CN216763573U - Transverse bar screening and arranging machine assembly - Google Patents

Abstract

The utility model provides a transverse rib screening and arranging machine assembly, which relates to the technical field of truss support transverse rib screening, in particular to a transverse rib screening and arranging machine assembly. The problem of among the prior art different sizes, the horizontal muscle of length is difficult to realize autofilter, range, quantitative conveying is solved.

Description

Transverse bar screening and arranging machine assembly

Technical Field

The utility model relates to the technical field of truss support transverse bar screening, in particular to a transverse bar screening and arranging machine assembly.

Background

In the prior art, the truss support ribs are welded manually, so that the efficiency is low and the cost is high. Therefore, automation of welding the truss support ribs needs to be realized to reduce production cost and improve production efficiency. However, in the process of realizing the automation of welding the truss support ribs, the transverse ribs in the truss support ribs need different specifications and sizes to realize product diversification, and for the welding processing of the transverse ribs with different sizes and different lengths, the screening, arrangement and quantitative conveying of the transverse ribs are one of the difficulties in the welding processing process of the support ribs and are also the key points for realizing the automation of welding the truss support ribs.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems in the prior art, the utility model provides a transverse bar screening and arranging machine assembly, which solves the problem that transverse bars with different sizes and lengths are difficult to realize automatic screening, arranging and quantitative conveying in the prior art.

In order to achieve the purpose of the utility model, the technical scheme adopted by the utility model is as follows:

the utility model provides a horizontal muscle screening arrangement machine assembly, which comprises a frame, install the hopper in the frame, the one end of hopper is provided with liftout mechanism, liftout mechanism includes one-level kicking plate and second grade kicking plate, be provided with the screening board between one-level kicking plate and the second grade kicking plate, be provided with the screening mouth that corresponds with horizontal muscle length on the screening board, the bottom of one-level kicking plate and second grade kicking plate is installed respectively on vertical telescopic machanism, one side that one-level kicking plate was kept away from to the second grade kicking plate is provided with feeding mechanism, feeding mechanism's top is provided with snatchs the mechanism.

Furthermore, the bottom surface of the hopper is an inclined surface, and the material ejecting mechanism is arranged at the lower end of the bottom surface of the hopper. After the horizontal muscle is sent into the hopper, because the hopper bottom sets up to the inclined plane, horizontal muscle can push one side near liftout mechanism in the hopper bottom for liftout mechanism material loading is more convenient.

Furthermore, an inclined screening surface is arranged on the screening plate, the screening surface is the bottom surface of the screening opening, and the secondary ejector plate is located on the lower side of the screening surface. Through the mode of changing the screening board in proper order, make the length of screening face increase in proper order, and then the row of orderliness lists the horizontal muscle different in size, simple structure, only needs to change the ejector plate during the use and can elect the not unidimensional horizontal muscle, after horizontal muscle was pushed up the screening face, horizontal muscle receives the influence of gravity can be followed the screening face and rolled to the second grade ejector plate on, has improved the efficiency and the smoothness nature of screening.

Further, the top surface and the screening face of one-level kicking plate all set up along horizontal muscle axial slope, and the low side and the hopper of screening face slope meet. In the process of one-level ejector plate material loading, one side in the hopper is concentrated to horizontal muscle for the in-process of horizontal muscle material loading uses a side of hopper as the benchmark, has improved the accuracy of material loading.

Further, the top surface of one-level kicking plate, the top surface of second grade kicking plate all set up along horizontal muscle radial slope, and the low side of slope is the one end of keeping away from the hopper. After liftout mechanism material loading, the top surface of one-level kicking plate sets up along horizontal muscle radial slope and can form a recess between one-level kicking plate and screening plate, has all formed the recess between second grade kicking plate and hopper inner wall with the principle, can prevent that horizontal muscle from dropping at the in-process of material loading in going into the recess with horizontal muscle card, has improved the security of device at the operation in-process, has also reduced the error rate of material loading in-process simultaneously.

