CN219771117U - Door and window aluminum product material loading exchange mechanism - Google Patents

Abstract

The utility model provides a door and window aluminum material feeding exchange mechanism, which is applied to the technical field of door and window processing, wherein the door and window aluminum material feeding exchange mechanism is arranged between a first processing station and a second processing station of profile processing equipment, and a clamping conveying mechanism extending towards the direction of the second processing station is arranged between the first processing station and the second processing station, and the door and window aluminum material feeding exchange mechanism specifically comprises: the device comprises a mounting frame, a feeding frame and a driving device, wherein the driving device is connected with the feeding frame and drives the feeding frame to reciprocate in three directions, and door and window aluminum materials are operated so as not to interfere with other equipment in the transferring process. Therefore, the door and window aluminum material feeding and exchanging mechanism has the beneficial effects of being simple to operate, reducing production cost and avoiding interference with other equipment.

Description

Door and window aluminum product material loading exchange mechanism

Technical Field

The utility model relates to the technical field of door and window processing, in particular to an upper exchange mechanism of door and window aluminum materials.

Background

In the production of door and window trade automation line, in order to furthest improve production efficiency, often will process as far as possible lengthen, and its production line corresponds also can lengthen, and the transportation of door and window aluminum product before two stations around on the production line has just become the problem, in actual processing, and door and window aluminum product's length can reach 6 meters, in order to guarantee the accuracy of aluminum product in sawing and milling the wash port, handle hole scheduling in-process, need set up fixture in one end of aluminum product, press from both sides tight aluminum product, makes the aluminum product can not take place the displacement when the station is processed. The fixture of last station can loosen the aluminum product and return the normal position when the aluminum product processing is accomplished the transportation and is gone to next station, and the aluminum product still need continue to carry forward a section distance and just can be carried by the fixture of next station this moment, if directly carry and get into next station from last station through a conveyer belt, in batch processing production, this aluminum product continues the displacement, its end can strike the aluminum product of processing of next station, cause the interference, consequently, in order to solve the aluminum product of processing and take place the interference problem in the transportation process, in the chinese patent of bulletin number CN 216730418U-an intelligent door and window processing production line, propose to add the letter sorting line beside the delivery line, and independently set up different processing stations in letter sorting line one side, get the processing work piece on the delivery line through the manipulator, then rethread manipulator snatchs the work piece and gets into corresponding processing station. The structure adopted by the mode is complicated, a plurality of lines and a plurality of manipulators are required to be matched together, the instruction for controlling the manipulators to operate correctly is complex, and the production cost is correspondingly increased greatly.

In view of the above, there is a need in the art for improvements.

Disclosure of Invention

The utility model aims to provide a door and window aluminum material loading exchange mechanism which has the beneficial effects of being simple to operate, reducing production cost and avoiding interference with rear-end equipment.

In a first aspect, the utility model provides a door and window aluminum material loading exchange mechanism, which has the following technical scheme:

the door and window aluminum material feeding and exchanging mechanism is arranged on profile processing equipment, the profile processing equipment comprises a first processing station and a second processing station, a clamping and conveying mechanism extending towards the direction of the second processing station is arranged between the first processing station and the second processing station, the conveying direction is taken as an x-axis, a y-axis is vertical to the x-axis in the horizontal direction, and a z-axis is vertical to the x-axis in the vertical direction; door and window aluminum product material loading exchange mechanism includes:

the mounting frame is arranged between the first processing station and the second processing station and is positioned at one side of the clamping and conveying mechanism;

the feeding frame is movably arranged on the mounting frame, and the feeding end of the feeding frame is correspondingly arranged with the discharge hole of the first processing station;

the driving device is connected with the feeding frame and comprises an x-axis driving part, a y-axis driving part and a z-axis driving part, and the feeding frame is driven to reciprocate in the x-axis direction, the y-axis direction and the z-axis direction respectively, so that the door and window aluminum material is conveyed to the front of the clamping conveying mechanism from the discharge hole, and the clamping conveying mechanism clamps the end part of the door and window aluminum material.

