CN213677341U - Integrated steering and bundling transmission system for gas pipe production - Google Patents

Abstract

The utility model discloses a gas pipe fitting production is with turning to tying up integration transmission system belongs to gas pipe production field. The utility model comprises a steering mechanism, a bundling feeding mechanism and a bundling bearing mechanism, wherein the steering mechanism comprises fixed support frames, a steering support frame is arranged between the fixed support frames, and the bottom of the steering support frame is provided with lifting power and rotating power; the bundling feeding mechanism comprises a front receiving section and a rear feeding section, an auxiliary feeding component is arranged on the side edge of the rear feeding section, and jacking power and pushing power are arranged below the auxiliary feeding component; the bundling bearing mechanism comprises a bearing seat, and a fixed blocking frame and a movable blocking frame are arranged on two sides of the top of the bearing seat. The utility model overcomes among the prior art the current situation that lacks systematic transmission between each process of gas pipe production, can be with turning to of gas pipe, tie up and the anterior segment process is integrated for unified transmission production line, and can realize automated control, can effectively improve production efficiency, reduce intensity of labour.

Description

Integrated steering and bundling transmission system for gas pipe production

Technical Field

The utility model relates to a gas pipe production technical field, more specifically say, relate to gas pipe fitting production is with turning to tying up integration transmission system.

Background

The production of gas pipes relates to the turnover cooperation among a plurality of processes, and especially after the connecting joint at the end of a pipe fitting is installed, the gas tightness of the pipe fitting needs to be detected, the pipe fitting with the same specification needs to be bundled in a sub-packaging mode after the gas tightness is detected, in practice production, the bundling number and the pipe fitting orientation of the pipe fitting are required, and therefore the pipe fitting needs to be turned before bundling. At present, a turnover system integrating pipe fitting turning, conveying and bundling into a whole is lacked in the industry, and how to realize turnover matching among all working procedures is a key research point. The production efficiency of enterprises can be effectively improved by integrating all the processes on the same production line, and the complicated operation of intermediate process turnover is reduced.

Through retrieval, the Chinese patent application number: 2018108144377, the name of invention creation is: a pipe fitting automatic packing system and a pipe fitting packing method are disclosed, the pipe fitting automatic packing system of the application comprises a control system, a first pipe fitting conveying device, a second pipe fitting conveying device, a pipe fitting placing device and a packing box swinging device, wherein a pipe fitting storage box is arranged on the first pipe fitting conveying device, a baffle device for controlling the conveying quantity of pipe fittings and a pipe pressing mechanism capable of moving up and down are arranged on the second pipe fitting conveying device, the baffle device reciprocates left and right according to a preset stroke, the pipe pressing mechanism is arranged on the left side of the baffle device, the pipe fitting placing device comprises a swing arm mechanism and a pipe fitting grabbing piece arranged on the swing arm mechanism, and the pipe fitting grabbing piece and the moving area of the baffle device are arranged oppositely; this application has realized mechanized, automatic, the intelligent vanning to the pipe fitting, and whole process need not manual operation, has obtained the efficient, the effect of saving manufacturing cost of vanning in the practice.

Also as in chinese patent application No.: 2013101759698, the name of invention creation is: an automatic pipe fitting discharging and feeding device comprises a discharging mechanism capable of being embedded into a pipe fitting, a driving mechanism capable of driving the pipe fitting on the discharging mechanism to move, and a feeding mechanism capable of grabbing and conveying the pipe fitting on the discharging mechanism, wherein the discharging mechanism is provided with two chain rings arranged side by side, the two chain rings are jointly arranged on two main shafts arranged side by side through a group of chain wheels, a plurality of pairs of pipe fitting clamping dies capable of being embedded into the same pipe fitting are respectively fixed on the two chain rings, the driving mechanism is arranged on one main shaft and comprises a ratchet wheel fixed on the main shaft, the feeding mechanism comprises two material supporting dies and a feeding cylinder, wherein the feeding cylinder can drive the two material supporting dies to push out the pipe fittings on the corresponding pipe fitting clamping dies; this application can continuously place the pipe fitting and can send the pipe fitting out automatically, improves work efficiency, reduces intensity of labour.

