CN217807198U - Tubular workpiece moving and heating device - Google Patents

Abstract

The utility model relates to a tubulose part manufacturing and processing technical field especially relates to a tubulose work piece moves material heating device. Tubular workpiece moves material heating device includes the frame, move material mechanism and heating mechanism, it includes the pay-off piece to move material mechanism, the pay-off piece can move along the X direction and along the Y direction relative to the frame, the top surface of pay-off piece is provided with a plurality of first draw-in grooves, heating mechanism's top surface is provided with a plurality of second draw-in grooves, the interval of two adjacent second draw-in grooves is the same with the interval distance of two adjacent first draw-in grooves, heating mechanism sets up in the both sides of pay-off piece, can be orderly get the material, pay-off and heating tubular workpiece, the heating of every tubular workpiece can keep homogeneous and comprehensive.

Description

Tubular workpiece moving and heating device

Technical Field

The utility model relates to a tubulose part manufacturing and processing technology field especially relates to a tubulose work piece moves material heating device.

Background

The automatic feeding device is a part of an automatic production machine, and the automatic production system enables the machine or equipment to operate according to a preset work flow through automatic detection, information processing, analysis judgment, control instructions and the like under the condition of no direct manual participation, so as to achieve the expected aim. In the technical field of manufacturing and processing of tubular parts, a conveying belt is generally adopted to feed the tubular parts in the prior art, and since the tubular workpieces are easy to roll and are unevenly distributed on the conveying belt, the tubular workpieces are unevenly heated, and the effect of orderly transferring and evenly heating the tubular workpieces is difficult to realize.

Therefore, a heating device for transferring tubular workpiece is needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a tubular workpiece moves material heating device can carry the tubular workpiece in order to carry out comprehensive even heating to the tubular workpiece.

To achieve the purpose, the utility model adopts the following scheme:

a tubular workpiece transfer heating apparatus comprising:

a frame;

the material moving mechanism comprises a feeding piece, the feeding piece is movably connected with the rack and can move along the X direction and the Y direction relative to the rack, a plurality of first clamping grooves are formed in the top surface of the feeding piece and are uniformly arranged at intervals, and the first clamping grooves are used for bearing tubular workpieces;

the heating mechanism, this heating mechanism and frame fixed connection, this heating mechanism's top surface is provided with a plurality of second draw-in grooves, the even interval setting of a plurality of second draw-in grooves, the interval of two adjacent these second draw-in grooves is the same with the interval distance of two adjacent these first draw-in grooves, this second draw-in groove can bear and heat this tubular work piece, this heating mechanism sets up in the both sides of this pay-off piece, the lowest position of the top surface of this pay-off piece in this Y direction is less than the tank bottom of this second draw-in groove, the highest position of the tank bottom of this first draw-in groove is higher than the top surface of this heating mechanism.

As an alternative, the material moving mechanism further includes a base and a first driving member, the material feeding member is connected to the base, the first driving member is mounted on the rack, an output end of the first driving member is connected to the base, and the first driving member is configured to drive the base to move along the Y direction.

As an alternative, the material moving mechanism further comprises a sliding assembly, the feeding piece is connected with the sliding assembly, the sliding assembly is arranged on the base, and the sliding assembly can enable the feeding piece to move along the X direction.

As an alternative, the sliding assembly includes a guide rail, a slider, and a second driving member, the guide rail is disposed on the base along the X direction, the slider is connected to the guide rail in a sliding fit manner, the feeding member is connected to the slider, an output end of the second driving member is connected to the slider, and the second driving member is configured to drive the slider to slide relative to the guide rail.

As an alternative, the feeding member includes a main body and a supporting portion, one side of the main body is connected with the supporting portion, and the plurality of first clamping grooves are arranged on the other side of the main body.

Alternatively, the rack includes a first base plate, a second base plate, and a support member, the first base plate being disposed in parallel with the second base plate, the support member being disposed between the first base plate and the second base plate.

Alternatively, the second bottom plate is provided with a yielding through hole, the supporting part can pass through the yielding through hole, and the main body can abut against the top surface of the second bottom plate.

As an alternative scheme, the two feeding pieces are arranged in a parallel and opposite mode, the heating mechanism comprises a first heating assembly, a second heating assembly and a third heating assembly, the heights of the first heating assembly, the second heating assembly and the third heating assembly are consistent, the first heating assembly is arranged between the two feeding pieces, and the second heating assembly and the third heating assembly are arranged on the outer sides of the two feeding pieces respectively.

As an alternative, the first heating assembly, the second heating assembly and the third heating assembly all include a cushion block and a heating body, the cushion block is disposed on the second bottom plate, and the heating body is disposed on the cushion block.

