CN213504720U - Conveying mechanism for gas pipe fitting turnover - Google Patents

Abstract

The utility model discloses a transport mechanism is used in gas pipe spare turnover belongs to gas pipe production field. The utility model comprises a front material receiving section for receiving the pipe fitting and a rear material sending section for sending out the pipe fitting backwards, wherein a material blocking lifting section extending upwards is arranged between the front material receiving section and the rear material sending section, and the side edge of the material blocking lifting section is provided with jacking power; the heights of the top surfaces of the front material receiving section and the rear material conveying section are gradually reduced; the side of back feeding section is equipped with supplementary feeding component, and supplementary feeding component below is equipped with jacking power and propelling movement power. The utility model overcomes among the prior art inconvenient current situation of pipe fitting turnover between each process of gas pipe production plans to provide gas pipe fitting turnover and uses transport mechanism, can realize automatic transmission control, and the operation is convenient, can effectively improve production efficiency, reduces intensity of labour.

Description

Conveying mechanism for gas pipe fitting turnover

Technical Field

The utility model relates to a gas pipe production technical field, more specifically say, relate to transport mechanism is used in gas pipe fitting turnover.

Background

The production of gas pipe relates to the turnover cooperation between a plurality of processes, especially after the coupling joint of pipe fitting tip is installed, need carry out gas tightness detection to the pipe fitting earlier, need turn to the pipe fitting of same specification after the gas tightness detects and then send to the end section and subpackage and tie up, and how to realize the pipe fitting turnover cooperation between each process is the research focus. There are no few designs available in the industry for the turnaround transfer of pipe, but the pursuit of new designs has never been stopped in order to adapt to a particular production environment.

Through retrieval, the Chinese patent application number: 2014104813171, the name of invention creation is: shield constructs quick-witted section of jurisdiction conveyer, this application includes the section of jurisdiction transportation roof beam of constituteing through the round pin hub connection by two sections section of jurisdiction transportation roof beam monomers, the wheel of section of jurisdiction transport vechicle is arranged in the slide of section of jurisdiction transportation roof beam, two hydraulic motor of transportation actuating system install respectively in section of jurisdiction transportation roof beam both sides, the both ends of two connecting axles pass through splined connection with two hydraulic motor's power output shaft respectively, two connecting axles pass through the coupling joint, respectively have a driving sprocket on two connecting axles, two pairs of sprockets are installed on section of jurisdiction transportation roof beam, the one end of two chains is all fixed at section of jurisdiction transport vechicle front end, the other end of two chains is respectively around a pair of sprocket, two driving sprocket, another pair of sprocket after-. The duct piece conveying system is mainly designed for solving the problems of low conveying speed and the like of a duct piece conveying system.

Also as in chinese patent application No.: 2017109090628, the name of invention creation is: the automatic feeding device for the tubular galvanized parts comprises a base, a fixed seat, an inlet part, a first driving motor, a second driving motor, a third driving motor, a driving wheel and a driven wheel; the inlet part is arranged at the head part of the fixed seat; first driving motor and second driving motor are used for driving near the tip of fixing base and near the action wheel of afterbody respectively, make it rotatory along unified direction to after the pipe fitting that treats galvanization that the bundle is in the same place gets into the entering part, carry through the rotatory action wheel of unified direction and follow driving wheel. The application controls the conveying speed through the conveying adjusting mechanism on the second fixing seat.

The above applications all relate to the transportation of pipes, but none are directly applicable to the gas pipe turnover process.

SUMMERY OF THE UTILITY MODEL

1. Technical problem to be solved by the utility model

The utility model aims to overcome the inconvenient current situation of pipe fitting turnover between each process of gas pipe production among the prior art, plan to provide gas pipe fitting turnover and use transport mechanism, can realize automatic transmission control, and the operation is convenient, can effectively improve production efficiency, reduces intensity of labour.

2. Technical scheme

In order to achieve the above purpose, the utility model provides a technical scheme does:

the utility model discloses a conveying mechanism is used in gas pipe spare turnover, including the preceding material receiving section that is used for accepting the pipe fitting to and be used for sending out the back material feeding section of pipe fitting backward, have the fender material lifting section that upwards extends between preceding material receiving section and the back material feeding section, the side that keeps off the material lifting section is provided with jacking power; the heights of the top surfaces of the front material receiving section and the rear material conveying section are gradually reduced; the side of back feeding section is equipped with supplementary feeding component, and supplementary feeding component below is equipped with jacking power and propelling movement power.

Furthermore, the tail part of the rear feeding section is also provided with a stop block extending upwards.

