CN210254964U - Screw conveyor for assembling clamp - Google Patents

Abstract

The utility model provides a screw conveyer for clamp equipment, it can solve and lack the problem that can make the screw in proper order with the conveyer that the rotation state carried forward at present. The device comprises a rack, a controller, a screw feeding mechanism and a screw locking mechanism; the screw feeding mechanism is used for aligning screws and sequentially feeding the screws to the screw locking mechanism; the screw locking mechanism comprises a motor, a screw clamping nozzle, a first air cylinder and a guide rail, wherein the first air cylinder and the guide rail are arranged along the front-back direction; the screw clamp is arranged on the rear side of the inner hexagonal wrench and fixedly mounted on the rack, a main pipe of the screw clamp and the inner hexagonal wrench are coaxially arranged, branch pipes are communicated with an outlet of the screw feeding mechanism, and the inner hexagonal wrench can be inserted backwards into the main pipe and drive screws in the screw clamp to rotate and eject the screws out of the screw clamp.

Description

Screw conveyor for assembling clamp

Technical Field

The utility model relates to a clamp processing equipment field specifically is a screw conveyer for clamp equipment.

Background

Fig. 1 is a clamp for washing machine intake and drain pipe, it includes clamp main part 1 and screw 2, the clamp main part is open-ended circular structure and its both ends are equipped with the journal stirrup respectively, one is monaural 4 in two journal stirrups, another is ears 5, the clamp main part that is located monaural and ears below links into an integrated entity and is clearance fit with the connecting piece through connecting piece 3, the screw penetrates and closes soon with the internal thread that the ears formed from the monaural, thereby when using, as long as twist the screw, just can make monaural and ears relative or opposite movement, and then make the diameter shrink or the expansion of clamp main part, the effect of the water pipe is clasped or loosened in the realization.

Because clamp main part and screw all are processed alone, need the later process with the screw lock in the journal stirrup just can the delivery, at present, the operation of locking the screw in the journal stirrup all relies on the manual work to accomplish, and production efficiency is low, and intensity of labour is big, unsuitable mass production, if will realize the automatic assembly of clamp main part and screw, need a conveyer can make the screw forward in the rotation state in proper order, but does not have such conveyer in the market at present.

Disclosure of Invention

To the technical problem that lacks the conveyer that can make the screw carry forward with the rotation state in proper order at present, the utility model provides a screw conveyer for clamp equipment, it enables the screw and carries forward with the rotation state in proper order.

The technical scheme is as follows: the utility model provides a screw conveyer for clamp equipment which characterized in that: the screw feeding mechanism and the screw locking mechanism are electrically connected with the controller respectively; the screw feeding mechanism is used for aligning screws and sequentially feeding the screws to the screw locking mechanism; the screw locking mechanism comprises a motor, a screw clamping nozzle, a first air cylinder and a guide rail, wherein the first air cylinder and the guide rail are fixedly arranged on the rack respectively; the screw clamp is arranged on the rear side of the inner hexagonal wrench and fixedly mounted on the rack, a main pipe of the screw clamp is coaxially arranged with the inner hexagonal wrench, branch pipes are communicated with an outlet of the screw feeding mechanism, and the inner hexagonal wrench can be inserted backwards into the main pipe and drive the screw in the screw clamp to rotate and eject out of the screw clamp.

It is further characterized in that:

screw feeding mechanism includes vibration dish, track, linear vibrator and blanking mechanism, the vibration dish with linear vibrator installs respectively in the frame, the vibration dish is used for inside the screw carries out the permutation and makes the screw all is vertical arrangement, orbital entry with the export intercommunication of vibration dish, the export with blanking mechanism's entry intercommunication, the track support in on the linear vibrator, be equipped with the confession in the track the passageway that the screw was carried side by side, just the nut of screw by stretch out at the passageway top, blanking mechanism be used for with the screw carry in proper order extremely the screw clamp is chewed divide intraductally.

