CN210498033U - Automatic feeding mechanism for special-shaped pipe fittings at pipe ends - Google Patents

Abstract

The utility model relates to an automatic feeding mechanism for special-shaped pipe fittings at pipe ends, which comprises a frame, wherein a belt conveyor is arranged in the frame, an anti-pipe-overlapping mechanism for single pipe fittings to pass through is arranged on the frame and above the belt conveyor, and a pipe-separating stop mechanism and a pipe-dropping stop mechanism for stopping the pipe fittings from being conveyed are arranged at the tail end of the belt conveyor; the pipe dropping stock stop is positioned behind the pipe dividing stock stop in the transmission direction of the belt conveyor; the pipe separating and blocking mechanism and the pipe dropping and blocking mechanism alternately form a blocking action on the pipe fittings on the belt conveyor, and are used for receiving a material lifting mechanism for conveying the pipe fittings out of the belt conveyor and a pushing mechanism for pushing the pipe fittings in the material lifting mechanism to a specified position. The utility model discloses can realize the orderly material loading work that carries on of single pipe fitting, for the production circulation of pipe fitting provides effective guarantee, also corresponding promotion work efficiency.

Description

Automatic feeding mechanism for special-shaped pipe fittings at pipe ends

Technical Field

The utility model relates to a pipe end dysmorphism pipe fitting automatic feeding mechanism.

Background

In vehicle air conditioner pipe fitting production circulation in-process, in order to promote the automation, adopt automatic feeding equipment to carry out the material loading, when carrying out the material loading to the light pipe, the pipe fitting can roll on the material loading machine, and after assembling the upper part (if the one end of pipe fitting is equipped with the special-shaped clamp plate that is greater than the pipe fitting) on the pipe fitting, the pipe fitting just can't roll on the material loading machine that the pipe fitting was used always on the material loading machine, can't accomplish single feed giving down the process feed, influence the production circulation work of pipe fitting.

Disclosure of Invention

To the problem, the utility model aims at providing a can realize pipe end special-shaped pipe fitting automatic feeding mechanism of single pipe fitting feed to guarantee the production circulation normal operating of pipe fitting.

Realize the technical scheme of the utility model as follows

An automatic feeding mechanism for special pipe fittings at pipe ends comprises a frame, a belt conveyor is arranged in the frame, an anti-pipe-overlapping mechanism for allowing a single pipe fitting to pass through is arranged on the frame and above the belt conveyor,

the tail end of the belt conveyor is provided with a pipe dividing stock stop and a pipe falling stock stop which form a stop for the conveyed pipe fittings; the pipe dropping stock stop is positioned behind the pipe dividing stock stop in the transmission direction of the belt conveyor; the pipe dividing and stopping mechanism and the pipe falling and stopping mechanism alternately form gear action on the pipe fitting on the belt conveyor,

and the lifting mechanism is used for receiving the pipe fittings conveyed out by the belt conveyor, and the pushing mechanism is used for pushing the pipe fittings in the lifting mechanism to a specified position.

By adopting the technical scheme, the pipe fitting provided with the special-shaped pressing plate is horizontally placed on the belt conveyor, the belt conveyor rotates to convey the pipe fitting forwards, only a single pipe fitting passes through the pipe overlapping prevention mechanism, and the problem that partial overlapping of the pipe fittings affects single feeding is avoided; after the pipe folding preventing mechanism is used, the falling pipe stock stop mechanism is in a rising state, the branch pipe stock stop mechanism is in a falling state, the pipe fittings are stopped when reaching the falling pipe stock stop mechanism, the branch pipe stock stop mechanism rises to separate a first pipe fitting from a rear pipe fitting, the falling pipe stock stop mechanism shrinks and falls, the first pipe fitting continues to move forwards along with the belt conveyor until falling into the lifting mechanism, the lifting mechanism lifts the pipe fitting out, one end of the pipe fitting is pushed to an appointed position through the pushing mechanism, and the feeding process of automatic feeding and positioning of the pipe fittings is completed. The utility model discloses can realize the orderly material loading work that carries on of single pipe fitting, for the production circulation of pipe fitting provides effective guarantee, also corresponding promotion work efficiency.

