CN216095695U - Radiating tube straight tube processing device - Google Patents

Abstract

The utility model relates to a radiating tube straight tube processing device which comprises a feed box, wherein a material pushing mechanism extending into the feed box is arranged below the feed box, a straight tube mechanism is arranged in front of the feed box, and a material taking mechanism is arranged below the straight tube mechanism; the straight tube mechanism comprises a driving roller and a driven roller, the driving roller and the driven roller are connected through a belt, the driving roller is connected with a driving motor, blanking channels are arranged between the driving roller and the driven roller at intervals, the material box is further provided with a material guide plate which extends downwards to the upper side of the blanking channels, and a pair of adjustable positioning blocks is arranged on the material guide plate. The radiating pipe is discharged through the material pushing mechanism on one side of the material box, then the radiating pipe is corrected through the straight pipe mechanism, and finally the radiating pipe is conveyed out through the material taking mechanism, the mechanisms are tightly connected, the cooperation is accurate, the pipe taking, correcting and discharging operations of the radiating pipe are efficiently realized, the automation degree is high, and the processing precision and efficiency of the radiating pipe are greatly improved.

Description

Radiating tube straight tube processing device

Technical Field

The utility model relates to the field of automatic production, in particular to radiating pipe processing.

Background

The radiating pipes have different shapes, and the basic radiating pipe is mostly made of tubular bodies, and is bent and extruded to form the radiating pipe suitable for various products. The main stream cooling tube's tubular product is mostly copper, and the texture of copper pipe is relatively softer, is convenient for process into various shapes, and simultaneously this kind of characteristic also leads to it because various external causes cause a lot of unnecessary deformation in the course of working. If a straight pipe is required, the accuracy of the straight pipe is insufficient due to deformation caused by external factors, and if further processing is particularly required, the further processing effect is directly affected. There is a need in the art for an efficient and convenient device for adjusting such a straight pipe.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the utility model adopts the following technical scheme: a radiating tube straight tube processing device comprises a feed box, wherein a material pushing mechanism extending into the feed box is arranged below the feed box, a straight tube mechanism is arranged in front of the feed box, and a material taking mechanism is arranged below the straight tube mechanism; the straight tube mechanism comprises a driving roller and a driven roller, the driving roller and the driven roller are connected through a belt, the driving roller is connected with a driving motor, blanking channels are arranged between the driving roller and the driven roller at intervals, the material box is further provided with a material guide plate which extends downwards to the upper side of the blanking channels, and a pair of adjustable positioning blocks is arranged on the material guide plate. The cooling tube passes through pushing equipment propelling movement to the stock guide in the workbin, carries to the blanking passageway via the stock guide, adjusts the cooling tube through the effect of drive roll and driven voller and returns the straight tube state and can get into the extracting mechanism of below by the blanking passageway, can't regard as the waste pipe to take away to the too big cooling tube that just can't adjust back the straight tube state of deformation through the blanking passageway, and machining efficiency is good, and the product precision of completion is high, can effectually never yields in the dug.

Further, the straight tube mechanism includes the support and a pair of backup pad that sets up on the support, the inlay logical groove has been seted up to backup pad one side, the inlay leads to the inslot and is provided with the spacing slide rail that corresponds from top to bottom, the inlay leads to the inslot and still is provided with spacing slider, spacing slider matches with spacing slide rail from top to bottom respectively, still be provided with the closed piece that seals the inlay logical groove in the backup pad, be provided with adjusting screw on the closed piece and run through the closed piece, adjusting screw and closed piece threaded connection and tip are connected with spacing slider one side, the driven voller both ends set up respectively on spacing slider. The driven roller is connected with the limiting slide block, and the distance between the driving roller and the driven roller can be adjusted by adjusting the position of the limiting slide block, so that the width of the blanking channel is controlled, the blanking device can be used for various radiating pipes with different pipe diameters, and the application range is wide.