The blanking mechanism comprises a shell fixed on the rack, a pull block arranged in the shell and in clearance fit with the shell, a guide plate arranged on the pull block and fixedly connected with the shell, and a second air cylinder fixedly connected to the front side surface of the shell, wherein a feed inlet communicated with an outlet of the track is formed in the right side surface of the shell, and a piston rod of the second air cylinder is connected with the pull block and used for driving the pull block to move back and forth; a circular through hole which is communicated up and down is formed in the pulling block and is communicated with the right side face of the pulling block, and the circular through hole is opposite to the feeding hole when a piston rod of the second air cylinder extends out; a sliding groove communicated with the circular through hole is formed in the top surface of the pulling block along the left-right direction, a baffle is installed in the sliding groove in a sliding fit mode, and a socket opposite to the circular through hole is formed in the right side surface of the baffle; the rod part of the screw can enter the circular through hole and the socket from the feed port, the nut of the screw is positioned above the baffle, and the guide plate is provided with an avoiding port for avoiding the nut of the screw; the guide plate is also provided with an S-shaped guide hole arranged along the front-back direction, and a screw is fixedly connected to the baffle and extends into the S-shaped guide hole; when the piston rod of the second air cylinder is retracted, the screw moves from back to front in the S-shaped guide hole, the baffle plate is pulled out from the lower portion of the screw, the screw falls into an air pipe arranged at the bottom of the shell through the circular through hole, and the other end of the air pipe is communicated with the branch pipe.

The clamp is pressed from both sides to chew and is fixed through adjustment mechanism in the frame, adjustment mechanism includes cylinder three, link block and buffering attenuator, cylinder two with cylinder three is adjustable cylinder, the screw clamp is chewed and is passed through link block slidable mounting is in on the guide rail, cylinder three sets up link block front side is fixed in the frame, cylinder three the piston rod with link block rigid coupling, the buffering attenuator sets up link block rear side is fixed in the frame, link block can remove backward and strike buffering attenuator.

The utility model has the advantages that:

the utility model discloses a screw conveyer, its screw feeding mechanism can carry out the permutation and send to it to lock screw mechanism to the screw of chaotic arrangement automatically, the rigid coupling has interior hexagonal spanner on lock screw mechanism's the motor, under the promotion of cylinder one, interior hexagonal spanner can insert in the main pipe that the screw clamp chewed and overlap on the nut of screw, and chew the rotatory ejecting screw clamp of screw, realize that the screw is carried forward with the rotation state in proper order, as long as with clamp main part location this moment chew the rear side at the screw clamp and make the monaural orientation screw, then rotatory screw just can directly be locked in the journal stirrup of clamp main part, be convenient for realize the automatic equipment of clamp.

Drawings

FIG. 1 is a front view of a clamp;

FIG. 2 is a schematic view of the overall structure of the present invention;

FIG. 3 is an enlarged view of area A of FIG. 2;

FIG. 4 is a schematic view of the overall structure of the blanking mechanism;

FIG. 5 is a top view of the pull block;

fig. 6 is a top view of the blanking mechanism (guide plate not shown).

Reference numerals:

1-a clamp body; 2-a screw; 3-a connector; 4-single ear; 5-both ears; 6-a frame; 7-a controller;

51-a vibrating disk; 52-track; 53-linear vibrator;

60-a screw locking mechanism; 61-a motor; 62-screw clamp mouth; 621-main pipe; 622-branch pipe; 63-cylinder one; 64-a guide rail; 65-internal hexagonal wrench;

70-a blanking mechanism; 71-a housing; 711-feed inlet; 72-pulling the block; 721-circular through holes; 722-a chute; 73-a guide plate; 731-avoidance port; 732-S-shaped pilot holes; 74-cylinder two; 75-a baffle; 751-a socket; 76-screws; 77-trachea;

81-cylinder three; 82-connecting the slide block; 83-cushion dampers.

Detailed Description

Referring to fig. 2 to 6, the screw conveyor for assembling the hoop of the present invention includes a frame 6, wherein the frame 6 is provided with a controller 7, and a screw feeding mechanism and a screw locking mechanism 60 electrically connected to the controller 7; the screw feeding mechanism is used for aligning the screws 2 and sequentially feeding the screws 2 to the screw locking mechanism 60; the screw locking mechanism 60 comprises a motor 61, a screw clamp 62, a first cylinder 63 and a guide rail 64 which are respectively and fixedly installed on the frame 6, the first cylinder 63 and the guide rail 64 are both arranged along the front and back direction, the motor 61 is slidably installed on the guide rail 64, the first cylinder 63 is connected with the motor 61 and used for driving the motor 61 to move back and forth, an output shaft of the motor 61 is arranged backwards, and an inner hexagonal wrench 65 is coaxially and fixedly connected to the output shaft; the screw clamp 62 is arranged at the rear side of the inner hexagonal wrench 65 and fixedly mounted on the frame 6, the main pipe 621 of the screw clamp 62 is coaxially arranged with the inner hexagonal wrench 65, the branch pipe 622 is communicated with an outlet of the screw feeding mechanism, and the inner hexagonal wrench 65 can be inserted backwards into the main pipe 621 and drive the screw 2 in the screw clamp 62 to rotate and push the screw 2 out of the screw clamp 62. The screw clamp mouth is a purchased part and belongs to the prior art, a main pipe and a branch pipe of the screw clamp mouth are communicated, so that a screw can enter the main pipe through the branch pipe, the motor moves backwards under the driving of the cylinder I, meanwhile, the motor drives the inner hexagonal wrench to rotate, the inner hexagonal wrench can be sleeved on a nut of the screw in the rotating process after being inserted into the main pipe, and the screw is driven to rotate and is ejected out of the screw clamp mouth backwards.

