CN214779059U - Telescopic roller assembly of section frame type stacker - Google Patents

Abstract

The utility model relates to a flexible drum subassembly of section bar frame stacker, this flexible drum subassembly set up the kingpin, and the bearing fixed plate is connected through two at least rolling bearing seats to the kingpin, and this bearing fixed plate sliding connection flexible drum subassembly main part, this bearing fixed plate are connected and are used for driving the gliding kingpin drive arrangement of bearing fixed plate, and flexible drum subassembly main part still is provided with the flexible drum subassembly connecting device who is used for being connected with the host computer frame. The utility model provides a flexible drum subassembly of brand-new section bar frame stacker, its important component part as the stacker has cross feed concurrently and flexible receive and release the function for the degree of automation of whole stacker is higher, and work efficiency has obtained obvious promotion.

Description

Telescopic roller assembly of section frame type stacker

Technical Field

The utility model relates to a finishing transmission equipment of section bar, especially a flexible drum assembly of full-automatic section bar frame stacker.

Background

The section bar is a material widely used in production, and has a large number of applications in various industries. In the section bar production process, the rule needs to be stacked to rectangular section bar to subsequent thermal treatment or packing, transportation, the mode of manual stacking is mostly adopted to current section bar, and low and stack the effect poor in production efficiency. The automatic stacking mode is adopted for partial large-scale sectional materials, the production efficiency and the stacking quality can be improved, however, the automation rate of the existing automatic stacking equipment is low, the occupied area is too large, and the stacking efficiency also has a lifting space.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem, lie in providing a full-automatic section bar frame stacker, its compact structure, degree of automation is high to have very good security and stack efficiency, its whole efficiency that can effectively promote the section bar production has practicality and economic value concurrently, especially the flexible drum assembly who uses in this stacker makes the transport of section bar more smooth and easy in the stacker. .

The technical means adopted by the utility model are as follows.

The utility model provides a section bar frame stacker's telescopic drum subassembly, this telescopic drum subassembly sets up the kingpin, and the bearing fixed plate is connected through two at least rolling bearing seats to the kingpin, and this bearing fixed plate sliding connection telescopic drum subassembly main part, this bearing fixed plate are connected and are used for driving the gliding kingpin drive arrangement of bearing fixed plate, and telescopic drum subassembly main part still is provided with the telescopic drum subassembly connecting device who is used for being connected with the host computer frame.

The telescopic roller component main body is of a square hollow tube structure, a sliding groove is formed in the upper portion of the main body, a roller pin guide rail is accommodated in the telescopic roller component main body, a track groove of the roller pin guide rail corresponds to the sliding groove, a cylinder connecting plate is arranged at the bottom of a bearing fixing plate, the cylinder connecting plate penetrates through the sliding groove to reach the track groove, two ends of the cylinder connecting plate are connected with the track groove through a deep groove ball bearing, and the cylinder connecting plate is connected with a roller pin driving device.

The needle roller driving device is a cylinder.

The utility model has the advantages as follows: the utility model provides a flexible drum subassembly of brand-new section bar frame stacker, its important component part as the stacker has cross feed concurrently and flexible receive and release the function for the degree of automation of whole stacker is higher, and work efficiency has obtained obvious promotion.

Drawings

Fig. 1 is a schematic view of the whole three-dimensional structure of the stacker applied in the present invention.

Fig. 2 is a schematic side view of a stacker applied in the present invention.

Fig. 3 is a schematic front structural view of a stacker applied in the present invention.

Fig. 4 is a schematic structural view of a finished material frame conveying device of a stacker applied in the present invention.

Fig. 5 is a schematic view of a transition receiving group structure of a stacker applied in the present invention.

Fig. 6 is a schematic structural view of the telescopic roller assembly of the present invention.

Fig. 7 is a schematic structural view of a material clamping device of a stacker applied in the present invention.

Detailed Description

Referring to fig. 1 to 7, there is provided a frame stacker for sectional materials, which comprises a feeding section 1 and a receiving section 2 connected thereto; the feeding part is responsible for conveying the finished section products produced in the last step to a designated position, and the receiving part receives the materials and then sends the materials to the next stage.

The material receiving part 2 comprises a finished product material frame 3 for storing a finished section product A; the bottom of the finished product material frame 3 is a hollow frame 31, a lifting platform 4 capable of ascending and descending is arranged below the finished product material frame 3, and the lifting platform 4 can penetrate through the hollow frame 31; a finished product material frame conveying device 5 used for conveying the finished product material frame 3 filled with the section finished product A is arranged below the finished product material frame 3.

Connect material part 2 to utilize lift platform to connect the material, the section bar finished product realizes safe material that connects through lift platform, when lift platform rises the state, utilizes pay-off part 1 to put the section bar finished product on lift platform according to needs, for example, can be after piling up full one deck, back lift platform descends and piles up the second floor again, until piling up full. Here, the finished profile is detected to be full of one or more layers, and can be monitored and controlled by external equipment, and can be judged by a computer, which can be realized by a person skilled in the art. In this embodiment, two side surfaces of the finished material frame 3 are provided with vertical frames 32, and the top of each vertical frame 32 is provided with a plurality of hooks 33, so that the finished section can be conveniently hung by other equipment after being filled with the finished section. Note that the position of the finished profile a in fig. 1 is not a placement position, but is away from the feeding portion 1 only to avoid blocking the components of the feeding portion in the figure.