Further, the material taking mechanism comprises a material taking platform and a pair of material taking slide rails arranged on the support, the material taking platform is connected with the material taking slide rails in a matched mode respectively, an adjusting slide rail corresponding to the blanking channel is arranged on the material taking platform, a reference support is fixed to one end of the adjusting slide rail, an adjusting slide block is connected to the adjusting slide rail in a sliding mode, arc material taking grooves are formed in the reference support and the adjusting slide block respectively, and a material taking cylinder is further connected to the material taking platform.

Furthermore, the pushing mechanism comprises a pushing cylinder and a pair of pushing guide rails, the pushing cylinder is arranged below the material box, the pushing guide rails are respectively provided with a pushing slider matched with the pushing cylinder, the output end of the pushing cylinder is connected with a push plate, and the push plates are respectively fixedly connected with the pushing sliders.

Furthermore, a plurality of mounting holes are arranged at the upper end of the push plate, at least two push blocks are further arranged on the push plate, and connecting through holes which penetrate through the push blocks from top to bottom are formed in the push blocks. Set up the ejector pad into the cooling tube that can nimble the mode of installing makes it be applicable to various length, according to the demand of the different length of cooling tube, be connected ejector pad and suitable mounting hole, accessible screw or other installed parts pass connect the via hole and with the mounting hole be connected, make the ejector pad fix on the push pedal.

Furthermore, the upper end of the push block is respectively provided with a material sliding inclined plane inclined towards the front lower part and an auxiliary inclined plane inclined towards the rear lower part. The upper end of the push block is respectively provided with the sliding material inclined plane and the auxiliary inclined plane, so that the contact area of the upper end of the push block and the radiating tube is greatly reduced, and the push block is convenient to push the radiating tube and then break away.

Furthermore, the inclined angle of the sliding material inclined plane is 30-60 degrees, and the inclined angle of the auxiliary inclined plane is 5-10 degrees. The inclination angle of the sliding material inclined plane is far larger than that of the auxiliary inclined plane, so that the heat dissipation pipe is ensured to fall off along one side of the sliding material inclined plane.

Further, the workbin bottom is provided with the guide inclined plane of slope to the below, the inside slide bar that connects the left and right sides that still is provided with of workbin, be provided with the sliding sleeve on the slide bar, be fixed with the regulating plate on the sliding sleeve, the regulating plate bottom extends to the guide inclined plane and matches with the guide inclined plane. The cooling tube in the workbin can be ensured all toward spacing groove one side to pile up on the guide inclined plane, avoids having the material to remain in the workbin, and according to the demand of different length cooling tubes, the distance between two regulating plates of adjustment ensures that the cooling tube is piled up in order, and the push pedal of being convenient for is released.

Furthermore, the inner side of the material box and the adjusting plate are respectively provided with a corresponding material limiting plate, and a material limiting area is arranged between the material limiting plate and the material guide inclined plane.

Furthermore, a plurality of groups of connecting holes are formed in the material guide plate, and mounting through holes corresponding to the single group of connecting holes are formed in the positioning blocks.

The utility model has the beneficial effects that:

the radiating pipe is discharged through the material pushing mechanism on one side of the material box, then the radiating pipe is corrected through the straight pipe mechanism, and finally the radiating pipe is conveyed out through the material taking mechanism, the mechanisms are tightly connected, the cooperation is accurate, the pipe taking, correcting and discharging operations of the radiating pipe are efficiently realized, the automation degree is high, and the processing precision and efficiency of the radiating pipe are greatly improved.

Drawings

The figures further illustrate the utility model, but the examples in the figures do not constitute any limitation of the utility model.

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the pushing mechanism of the present invention.

FIG. 3 is a schematic view of a partial structure of the bin of the present invention.

Fig. 4 is a structural schematic diagram of a straight pipe mechanism of the utility model.

Fig. 5 is a partial structural schematic diagram of the tube taking mechanism of the present invention.

Fig. 6 is a schematic view of a material taking mechanism according to the present invention.

FIG. 7 is a schematic diagram of the structure of the push plate of the present invention.

Fig. 8 is a schematic structural diagram of the push block of the present invention.