Referring to fig. 2, the screw feeding mechanism includes a vibrating disk 51, a rail 52, a linear vibrator 53 and a blanking mechanism 70, the vibrating disk 51 and the linear vibrator 53 are respectively installed on the frame 6, the vibrating disk 51 is used for aligning the screws 2 therein and enabling the screws 2 to be vertically arranged, an inlet of the rail 52 is communicated with an outlet of the vibrating disk 51, the outlet is communicated with an inlet of the blanking mechanism 70, the rail 52 is supported on the linear vibrator 53, a channel for the screws 2 to be conveyed side by side is arranged in the rail 52, nuts of the screws 2 extend out of the top of the channel, and the blanking mechanism 70 is used for sequentially conveying the screws 2 to the branch pipes 622 of the screw clamp mouth 62. The vibrating disc and the linear vibrator both belong to the prior art, the vibrating disc can automatically and orderly arrange and output messy screws poured into the vibrating disc, the screws entering the track can be continuously conveyed forwards under the driving of the linear vibrator, and the vibrating disc type screw conveyor is simple in structure, reliable in equipment operation, convenient to install and low in cost.

Referring to fig. 2, 4 to 6, the blanking mechanism 70 includes a housing 71 fixed on the frame 6, a pull block 72 disposed in the housing 71 and in clearance fit with the housing 71, a guide plate 73 disposed on the pull block 72 and fixedly connected to the housing 71, and a second cylinder 74 fixedly connected to the front side of the housing 71, a feed port 711 communicated with an outlet of the rail 52 is formed on the right side of the housing 71, and a piston rod of the second cylinder 74 is connected to the pull block 72 for driving the pull block 72 to move back and forth; a circular through hole 721 penetrating up and down is formed in the pulling block 72, the circular through hole 721 is penetrated through the right side face of the pulling block 72, and when a piston rod of the second air cylinder 74 extends out, the circular through hole 721 is opposite to the feeding hole 711; a sliding groove 722 communicated with the circular through hole 721 is formed in the top surface of the pulling block 72 along the left-right direction, a baffle plate 75 is installed in the sliding groove 722 in a sliding fit mode, and a socket 751 opposite to the circular through hole 721 is formed in the right side surface of the baffle plate 75; the rod part of the screw 2 can enter the circular through hole 721 and the socket 751 through the feeding hole 711, the nut of the screw 2 is positioned above the baffle plate 75, and the guide plate 73 is provided with an avoiding hole 731 for avoiding the nut of the screw 2; the guide plate 73 is further provided with an S-shaped guide hole 732 arranged in the front-rear direction, and the screw 76 is fixedly connected to the baffle plate 75 and extends into the S-shaped guide hole 732; when the piston rod of the second air cylinder 74 is retracted, the screw 76 moves from back to front in the S-shaped guide hole 732, so that the baffle plate 75 is drawn out from the lower part of the screw 2, the screw 2 falls into the air pipe 77 arranged at the bottom of the shell 71 through the circular through hole 721, and the other end of the air pipe 77 is communicated with the branch pipe 622. The design is that when one screw comes out from the outlet of the track, the rod part of the screw can directly enter the circular through hole and the socket from the feed inlet, the nut of the screw is positioned above the baffle plate, the screw is integrally hung on the baffle plate, then the piston rod of the air cylinder II is retracted, the pull block moves forwards and simultaneously blocks the feed inlet, so that the screw of the track can not continue to move forwards, the screw in the pull block moves forwards along with the pull block, the screw moves in the S-shaped guide hole in the process of moving forwards of the pull block to drive the baffle plate to move leftwards and be drawn out from the lower part of the screw, the screw falls into the air pipe from the circular through hole after losing the support of the baffle plate, the screw is rapidly conveyed into the branch pipe under the blowing of high-pressure gas in the air pipe, after the screw is ejected out of the screw clamping mouth by the screw locking mechanism, the piston rod of the air cylinder II extends out and resets, the, and continuous conveying of the screws is realized.