The above applications relate to automatic transmission control of pipe fittings, but are not directly applicable to the production process of gas pipes.

SUMMERY OF THE UTILITY MODEL

1. Technical problem to be solved by the utility model

The utility model aims to overcome the current situation that lacks systematic transmission between each process of gas pipe production among the prior art, plan to provide the production of gas pipe fitting with turning to tie up integration transmission system, can with turning to of gas pipe, tie up and the anterior segment process is integrated for unified transmission production line, and can realize automated control, can effectively improve production efficiency, reduce 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 gas pipe fitting production is with turning to tying up integration transmission system, including the steering mechanism, tying up feeding mechanism and tying up the bearing mechanism that set gradually, wherein the steering mechanism includes the fixed support frame of both sides, still is equipped with the steering support frame between the fixed support frame of both sides, and steering support frame bottom is equipped with lift power and rotary power; the bundling feeding mechanism comprises a front receiving section for receiving the pipe fitting and a rear feeding section for feeding the pipe fitting backwards, an auxiliary feeding assembly is arranged on the side edge of the rear feeding section, and jacking power and pushing power are arranged below the auxiliary feeding assembly; the bundling bearing mechanism comprises a bearing seat, and a fixed blocking frame and a movable blocking frame which are distributed in a V-shaped opening mode are arranged on two sides of the top of the bearing seat.

Furthermore, the steering mechanism also comprises a turnover frame arranged on the side edge of the fixed support frame, jacking power is arranged at the bottom of the turnover frame, the turnover frame comprises a front bearing section with gradually reduced height, the tail part of the front bearing section extends upwards to form a middle material blocking section, the top part of the middle material blocking section extends backwards gradually to form a rear bearing section, and the tail part of the rear bearing section is also provided with an upwards extending tail material blocking plate; the top of the fixed support frame is provided with a clamping groove for placing a pipe fitting, and the length extending position of the front bearing segment is arranged between the openings of the clamping groove of the fixed support frame.

Furthermore, the buffer layers are arranged on the working side face of the middle material blocking section and the clamping groove working face of the fixed support frame.

Furthermore, the bottom of the turnover frame is provided with a guide supporting leg, and the system frame is correspondingly provided with guide wheels distributed on two sides of the guide supporting leg.

Furthermore, in the bundling feeding mechanism, a material blocking lifting section extending upwards is arranged between the front material receiving section and the rear material feeding section, a stop block extending upwards is further arranged at the tail part of the rear material feeding section, and the heights of the top surfaces of the front material receiving section and the rear material feeding section are gradually reduced along the conveying direction; the side of the material blocking lifting section is provided with jacking power.

Furthermore, in the strapping and feeding mechanism, 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 move horizontally 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 middle part of link is equipped with keeps off the material arch, and the back end of link is the transmission section that highly gradually hangs down, still is equipped with jacking power on the jacking mount pad, and this jacking power top links to each other with the link.

Furthermore, in the bundling feeding mechanism, a movable stop block extending upwards is further arranged on the side edge of the rear feeding section, and jacking power is arranged below the movable stop block.

Furthermore, the bundling feeding mechanism is arranged on a sliding platform, the bottom of the sliding platform is matched with a transverse guide rail arranged at the bottom of the system rack, and a power part for driving the transverse guide rail to translate is arranged at the end part of the sliding platform; the sliding platform is provided with a longitudinal guide rail 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, in the bundling and bearing mechanism, a sliding groove is formed in the bearing seat along the transmission direction, an adjusting screw rod is arranged in the sliding groove, a sliding block matched with the adjusting screw rod is arranged at the bottom of the movable blocking frame, and the movable blocking frame is controlled to be close to or far away from the fixed blocking frame by rotating the adjusting screw rod.