Detailed Description

As shown in fig. 1 to 8, a radiating pipe straight pipe processing device according to an embodiment of the present invention includes a material box 1, a material pushing mechanism 2 extending into the material box 1 is disposed below the material box 1, a straight pipe mechanism 3 is disposed in front of the material box 1, and a material taking mechanism 4 is disposed below the straight pipe mechanism 3; straight tube mechanism 3 includes drive roll 5 and driven voller 6, drive roll 5 and driven voller 6 pass through belt 7 and connect, drive roll 5 is connected with driving motor 8, there is blanking passageway 9 at the interval between drive roll 5 and the driven voller 6, and drive roll 5 drives driving roller 6 work, and the cooling tube gets into the below through blanking passageway 9 smoothly after blanking passageway 9 corrects through drive roll 5 and driven voller 6, workbin 1 still is provided with stock guide 10 downwardly extending to blanking passageway 9 top, be provided with a pair of adjustable locating piece 11 on the stock guide 10, the cooling tube is come out by workbin 1 top, gets into blanking passageway 9 through stock guide 10, sets up a pair of locating piece 11 and can adjust corresponding interval according to the cooling tube length, ensures the accurate position of cooling tube blanking.

The straight pipe mechanism 3 comprises a support 12 and a pair of support plates 13 arranged on the support, wherein an embedding through groove 14 is formed in one side of each support plate 13, a limiting slide rail 15 which corresponds up and down is arranged in each embedding through groove 14, a limiting slide block 16 is further arranged in each embedding through groove 14, each limiting slide block 16 is vertically matched with each limiting slide rail 15 respectively, so that each limiting slide block 16 can slide back and forth in each embedding through groove 14 along each limiting slide rail 15, a sealing block 17 for sealing each embedding through groove 14 is further arranged on each support plate 13, each sealing block 17 is positioned outside each support plate 13 to seal each embedding through groove 14 so as to limit the stroke of each limiting slide block 16, an adjusting screw 18 is arranged on each sealing block 17 and penetrates through each sealing block 17, each adjusting screw 18 is in threaded connection with each sealing block 17, the end of each adjusting screw 18 is connected with one side of each limiting slide block 16, and the position of each limiting slide block 17 can be changed by twisting the adjusting screw 18, the two ends of the driven roller 6 are respectively arranged on the limiting sliding blocks 16, so that the driven roller 6 has a position adjusting function, the distance of the blanking channel 9 is changed, and the requirements of radiating pipes with different diameters are met.

The material taking mechanism 4 comprises a material taking platform 19 and a pair of material taking slide rails 20 arranged on a support 12, the material taking platform 19 is respectively connected with the material taking slide rails 20 in a matching manner, the material taking slide rails 20 are arranged on the support 12 in parallel to support the material taking platform 19, two ends of the material taking platform 19 are respectively connected with the material taking slide rails 20 in a sliding manner, so that the material taking platform 19 can slide back and forth along the material taking slide rails 20, an adjusting slide rail 21 corresponding to a blanking channel 9 is arranged on the material taking platform 19, a reference support 22 is fixed at one end of the adjusting slide rail 21, an adjusting slide block 23 can be connected to the adjusting slide rail 21 in a sliding manner, an arc-shaped material taking groove 24 is respectively arranged on the reference support 22 and the adjusting slide block 23, the material taking platform 19 is moved to a corresponding position below the blanking channel 9 during operation, two ends of a radiating pipe are respectively sunk into the material taking groove 24 after the radiating pipe falls down, the radiating pipe is prevented from being misplaced, and the material taking platform 19 is further connected with a material taking cylinder 25, the output end of the material taking cylinder 25 is connected with the material taking platform 19, and the body of the material taking cylinder can be fixedly connected with the bracket 12 in any form; the material taking platform 19 is driven to slide back and forth by the material taking cylinder 25, so that the material is carried in and conveyed out.

