with the handle 104, the screw 103 and the cushion block 105 form an integrated structure, through the arrangement of the ball bearings 102, the equipment can conveniently move on the ground in all directions, the rolling balls 102 can not fall off from the chassis 101 in the moving process of the equipment, and meanwhile, the equipment can be ensured to keep stable when moving, after moving to the designated position, the screw 103 can be rotated by rotating the handle 104, the pad 105 is lowered, the device is fixed in position and simultaneously provides stable support for the device, and the feeding assembly 2 is arranged above the chassis 101.

As shown in fig. 1 and 2, the feed assembly 2 includes: a stock frame 201; the lifting rod 202 is arranged inside the storage frame 201, the lifting plate 203 is arranged above the lifting rod 202, the inner surface of the storage frame 201 is tightly attached to the lifting plate 203, the lifting plate 203 and the lifting rod 202 form an integrated structure, the lifting rod 202 and the storage frame 201 form a fixed connection, the lifting plate 203 and the storage frame 201 form a lifting structure through the lifting rod 202, the right side of the lifting plate 203 is provided with a material guide groove 204, the right side of the material guide groove 204 is provided with a blanking box 205, the lower side of the blanking box 205 is provided with a guide rail 206, the right side of the storage frame 201 is provided with a notch, the material guide groove 204 is fixed at the lower end of the notch, the storage frame 201 and the blanking box 205 form a communication structure, the connection part between the blanking box 205 and the guide rail 206 is arc-shaped, and the lifting rod 202 drives the lifting plate 203 to lift up in the storage frame 201 through the arrangement of the storage frame 201, so that bolts in the storage frame 201 can be jacked up, and the bolts are sent into the material guide groove 204 through the lifting plate 203 and then enter the blanking box 205, when falling in the blanking box 205, the bolts can downwards enter the guide rail 206 because of the gravity center, so that the orientation of the bolts arranged in the guide rail 206 is consistent, the processing is convenient, the manual bolt feeding is not needed, and the processing assembly 3 is arranged above the guide rail 206.

As shown in fig. 1 and 3, the processing assembly 3 includes: the object placing plate 301, wherein the object placing plate 301 is fixed on the chassis 101; a sliding plate 302 arranged at the right side of the object placing plate 301, an expansion rod 303 arranged above the sliding plate 302, a bottom plate 304 arranged above the expansion rod 303, a motor 305 arranged above the bottom plate 304, a sleeve 306 arranged at the left side of the motor 305, a clamping groove 307 arranged on the left surface of the sleeve 306, a push rod 308 arranged at the right side of the sliding plate 302, the push rod 308 and the chassis 101 form a fixed connection, the sliding plate 302 and the chassis 101 form an integrated structure through the push rod 308, the expansion rod 303 and the sliding plate 302 form a fixed connection, the bottom plate 304 and the sliding plate 302 form an integrated structure through the expansion rod 303, the motor 305 and the bottom plate 304 form a fixed connection, the motor 305 and the sleeve 306 form a detachable structure, through the arrangement of the sleeve 306, a bolt can enter the clamping groove 307 through inertia after passing through the guide rail 206, then the expansion rod 303 can drive the bottom plate 304 to ascend, after the bolt ascends to a designated height, the push rod 308 drives the sliding plate 302 to move, so that the bolt contacts with the material, then the motor 305 is started, the sleeve 306 drives the bolt to rotate, and the push rod 308 continues to push the sliding plate 302, so that the bolt can be screwed on the material, and the fixation of the bolt is completed.