Furthermore, the lower part of the bearing seat is connected with the mounting base through the connecting legs.

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 gas pipe fitting production is with turning to tying up integration transmission system utilizes steering mechanism, ties up feeding mechanism and ties up bearing mechanism and cooperate in proper order, can with turning to of pipe fitting, transmission, tie up with anterior segment production process integration on a production transmission line, avoid loaded down with trivial details turnover process, can effectively improve production efficiency, and whole conveying process all can realize automated control, convenient operation reduces intensity of labour by a wide margin, suitable popularization and application.

(2) The utility model discloses a gas pipe fitting production is with turning to and tying up integration transmission system all installs removable buffer layer on the side of bearing that contacts with the pipe fitting for buffering pipe fitting direct collision's impact avoids causing surface damage.

(3) The utility model discloses a gas pipe fitting production is with turning to tying up integration transmission system, all revolving rack bottoms are equipped with the direction landing leg, correspond in this regional system's frame and be equipped with the leading wheel for effectively leading to the jacking process, keep the pipe fitting lift stable.

(4) The utility model discloses a gas pipe fitting production is with turning to and tying up integration transmission system ties up feeding mechanism and installs on the platform that slides, and the transverse guide that sets up bottom the platform that slides and system frame bottom cooperate, so set up the interval between the feeding mechanism that ties up that can effectively adjust both sides, can support and have enough to meet the need the transmission to the pipe fitting of different length promptly, and the suitability is wider.

(5) The utility model discloses a gas pipe fitting production is with turning to tying up integration transmission system ties up and bear the mechanism, can keep off the frame relatively fixed through rotating accommodate the lead screw control activity and keep off the frame and be close to or keep away from, satisfies the operation of tying up to different quantity pipe fittings, uses more in a flexible way, satisfies the production demand.

Drawings

Fig. 1 is a schematic structural view of a steering mechanism of the present invention;

fig. 2 is a schematic structural view of the transfer frame of the present invention;

FIG. 3 is a schematic structural view of a single-sided strapping and feeding mechanism of the present invention;

fig. 4 is a rear view schematic diagram of the single-sided strapping and feeding mechanism of the present invention;

fig. 5 is a schematic structural view of the strapping support mechanism of the present invention.

The reference numerals in the schematic drawings illustrate:

100. a front carriage; 101. a front tube body clamping groove; 102. a front conveyor chain; 300. a pipe fitting;

200. supporting legs; 201. supporting a vertical plate; 202. a guide wheel; 203. first jacking power; 204. a middle seat; 205. rotating power; 206. fixing a support frame; 207. a steering support frame; 210. a turnover frame; 211. a front bearing section; 212. a middle material blocking section; 213. a rear bearing section; 214. a tail baffle plate; 215. a guide leg;

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. a bundling load-bearing unit; 501. a bearing seat; 502. a connecting leg; 503. installing a base; 504. fixing a blocking frame; 505. a movable blocking frame.

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 to 5, which are schematic views of a transmission structure between processes in the transmission system of this embodiment, the steering and strapping integrated transmission system for producing gas pipe fittings of this embodiment includes a steering mechanism, a strapping feeding mechanism and a strapping carrying mechanism 500, which are sequentially arranged, wherein the steering mechanism includes two fixed support frames 206 on two sides, a steering support frame 207 is further arranged between the two fixed support frames 206 on two sides, and a lifting power and a rotating power 205 are arranged at the bottom of the steering support frame 207; the bundling feeding mechanism comprises a front material receiving section 400 for receiving the pipe 300 and a rear material feeding section 402 for feeding the pipe 300 backwards, an auxiliary feeding component is arranged on the side edge of the rear material feeding section 402, and jacking power and pushing power are arranged below the auxiliary feeding component; the bundling carrier 500 includes a carrier 501, and a fixed blocking frame 504 and a movable blocking frame 505 distributed in a V-shaped opening are disposed on two sides of the top of the carrier 501.