As an alternative, a heating rod is arranged in the heating body.

The utility model has the advantages that:

the utility model provides a tubular work piece moves among the material heating device, the pay-off piece can remove along X direction and Y direction for the frame, at first on the Y direction, the pay-off piece removes to the highest point, accept tubular work piece in first draw-in groove, then remove an adjacent first draw-in groove spaced distance along the X direction, because the interval of two adjacent second draw-in grooves is the same with the interval distance of two adjacent first draw-in grooves, tubular work piece this moment is located a second draw-in groove directly over, remove to the in-process of lowest along Y direction pay-off piece, tubular work piece is born the weight of by the second draw-in groove, tubular work piece can be heated in the second draw-in groove, in order to accomplish once getting the material, pay-off and the duty cycle of heating. At the moment, the feeding piece continuously advances by a distance of an interval between adjacent first clamping grooves along the X direction at the lowest position of the Y direction, and the distance is used as the starting point of a second working cycle to start to take, feed and heat materials at the next time. Through so setting up, can be orderly get material, pay-off and heating tubular workpiece, the heating of every tubular workpiece can keep even and comprehensive.

Drawings

Fig. 1 is a schematic structural view of a tubular workpiece moving and heating device provided by the present invention;

fig. 2 is an exploded view of the tubular workpiece moving and heating device provided by the present invention.

In the figure:

100. a frame; 110. a first base plate; 120. a second base plate; 121. a yielding through hole; 130. a support member; 210. a feeding member; 211. a first card slot; 212. a main body; 213. a support portion; 220. a base; 230. a first driving member; 240. a sliding assembly; 241. a guide rail; 242. a slider; 243. a second driving member; 300. a heating mechanism; 310. a first heating assembly; 320. a second heating assembly; 330. a third heating assembly; 331. cushion blocks; 332. a heating body; 340. a second card slot; 400. a tubular workpiece.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not to be construed as limiting the invention. It should be further noted that, for the convenience of description, only some but not all of the elements related to the present invention are shown in the drawings.

The present invention is limited to certain orientation words, and when no opposite explanation is given, the used orientation words are "upper", "lower", "left", "right", "inner" and "outer", and these orientation words are adopted for easy understanding, and therefore do not constitute a limitation to the scope of the present invention.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. "beneath," "under" and "beneath" a first feature includes the first feature being directly beneath and obliquely beneath the second feature, or simply indicating that the first feature is at a lesser elevation than the second feature.

In the description of the present invention, unless expressly stated or limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, e.g., as meaning permanently connected, detachably connected, or integral to one another; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or may be connected through the use of two elements or the interaction of two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1 and fig. 2, the present embodiment provides a tubular workpiece moving and heating device, which includes a rack 100, a moving mechanism and a heating mechanism 300, wherein the moving mechanism includes a feeding member 210, the feeding member 210 is movably connected to the rack 100, the feeding member 210 can move along an X direction and a Y direction relative to the rack 100, a plurality of first clamping grooves 211 are provided on a top surface of the feeding member 210, the plurality of first clamping grooves 211 are uniformly spaced, and the first clamping grooves 211 are used for bearing a tubular workpiece 400. Heating mechanism 300 and frame 100 fixed connection, the top surface of heating mechanism 300 is provided with a plurality of second draw-in grooves 340, a plurality of second draw-in grooves 340 are the same at even interval, the interval of two adjacent second draw-in grooves 340 is the same with the interval distance of two adjacent first draw-in grooves 211, second draw-in groove 340 can bear and heat tubular work piece 400, heating mechanism 300 sets up in the both sides of pay-off piece 210, the lowest position of the top surface of pay-off piece 210 is less than the tank bottom of second draw-in groove 340 along the Y direction, the highest position of the tank bottom of first draw-in groove 211 is higher than the top surface of heating mechanism 300. In this embodiment, the feeding member 210 can move along the X direction and the Y direction with respect to the rack 100, first in the Y direction, the feeding member 210 moves to the highest position to receive the tubular workpiece 400 in the first clamping groove 211, and then moves along the X direction by a distance of an interval between two adjacent first clamping grooves 211, because the interval between two adjacent second clamping grooves 340 is the same as the interval between two adjacent first clamping grooves 211, the tubular workpiece 400 is located right above one second clamping groove 340 at this time, in the process of moving the feeding member 210 to the lowest position along the Y direction, the tubular workpiece 400 is carried by the second clamping groove 340, and the tubular workpiece 400 can be heated in the second clamping groove 340, so as to complete a work cycle of once material taking, material feeding, and heating. At this time, the feeding member 210 continues to advance a distance spaced by the adjacent first clamping groove 211 along the X direction at the lowest position in the Y direction, and the distance is used as the starting point of the second working cycle, and the next material taking, feeding and heating are started. Through so setting up, can be orderly get material, pay-off and heating tubular workpiece 400, the heating of every tubular workpiece 400 can keep even and comprehensive.