The finished product material frame conveying device 5 can be used for rapidly moving the loaded finished product material frame 3 to a position convenient for hoisting, and also can be used for directly hoisting the loaded finished product material frame 3 away and then moving the empty finished product material frame 3 to a position convenient for material receiving.

As shown in fig. 4, the finished material frame conveying device 5 may be any device that can conveniently move the finished material frame 3, and in this embodiment, a specific scheme is provided, which includes at least two conveying tracks 51 that are arranged in parallel, a distance between the two conveying tracks 51 is smaller than a length of the finished material frame 3, at least one conveying track is provided with a conveying chain 52, and the conveying chain 52 is connected to a driving motor 53. The driving motor 53 drives the conveying chain 52 to rotate, and the conveying chain 52 may be provided with a fixing block 55 for inserting or connecting with the finished product material frame 3, or may be in other manners as long as the finished product material frame 3 can move along with the conveying chain 52. In this embodiment, only one driving motor is provided for the two conveying tracks, and the driving motor drives the other conveying chain through the synchronous conveying shaft 56. Also, the chains herein may take other forms, such as belts, rollers, tracks, and the like.

The feeding part 1 is provided with a main machine frame 11, the main machine frame 11 is provided with a first rail 111 which is transversely arranged, the first rail 111 is provided with a material clamping device 112 which can transversely slide on the first rail 111, and the material clamping device 112 is used for clamping the finished section product A and pulling the finished section product A forwards. So that the finished profile reaches the desired position initially.

As shown in fig. 5, the main frame 11 is further provided with a plurality of transitional material receiving groups 6 for temporarily storing the finished profile product a, the transitional material receiving groups 6 are located below the first rail 111, and when the finished profile product is clamped by the material clamping device and reaches a desired position initially, the finished profile product is released and can be received by the transitional material receiving groups 6. The transitional material receiving group 6 is at least provided with a temporary storage platform 61 for placing the finished sectional material product a, and a moving device 62 for moving the finished sectional material product a to the finished material frame 3. The transitional material receiving group 6 has the functions of receiving materials in advance and sending the materials to the subsequent material receiving part 2. The temporary storage platform 61 is used for temporary storage, and the moving device 62 is used for moving.

As shown in fig. 6, in the present embodiment, between the first rail 111 and the transition receiving group 6, a plurality of telescopic roller assemblies 7 are transversely arranged, and as shown in the figure, 4 groups are arranged, which may be increased or decreased according to the requirement. The telescopic roller assembly 7 is provided with a roller pin 71 facing the direction of the finished material frame 3, the roller pin 71 is connected with a bearing fixing plate 73 through at least two rolling bearing seats 72, the bearing fixing plate 73 is slidably connected with a telescopic roller assembly main body 74, the bearing fixing plate 73 is connected with a roller pin driving device 75 for driving the bearing fixing plate 73 to slide, and the telescopic roller assembly main body 74 is further provided with a telescopic roller assembly connecting device 76 for connecting with the main machine frame 11.

In this embodiment, the telescopic roller assembly main body 74 is a square hollow tube structure, a sliding groove 741 is opened above the main body, a needle roller guide 751 is accommodated in the telescopic roller assembly main body 74, a rail groove 752 of the needle roller guide 751 corresponds to the sliding groove 741, a cylinder connecting plate 731 is disposed at the bottom of the bearing fixing plate 73, the cylinder connecting plate 731 passes through the sliding groove 741 to reach the rail groove 752, both ends of the cylinder connecting plate 731 are connected to the rail groove 752 through a deep groove ball bearing 732, and the cylinder connecting plate 731 is connected to the needle roller driving device 75.

The telescopic roller assembly 7 is connected with a main machine frame by using a telescopic roller assembly connecting device 76, when the material clamping device 112 clamps the finished section product a to move forwards, a roller pin driving device 75 (in the figure, an air cylinder structure) drives the bearing and fixing plate 73 to slide towards the end part of the telescopic roller assembly main body 74, so that a roller pin 71 connected with the bearing and fixing plate 73 extends out, one end of the finished section product a is clamped by the material clamping device 112, and then slides on the roller pin in a rolling manner, thereby achieving the effect of reducing friction force and reducing the burden of the material feeding device 112. The roller pins 71 can naturally roll by utilizing the rolling bearing seats 72, and can also be connected with a power device to actively roll. After the finished section bar is conveyed to a proper position, the roller pins can retract backwards, and simultaneously the clamping device releases the section bar, so that the section bar falls downwards onto the temporary storage platform 61 of the transition material receiving group 6.