Specifically, as shown in fig. 1, the steering mechanism further includes a turnover frame 210 disposed at a side of the fixed support frame 206, and a jacking power, i.e., a first jacking power 203, is disposed at a bottom of the turnover frame 210. As shown in fig. 2, the revolving rack 210 on each side includes a front receiving section 211 with gradually decreasing height, a middle material blocking section 212 extends upward from the tail of the front receiving section 211, the top of the middle material blocking section 212 extends rearward with gradually decreasing height to form a rear receiving section 213, and a tail material blocking plate 214 extending upward is further disposed at the tail of the rear receiving section 213; the top of the fixing support frame 206 is provided with a slot for placing the pipe 300, and the length of the front bearing section 211 extends between the slot openings of the fixing support frame 206 and does not reach the center of the bottom of the slot opening of the fixing support frame 206. The middle material blocking section 212 is used for the working side face contacted with the pipe fitting 300, and the fixing support frame 206 is used for the clamping groove working face contacted with the pipe fitting 300, and is provided with replaceable buffer layers, so that the impact of direct collision of the pipe fitting 300 is buffered, the surface damage is avoided, and rubber or other common materials in other industries can be adopted.

In this embodiment, the bottom of the revolving rack 210 is provided with a guiding leg 215, and the system frame in this area is correspondingly provided with guiding wheels 202 distributed on both sides of the guiding leg 215. Specifically, the system frame in the steering process area comprises a bottom frame and side frames on two sides of the bottom frame, and in order to more clearly show the specific structure of the steering mechanism, the system frame part, especially the bottom frame part, is not shown in the drawing; wherein the side frame comprises a supporting vertical plate 201 on each side, and the two sides of the bottom of the supporting vertical plate 201 are connected with the bottom frame through supporting legs 200. A group of guide supporting legs 215 of the turnover frame 210 are respectively arranged below the front bearing section 211 and the rear bearing section 213, the first jacking power 203 is arranged between the two groups of guide supporting legs 215, and the bottom of the first jacking power 203 is arranged on the supporting vertical plate 201; two sets of guide wheels 202 are correspondingly arranged on two sides of the supporting vertical plate 201, and each set of guide wheels 202 is provided with two guide wheels 202 along the vertical jacking direction respectively, so as to effectively guide the jacking process and keep the pipe fitting 300 stable in lifting.

As shown in fig. 1, in this embodiment, a V-shaped open slot is formed at the top of the fixing support 206 for receiving the pipe 300, a middle seat 204 is further disposed between the fixing support 206 at two sides, and a lifting power is provided below the middle seat 204, and specifically, a plurality of lifting power members such as an air cylinder can be used for driving the middle seat 204 to lift; the middle base 204 is further provided with a rotary power 205, which may be a rotary cylinder or a motor, and the steering support 207 is connected to an output end of the rotary power 205, and is driven by the rotary power 205 to rotate to steer the pipe 300. The steering support frame 207 has a certain extending length so as to stably support the pipe 300, the top of the steering support frame 207 is also provided with a V-shaped opening clamping groove, and side baffles which extend upwards to a certain height are arranged on two sides of the V-shaped opening clamping groove so as to prevent the pipe 300 from falling off in the steering process.

In actual operation of the steering mechanism of the present embodiment:

a. the pipe fitting 300 processed and detected in the previous working procedure is conveyed by the front conveying frame 100, a front conveying chain 102 is arranged in the front conveying frame 100, a front pipe body clamping groove 101 with a V-shaped opening is formed in the tail end of the front conveying frame 100, and the pipe fitting 300 is conveyed by the front conveying chain 102 to reach the front pipe body clamping groove 101.