The pushing mechanism 2 comprises a pushing cylinder 26 and a pair of pushing guide rails 27 arranged below the material box 1, pushing sliding blocks 28 matched with the pushing cylinder are arranged on the pushing guide rails 27 respectively, the output end of the pushing cylinder 26 is connected with a pushing plate 29, the pushing plate 29 is fixedly connected with the pushing sliding blocks 28 respectively, and the pushing cylinder 26 can drive the pushing plate 29 to move back and forth along the pushing guide rails 27.

A plurality of mounting holes 30 are arranged at the upper end of the push plate 29, at least two push blocks 31 are further arranged on the push plate 29, connecting through holes 32 which penetrate through the push block 31 from top to bottom are formed in the push block 31, the push blocks 31 can penetrate through the connecting through holes 32 through any fixing piece to be fixedly connected with the mounting holes 30, so that the positions of the push blocks 29 can be adjusted, a pair of push blocks 29 are arranged to push two ends of a radiating pipe, the single radiating pipe is pushed away from the material box 1, and the radiating pipe is conveyed to the material guide plate 10.

The upper end of the push block 29 is respectively provided with a sliding inclined surface 33 inclined forwards and downwards and an auxiliary inclined surface 34 inclined backwards and downwards. The inclined angle of the sliding material inclined plane 33 is 30-60 degrees, and the inclined angle of the auxiliary inclined plane 34 is 5-10 degrees. The inclined angle of the material sliding slope 33 is larger to facilitate the heat dissipating tubes to slide down to the material guiding plate 10, and the auxiliary slope 34 is used to prevent the heat dissipating tubes from piling up on the pushing block 29, thereby ensuring that a single heat dissipating tube is delivered each time.

Workbin 1 bottom is provided with the guide inclined plane 35 of slope to the below that leads, and guide inclined plane 35 makes the cooling tube pile up toward one side in workbin 1 bottom, workbin 1 is inside still to be provided with the slide bar 36 of connecting the left and right sides, be provided with sliding sleeve 37 on the slide bar 36, be fixed with regulating plate 38 on the sliding sleeve 37, regulating plate 38 bottom extends to guide inclined plane 35 and matches with guide inclined plane 35. The position of the adjusting plate 38 is changed according to the length of the radiating pipe, so that the radiating pipe can be stacked in order by the limit.

The inner side of the feed box 1 and the adjusting plate 38 are respectively provided with a corresponding material limiting plate 39, and a material limiting area 40 is arranged between the material limiting plate 39 and the material guiding inclined plane 35. Stop the cooling tube in the workbin 1 through limit flitch 39, and limit material district 40 makes the cooling tube can only singly pass through, prevents that the cooling tube from piling up on the ejector pad 31 collectively, ensures the orderly of carrying.

A plurality of groups of connecting holes 41 are formed in the material guide plate 10, and mounting through holes 42 corresponding to the single group of connecting holes 41 are formed in the positioning block 11. The positioning block 11 is correspondingly installed with the single group of connecting holes 41, so that the positioning block 11 has adjustability.

The working principle is as follows:

adjusting the position of an adjusting plate 38 in the material box 1 according to the length of the radiating pipe, so that the length of a containing space in the material box 1 is matched with the length of the radiating pipe; adjusting the positions of the positioning blocks 11 on the material guide plate 10 according to the length of the radiating pipe, so that the positions of the two positioning blocks 11 and the distance between the two positioning blocks are matched with the length of the radiating pipe; the distance between the blanking channels 9 is adjusted according to the diameter of the radiating pipe, so that the distance between the blanking channels 9 is matched with the diameter of the radiating pipe. A plurality of radiating pipes are placed in the material box 1, the radiating pipes are arranged at the bottom of the material box 1 through the material limiting area 40 below the material limiting plate 39 one by one, the material pushing cylinder 26 drives the push plate 29 to move, the radiating pipes are conveyed one by one through the push block 31 and conveyed to the material guide plate 10, the radiating pipes enter the material falling channel 9 through the material guide plate 10 and then are corrected under the action between the driving roller 5 and the driven roller 6, the corrected radiating pipes can enter the material taking platform 19 through the material falling channel 9, and the material taking cylinder 25 drives the material taking platform 19 to move to convey the corrected radiating pipes out.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the utility model. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. The utility model provides a cooling tube straight tube processingequipment which characterized in that: the automatic feeding device comprises a feed box, wherein a material pushing mechanism extending into the feed box is arranged below the feed box, a straight pipe mechanism is arranged in front of the feed box, and a material taking mechanism is arranged below the straight pipe mechanism; the straight tube mechanism comprises a driving roller and a driven roller, the driving roller and the driven roller are connected through a belt, the driving roller is connected with a driving motor, blanking channels are arranged between the driving roller and the driven roller at intervals, the material box is further provided with a material guide plate which extends downwards to the upper side of the blanking channels, and a pair of adjustable positioning blocks is arranged on the material guide plate.