The door and window aluminum material feeding exchange mechanism is arranged between the first processing station and the second processing station of the profile processing equipment, and the clamping conveying mechanism extending towards the direction of the second processing station is arranged between the first processing station and the second processing station, wherein the extending direction of the clamping conveying mechanism is the conveying direction, the conveying direction is the x-axis, the y-axis is vertical to the x-axis in the horizontal direction, the z-axis is vertical to the x-axis in the vertical direction, and the door and window aluminum material feeding exchange mechanism is arranged at the side edge of the clamping conveying mechanism, so that the length of the whole profile processing equipment can be reduced, and interference with the clamping conveying mechanism is avoided; this door and window aluminum product material loading exchange mechanism specifically includes: the mounting frame is arranged between the first processing station and the second processing station and is positioned at one side of the clamping conveying mechanism, so that the door and window aluminum material processed by the first processing station is conveniently transferred to the side of the clamping conveying mechanism, the situation that the door and window aluminum material is overlong and directly conveyed to the position of the clamping conveying mechanism and the defect that the tail end of the door and window aluminum material processed in the second processing station in front of the door and window aluminum material is impacted is avoided; the feeding frame is movably arranged on the mounting frame, the feeding end of the feeding frame is correspondingly arranged with the discharge hole of the first processing station, so that the feeding frame can be conveniently displaced to the position of the discharge hole, the side edge of the clamping conveying mechanism is transferred to the door and window aluminum material from the first processing station, the side edge of the door and window aluminum material is staggered with the clamping conveying mechanism in the y-axis direction, and the side edge of the door and window aluminum material is displaced to the front of the clamping conveying mechanism, so that interference with other equipment is avoided; the driving device is connected with the feeding frame and comprises an x-axis driving part, a y-axis driving part and a z-axis driving part, the feeding frame is driven to reciprocate in the x-axis direction, the y-axis direction and the z-axis direction respectively, the door and window aluminum material feeding exchange mechanism is convenient to avoid other equipment through displacement in 3 directions, the door and window aluminum material is transported to the front of the clamping conveying mechanism from the discharge hole of the first processing station, the clamping conveying mechanism is used for clamping the end part of the door and window aluminum material, and accordingly the door and window aluminum material is conveyed to the second processing station for continuous processing. Therefore, the door and window aluminum material feeding and exchanging mechanism has the beneficial effects of being simple to operate, reducing production cost and avoiding interference with other equipment.

Further, in some embodiments, the feeding frame includes a first supporting frame, a second supporting frame, and a feeding roller; the first support frame activity sets up on the mounting bracket to connect x axle drive division in the x axle direction, the second support frame activity sets up on first support frame, and connects y axle drive division in the y axle direction, and the feed roll activity sets up on the second support frame, and connects z axle drive division in the z axle direction.

In order to enable the door and window aluminum material feeding exchange mechanism to have displacement in 3 directions, the feeding frame comprises a first supporting frame, a second supporting frame and a feeding roller, wherein the first supporting frame is movably arranged on the mounting frame and is connected with an x-axis driving part in the x-axis direction, so that the x-axis driving part can drive the first supporting frame to reciprocate on the mounting frame along the x-axis; the second support frame is movably arranged on the first support frame and is connected with the y-axis driving part in the y-axis direction, so that the y-axis driving part can drive the second support frame to reciprocate on the first support frame along the y-axis; the feeding roller is movably arranged on the second support frame and is connected with a z-axis driving part in the z-axis direction, so that the z-axis driving part can drive the feeding roller to reciprocate on the second support frame along the z-axis; because the whole quality of pay-off frame and door and window aluminum product is great, if directly connect drive arrangement on the pay-off frame is whole, drive whole pay-off frame and door and window aluminum product and carry out the displacement, need very big drive power, the energy cost of consumption is high, consequently, split into first support frame with the pay-off frame, second support frame and the three partial control displacement of feed roll, when making the pay-off frame move on the y axle, need not drive first support frame, when z axle direction, need not drive first support frame and second support frame, reduce energy loss, play the effect of saving the cost.