Further, the pipe overlapping prevention mechanism comprises a support arranged above the frame in a crossing mode, a baffle extending downwards to the position above the belt conveyor is arranged on the support, and an overlapping prevention space for a single pipe to pass through is formed between the position below the baffle and the position above the belt conveyor.

Furthermore, a lifting frame moving up and down is arranged on the support, the baffle plate is fixed at the lower end of the lifting frame, and an adjusting piece for adjusting the lifting frame to move up and down is assembled on the support.

Furthermore, the baffle extends along the transmission direction of the belt conveyor, and a material guide inclined surface for guiding a single pipe fitting on the belt conveyor into the anti-overlapping space is arranged on the baffle.

Further, the pipe dividing and material blocking mechanism comprises a material blocking plate and a material blocking driver, wherein the material blocking driver drives the material blocking plate to extend upwards to be higher than a transmission belt of the belt conveyor or to contract downwards to be lower than the transmission belt of the belt conveyor; the structure of the pipe falling stock stop is the same as that of the pipe separating stock stop.

Furthermore, the material lifting mechanism comprises a material ejecting driver and a material ejecting plate, a material receiving groove for receiving the output pipe fitting of the belt conveyor is arranged on the material ejecting plate, the material ejecting driver is assembled on the frame, the telescopic end of the material ejecting driver is fixedly connected with the material ejecting plate, and the material ejecting driver drives the material ejecting plate to move upwards or downwards.

Further, the pushing mechanism comprises a pushing driver and a pushing plate, the pushing plate is located on one side of the material receiving groove, the pushing driver drives the pushing plate to move in the horizontal direction, and pipe fittings in the material receiving groove are pushed.

Furthermore, an elastic mechanism for buffering the pushing of the pipe fitting is arranged on the pushing plate and comprises a spring and a T-shaped pushing block, and one end of the pushing block penetrates through the pushing plate and is connected with a blocking piece; the spring is sleeved on the push block and is compressed by the other end of the push block and the push plate.

Further, two belt conveyors are arranged in the frame side by side, and a translation adjusting mechanism for driving one belt conveyor or the two belt conveyors to form horizontal movement in the frame is arranged in the frame.

Furthermore, the translation adjusting mechanism comprises a support column fixed in the frame in the horizontal direction, a support seat is assembled below the belt conveyor, the support seat is sleeved on the support column in an empty mode, two ends of the support seat are rotatably assembled in the frame and are located on an adjusting screw rod below the belt conveyor, an adjusting block is fixedly arranged below the belt conveyor, and the adjusting block penetrates through the adjusting screw rod and forms thread fit transmission with the adjusting screw rod; the frame internal rotation is equipped with the regulating spindle, installs on the regulating spindle along with the regulating spindle pivoted action wheel in the lump, and adjusting screw goes up the fixed driven wheel that is equipped with, and the action wheel forms the transmission with following between the driving wheel and is connected through the drive belt, and the one end of regulating spindle is operation regulating spindle pivoted rotation regulation end.

Drawings

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

FIG. 2 is a left perspective view of FIG. 1;

FIG. 3 is an enlarged view of portion A of FIG. 1;

FIG. 4 is an enlarged view of the portion B of FIG. 2;

fig. 5 is a schematic front plan view of the present invention;

fig. 6 is a schematic perspective view of two belt conveyors according to the present invention;