b. In the steering mechanism, the initial height of the turnover frame 210 is located below the front pipe body clamping groove 101, the front end extension length of the front bearing section 211 exceeds the position of the front pipe body clamping groove 101, the first jacking power 203 starts up jacking, the front end of the front bearing section 211 is about to jack up the pipe fitting 300 in the front pipe body clamping groove 101, the pipe fitting 300 slides to abut against the middle material blocking section 212 along the front bearing section 211, the height of the pipe fitting 300 is higher than that of the fixed support frame 206, and the lower side of the pipe fitting 300 is located in the opening clamping groove area at the top of the fixed support frame 206.

c. The first jacking power 203 is controlled to descend and return, and the pipe 300 falls back into the open clamping groove at the top of the fixed support frame 206, namely, is supported by the fixed support frames 206 at the two ends. The initial height of the steering support frame 207 is lower than the height of the fixed support frame 206, at this time, the lifting power below the middle base 204 is started to drive the middle base 204 to jack, the steering support frame 207 rises to jack the pipe fitting 300 to be separated from the fixed support frame 206, and then the rotating power 205 is started to drive the steering support frame 207 to rotate for 180 degrees, namely, the two ends of the pipe fitting 300 are steered, so that the bundling requirement is met.

d. After the steering is finished, similarly, the steering support frame 207 is controlled to descend and return, and the pipe fitting 300 falls back into the fixed support frame 206; and starting the first jacking power 203, wherein the rear bearing section 213 jacks up the pipe fitting 300 at the moment, the tail end of the rear bearing section 213 extends beyond the front end of the front material receiving section 400 in the bundling and feeding mechanism, the height of the tail end of the rear bearing section 213 after jacking is basically flush with the front end of the front material receiving section 400, and the pipe fitting 300 reaches the front material receiving section 400 along the rear bearing section 213 for further conveying. The whole steering transmission process is completed, and then the materials are further sent to the bundling bearing mechanism 500 through the bundling feeding mechanism for bundling operation.

In this embodiment, utilize steering mechanism, tie up feeding mechanism and tie up and bear mechanism 500 and cooperate in proper order, can with turning to, transmitting, tying up of pipe fitting 300 and anterior segment production process integration on a production transmission line, avoid loaded down with trivial details turnover process, can effectively improve production efficiency, and whole conveying process all can realize automated control, convenient operation reduces intensity of labour by a wide margin, suitable popularization and application.

Example 2

The steering and binding integrated conveying system for production of gas pipe fittings in the embodiment is basically the same as that in embodiment 1, and further, as shown in fig. 3, is a structural schematic view of a one-side binding and feeding mechanism, a material blocking lifting section 401 extending upward is arranged between a front material receiving section 400 and a rear material feeding section 402, the top of the material blocking lifting section 401 extends rearward to form the rear material feeding section 402, a stopper 403 extending upward is further arranged at the tail of the rear material feeding section 402, and the heights of the top surfaces of the front material receiving section 400 and the rear material feeding section 402 are 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 still is equipped with the movable stop 416 that upwards extends, and this movable stop 416 below is provided with jacking power, fourth jacking power 418, specifically can adopt multiple common jacking power spare such as cylinder.

Similarly, the bottom of the strapping and feeding mechanism area in this embodiment is also provided with a system bottom frame, and the bottoms of the front material receiving section 400 and the rear material receiving section 402 can be connected with the bottom frame through connecting legs 404, such as three sets of connecting legs 404 in fig. 3. Furthermore, a sliding platform 405 is arranged on the frame at the bottom of the system, in this embodiment, the bundling feeding mechanism is installed on the sliding platform 405, and the bottoms of the front material receiving section 400 and the rear material feeding section 402 are fixed on the sliding platform 405 through the connecting support legs 404. As shown in fig. 4, the fourth lifting power 418 is installed on one of the connecting legs 404, a guiding slot 417 is further provided on the top of the connecting leg 404, and the movable stopper 416 passes through the guiding slot 417, thereby achieving effective guiding.

The bundling and feeding mechanism further comprises an auxiliary feeding assembly, the auxiliary feeding assembly comprises a jacking mounting seat 408 arranged on the side edge of the rear feeding section 402, 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 move horizontally along the longitudinal direction, and various common pushing power members such as an air cylinder can be adopted; 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 500 is disposed behind the transmission section 413. The trailing end of the rear infeed section 402 extends to the top open area of the load binder mechanism 500.