Further, feeding mechanism includes the conveying chain, is provided with guiding mechanism between conveying chain and the second grade kicking plate, and guiding mechanism department is provided with the photoelectric detection switch. After the transverse ribs are ejected out of the hopper by the ejection mechanism, the transverse ribs slide onto the conveying chain, and are conveyed to a grabbing station of the grabbing mechanism through the conveying of the conveying chain; the guide mechanism can limit the transverse ribs on the conveying chain, so that the transverse ribs are prevented from sliding out of the conveying chain, and the grabbing mechanism is more convenient to grab the transverse ribs; when the horizontal muscle falls on the conveying chain, through the signal of photoelectric detection switch feedback, timely control snatchs the mechanism and takies away horizontal muscle, avoids horizontal muscle jam on the conveying chain.

Furthermore, the grabbing mechanism comprises an electromagnet arranged above the feeding mechanism, and the electromagnet is installed on the rack through a linear module. When horizontal muscle was sent to and snatchs the station, absorb horizontal muscle through the electro-magnet is automatic, send horizontal muscle to welding station department by sharp module again.

Further, a cable drag chain is installed at one end of the linear module. In the process of operating the grabbing mechanism, cables and air pipes required by the grabbing mechanism can be arranged in the cable drag chain, so that the cables and the air passages are protected, and the grabbing mechanism can reciprocate freely.

The beneficial effects of the utility model are as follows:

1. the transverse ribs are conveyed to the screening plate through the one-level ejector plate to be screened, the transverse ribs with proper sizes are selected from the screening plate, the transverse ribs are conveyed into the feeding mechanism through the second-level ejector plate, and the feeding mechanism and the grabbing mechanism complete quantitative conveying of the transverse ribs.

2. The process that adds an ejector plate in whole liftout mechanism and will whole liftout is two-stage, and the screening is accomplished to the first grade, and the batching is accomplished to the second grade, simple structure, convenient to use.

3. When the transverse ribs with different sizes are required to be welded, the conveying of the transverse ribs with different sizes can be completed by replacing different screening plates, the effect of one machine with multiple purposes is achieved, the operation efficiency of the device is improved, and the cost is reduced.

Drawings

Fig. 1 is a structural diagram of the transverse bar screening and arranging machine assembly.

Fig. 2 is a front view of the transverse bar screening and arranging machine assembly.

Fig. 3 is a sectional view a-a.

Wherein, 1, a frame; 2. a hopper; 3. a material ejecting mechanism; 31. a first-stage ejector plate; 32. a second-stage ejector plate; 33. screening the plate; 331. screening the noodles; 4. a feeding mechanism; 41. a conveyor chain; 42. a drive mechanism; 43. a reduction gearbox; 5. a grabbing mechanism; 51. an electromagnet; 52. a linear module; 53. a cable drag chain; 54. a lifting platform; 6. a guide mechanism; 7. a photoelectric detection switch.

Detailed Description

The embodiment of the utility model provides a transverse rib screening and arranging machine assembly, and solves the problem that transverse ribs with different sizes and lengths are difficult to automatically screen, arrange and quantitatively convey in the prior art.

For better understanding of the above technical solutions, the following detailed descriptions will be provided in conjunction with the drawings and the detailed description of the embodiments.

This horizontal muscle screening arrangement machine assembly, it includes frame 1, installs hopper 2 in the frame 1, and the one end of hopper 2 is provided with liftout mechanism 3, and liftout mechanism 3 includes one-level kicking plate 31 and second grade kicking plate 32, is provided with screening plate 33 between one-level kicking plate 31 and the second grade kicking plate 32, is provided with the screening mouth that corresponds with horizontal muscle length on the screening plate 33, and the bottom of one-level kicking plate 31 and second grade kicking plate 32 is installed respectively on vertical telescopic machanism, one side that one-level kicking plate 31 was kept away from to second grade kicking plate 32 is provided with feeding mechanism 4, and feeding mechanism 4's top is provided with snatchs mechanism 5.