Furthermore, the auxiliary feeding assembly comprises a jacking mounting seat arranged on the side edge of the rear feeding section, and one side of the jacking mounting seat is connected with longitudinal pushing power and used for driving the jacking mounting seat to translate along the longitudinal direction; install the installation grudging post on the jacking mount pad, the installation grudging post top is connected with the link through articulated frame, and the back end of link is the transmission section that highly gradually hangs down for, still is equipped with jacking power on the jacking mount pad, and this jacking power top links to each other with the link.

Furthermore, the middle part of the connecting frame is provided with a material blocking bulge extending upwards.

Furthermore, the front material receiving section, the rear material conveying section and the auxiliary material conveying assembly are all arranged on the sliding platform, and the front material receiving section and the rear material conveying section are respectively connected with the sliding platform through lower connecting support legs; the sliding platform is matched with a transverse guide rail arranged on the bottom rack, and a power part used for driving the sliding platform to move horizontally along the transverse guide rail is arranged at the end part of the sliding platform.

Furthermore, a longitudinal guide rail is arranged on the sliding platform along the conveying direction, the bottom of the jacking installation seat is matched with the longitudinal guide rail, and longitudinal pushing power is used for driving the jacking installation seat to move horizontally along the longitudinal guide rail.

Furthermore, the side of the rear feeding section is also provided with a movable stop block extending upwards, and jacking power is arranged below the movable stop block.

Furthermore, a guide clamping groove is formed in the side edge of the rear feeding section, and the movable stop block penetrates through the guide clamping groove and extends upwards.

3. Advantageous effects

Adopt the technical scheme provided by the utility model, compare with prior art, have following beneficial effect:

(1) the utility model discloses a transport mechanism is used in gas pipe fitting turnover, including being arranged in the preceding material receiving section that is arranged in following the anterior segment process and accepts the pipe fitting, and be used for the back material conveying section of seeing off the pipe fitting to the back end process, the side of back material conveying section is equipped with supplementary feeding assembly, utilize supplementary feeding assembly can directly send into next process with the pipe fitting in the back material conveying section, the pipe fitting of process carries out nimble turnover transmission around so, can effectively improve production efficiency, and whole conveying process all can realize automated control, therefore, the operation is convenient, and the labor intensity is greatly reduced, and the suitable popularization and application.

(2) The utility model discloses a transport mechanism is used in gas pipe spare turnover, the side of back pay-off section still is equipped with the activity dog that upwards extends, and this activity dog below is provided with jacking power, and when the back end process was not accomplished, steerable activity dog jack-up that makes progress stops more pipe fittings and gets into the rear end transmission, makes the rear end keep the pipe fitting that accords with regulation quantity in order to wait to tie up, operates and accords with production actual demand more.

(3) The utility model discloses a transport mechanism is used in gas pipe spare turnover, preceding material receiving section, back material feeding section and supplementary pay-off subassembly are all installed on sliding platform, and the transverse guide who sets up in sliding platform bottom and the bottom frame cooperatees, can effectively adjust the interval between preceding material receiving section, back material feeding section and the supplementary pay-off subassembly of both sides, can support and have enough to meet the need the transmission promptly to the pipe fitting of different length, and the suitability is wider.

Drawings

Fig. 1 is a schematic structural view of a single-side gas pipe turnover transmission mechanism of the present invention;

fig. 2 is a rear view schematic structural view of the gas pipe transferring and conveying mechanism of the present invention;

fig. 3 is an application schematic diagram of the gas pipe transfer conveying mechanism of the present invention.

The reference numerals in the schematic drawings illustrate:

300. a pipe fitting; 400. a front material receiving section; 401. a material blocking lifting section; 402. a post-feeding section; 403. a stopper; 404. connecting the supporting legs; 405. a sliding platform; 406. a longitudinal guide rail; 407. longitudinal pushing power; 408. jacking the mounting seat; 409. second jacking power; 410. installing a vertical frame; 411. a connecting frame; 412. the material blocking bulge is arranged; 413. a transmission section; 414. a hinged frame; 415. third jacking power; 416. a movable stop block; 417. a guide clamping groove; 418. fourth jacking power; 420. a transverse guide rail;

500. and bundling the bearing units.

Detailed Description

For a further understanding of the present invention, reference will be made to the following detailed description taken in conjunction with the accompanying drawings.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

The present invention will be further described with reference to the following examples.