Referring to fig. 3, in order to prevent the screw 2 from being accidentally jammed, the clamp mouth 62 is fixed on the frame 6 through an adjusting mechanism, the adjusting mechanism includes a third cylinder 81, a connecting slide block 82 and a buffer damper 83, at this time, the second cylinder 63 and the third cylinder 81 are both adjustable cylinders, the screw clamp mouth 62 is slidably mounted on the guide rail 64 through the connecting slide block 82, the third cylinder 81 is arranged on the front side of the connecting slide block 82 and fixed on the frame 6, a piston rod of the third cylinder 81 is fixedly connected with the connecting slide block 82, the buffer damper 83 is arranged on the rear side of the connecting slide block 82 and fixed on the frame 8, and the connecting slide block 82 can move backwards and impact the buffer damper 83. Therefore, when the screw is accidentally clamped, the connecting slide block can be driven by the cylinder III to impact the buffer damper, so that the screw clamped in the screw clamp mouth is not clamped under stress and can be smoothly ejected. The adjusting mechanism only works when the screw is accidentally clamped and does not work under normal conditions. The buffer damper is a purchased part and belongs to the prior art.

Claims (4)

1. The utility model provides a screw conveyer for clamp equipment which characterized in that: the screw feeding mechanism and the screw locking mechanism are electrically connected with the controller respectively; the screw feeding mechanism is used for aligning screws and sequentially feeding the screws to the screw locking mechanism; the screw locking mechanism comprises a motor, a screw clamping nozzle, a first air cylinder and a guide rail, wherein the first air cylinder and the guide rail are fixedly arranged on the rack respectively; the screw clamp is arranged on the rear side of the inner hexagonal wrench and fixedly mounted on the rack, a main pipe of the screw clamp is coaxially arranged with the inner hexagonal wrench, branch pipes are communicated with an outlet of the screw feeding mechanism, and the inner hexagonal wrench can be inserted backwards into the main pipe and drive the screw in the screw clamp to rotate and eject out of the screw clamp.

2. The screw conveyor for assembling the hose clamp according to claim 1, wherein: screw feeding mechanism includes vibration dish, track, linear vibrator and blanking mechanism, the vibration dish with linear vibrator installs respectively in the frame, the vibration dish is used for inside the screw carries out the permutation and makes the screw all is vertical arrangement, orbital entry with the export intercommunication of vibration dish, the export with blanking mechanism's entry intercommunication, the track support in on the linear vibrator, be equipped with the confession in the track the passageway that the screw was carried side by side, just the nut of screw by stretch out at the passageway top, blanking mechanism be used for with the screw carry in proper order extremely the screw clamp is chewed divide intraductally.

3. A screw conveyor for assembling hose clamps according to claim 2, wherein: the blanking mechanism comprises a shell fixed on the rack, a pull block arranged in the shell and in clearance fit with the shell, a guide plate arranged on the pull block and fixedly connected with the shell, and a second air cylinder fixedly connected to the front side surface of the shell, wherein a feed inlet communicated with an outlet of the track is formed in the right side surface of the shell, and a piston rod of the second air cylinder is connected with the pull block and used for driving the pull block to move back and forth; a circular through hole which is communicated up and down is formed in the pulling block and is communicated with the right side face of the pulling block, and the circular through hole is opposite to the feeding hole when a piston rod of the second air cylinder extends out; a sliding groove communicated with the circular through hole is formed in the top surface of the pulling block along the left-right direction, a baffle is installed in the sliding groove in a sliding fit mode, and a socket opposite to the circular through hole is formed in the right side surface of the baffle; the rod part of the screw can enter the circular through hole and the socket from the feed port, the nut of the screw is positioned above the baffle, and the guide plate is provided with an avoiding port for avoiding the nut of the screw; the guide plate is also provided with an S-shaped guide hole arranged along the front-back direction, and a screw is fixedly connected to the baffle and extends into the S-shaped guide hole; when the piston rod of the second air cylinder is retracted, the screw moves from back to front in the S-shaped guide hole, the baffle plate is pulled out from the lower portion of the screw, the screw falls into an air pipe arranged at the bottom of the shell through the circular through hole, and the other end of the air pipe is communicated with the branch pipe.

4. A screw conveyor for assembling hose clamps according to claim 3, wherein: the clamp is pressed from both sides to chew and is fixed through adjustment mechanism in the frame, adjustment mechanism includes cylinder three, link block and buffering attenuator, cylinder two with cylinder three is adjustable cylinder, the screw clamp is chewed and is passed through link block slidable mounting is in on the guide rail, cylinder three sets up link block front side is fixed in the frame, cylinder three the piston rod with link block rigid coupling, the buffering attenuator sets up link block rear side is fixed in the frame, link block can remove backward and strike buffering attenuator.

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