The bottom surface of the hopper 2 is an inclined surface, and the material ejecting mechanism 3 is arranged at one end of the hopper 2 with the lower bottom surface. Still be provided with two vertical baffles in hopper 2, the one end of vertical baffle all contradicts with one-level ejector plate 31, and the one end that one-level ejector plate 31 was kept away from to vertical baffle is with the inner wall butt of hopper 2. After horizontal muscle was sent into hopper 2, horizontal muscle can pile up the one end that is close to liftout mechanism 3 in 2 bottoms of hopper automatically under the effect of gravity for the liftout is convenient more and high-efficient.

The screening plate 33 is provided with an inclined screening surface 331, the screening surface 331 is the bottom surface of the screening opening, and the secondary ejector plate 32 is positioned on the lower side of the screening surface 331. Screening face 331 sets up in screening mouth department and has certain difference in height with the top surface of screening board 33, when one-level ejector plate 31 carries out the liftout, horizontal muscle can be preferred to fall on screening face 331, and suitable horizontal muscle is selected to the length of rethread screening face 331 and is carried.

The top surface and the screening surface 331 of one-level ejector plate 31 all set up along horizontal muscle axial slope, and the low side of screening surface 331 slope meets with hopper 2. In the process of ejecting the material by the first-stage ejector plate 31, the accuracy of feeding is improved by taking one side wall of the hopper 2 as a reference in a mode that the top surface is axially and obliquely arranged along the transverse rib; simultaneously at the in-process of liftout, the horizontal muscle of slope has one on 2 lateral walls of hopper to borrow power, can prevent that horizontal muscle from droing at the in-process of liftout for the process of liftout is more stable.

The top surface of one-level ejector plate 31 and the top surface of second grade ejector plate 32 all set up along horizontal muscle radial slope, and the low side of slope is the one end of keeping away from hopper 2. Form a recess between one-level ejector plate 31's top surface and the screening plate 33, after liftout mechanism 3 material loading, can prevent that horizontal muscle from dropping at the in-process of material loading in going into the recess with horizontal muscle card, improved the security of device at the operation in-process, also reduced the fault rate of material loading in-process simultaneously, all formed the recess between second grade ejector plate 32 and 2 inner walls of hopper on the same principle, improved the efficiency of material loading. In addition, through a specific program algorithm, when the first-stage ejector plate 31 reaches the top end and is level with the screening surface 331 in the process that the telescopic mechanism controls the operation of the first-stage ejector plate 31 and the second-stage ejector plate 32, the second-stage ejector plate 32 just reaches the lowest end and is also level with the screening surface 331.

The feeding mechanism 4 comprises a conveying chain 41 arranged on the outer side wall of the hopper 2, a guide mechanism 6 is arranged between the conveying chain 41 and the secondary ejector plate 32, and a photoelectric detection switch 7 is arranged at the guide mechanism 6. And the conveying chain 41 is arranged at one end close to the second-stage material-rubbing and ejecting plate 32, and the conveying chain 41 is connected with the driving mechanism 42 through the reduction box 43. Guiding mechanism 6 includes that conveying chain 41 keeps away from the baffle 61 of hopper one side and the inclined plane 62 that is close to liftout mechanism 3 one side, and the low side of inclined plane 62 is the one end that is close to conveying chain 41, and when liftout mechanism 3 rubbed the horizontal muscle to the top surface of hopper 2 wallboard on, horizontal muscle can be automatic sliding to conveying chain 41 on, dog 61 can keep off the horizontal muscle at conveying chain 41's within range for the material loading process is more smooth. The grabbing mechanism 5 comprises an electromagnet 51 arranged above the feeding mechanism 4, the electromagnet 51 is preferably a sucker type electromagnet, the electromagnet 51 is mounted on an elevating platform 54 through a fixing plate, the elevating platform 54 is mounted on a sliding block of a linear module 52, and the electromagnet 51 is mounted on the rack 1 through the linear module 52. A cable drag chain 53 is mounted at one end of the linear module 52.