Further, in some technical schemes, the junction of first support frame and mounting bracket is provided with a plurality of first slide rails, and first slide rail sets up along x axis direction, and the length of first slide rail equals with clamping conveying mechanism's length in x axis direction.

The first sliding rails are arranged at the joint of the first supporting frame and the mounting frame and are arranged along the x-axis direction, so that the first supporting frame can be smoothly displaced in the x-axis direction, the second supporting frame arranged on the first supporting frame is driven to displace along the x-axis direction together with the feeding roller arranged on the second supporting frame, further, door and window aluminum materials on the feeding roller are driven to displace along the x-axis direction, the displacement distance is the length of the first sliding rails in the x-axis direction, the length of the first sliding rails is equal to the length of the clamping conveying mechanism in the x-axis direction, the door and window aluminum materials can be conveyed to the front of the clamping conveying device, the end parts of the door and window aluminum materials are just contacted with the clamping conveying mechanism, and the door and window aluminum materials are clamped by the clamping conveying mechanism and conveyed to a second processing station for processing; and set up a plurality of first slide rails and can increase the area of contact of first support frame and mounting bracket and make first support frame displacement more stable.

Further, in some technical schemes, a plurality of second sliding rails are arranged at the connection part of the second supporting frame and the first supporting frame, and the second sliding rails are arranged along the y-axis direction.

The second support frame is arranged along the y-axis direction through the plurality of second slide rails arranged at the joint of the second support frame and the first support frame, so that the second support frame can be smoothly displaced along the y-axis direction, and a feeding roller arranged on the second support frame is driven to be displaced along the y-axis direction until the feeding end of the feeding frame corresponds to the position of the discharge hole of the first processing station, and door and window aluminum materials are conveniently transported to the feeding roller from the discharge hole of the first processing station; and the contact area of the second support frame and the first support frame can be increased by arranging a plurality of second slide rails, so that the displacement of the second support frame is more stable.

Further, in some technical schemes, a plurality of third sliding rails are arranged at the connection part of the second supporting frame and the feeding roller, and the third sliding rails are arranged along the z-axis direction.

Further, in some embodiments, the mounting frame is rectangular, and the length of the mounting frame is greater than the length of the feeding frame.

Further, in some embodiments, the first support frame is rectangular, and in the y-axis direction, a width of the first support frame is greater than a width of the second support frame.

Further, in some technical solutions, the second support frame is a cuboid, and in the z-axis direction, the height of the second support frame is greater than the height of the feed roller.

Further, in some technical schemes, a movable plate is slidably connected to the third sliding rail, and the feeding roller is fixedly arranged on the movable plate.

Further, in some embodiments, the movable plate has a plate surface extending in the y-axis direction, and the feeding roller is fixedly disposed on the plate surface.