Specifically, in order to realize that the feeding member 210 moves along the Y direction, the material moving mechanism in this embodiment further includes a base 220 and a first driving member 230, the feeding member 210 is connected to the base 220, the first driving member 230 is mounted on the rack 100, an output end of the first driving member 230 is connected to the base 220, and the first driving member 230 is configured to drive the base 220 to move along the Y direction. Specifically, the first driving member 230 may be a cylinder driving member, which has a fast response speed and accurate driving, and can effectively ensure the moving accuracy of the feeding member 210.

Specifically, in order to realize that the feeding member 210 moves along the X direction, the moving mechanism in this embodiment further includes a sliding assembly 240, the feeding member 210 is connected to the sliding assembly 240, the sliding assembly 240 is disposed on the base 220, and the sliding assembly 240 can enable the feeding member 210 to move along the X direction.

Further, as shown in fig. 2, in the present embodiment, the sliding assembly 240 includes a guide rail 241, a slider 242 and a second driving member 243, the guide rail 241 is disposed on the base 220 along the X direction, the slider 242 is connected with the guide rail 241 in a sliding fit manner, the feeding member 210 is connected with the slider 242, an output end of the second driving member 243 is connected with the slider 242, and the second driving member 243 is used for driving the slider 242 and the guide rail 241 to slide relatively. Specifically, the second driving element 243 may be an air cylinder driving element, which has a fast response speed and accurate driving, and can effectively ensure the moving accuracy of the sliding block 242. It should be noted that, the cylinder driving element is a common control structure in the field of machining, and is a conventional arrangement in the field, and the connection relationship, the specific structure, and the specific control manner between the cylinder driving element and other components are conventional means in the field, and in this embodiment, any connection relationship, specific structure, and the specific control manner between any cylinder driving element and other components in the prior art may be adopted, and the connection relationship, the specific structure, and the specific control manner between the cylinder driving element and other components are not described in detail in this embodiment.

Specifically, the feeding member 210 in this embodiment includes a main body 212 and a supporting portion 213, one side of the main body 212 is connected to the supporting portion 213, and the plurality of first locking grooves 211 are disposed on the other side of the main body 212. The supporting part 213 is arranged to accurately match the feeding member 210 with other parts, so as to ensure that the main body 212 moves accurately and stably in the X direction and the Y direction.

The rack 100 in this embodiment includes a first base plate 110, a second base plate 120, and a support 130, the first base plate 110 and the second base plate 120 are disposed in parallel, and the support 130 is disposed between the first base plate 110 and the second base plate 120. The supporting member 130 can provide a supporting function for the second base plate 120, and ensure that the connection between the second base plate 120 and the first base plate 110 is stable. The first base plate 110 and the second base plate 120 are arranged to provide a supporting base for the installation of other components.

Specifically, the second base plate 120 in this embodiment is provided with the relief through hole 121, the supporting portion 213 can pass through the relief through hole 121, and the main body 212 can abut against the top surface of the second base plate 120. Through so setting up, can effectively restrict the moving distance of pay-off piece 210 in Y direction, guarantee that the removal of pay-off piece 210 can not surpass preset range.

Further, the two feeding members 210 are arranged in parallel and oppositely arranged, the heating mechanism 300 includes a first heating assembly 310, a second heating assembly 320 and a third heating assembly 330, the heights of the first heating assembly 310, the second heating assembly 320 and the third heating assembly 330 are the same, the first heating assembly 310 is arranged between the two feeding members 210, and the second heating assembly 320 and the third heating assembly 330 are respectively arranged outside the two feeding members 210. The first clamping grooves 211 of the two feeding members 210 bear the middle part of the tubular workpiece 400, when the tubular workpiece 400 is fed to the heating mechanism 300, the middle part of the tubular workpiece 400 is borne on the first heating assembly 310, and the two ends of the tubular workpiece 400 are borne on the second heating assembly 320 and the third heating assembly 330 respectively, so as to ensure that the middle part and the ends of the tubular workpiece 400 can be heated, and thus ensure the overall uniformity of the tubular workpiece 400. By setting the heights of the first heating assembly 310, the second heating assembly 320 and the third heating assembly 330 to be consistent, the tubular workpiece 400 is prevented from displacement deviation, and the uniformity of heating is ensured.

Specifically, the first heating assembly 310, the second heating assembly 320 and the third heating assembly 330 each include a pad 331 and a heating body 332, the pad 331 is disposed on the second base plate 120, and the heating body 332 is disposed on the pad 331. The heights of the heating bodies 332 of the first heating unit 310, the second heating unit 320 and the third heating unit 330 can be ensured to be consistent by adjusting the heights of the spacers 331.