When the banding feeding mechanism of this embodiment specifically uses:

a. the turned pipe fitting 300 directly reaches and abuts against the side face of the material blocking lifting section 401 along the front material receiving section 400, and similarly, a buffer layer can be arranged on the side face; 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 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 up the pipe 300, then the longitudinal pushing power 407 pushes the transmission section 413 to move forwards continuously, the pipe reaches the top opening area of the bundling bearing mechanism 500, the second jacking power 409 is controlled to descend and return, the pipe 300 falls into the opening area of the bundling bearing mechanism 500 smoothly, the longitudinal pushing power 407 resets, and an operator can bundle a certain number of pipes 300 fed into the bundling bearing mechanism 500.

The lifting control's that sets up movable stop 416 in this embodiment on back feeding section 402 can cooperate in a flexible way during the use, because tie up and have the concrete requirement to quantity, when the back end is tied up the process and is not accomplished, steerable movable stop 416 jacks up upwards, blocks more pipe fittings 300 and gets into the rear end transmission, makes the rear end keep complying with the pipe fittings 300 of regulation quantity in order to wait to tie up, and the operation accords with the production reality more.

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

Example 3

The steering and binding integrated conveying system for producing gas pipe fittings in the embodiment is basically the same as that in embodiment 2, and further, as shown in fig. 3, in this embodiment, the binding and feeding mechanism is installed on a sliding platform 405, the bottom of the sliding platform 405 is matched with a transverse guide rail 420 arranged on a rack at the bottom of the system, and a power part for driving the sliding platform 405 to translate along the transverse guide rail 420 is arranged at the end part; specifically, various pushing power parts and the like commonly used in the industry can be adopted. So set up the interval between the feeding mechanism that ties up 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.

Similarly, in the steering mechanism of this embodiment, the supporting vertical plate 201 and the supporting leg 200 on both sides can also be set to be a sliding structure capable of translating with the bottom frame, so that the operation of the pipe fittings 300 with different lengths can also be adapted to the steering mechanism, and the specific structure can be set by referring to the sliding platform 405, which is not described herein again.

Example 4

In the steering and strapping integrated transmission system for producing gas pipe fittings of this embodiment, basically as in the above-mentioned embodiment, further, as shown in fig. 5, in the strapping and carrying mechanism 500 of this embodiment, the lower part of the carrying seat 501 is connected to the mounting base 503 through the connecting leg 502, and the mounting base 503 is mounted on the sliding platform 405. The bearing seat 501 is provided with a sliding groove along the transmission direction, the sliding groove is provided with an adjusting screw rod, the bottom of the movable blocking frame 505 is provided with a sliding block matched with the adjusting screw rod, and the movable blocking frame 505 is controlled to be close to or far away from the fixed blocking frame 504 by rotating the adjusting screw rod. The bottom of slider is for the nut structure with this accommodate the lead screw matched with, and rotatory accommodate the lead screw will the linear translation of direct control slider in bearing 501 spout to can effectively control the activity and keep off the opening size interval between 505 and the fixed frame 504 that keeps off, satisfy the operation of tying up to different quantity pipe fittings 300, use more in a flexible way, satisfy the production demand. The end of the adjusting screw rod extending out of the bearing seat 501 can be provided with a through hole for installing a rotating handle, so that the adjusting screw rod is convenient to rotate and adjust.