According to the door and window aluminum material feeding exchange mechanism provided by the utility model, the door and window aluminum material feeding exchange mechanism is arranged between the first processing station and the second processing station of the profile processing equipment, and the clamping conveying mechanism extending towards the direction of the second processing station is arranged between the first processing station and the second processing station, wherein the extending direction of the clamping conveying mechanism is the conveying direction, the conveying direction is the x-axis, the y-axis is vertical to the x-axis in the horizontal direction, the z-axis is vertical to the x-axis in the vertical direction, and the door and window aluminum material feeding exchange mechanism is arranged at the side edge of the clamping conveying mechanism, so that the length of the whole profile processing equipment can be reduced, and interference with the clamping conveying mechanism is avoided; this door and window aluminum product material loading exchange mechanism specifically includes: the mounting frame is arranged between the first processing station and the second processing station and is positioned at one side of the clamping conveying mechanism, so that the door and window aluminum material processed by the first processing station is conveniently transferred to the side of the clamping conveying mechanism, the situation that the door and window aluminum material is overlong and directly conveyed to the position of the clamping conveying mechanism and the defect that the tail end of the door and window aluminum material processed in the second processing station in front of the door and window aluminum material is impacted is avoided; the feeding frame is movably arranged on the mounting frame, the feeding end of the feeding frame is correspondingly arranged with the discharge hole of the first processing station, so that the feeding frame can be conveniently displaced to the position of the discharge hole, the side edge of the clamping conveying mechanism is transferred to the door and window aluminum material from the first processing station, the side edge of the door and window aluminum material is staggered with the clamping conveying mechanism in the y-axis direction, and the side edge of the door and window aluminum material is displaced to the front of the clamping conveying mechanism, so that interference with other equipment is avoided; the driving device is connected with the feeding frame and comprises an x-axis driving part, a y-axis driving part and a z-axis driving part, the feeding frame is driven to reciprocate in the x-axis direction, the y-axis direction and the z-axis direction respectively, the door and window aluminum material feeding exchange mechanism is convenient to avoid other equipment through displacement in 3 directions, the door and window aluminum material is transported to the front of the clamping conveying mechanism from the discharge hole of the first processing station, the clamping conveying mechanism is used for clamping the end part of the door and window aluminum material, and accordingly the door and window aluminum material is conveyed to the second processing station for continuous processing. Therefore, the door and window aluminum material feeding and exchanging mechanism has the beneficial effects of being simple to operate, reducing production cost and avoiding interference with other equipment.

Drawings

Fig. 1 is a schematic structural diagram of a profile processing device provided by the utility model.

Fig. 2 is a schematic structural view of a door and window aluminum material loading exchange mechanism provided by the utility model.

Fig. 3 is an exploded view of a door and window aluminum material loading exchange mechanism provided by the utility model.

Fig. 4 is an exploded view of another door and window aluminum material loading exchange mechanism provided by the utility model.

In the figure: 100. profile processing equipment; 110. a first processing station; 111. a discharge port; 120. a second processing station; 130. a clamping and conveying mechanism; 140. the door and window aluminum material loading exchange mechanism; 141. a mounting frame; 142. a feeding frame; 1421. a feeding end; 143. a driving device; 151. a first support frame; 152. a second support frame; 153. a feed roller; 161. an x-axis driving unit; 162. a y-axis driving section; 163. a z-axis driving unit; 171. a first slide rail; 172. a second slide rail; 173. a third slide rail; 174. a movable plate; 175. the plate surface.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. The components of the embodiments of the present utility model generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the utility model, as presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model. All other embodiments, which can be made by a person skilled in the art without making any inventive effort, are intended to be within the scope of the present utility model.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

In the automatic assembly line production of door and window trade at present, in order to solve the interference problem that the door and window aluminum product of processing takes place in the transportation process, can add the letter sorting line at the material conveying line generally, and follow-up processing station sets up side by side at the letter sorting line, through the cooperation operation of a plurality of manipulators, just can realize not having interference production process, and this kind of mode is too complicated, and the equipment that adds improves manufacturing cost greatly, is unfavorable for extensive popularization.

In this regard, please refer to fig. 1 to 4, a door and window aluminum material loading exchange mechanism has the following technical scheme:

the door and window aluminum material feeding and exchanging mechanism 140 is arranged on the profile processing equipment 100, the profile processing equipment 100 comprises a first processing station 110 and a second processing station 120, a clamping and conveying mechanism 130 extending towards the direction of the second processing station 120 is arranged between the first processing station 110 and the second processing station 120, and the conveying direction is taken as an x-axis, so that a y-axis is vertical to the x-axis in the horizontal direction, and a z-axis is vertical to the x-axis in the vertical direction; the door and window aluminum material loading exchanging mechanism 140 includes:

the mounting frame 141, the mounting frame 141 is set up between first processing station 110 and second processing station 120, and locate at one side of clamping the conveying mechanism 130;

the feeding frame 142 is movably arranged on the mounting frame 141, and a feeding end 1421 of the feeding frame 142 is arranged corresponding to the discharge hole 111 of the first processing station 110;

the driving device 143, the driving device 143 is connected with the feeding frame 142, and comprises an x-axis driving part 161, a y-axis driving part 162 and a z-axis driving part 163, which respectively drive the feeding frame 142 to reciprocate in the x-axis direction, the y-axis direction and the z-axis direction, and convey the door and window aluminum material from the discharge hole 111 to the front of the clamping and conveying mechanism 130, so that the clamping and conveying mechanism 130 clamps the end part of the door and window aluminum material.

In practical application, the profile processing device 100 includes a first processing station 110 and a second processing station 120, the feeding direction of the door and window aluminum material is the direction of the first processing station 110 towards the second processing station 120, the clamping and conveying mechanism 130 clamps the tail end of the door and window aluminum material and conveys the door and window aluminum material into the second processing station 120 for processing, an elastic structure is connected to a fixing part of the clamping and conveying mechanism 130, when the clamping and conveying mechanism 130 clamps the tail end of the door and window aluminum material and conveys the aluminum material to the second processing station 120 for processing, the elastic structure is stretched until the clamping and conveying mechanism 130 collides with the second processing station 120, the door and window aluminum material is processed at the second processing station 120, the clamping and conveying mechanism 130 loosens the door and window aluminum material, and the elastic structure is deformed in a resetting manner to drive the clamping and conveying mechanism 130. The clamping and conveying mechanism 130 is provided with clamping jaws for clamping the aluminum door and window materials, so that the aluminum door and window materials are stable in processing. With the feeding direction being the x-axis, the y-axis is perpendicular to the x-axis in the horizontal direction, and the z-axis is perpendicular to the x-axis in the vertical direction, and referring specifically to fig. 1, the door and window aluminum material feeding exchanging mechanism 140 is provided with displacements in three directions of the x-axis, the y-axis and the z-axis. In actual production, after the corresponding process is completed on the first processing station 110, the door and window aluminum product is output from the discharge hole 111 of the first processing station 110, meanwhile, the y-axis driving part 162 drives the feeding frame 142 to move on the y-axis until the feeding end 1421 of the feeding frame 142 corresponds to the position of the discharge hole 111, after the door and window aluminum product is completely transported to the feeding frame 142 from the position of the discharge hole 111, the y-axis driving part 162 drives the feeding frame 142 to return to the original position, then the x-axis driving part 161 drives the feeding frame 142 to move towards the x-axis direction, the moving distance is the distance of the clamping conveying mechanism 130, the tail end of the door and window aluminum product corresponds to the front end of the clamping conveying mechanism 130, the z-axis driving part 163 drives the feeding frame 142 to ascend, the height of the door and window aluminum product is level with the clamping conveying mechanism 130, and finally the y-axis driving part 162 drives the feeding frame 142 to be close to the clamping conveying mechanism 130, so that the clamping conveying mechanism 130 can clamp the tail end of the door and window aluminum product, and the door and window aluminum product is conveyed into the second processing station 120 to continue processing. By the mode, the whole occupied area of the profile machining equipment 100 can be reduced, and meanwhile the interference problem in the process of transferring the door and window aluminum materials can be effectively avoided.

Further, in some of these embodiments, the feeding rack 142 includes a first supporting rack 151, a second supporting rack 152, and a feeding roller 153; the first support frame 151 is movably disposed on the mounting frame 141 and connected to the x-axis driving part 161 in the x-axis direction, the second support frame 152 is movably disposed on the first support frame 151 and connected to the y-axis driving part 162 in the y-axis direction, and the feeding roller 153 is movably disposed on the second support frame 152 and connected to the z-axis driving part 163 in the z-axis direction.