FIG. 7 is a bottom perspective view of FIG. 6;

in the drawing, 1 is a frame, 2 is a belt conveyor, 3 is a frame, 4 is a driving roller, 5 is a driven roller, 6 is a transmission belt, 7 is a motor, 8 is an anti-pipe-folding mechanism, 9 is a support, 10 is a baffle, 11 is a lifting frame, 12 is an adjusting piece, 13 is a guide inclined plane, 14 is a pipe separating baffle mechanism, 15 is a pipe falling baffle mechanism, 16 is a baffle plate, 17 is a baffle driver, 18 is a mounting plate, 19 is a locking nut, 20 is a guide plate, 21 is a guide notch, 22 is a lifting mechanism, 23 is a material ejecting driver, 24 is a material ejecting plate, 25 is a material receiving groove, 26 is a baffle plate, 27 is a mounting plate, 28 is a pushing mechanism, 29 is a pushing driver, 30 is a pushing plate, 31 is a positioning plate, 32 is a spring, 33 is a pushing block, 34 is a baffle position piece, 35 is a translation adjusting mechanism, 36 is a supporting column, 37 is a supporting seat, 38 is an adjusting screw rod, 39 is an adjusting block, 40 is an adjusting shaft, the device comprises a driving wheel 41, a driven wheel 42, a transmission belt 43, a rotation adjusting end 44, a scale 45, a pointer 46, a calandria baffle 47 and a horizontal guide rail 48.

Detailed Description

In order to make the purpose, technical solution and advantages of the embodiments of the present invention clearer, the drawings of the embodiments of the present invention are combined below to clearly and completely describe the technical solution of the embodiments of the present invention. It is to be understood that the embodiments described are only some of the embodiments of the present invention, and not all of them. All other embodiments, which can be obtained by a person skilled in the art without any inventive work based on the described embodiments of the present invention, belong to the protection scope of the present invention.

As shown in fig. 1-7, an automatic feeding mechanism for special pipe fittings at pipe ends comprises a frame 1, wherein belt conveyors 2 are arranged in the frame, the number and the width of the belt conveyors are set according to needs, if one belt conveyor can complete feeding work, only one belt conveyor is selected, if the specifications (mainly different lengths) of the conveyed pipe fittings are changed, two or more belt conveyors arranged side by side can be selected for cooperation, and when a plurality of belt conveyors are adopted, the specifications and the parameters of the belt conveyors are preferably the same, so that synchronous transmission feeding between the belt conveyors is realized. The drawings of the application show that the combination of two belt conveyors is adopted, the belt conveyors convey and feed materials in the horizontal direction, the belt conveyors can adopt a conventional structure and mainly comprise a frame 3, a driving roller 4 and a driven roller 5 which are rotatably assembled on the frame, a transmission belt 6 which is positioned between the driving roller and the driven roller and drives the driving roller to rotate, and a motor 7 which is assembled on the frame and drives the driving roller to rotate.

The anti-pipe-overlapping mechanism 8 for single pipe fittings to pass through is arranged on the frame and above the belt conveyor, comprises two door-shaped supports 9 arranged above the frame in a crossing mode, the supports are arranged between the two door-shaped supports in a separated mode, a baffle plate 10 extending downwards to the upper portion of the belt conveyor is arranged on each support, and an anti-overlapping space for single pipe fittings to pass through is arranged between the lower portion of the baffle plate and the upper surface of a transmission belt of the belt conveyor. Be provided with crane 11 of up-and-down motion on the support, the crane is the panel of L type, during specific installation, the flip-chip carries on the support, the lower extreme of crane passes the support, be in the top of transmission band, the baffle passes through screw fixed connection at the crane lower extreme, be equipped with adjustment crane up-and-down motion's regulating part 12 on the support, the regulating part is the screw rod, the upper end of crane is passed to the lower extreme of screw rod, and the top is in the support top, it has set up blind hole or screw to open on the support, the lower extreme that supplies the screw rod inserts, in order to play certain limiting displacement, screw-thread fit between screw rod and the crane, when rotating the screw rod promptly, the crane can the up-and-down motion, with the distance between baffle and the transmission band upper surface of adjustment below, prevent. The baffle extends along belt conveyor's direction of transmission, the quantity of baffle is selected as required and is used, generally adopt two, form respectively to two tip of pipe fitting prevent that the stack keeps off the position can, the front end of every baffle is provided with the guide inclined plane 13 of single pipe fitting leading-in to preventing in the space of folding on the belt conveyor, the guide inclined plane is arranged downwards for the slope, firstly avoid producing direct collision with the pipe fitting, and cause the pipe fitting to be the damage, secondly can pass through the water conservancy diversion inclined plane, with single and smooth the guiding of pipe fitting on the transmission band prevent folding in the space.