2. The heat pipe straight pipe processing apparatus of claim 1, wherein: the straight tube mechanism comprises a support and a pair of supporting plates arranged on the support, an embedding material through groove is formed in one side of the supporting plate, a limiting slide rail which corresponds up and down is arranged in the embedding material through groove, a limiting slide block is further arranged in the embedding material through groove, the limiting slide block is vertically matched with the limiting slide rail respectively, a sealing block for sealing the embedding material through groove is further arranged on the supporting plate, an adjusting screw is arranged on the sealing block and penetrates through the sealing block, the adjusting screw is in threaded connection with the sealing block, the end of the adjusting screw is connected with one side of the limiting slide block, and the two ends of the driven roller are respectively arranged on the limiting slide block.

3. The heat pipe straight pipe processing apparatus of claim 1, wherein: the material taking mechanism comprises a material taking platform and a pair of material taking slide rails arranged on a support, the material taking platform is connected with the material taking slide rails in a matched mode respectively, an adjusting slide rail corresponding to a blanking channel is arranged on the material taking platform, a reference support is fixed to one end of the adjusting slide rail, an adjusting slide block is connected to the adjusting slide rail in a sliding mode, arc material taking grooves are formed in the reference support and the adjusting slide block respectively, and a material taking cylinder is further connected to the material taking platform.

4. The heat pipe straight pipe processing apparatus of claim 1, wherein: the material pushing mechanism comprises a material pushing cylinder and a pair of material pushing guide rails, the material pushing cylinder and the pair of material pushing guide rails are arranged below the material box, material pushing sliding blocks matched with the material pushing guide rails are arranged on the material pushing guide rails respectively, the output end of the material pushing cylinder is connected with a push plate, and the push plate is fixedly connected with the material pushing sliding blocks respectively.

5. The heat pipe straight pipe processing apparatus of claim 4, wherein: the push plate is characterized in that a plurality of mounting holes are formed in the upper end of the push plate in an arrayed mode, at least two push blocks are further arranged on the push plate, and connecting through holes which penetrate through the push blocks vertically are formed in the push blocks.

6. The heat pipe straight pipe processing apparatus of claim 5, wherein: the upper end of the push block is respectively provided with a material sliding inclined plane which inclines towards the front lower part and an auxiliary inclined plane which inclines towards the rear lower part.

7. The heat pipe straight pipe processing apparatus of claim 6, wherein: the inclined angle of the sliding material inclined plane is 30-60 degrees, and the inclined angle of the auxiliary inclined plane is 5-10 degrees.

8. The heat pipe straight pipe processing apparatus of claim 1, wherein: the feed box bottom is provided with the guide inclined plane of slope to the below, the inside slide bar that connects the left and right sides that still is provided with of feed box, be provided with the sliding sleeve on the slide bar, be fixed with the regulating plate on the sliding sleeve, the regulating plate bottom extends to the guide inclined plane and matches with the guide inclined plane.

9. The heat pipe straight pipe processing apparatus of claim 8, wherein: the material box inner side and the adjusting plate are respectively provided with a corresponding material limiting plate, and a material limiting area is arranged between the material limiting plate and the material guide inclined plane.

10. The heat pipe straight pipe processing apparatus of claim 1, wherein: the guide plate is provided with a plurality of groups of connecting holes, and the positioning block is provided with mounting through holes corresponding to the single group of connecting holes.

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