Further, a heating rod is provided in the heating body 332 in the present embodiment. The heating rod is the mature product of the technique among the prior art, and the heating rod can use the mature product of any kind of technique among the prior art in order to apply to heating body 332, as long as can guarantee the heating effect of second draw-in groove 340 can.

It is to be understood that the above-described embodiments of the present invention are merely examples for clearly illustrating the present invention, and are not intended to limit the embodiments thereof. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (10)

1. A tubular workpiece material moving and heating device is characterized by comprising:

a frame (100);

the material moving mechanism comprises a feeding piece (210), the feeding piece (210) is movably connected with the rack (100), the feeding piece (210) can move along the X direction and the Y direction relative to the rack (100), a plurality of first clamping grooves (211) are formed in the top surface of the feeding piece (210), the first clamping grooves (211) are uniformly arranged at intervals, and the first clamping grooves (211) are used for bearing a tubular workpiece (400);

the heating mechanism (300), the heating mechanism (300) is fixedly connected with the rack (100), the top surface of the heating mechanism (300) is provided with a plurality of second clamping grooves (340), the plurality of second clamping grooves (340) are uniformly arranged at intervals, the interval between every two adjacent second clamping grooves (340) is the same as the interval distance between every two adjacent first clamping grooves (211), the second clamping grooves (340) can bear and heat the tubular workpiece (400), the heating mechanism (300) is arranged on two sides of the feeding piece (210), the lowest position of the top surface of the feeding piece (210) in the Y direction is lower than the groove bottom of the second clamping grooves (340), and the highest position of the groove bottom of the first clamping grooves (211) is higher than the top surface of the heating mechanism (300).

2. The tubular workpiece transfer heating device according to claim 1, wherein the transfer mechanism further comprises a base (220) and a first driving member (230), the feeding member (210) is connected with the base (220), the first driving member (230) is mounted on the frame (100), an output end of the first driving member (230) is connected with the base (220), and the first driving member (230) is configured to drive the base (220) to move along the Y direction.

3. The tubular workpiece moving and heating device according to claim 2, wherein the moving mechanism further comprises a sliding assembly (240), the feeding member (210) is connected with the sliding assembly (240), the sliding assembly (240) is arranged on the base (220), and the sliding assembly (240) can move the feeding member (210) along the X direction.

4. The tubular workpiece transfer heating device according to claim 3, wherein the sliding assembly (240) comprises a guide rail (241), a slider (242) and a second driving member (243), the guide rail (241) is disposed on the base (220) along the X direction, the slider (242) is connected with the guide rail (241) in a sliding fit manner, the feeding member (210) is connected with the slider (242), an output end of the second driving member (243) is connected with the slider (242), and the second driving member (243) is configured to drive the slider (242) and the guide rail (241) to slide relatively.

5. The tubular workpiece moving and heating device according to claim 1, wherein the feeding member (210) comprises a main body (212) and a supporting portion (213), one side of the main body (212) is connected with the supporting portion (213), and the plurality of first clamping grooves (211) are arranged on the other side of the main body (212).

6. The tubular workpiece transfer heating device of claim 5, wherein the frame (100) comprises a first base plate (110), a second base plate (120), and a support member (130), the first base plate (110) being arranged in parallel with the second base plate (120), the support member (130) being arranged between the first base plate (110) and the second base plate (120).

7. The tubular workpiece moving and heating device according to claim 6, wherein the second bottom plate (120) is provided with an abdicating through hole (121), the supporting portion (213) can pass through the abdicating through hole (121), and the main body (212) can abut against the top surface of the second bottom plate (120).

8. The tubular workpiece moving and heating device as claimed in claim 7, wherein there are two feeding members (210), the two feeding members (210) are arranged in parallel and face to face, the heating mechanism (300) comprises a first heating assembly (310), a second heating assembly (320) and a third heating assembly (330), the heights of the first heating assembly (310), the second heating assembly (320) and the third heating assembly (330) are consistent, the first heating assembly (310) is arranged between the two feeding members (210), and the second heating assembly (320) and the third heating assembly (330) are respectively arranged at the outer sides of the two feeding members (210).

9. The tubular workpiece transfer heating device of claim 8, wherein the first heating assembly (310), the second heating assembly (320) and the third heating assembly (330) each comprise a pad block (331) and a heating body (332), the pad block (331) is disposed on the second base plate (120), and the heating body (332) is disposed on the pad block (331).

10. The tubular workpiece transfer heating device according to claim 9, characterized in that a heating rod is arranged inside the heating body (332).

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