The tail end of the belt conveyor is provided with a pipe dividing material stop mechanism 14 and a pipe falling material stop mechanism 15 which form a stop for the conveyed pipe fittings; the pipe dropping stock stop is positioned behind the pipe dividing stock stop in the transmission direction of the belt conveyor; the pipe dividing and blocking mechanism and the pipe falling and blocking mechanism alternately form a gear action on a pipe fitting on the belt conveyor, namely when the pipe dividing and blocking mechanism is in an ascending gear state, the pipe falling and blocking mechanism is in a descending and falling position state and cannot form a gear on the pipe fitting; when the pipe falling stock stop is in a rising gear state, the pipe dividing stock stop is in a falling position state, and gears cannot be formed on the pipe fitting. Through the cooperation of the pipe dividing material stop mechanism 14 and the pipe dropping material stop mechanism 15, the single pipe fitting can enter the subsequent transmission work. In the attached drawings of the application, a tube dividing material blocking mechanism 14 and a tube dropping material blocking mechanism 15 are respectively assembled on the outer side surface of a rack of a belt conveyor, namely the tube dividing material blocking mechanism and the tube dropping material blocking mechanism are arranged on the outer side of one belt conveyor, the tube dividing material blocking mechanism and the tube dropping material blocking mechanism are arranged on the outer side of the other belt conveyor, and a group of tube dividing material blocking mechanisms and a group of tube dropping material blocking mechanisms are formed between the two tube dividing material blocking mechanisms and act synchronously; a group of pipe falling stock stop forms between two, the synchronization action.

The pipe dividing and material blocking mechanism comprises a material blocking plate 16 and a material blocking driver 17, the material blocking driver is a common telescopic driver such as an air cylinder or an electric cylinder, the material blocking driver is assembled on the side face of a rack of the conveyor through an L-shaped mounting plate 18, the material blocking plate is fixedly assembled at the driving end of the material blocking driver through two locking nuts 19 which are arranged at the upper part and the lower part of the material blocking plate, a guide plate 20 is further installed on the rack of the belt conveyor, and a guide notch 21 for the material blocking plate to pass through is clamped on the guide plate so as to guide the up-and-down movement of the material blocking plate; the material blocking driver drives the material blocking plate to extend upwards to be higher than a transmission belt of the belt conveyor to form a gear; or the lower part of; in this implementation structure, the blanking stock stop need be the same with the branch pipe stock stop to blanking stock stop is just not being repeated.

And a material lifting mechanism 22 for receiving the pipe fittings conveyed out by the belt conveyor, the material lifting mechanism comprises a material lifting driver (cylinder) 23 and a material lifting plate 24, the material lifting plate is provided with a material receiving groove 25 for receiving the pipe fittings conveyed out by the belt conveyor, a blocking piece 26 higher than the material receiving groove can be further arranged on the material lifting plate outside the material receiving groove, so that the pipe fittings can be better blocked and retained in the material receiving groove, the material lifting driver is assembled on the frame through a mounting plate 27 in a screw connection mode, the telescopic end of the material lifting driver is fixedly connected with the material lifting plate, and the material lifting driver drives the material lifting plate to move upwards or downwards.

And the pushing mechanism 28 is used for pushing the pipe fitting in the material lifting mechanism to a specified position. The pushing mechanism comprises a pushing driver (air cylinder) 29 and a pushing plate 30, the pushing plate is located on one side of the material receiving groove, the pushing driver drives the pushing plate to move in the horizontal direction, and pipe fittings in the material receiving groove are pushed. When the pushing mechanism pushes the pipe fitting, the pushing driver drives the pushing plate to push one end of the pipe fitting to be pushed to the positioning plate, namely the pipe fitting is pushed to a specified position, and then the pipe fitting is operated by equipment of the next process.