The working process of the utility model is as follows:

when the transverse ribs are conveyed into the hopper 2, the transverse ribs are automatically concentrated at one end of the hopper 2 close to the material ejecting mechanism 3 under the action of gravity due to the inclined arrangement of the bottom surface of the hopper 2. The first flitch 31 of telescopic machanism control is flexible from top to bottom repeatedly and is carried out the liftout, will violently muscle top screening surface 331 department, if the length of horizontal muscle is not more than the length of screening surface 331, horizontal muscle can automatic landing on screening surface 331, otherwise when horizontal muscle length is greater than the length of screening surface 331, horizontal muscle can be sent back, the up-and-down motion that does not stop through first flitch 31 simultaneously and other horizontal muscle extrusion vibrations, extrude the horizontal muscle on the first flitch 31 and wait for next horizontal muscle to fall on first flitch 31. When the top surface of the first ejector plate 31 moves to be flush with the screening surface 331, the top surface of the second ejector plate 32 also moves to the lowest end and is lower than the lowest point of the screening surface 331, the transverse rib fed to the screening surface 331 automatically slides onto the second ejector plate 32, and the second ejector plate 32 ejects the hopper 2 and feeds the hopper onto the conveying chain 41. After the photoelectric detection switch 7 senses the transverse rib, the transverse rib is fed back to the grabbing mechanism 5, then is conveyed to the grabbing station through the conveying chain 41, is adsorbed by the electromagnet 51 above the grabbing station, and then is conveyed to the welding station through the linear module 52.

It should be apparent to those skilled in the art that while the preferred embodiments of the present invention have been described, additional variations and modifications in these embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. It is therefore intended that the following appended claims be interpreted as including preferred embodiments and all such alterations and modifications as fall within the scope of the utility model. It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the utility model. Thus, if such modifications and variations of the present invention fall within the scope of the machine equivalent of the claims of the present invention, it is intended that the present invention also encompass such modifications and variations.

Claims (8)

1. The utility model provides a violently muscle screening arrangement machine assembly, a serial communication port, includes frame (1), install hopper (2) on frame (1), the one end of hopper (2) is provided with liftout mechanism (3), liftout mechanism (3) include one-level kicking plate (31) and second grade kicking plate (32), one-level kicking plate (31) with be provided with between second grade kicking plate (32) and screen plate (33), be provided with the screening mouth that corresponds with horizontal muscle length on screen plate (33), one-level kicking plate (31) with the bottom of second grade kicking plate (32) is installed respectively on vertical telescopic machanism, second grade kicking plate (32) are kept away from one side of one-level kicking plate (31) is provided with feeding mechanism (4), the top of feeding mechanism (4) is provided with snatchs mechanism (5).

2. The transverse bar screening and arranging machine assembly according to claim 1, wherein the bottom surface of the hopper (2) is an inclined surface, and the material ejecting mechanism (3) is arranged at one end of the hopper (2) lower than the bottom surface.

3. A transverse bar screening arrangement machine assembly according to claim 1, characterized in that the screening plate (33) is provided with an inclined screening surface (331), the screening surface (331) is the bottom surface of the screening opening, and the secondary ejector plate (32) is located at the lower side of the screening surface (331).

4. A transverse bar screening and arranging machine assembly according to claim 3, wherein the top surface of the primary ejector plate (31) and the screening surface (331) are both arranged along the axial direction of the transverse bar in an inclined manner, and the inclined lower end of the screening surface (331) is connected with the hopper (2).

5. The transverse rib screening and arranging machine assembly according to claim 3, wherein the top surfaces of the first-stage ejector plates (31) and the second-stage ejector plates (32) are arranged in a radial inclined mode along the transverse ribs, and the inclined lower ends of the inclined top surfaces are the ends far away from the hopper (2).

6. The transverse bar screening and arranging machine assembly according to claim 1, wherein the feeding mechanism (4) comprises a conveying chain (41), a guide mechanism (6) is arranged between the conveying chain (41) and the secondary ejector plate (32), and a photoelectric detection switch (7) is arranged at the guide mechanism (6).

7. A transverse bar screening and arranging machine assembly according to claim 1, characterized in that the gripping mechanism (5) comprises an electromagnet (51) arranged above the feeding mechanism (4), and the electromagnet (51) is mounted on the frame (1) through a linear module (52).

8. A transverse bar screen collator assembly according to claim 7 wherein one end of the linear module (52) is fitted with a cable drag chain (53).

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