In practical application, referring to fig. 2 to fig. 4, in order to reduce driving power for driving the feeding frame 142, reduce energy consumption, and save production cost, in some preferred embodiments, the feeding frame 142 may be driven by 3 parts, where the 3 parts are respectively: the first support frame 151, the second support frame 152 and the feed roll 153, first support frame 151 activity sets up on the mounting bracket 141, the second support frame 152 activity sets up on first support frame 151, the feed roll 153 activity sets up on second support frame 152, x-axis drive portion 161 connects on first support frame 151, drive first support frame 151 to move in the x-axis direction, thereby drive second support frame 152 and feed roll 153 simultaneously on the x-axis, y-axis drive portion 162 connects on second support frame 152, drive second support frame 152 moves in the y-axis direction, thereby drive feed roll 153 moves in the y-axis direction, z-axis drive portion 163 connects on feed roll 153, drive feed roll 153 moves in the z-axis direction, consequently, through this mode, y-axis drive portion 162 need not to drive first support frame 151 motion, z-axis drive portion 163 need not to drive first support frame 151 and second support frame 152 motion, so drive the energy saving, and reduction in production cost.

Further, in some embodiments, a plurality of first sliding rails 171 are disposed at the connection between the first supporting frame 151 and the mounting frame 141, the first sliding rails 171 are disposed along the x-axis direction, and the length of the first sliding rails 171 is equal to the length of the clamping and conveying mechanism 130 along the x-axis direction.

In practical application, in order to reduce the friction force of the first support frame 151 when moving on the mounting frame 141, rollers may be disposed at the connection position of the first support frame 151 and the mounting frame 141, but in order to control the displacement path of the first support frame 151, in some preferred modes, referring specifically to fig. 4, a plurality of first slide rails 171 may be disposed at the connection position of the first support frame 151 and the mounting frame 141, the first slide rails 171 are disposed along the x-axis direction, and the length of the first slide rails 171 is equal to the length of the clamping and conveying mechanism 130 in the x-axis direction, and the contact area between the first support frame 151 and the mounting frame 141 may be increased by disposing the plurality of first slide rails 171, so that the first slide rails 171 are disposed along the x-axis and the length of the clamping and conveying mechanism 130 in the x-axis direction is equal, so that the displacement path of the first support frame 151 may be effectively controlled, and the tail end of the door and window aluminum material corresponds to the front end of the clamping and conveying mechanism 130.

Further, in some embodiments, a plurality of second sliding rails 172 are disposed at the connection between the second supporting frame 152 and the first supporting frame 151, and the second sliding rails 172 are disposed along the y-axis direction.

In practical applications, the plurality of second sliding rails 172 may enable the second supporting frame 152 to run on the first supporting frame 151 more stably, the second sliding rails 172 are disposed along the y-axis direction, in some preferred embodiments, the width of the second sliding rails 172 along the y-axis direction is equal to the width of the door and window aluminum material feeding and exchanging mechanism 140 along the y-axis direction from the clamping and conveying mechanism 130, so that the second supporting frame 152 and the feeding roller 153 just send the door and window aluminum material to the conveying device where the clamping and conveying mechanism 130 is located along the y-axis direction, and then the door and window aluminum material is sent to the second processing station 120 by the clamping and conveying mechanism 130 for processing.

Further, in some embodiments, a plurality of third sliding rails 173 are disposed at the connection between the second supporting frame 152 and the feeding roller 153, and the third sliding rails 173 are disposed along the z-axis direction.