In order to protect the end part of the pipe fitting in the pushing process, an elastic mechanism for buffering the pushing of the pipe fitting is arranged on the pushing plate and comprises a spring 32 and a T-shaped pushing block 33, one end of the pushing block penetrates through the pushing plate, the pushing block can move left and right and is connected with a gear part 34, and if the pushing block is connected to the section of the pushing block through a nut, a gear is formed through the matching of the pushing block and the pushing plate; the spring is sleeved on the push block and is compressed by the other end of the push block and the push plate. During the propelling movement, ejector pad front end contacts with the pipe fitting earlier, then through the compression of spring, plays the cushioning effect, avoids direct collision and causes the damage to the pipe fitting.

In practice, two belt conveyors are arranged side by side in the frame, and a translational adjustment mechanism 35 is arranged in the frame to drive one of the belt conveyors to move horizontally in the frame, i.e. one belt conveyor is fixed and the other belt conveyor is mobile. And adjusting the distance between the two belt conveyors according to the length of the pipe. The lifting device at the end of the belt conveyor is accordingly also designed to be mobile, i.e. a horizontal rail 48 is mounted on the frame for horizontal movement of the lifting device. And the pushing mechanism only needs to be arranged on the movable belt conveyor.

The translation adjusting mechanism comprises a supporting column 36 fixed in the frame in the horizontal direction, a supporting seat 37 is fixedly assembled below the belt conveyor, the supporting seat is sleeved on the supporting column in a hollow mode and can move along the supporting column, an adjusting screw 38 is rotatably assembled in the frame through a bearing at two ends and is positioned below the belt conveyor, an adjusting block 39 is fixedly arranged below the belt conveyor, and the adjusting block penetrates through the adjusting screw and forms thread fit transmission with the adjusting screw; an adjusting shaft 40 is rotatably assembled in the frame through a bearing, a driving wheel 41 which rotates along with the adjusting shaft is installed on the adjusting shaft, a driven wheel 42 is fixedly assembled on the adjusting screw rod, the driving wheel and the driven wheel form transmission connection through a transmission belt 43, and one end of the adjusting shaft is a rotary adjusting end 44 for operating the rotation of the adjusting shaft. The rotation of operation rotation regulation end makes the regulating spindle rotate around self, and the rotation of regulating spindle drives the action wheel and rotates to transmission through the drive belt makes from the driving wheel rotation, thereby orders about adjusting screw's rotation, because adjusting screw and regulating block screw thread transmission cooperation, thereby drives belt conveyor and forms the translation along the direction of support column.

In order to facilitate observation of the translation size of the belt conveyor, a scale 45 with scales is arranged in the frame, a pointer 46 is arranged on the frame on one side of the translation belt conveyor, and the pointer moves in the translation process of the belt conveyor and indicates the scales on the scale to display the moving distance of the belt conveyor.

The utility model discloses a working process: the pipe fitting is horizontally placed on the two groups of belt conveyors, the front pipe section is pushed to the pipe arrangement baffle 47 on one side of the frame, the starting button is pressed, the two belt conveyors rotate simultaneously, the pipe fitting moves, the pipe fitting reaches the pipe falling stock stop mechanism in a rising state, the pipe fitting reaches the pipe falling stock stop mechanism in a falling state, the pipe dividing stock stop mechanism rises to separate the first pipe fitting from the pipe fitting behind, the pipe falling stock stop mechanism falls, the first pipe fitting continues to move forwards along with the belt conveyors until the pipe fitting falls into the material receiving groove in the material lifting mechanism, the lifting mechanism rises at the moment to send out the pipe fitting, the pushing mechanism on the material lifting mechanism acts to push the pipe fitting to the positioning plate, and the movement process of automatic feeding and positioning is completed.

Claims (10)

1. An automatic feeding mechanism for special pipe fittings at pipe ends comprises a frame, a belt conveyor is arranged in the frame, and is characterized in that a pipe overlapping prevention mechanism for allowing a single pipe fitting to pass through is arranged on the frame and above the belt conveyor,

the tail end of the belt conveyor is provided with a pipe dividing stock stop and a pipe falling stock stop which form a stop for the conveyed pipe fittings; the pipe dropping stock stop is positioned behind the pipe dividing stock stop in the transmission direction of the belt conveyor; the pipe dividing and stopping mechanism and the pipe falling and stopping mechanism alternately form gear action on the pipe fitting on the belt conveyor,

and the lifting mechanism is used for receiving the pipe fittings conveyed out by the belt conveyor, and the pushing mechanism is used for pushing the pipe fittings in the lifting mechanism to a specified position.