Example 1

As shown in fig. 1-3, the gas pipe turnover conveying mechanism of this embodiment supports the pipe 300 through two sides during application, and the two sides have the same structural design, and as shown in fig. 1, is a schematic diagram of a single-side conveying mechanism, and includes a front material receiving section 400 for receiving the pipe 300 from a front stage process, and a rear material conveying section 402 for conveying the pipe 300 to a rear stage process, a material blocking lifting section 401 extending upward is provided between the front material receiving section 400 and the rear material conveying section 402, the top of the material blocking lifting section 401 extends rearward to be provided with the rear material conveying section 402, the tail of the rear material conveying section 402 is further provided with a stopper 403 extending upward, and the heights of the top surfaces of the front material receiving section 400 and the rear material conveying section 402 are both gradually reduced along the conveying direction; the side that keeps off material and promote section 401 is provided with jacking power, third jacking power 415 promptly, specifically can adopt multiple common jacking power spare such as cylinder. The side of back feeding section 402 is equipped with supplementary feeding component, and supplementary feeding component below is equipped with jacking power and propelling movement power.

The embodiment also comprises a system bottom frame which is not shown in the figure; the bottoms of the front receiving section 400 and the rear receiving section 402 can be connected to the bottom frame by connecting legs 404, such as three sets of connecting legs 404 in fig. 1. Furthermore, a sliding platform 405 is arranged on the frame at the bottom of the system, the front material receiving section 400, the rear material conveying section 402 and the auxiliary material conveying assembly are all installed on the sliding platform 405 in the embodiment, and the bottoms of the front material receiving section 400 and the rear material conveying section 402 are all fixed on the sliding platform 405 through connecting support legs 404.

In this embodiment, the auxiliary feeding assembly includes a jacking mount 408 disposed on a side of the rear feeding section 402, one side of the jacking mount 408 is connected to a longitudinal pushing power 407 for driving the jacking mount 408 to translate longitudinally, and specifically, a variety of common pushing power members such as an air cylinder may be used; specifically, a longitudinal guide rail 406 is arranged on the sliding platform 405 along the transmission direction, a sliding block matched with the longitudinal guide rail 406 is arranged at the bottom of the jacking installation seat 408, one end of a longitudinal pushing power 407 is fixed on the sliding platform 405, and the pushing end of the longitudinal pushing power 407 is connected with the side edge of the jacking installation seat 408 so as to push the jacking installation seat 408 to move horizontally on the longitudinal guide rail 406. Installation grudging post 410 is installed to the one end of jacking mount pad 408, and installation grudging post 410 top is connected with link 411 through articulated frame 414, and the middle part of link 411 is equipped with keeps off the material protruding 412, and the back end of link 411 is transmission section 413 that highly gradually lowers promptly, still is equipped with jacking power on the jacking mount pad 408, and second jacking power 409 specifically can adopt multiple common jacking power spare such as cylinder. The top end of the jacking power is connected with the connecting frame 411 and used for driving the transmission section 413 to lift so as to jack up the transmission pipe fitting 300. The bundling carrier mechanism 500 of the next step is disposed behind the transmission section 413. The rear end of the rear feeding segment 402 extends to reach the top opening area of the strapping support mechanism 500 of the rear process.

When the transport mechanism of this embodiment is used specifically:

a. the pipe 300 turned in the front section procedure directly reaches and abuts against the side face of the material blocking lifting section 401 along the front material receiving section 400, and the side face can be provided with a detachable and replaceable buffer layer made of rubber and the like so as to buffer the collision impact of the pipe 300; the top of the third jacking power 415 is provided with a jacking plate, the initial height of the jacking plate is lower than the height of the rear feeding section 402, the jacking plate can be inclined relative to the rear feeding section 402, and the pipe 300 can be jacked upwards by starting the third jacking power 415 so as to reach the rear feeding section 402 and be transmitted forwards.

b. After the pipe fitting 300 reaches the tail of the rear feeding section 402 and is blocked, the initial height of the auxiliary feeding assembly is lower than the height of the rear feeding section 402, the second jacking power 409 is started to enable the transmission section 413 to move upwards to jack the pipe fitting 300, then the longitudinal pushing power 407 pushes the transmission section 413 to move forwards continuously, the pipe fitting reaches the top opening area of the rear bundling bearing mechanism 500, the second jacking power 409 is controlled to descend and return, the pipe fitting 300 smoothly falls into the opening area of the bundling bearing mechanism 500, the longitudinal pushing power 407 resets, and an operator can bundle a certain number of pipe fittings 300 fed into the bundling bearing mechanism 500.

The conveying mechanism of the embodiment can realize turnover conveying of the pipe fitting 300, can be automatically controlled, and is very convenient to use.