In practical applications, the plurality of third sliding rails 173 may enable the feeding roller 153 to run on the second supporting frame 152 more stably, and the third sliding rails 173 are disposed along the z-axis direction, in some preferred embodiments, the height of the third sliding rails 173 along the z-axis direction is equal to the height of the feeding roller 153 away from the clamping and conveying mechanism 130 along the z-axis direction, so that the feeding roller 153 just sends the door and window aluminum material to the conveying device where the clamping and conveying mechanism 130 is located along the z-axis direction, and then is sent to the second processing station 120 by the clamping and conveying mechanism 130 for processing.

Further, in some of these embodiments, the mounting frame 141 is rectangular and the length of the mounting frame 141 is greater than the length of the feeding frame 142.

In practical application, since the whole door and window aluminum material to be transported is a long cuboid, the door and window aluminum material is provided with one long side in the x-axis direction during transportation, in order to ensure that the equipment for operating the aluminum material does not interfere in the process of transporting the door and window aluminum material from the first processing station 110 to the second processing station 120, the shape of the operating equipment needs to be designed to be matched with the equipment as much as possible, therefore, the mounting frame 141 can be provided with a rectangle, the long side of the mounting frame is adjacent to the clamping and conveying mechanism 130, the weights of the first supporting frame 151, the second supporting frame 152, the feeding roller 153 and the door and window aluminum material can be well received, and the mounting frame 141 can be ensured not to interfere with other equipment when being arranged on one side of the clamping and conveying mechanism 130. In order for the carriage 142 to be stably displaceable on the mounting frame 141, the length of the mounting frame 141 should be greater than the length of the carriage 142, and in some preferred embodiments, at least greater than the length of one of the first slide rails 171 of the carriage 142.

Further, in some of these embodiments, the first support frame 151 is configured as a rectangle, and the width of the first support frame 151 is greater than the width of the second support frame 152 in the y-axis direction.

In practical application, in order to match the shape of the mounting frame 141, the first supporting frame 151 is also rectangular, so that the first supporting frame 151 is better disposed on the mounting frame 141, and in order to ensure that the second supporting frame 152 disposed on the first supporting frame 151 can be displaced in the y-axis direction, the width of the first supporting frame 151 is greater than that of the second supporting frame 152.

Further, in some embodiments, the second support 152 is rectangular, and in the z-axis direction, the height of the second support 152 is greater than the height of the feed roller 153.

In practical applications, since the feeding roller 153 is disposed on the second supporting frame 152 and can move in the z-axis direction, the second supporting frame 152 needs to have a height in the z-axis direction, so the second supporting frame 152 may be configured as a cuboid, and in the z-axis direction, the height of the second supporting frame 152 is greater than the height of the feeding roller 153.

Further, in some embodiments, the third sliding rail 173 is slidably connected to the movable plate 174, and the feeding roller 153 is fixedly disposed on the movable plate 174.

In practical application, the feeding roller 153 is used for receiving the door and window aluminum material running along the x-axis direction, so the feeding roller 153 needs to be disposed along the x-axis to make the length of the feeding roller 153 in the x-axis direction match with the length of the door and window aluminum material, meanwhile, the feeding roller 153 needs to move on the z-axis, if the side of the feeding roller 153 is directly connected with the second supporting frame 152, the side of the feeding roller 153 cannot be stably connected due to the narrower z-axis direction, which can cause a material conveying error of the feeding roller 153 in the conveying process, therefore, referring to fig. 4 specifically, a movable plate 174 can be disposed on the third sliding rail 173, the feeding roller 153 is fixed on the movable plate 174, and the contact area of the feeding roller 153 is increased to the third sliding rail 173, so that the feeding roller can run more stably.

Further, in some of these embodiments, the movable plate 174 has a plate surface 175 extending in the y-axis direction, and the feed roller 153 is fixedly disposed on the plate surface 175.

In practical application, the feeding roller 153 is disposed on the plate surface 175 extending in the y-axis direction of the movable plate 174, so that the bottom surface of the feeding roller 153 contacts with the plate surface 175, and relatively, the contact area is larger, so that the feeding roller 153 can be more stably fixed on the movable plate 174, and is driven by the movable plate 174 to displace in the z-axis direction.