2. The automatic pipe end profile feeding mechanism as claimed in claim 1, wherein said anti-overlapping mechanism comprises a bracket arranged across and above the frame, a baffle plate is provided on the bracket extending downward above the belt conveyor, and an anti-overlapping space for a single pipe is provided between the lower part of the baffle plate and the upper part of the belt conveyor.

3. The automatic feeding mechanism of special pipe end fittings as claimed in claim 2, wherein the support is provided with a lifting frame moving up and down, the baffle is fixed at the lower end of the lifting frame, and the support is provided with an adjusting member for adjusting the lifting frame to move up and down.

4. The automatic feeding mechanism of pipe end profile pipe fitting of claim 3, wherein the baffle extends along the conveying direction of the belt conveyor, and the baffle is provided with a guide slope for guiding the single pipe fitting on the belt conveyor into the anti-overlapping space.

5. The automatic feeding mechanism for the pipe-end special-shaped pipe fittings as claimed in claim 1, wherein the pipe dividing and stopping mechanism comprises a stopping plate and a stopping driver, and the stopping driver drives the stopping plate to extend upwards to be higher than a transmission belt of the belt conveyor or to shrink downwards to be lower than the transmission belt of the belt conveyor;

the structure of the pipe falling stock stop is the same as that of the pipe separating stock stop.

6. The automatic feeding mechanism for special-shaped pipe fittings at pipe ends according to claim 1, wherein the lifting mechanism comprises a material ejecting driver and a material ejecting plate, the material ejecting plate is provided with a material receiving groove for receiving the output pipe fitting of the belt conveyor, the material ejecting driver is assembled on the frame, the telescopic end of the material ejecting driver is fixedly connected with the material ejecting plate, and the material ejecting driver drives the material ejecting plate to move upwards or downwards.

7. The automatic feeding mechanism of pipe end special-shaped pipe fittings as claimed in claim 6, wherein the pushing mechanism comprises a pushing driver and a pushing plate, the pushing plate is arranged at one side of the receiving groove, and the pushing driver drives the pushing plate to move horizontally to push the pipe fittings in the receiving groove.

8. The automatic feeding mechanism for the pipe-end special-shaped pipe fittings as claimed in claim 7, wherein the pushing plate is provided with an elastic mechanism for buffering the pushing of the pipe fittings, the elastic mechanism comprises a spring and a T-shaped pushing block, and one end of the pushing block penetrates through the pushing plate and is connected with a stopper; the spring is sleeved on the push block and is compressed by the other end of the push block and the push plate.

9. An automatic pipe end profile feeding mechanism as claimed in any one of claims 1-6, characterized in that two belt conveyors are arranged side by side in the frame, and that a translational adjustment mechanism is arranged in the frame to drive one or both of the belt conveyors into a horizontal movement in the frame.

10. The automatic feeding mechanism for pipe-end special-shaped pipes according to claim 9, wherein the translational adjustment mechanism comprises a support pillar horizontally fixed in a frame, a support seat is assembled below the belt conveyor and is freely sleeved on the support pillar, and an adjustment screw rod with two ends rotatably assembled in the frame and positioned below the belt conveyor, an adjustment block is fixedly arranged below the belt conveyor and is inserted on the adjustment screw rod and forms thread fit transmission with the adjustment screw rod;

the frame internal rotation is equipped with the regulating spindle, installs on the regulating spindle along with the regulating spindle pivoted action wheel in the lump, and adjusting screw goes up the fixed driven wheel that is equipped with, and the action wheel forms the transmission with following between the driving wheel and is connected through the drive belt, and the one end of regulating spindle is operation regulating spindle pivoted rotation regulation end.

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