In this embodiment, the temporary storage platform 61 and the moving device 62 of the transition receiving set 6 are disposed on the transition receiving set main body 60, and the transition receiving set main body 60 may be a square pipe structure as shown in the figure and is fixed to the host rack 11 through the lower support 63. The temporary storage platform 61 is provided with a telescopic flat plate 610, a rubber plate 611 is arranged above the telescopic flat plate 610, and the flat plate 610 is connected with a first driving device (not shown in the figure) for controlling the telescopic flat plate 610 to stretch; the moving device 62 is provided with a retractable push plate 620 perpendicular to the flat plate 610, a rubber plate 611 is also provided at the front thereof, and a second driving device 621 (in the present figure, a cylinder structure) for controlling the retraction thereof is connected at the rear thereof. With the mating of the flat plate 610 and the push plate 620, the profile can be pushed to a desired position, for example, if the desired profile product is located closer to the transition material group, the flat plate can be retracted, and the push plate does not need to be pushed too far forward. And if the position of the finished section bar product to be placed is far relative to the transition receiving group, the finished section bar product can extend out of the flat plate, and meanwhile, the push plate pushes forwards for a long distance. If the position of the finished section is required to be placed in the two positions, the extending length of the push plate is adjusted according to the requirement. Please note that a plurality of transition receiving groups 6 can be set according to the requirement, generally more than 2 groups, and in fig. 1, two transition receiving groups 6 are in different states, here, only to show different working states, and the two transition receiving groups are generally in the same state in actual use.

As shown in fig. 7, the clamping device 112 is used to clamp the finished profile a to a desired position, and in this embodiment, the desired function is to move laterally and move up and down. As shown in the figure, a specific structure of the material clamping device 112 is provided, and the material clamping device is provided with a roller device 1121 matched with the first rail 111, as shown in the figure, the roller device 1121 may be provided with two sets of rollers arranged up and down, so that the first rail 111 is located between the rollers, which is the most stable manner, but of course, other manners may also be adopted. The roller device 1121 is connected to a vertically disposed lifting mechanism 1122, the lifting mechanism 1122 is composed of a fixed groove 1123 and a sliding plate 1124, the sliding plate 1124 is connected to a power mechanism 1125, and can be driven by the power mechanism and slide up or down relative to the fixed groove 1123, in this figure, the power mechanism is an air cylinder and drives the sliding plate 1124 to slide up and down.

The sliding plate 1124 is connected with the clamping frame 8, the clamping frame 8 is provided with a sliding groove 80, a first clamping plate 81 and a second clamping plate 82 are connected in the sliding groove, the first clamping plate 81 and the second clamping plate 82 form a clamping opening used for clamping the finished section product a towards the finished section product a, and the first clamping plate 81 and/or the second clamping plate 82 can slide in the sliding groove 80 to clamp the finished section product a. And the sliding plate 1124 can drive the material clamping frame 8 to move up and down, so that the material clamping device can move transversely and move up and down. In this embodiment, the opposite inner sides of the first clamping plate 81 and the second clamping plate 82 are provided with a clamping rubber plate 83, the first clamping plate 81 is fixedly arranged on one side of the sliding plate 1124 in a manner of being tightly attached to the first clamping plate 81, a feeding baffle 84 parallel to the sliding groove 80 is arranged on one side of the first clamping plate 81 close to the sliding groove 80, the feeding baffle 84 can block the finished profile product a, and only the second clamping plate 82 can slide, so that the function of clamping the finished profile product a can be completed. Of course, a structure in which both the first clamping plate 81 and the second clamping plate 82 can move may be adopted, or a more flexible robot structure may be adopted, depending on the requirements.

The utility model provides a flexible drum subassembly of brand-new section bar frame stacker, its important component part as the stacker has cross feed concurrently and flexible receive and release the function for the automation of whole stacker.

Claims (3)

1. The telescopic roller assembly of the section frame type stacker is characterized in that a roller pin (71) is arranged on the telescopic roller assembly (7), the roller pin (71) is connected with a bearing fixing plate (73) through at least two rolling bearing seats (72), the bearing fixing plate (73) is connected with a telescopic roller assembly main body (74) in a sliding mode, the bearing fixing plate (73) is connected with a roller pin driving device (75) used for driving the bearing fixing plate (73) to slide, and the telescopic roller assembly main body (74) is further provided with a telescopic roller assembly connecting device (76) used for being connected with a main machine frame (11).

2. The telescopic roller assembly of a profile frame stacker according to claim 1, wherein the telescopic roller assembly body (74) has a square hollow tube structure, a sliding groove (741) is formed above the telescopic roller assembly body, the telescopic roller assembly body (74) accommodates a needle roller guide (751), a rail groove (752) of the needle roller guide (751) corresponds to the sliding groove (741), a cylinder connecting plate (731) is disposed at the bottom of the bearing fixing plate (73), the cylinder connecting plate (731) passes through the sliding groove (741) to reach the rail groove (752), two ends of the cylinder connecting plate are connected with the rail groove (752) through a deep groove ball bearing (732), and the cylinder connecting plate (731) is connected with the needle roller driving device (75).

3. The telescopic roller assembly of a profile frame stacker according to claim 1, wherein the needle roller driving means (75) is an air cylinder.

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