In summary, in the auto-screwdriving machine with the structure for reducing moving resistance, when in use, according to the structure shown in fig. 1, 2 and 3, firstly, after moving the equipment to a designated place, the screw 103 is rotated by rotating the handle 104, the pad 105 is lowered to separate the ball 102 from the ground, the chassis 101 is raised and keep the equipment stable, then the material is placed on the object placing plate 301 and fixed, the corresponding bolt is placed in the material storage frame 201, then the lifting rod 202 drives the lifting plate 203 to rise in the material storage frame 201, the bolt in the material storage frame 201 is jacked up and sent into the material guiding groove 204 through the lifting plate 203, so as to enter the material dropping box 205, when the bolt falls in the material dropping box 205, the bolt head enters the guide rail 206 downwards due to the center of gravity, so that the bolt arranged in the guide rail 206 keeps the bolt head right, so that the bolt can enter the clamping groove 307 by inertia after passing through the guide rail 206, then telescopic link 303 can drive bottom plate 304 and rise, after rising the bolt to appointed height, push rod 308 drives slide 302 again and removes, make bolt and material contact, then motor 305 starts, it rotates to drive the bolt through sleeve 306, push rod 308 continues to promote slide 302, make the bolt can be screwed up on the material, accomplish the fixed of bolt, then motor 305 stops, push rod 308 drives slide 302 and resets, telescopic link 303 drives bottom plate 304 and resets, operating personnel adjusts the material position, carry out the fixed of next bolt.

Claims (6)

1. An auto-screwdriving machine having a structure for reducing movement resistance, comprising:

a moving assembly (1);

it is characterized in that;

the moving assembly (1) comprises:

the lower surface of the chassis (101) is provided with a ball (102);

the screw rods (103) are arranged on the left side and the right side of the base plate (101), handles (104) are arranged above the screw rods (103), cushion blocks (105) are arranged below the screw rods (103), and the feeding assembly (2) is arranged above the base plate (101);

the feeding assembly (2) comprises:

a stock frame (201);

lifter (202), it set up in inside storage frame (201), lifter (202) top is provided with lifter plate (203), the right-hand baffle box (204) that is provided with of lifter plate (203), the right-hand workbin (205) that falls that is provided with of baffle box (204), the workbin (205) below that falls is provided with guide rail (206), guide rail (206) top is provided with processing subassembly (3).

2. The automatic screw locking machine with the structure for reducing the moving resistance according to claim 1, wherein the balls (102) are embedded in the base plate (101), the balls (102) are distributed in an array on the lower surface of the base plate (101), the base plate (101) is in threaded connection with the screw rod (103), the screw rod (103) is fixedly connected with the handle (104), and the screw rod (103) and the cushion block (105) form an integrated structure.

3. The auto-screwdriving machine with structure for reducing moving resistance according to claim 1, wherein the inner surface of the storage frame (201) is tightly attached to the lifting plate (203), the lifting plate (203) and the lifting rod (202) form an integrated structure, the lifting rod (202) and the storage frame (201) form a fixed connection, and the lifting plate (203) and the storage frame (201) form a lifting structure through the lifting rod (202).

4. The auto-screwing machine with the structure for reducing the moving resistance according to claim 1, wherein a notch is formed in the right side of the storage frame (201), the material guiding groove (204) is fixed at the lower end of the notch, the storage frame (201) and the material dropping box (205) form a communicating structure through the material guiding groove (204), and the connecting part between the material dropping box (205) and the guide rail (206) is arc-shaped.

5. The auto-screwing machine with structure for reducing moving resistance according to claim 1, wherein said processing assembly (3) comprises:

the object placing plate (301), wherein the object placing plate (301) is fixed on the chassis (101);

slide (302), it set up in it is right-hand to put thing board (301), slide (302) top is provided with telescopic link (303), telescopic link (303) top is provided with bottom plate (304), bottom plate (304) top is provided with motor (305), motor (305) left is provided with sleeve (306), sleeve (306) left surface is provided with draw-in groove (307), slide (302) right-hand push rod (308) that is provided with.

6. The auto-screwing machine with the structure for reducing the moving resistance according to claim 5, wherein the push rod (308) is fixedly connected with the chassis (101), the sliding plate (302) is integrally formed with the chassis (101) through the push rod (308), the telescopic rod (303) is fixedly connected with the sliding plate (302), the bottom plate (304) is integrally formed with the sliding plate (302) through the telescopic rod (303), the motor (305) is fixedly connected with the bottom plate (304), and the motor (305) and the sleeve (306) are detachably formed.

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