Example 2

The gas pipe turnover transmission mechanism of this embodiment is substantially the same as embodiment 1, and further, as shown in fig. 2, in this embodiment, a movable stopper 416 extending upward is further disposed on a side of the rear feeding section 402, and a jacking power, i.e., a fourth jacking power 418, is disposed below the movable stopper 416, and specifically, a variety of common jacking power members such as an air cylinder may be used. Specifically, the fourth lifting power 418 is installed on one of the connecting legs 404, a guide slot 417 is further formed at the top of the connecting leg 404, and the movable stopper 416 passes through the guide slot 417, so that the guide is effectively achieved. The movable stop blocks 416 can be flexibly matched when in use, because the back-end bundling has specific requirements on the number, when the back-end bundling process is not finished, the movable stop blocks 416 can be controlled to jack upwards to stop more pipe fittings 300 from entering the back end for transmission, so that the back end keeps the pipe fittings 300 meeting the specified number to be bundled, and the operation is more in line with the actual production.

Example 3

The gas pipe turnover transmission mechanism of the present embodiment is substantially the same as the above embodiment, and further, as shown in fig. 1, the bottom of the sliding platform 405 in the present embodiment is matched with a transverse guide rail 420 arranged on the bottom rack, and a power member for driving the sliding platform 405 to translate along the transverse guide rail 420 is arranged at the end of the sliding platform 405; specifically, various pushing power parts and the like commonly used in the industry can be adopted. So set up the interval between preceding material receiving section 400, back feeding section 402 and the supplementary pay-off subassembly that can effectively adjust both sides, can support and have enough to meet the need the transmission to the pipe fitting 300 of different length promptly, the suitability is wider.

The present invention and its embodiments have been described above schematically, and the description is not limited thereto, and what is shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. Therefore, if the person skilled in the art receives the teaching of the present invention, without departing from the inventive spirit of the present invention, the person skilled in the art should also design the similar structural modes and embodiments without creativity to the technical solution, and all shall fall within the protection scope of the present invention.

Claims (8)

1. Transport mechanism is used in gas pipe fitting turnover, its characterized in that: the pipe fitting receiving device comprises a front receiving section (400) used for receiving a pipe fitting (300) and a rear feeding section (402) used for sending the pipe fitting (300) out backwards, a material blocking lifting section (401) extending upwards is arranged between the front receiving section (400) and the rear feeding section (402), and jacking power is arranged on the side edge of the material blocking lifting section (401); the heights of the top surfaces of the front material receiving section (400) and the rear material conveying section (402) are gradually reduced; an auxiliary feeding component is arranged on the side edge of the rear feeding section (402), and jacking power and pushing power are arranged below the auxiliary feeding component.

2. The gas pipe fitting turnaround conveying mechanism according to claim 1, characterized in that: the tail part of the rear feeding section (402) is also provided with a stop block (403) extending upwards.

3. The gas pipe fitting turnaround conveying mechanism according to claim 1, characterized in that: the auxiliary feeding assembly comprises a jacking mounting seat (408) arranged on the side edge of the rear feeding section (402), and one side of the jacking mounting seat (408) is connected with a longitudinal pushing power (407) and used for driving the jacking mounting seat (408) to translate along the longitudinal direction; install installation grudging post (410) on jacking mount pad (408), installation grudging post (410) top is connected with link (411) through articulated frame (414), and the back end of link (411) is transmission section (413) that highly progressively lowers promptly, still is equipped with jacking power on jacking mount pad (408), and this jacking power top links to each other with link (411).

4. The gas pipe fitting turnaround conveying mechanism according to claim 3, characterized in that: the middle part of the connecting frame (411) is provided with a material blocking bulge (412) extending upwards.

5. The gas pipe fitting turnaround conveying mechanism according to claim 3, characterized in that: the front material receiving section (400), the rear material conveying section (402) and the auxiliary material conveying assembly are all arranged on the sliding platform (405), and the front material receiving section (400) and the rear material conveying section (402) are respectively connected with the sliding platform (405) through connecting support legs (404) below; the sliding platform (405) is matched with a transverse guide rail (420) arranged on the bottom rack, and a power part for driving the sliding platform (405) to move horizontally along the transverse guide rail (420) is arranged at the end part of the sliding platform (405).

6. The gas pipe fitting turnaround conveying mechanism according to claim 5, wherein: a longitudinal guide rail (406) is arranged on the sliding platform (405) along the conveying direction, the bottom of the jacking installation seat (408) is matched with the longitudinal guide rail (406), and a longitudinal pushing power (407) is used for driving the jacking installation seat (408) to translate along the longitudinal guide rail (406).

7. The gas pipe transfer conveyor according to any one of claims 1 to 6, wherein: the side of the rear feeding section (402) is also provided with a movable stop block (416) extending upwards, and jacking power is arranged below the movable stop block (416).

8. The gas pipe fitting turnaround delivery mechanism of claim 7, wherein: a guide clamping groove (417) is formed in the side edge of the rear feeding section (402), and the movable stop block (416) penetrates through the guide clamping groove (417) and extends upwards.

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