The above description is only an example of the present utility model and is not intended to limit the scope of the present utility model, and various modifications and variations will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (10)

1. The door and window aluminum material feeding and exchanging mechanism is arranged on profile machining equipment (100), and is characterized in that the profile machining equipment (100) comprises a first machining station (110) and a second machining station (120), a clamping and conveying mechanism (130) extending towards the second machining station (120) is arranged between the first machining station (110) and the second machining station (120), and the feeding direction is taken as an x axis, so that the y axis is vertical to the x axis in the horizontal direction, and the z axis is vertical to the x axis in the vertical direction; the door and window aluminum product material loading exchange mechanism includes:

the mounting frame (141) is arranged between the first processing station (110) and the second processing station (120) and is positioned at one side of the clamping and conveying mechanism (130);

the feeding frame (142) is movably arranged on the mounting frame (141), and a feeding end (1421) of the feeding frame (142) is correspondingly arranged with the discharge hole (111) of the first processing station (110);

the driving device (143), the driving device (143) with pay-off frame (142) is connected, includes x axle drive division (161), y axle drive division (162), and z axle drive division (163) drive respectively pay-off frame (142) are in x axle direction, y axle direction and the reciprocal motion of z axle direction, with door and window aluminum product follow discharge gate (111) to press from both sides the place ahead of conveying mechanism (130), make press from both sides tight conveying mechanism (130) press from both sides the tip of door and window aluminum product.

2. The door and window aluminum material feeding and exchanging mechanism according to claim 1, wherein the feeding frame (142) comprises a first supporting frame (151), a second supporting frame (152) and a feeding roller (153); the first support frame (151) is movably arranged on the mounting frame (141) and is connected with the x-axis driving part (161) in the x-axis direction, the second support frame (152) is movably arranged on the first support frame (151) and is connected with the y-axis driving part (162) in the y-axis direction, and the feeding roller (153) is movably arranged on the second support frame (152) and is connected with the z-axis driving part (163) in the z-axis direction.

3. The door and window aluminum product material loading exchange mechanism according to claim 2, wherein a plurality of first sliding rails (171) are arranged at the connection part of the first supporting frame (151) and the mounting frame (141), the first sliding rails (171) are arranged along the x-axis direction, and the length of the first sliding rails (171) is equal to the length of the clamping conveying mechanism (130) along the x-axis direction.

4. A door and window aluminum product material loading exchange mechanism according to claim 3, wherein a plurality of second sliding rails (172) are arranged at the connection part of the second supporting frame (152) and the first supporting frame (151), and the second sliding rails (172) are arranged along the y-axis direction.

5. The door and window aluminum product material loading exchange mechanism according to claim 4, wherein a plurality of third sliding rails (173) are arranged at the connection part of the second supporting frame (152) and the feeding roller (153), and the third sliding rails (173) are arranged along the z-axis direction.

6. The door and window aluminum material feeding and exchanging mechanism according to claim 5, wherein the mounting frame (141) is rectangular, and the length of the mounting frame (141) is larger than that of the feeding frame (142).

7. The door and window aluminum material loading exchanging mechanism according to claim 6, wherein the first supporting frame (151) is rectangular, and the width of the first supporting frame (151) is larger than the width of the second supporting frame (152) in the y-axis direction.

8. The door and window aluminum product material loading exchange mechanism according to claim 7, wherein the second supporting frame (152) is a cuboid, and in the z-axis direction, the height of the second supporting frame (152) is greater than the height of the feeding roller (153).

9. The mechanism according to claim 5, wherein a movable plate (174) is slidably connected to the third sliding rail (173), and the feeding roller (153) is fixedly disposed on the movable plate (174).

10. The mechanism as claimed in claim 9, wherein the movable plate (174) has a plate surface (175) extending in the y-axis direction, and the feed roller (153) is fixedly disposed on the plate surface (175).