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 (10)

1. Gas pipe fitting production is with turning to tying up integration transmission system, its characterized in that: the device comprises a steering mechanism, a bundling feeding mechanism and a bundling bearing mechanism (500) which are sequentially arranged, wherein the steering mechanism comprises fixed support frames (206) at two sides, a steering support frame (207) is arranged between the fixed support frames (206) at the two sides, and lifting power and rotating power (205) are arranged at the bottom of the steering support frame (207); the bundling feeding mechanism comprises a front receiving section (400) used for receiving the pipe fitting (300) and a rear feeding section (402) used for sending the pipe fitting (300) out backwards, an auxiliary feeding assembly is arranged on the side edge of the rear feeding section (402), and jacking power and pushing power are arranged below the auxiliary feeding assembly; the bundling bearing mechanism (500) comprises a bearing seat (501), and a fixed blocking frame (504) and a movable blocking frame (505) which are distributed in a V-shaped opening mode are arranged on two sides of the top of the bearing seat (501).

2. The steering and strapping integrated conveying system for gas pipe production as claimed in claim 1, wherein: the steering mechanism further comprises a turnover frame (210) arranged on the side of the fixed support frame (206), jacking power is arranged at the bottom of the turnover frame (210), the turnover frame (210) comprises a front bearing section (211) with gradually reduced height, a middle material blocking section (212) extends upwards from the tail part of the front bearing section (211), the top part of the middle material blocking section (212) extends backwards gradually to form a rear bearing section (213), and a tail material blocking plate (214) extending upwards is further arranged at the tail part of the rear bearing section (213); the top of the fixed support frame (206) is provided with a clamping groove for placing the pipe fitting (300), and the length extending position of the front bearing section (211) is arranged between the clamping groove openings of the fixed support frame (206).

3. The steering and strapping integrated conveying system for gas pipe production as claimed in claim 2, wherein: the working side surface of the middle material blocking section (212) and the clamping groove working surface of the fixed support frame (206) are respectively provided with a buffer layer.

4. The steering and strapping integrated conveying system for gas pipe production as claimed in claim 2, wherein: the bottom of the turnover frame (210) is provided with a guide supporting leg (215), and the system frame is correspondingly provided with guide wheels (202) distributed on two sides of the guide supporting leg (215).

5. The steering and strapping integrated conveying system for gas pipe production as claimed in claim 1, wherein: in the bundling feeding mechanism, a material blocking lifting section (401) extending upwards is arranged between a front material receiving section (400) and a rear material feeding section (402), a stop block (403) extending upwards is further arranged at the tail part of the rear material feeding section (402), and the heights of the top surfaces of the front material receiving section (400) and the rear material feeding section (402) are gradually reduced along the conveying direction; the side of the material blocking lifting section (401) is provided with jacking power.

6. The steering and strapping integrated conveying system for gas pipe production as claimed in claim 1, wherein: in the bundling feeding mechanism, 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 middle part of link (411) is equipped with keeps off material protruding (412), and the back end of link (411) is transmission section (413) that highly gradually hang down promptly, still is equipped with jacking power on jacking mount pad (408), and this jacking power top links to each other with link (411).

7. The steering and strapping integrated conveying system for gas pipe production as claimed in claim 1, wherein: in the bundling feeding mechanism, the side edge 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 steering and strapping integrated conveying system for gas pipe production as claimed in claim 6, wherein: the bundling feeding mechanism is arranged on a sliding platform (405), the bottom of the sliding platform (405) is matched with a transverse guide rail (420) arranged on a rack at the bottom of the system, and a power part for driving the sliding platform (405) to translate along the transverse guide rail (420) is arranged at the end part of the sliding platform (405); 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).

9. The integrated steering and strapping transmission system for producing gas pipe fittings according to any one of claims 1 to 8, wherein: in the bundling bearing mechanism (500), a sliding groove is formed in the bearing seat (501) along the transmission direction, an adjusting screw rod is arranged in the sliding groove, a sliding block matched with the adjusting screw rod is arranged at the bottom of the movable blocking frame (505), and the movable blocking frame (505) is controlled to be close to or far away from the fixed blocking frame (504) relatively by rotating the adjusting screw rod.

10. The steering and strapping integrated conveying system for gas pipe production as claimed in claim 9, wherein: the lower part of the bearing seat (501) is connected with a mounting base (503) through a connecting leg (502).

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