CN220636473U - Automatic feeding and discharging cutting equipment - Google Patents

Abstract

The utility model discloses automatic feeding and discharging cutting equipment, which comprises a feeding mechanism, a discharging mechanism and a plurality of clamping and cutting mechanisms, and further comprises: the automatic feeding device comprises a base, a plurality of material receiving mechanisms and a plurality of material stirring mechanisms, wherein the material stirring mechanisms and the plurality of material receiving mechanisms are all installed on the base, the plurality of material stirring mechanisms are arranged on the base side by side and are in sliding connection with the base, a feeding conveying line is further arranged between the material stirring mechanisms and the plurality of material receiving mechanisms, and the feeding conveying line sequentially passes through a plurality of clamping and cutting mechanisms and is in butt joint with the feeding mechanisms. The utility model has the characteristics of compact structure, high degree of automation and the like, the loading and unloading and cutting of the section bar are automatically completed by equipment, the machine feeding replaces the manual feeding, the accuracy is enhanced, the manual randomness is reduced, the qualification rate of the product is greatly improved, the material waste caused by human errors is reduced, the cost is well controlled, and the utility model is suitable for the section bar cutting operation in a large batch.

Description

Automatic feeding and discharging cutting equipment

Technical Field

The utility model relates to the technical field of section bar cutting, in particular to automatic feeding and discharging cutting equipment.

Background

At present, the mechanical processing industry mostly adopts a profile cutting machine to cut profiles, the profiles are fixed on a tool, then the profiles are cut through the profile cutting machine, if the profiles are required to be cut into sections with equal lengths or different lengths, the profiles are required to be measured manually, the profiles are cut by the profile cutting machine after the cutting lengths are measured, and the tool is time-consuming and labor-consuming, and has low efficiency.

The section bar needs the manual work to carry out the material loading before cutting, and the cutting is accomplished the back rethread manual work and is taken off the section bar and come the material loading again, and not only the operation is got up more troublesome, and the amount of labour is also great moreover, and this mode efficiency is very low to the section bar cutting operation of a large amount, has failed to satisfy the cutting operation demand of batch section bar.

Disclosure of Invention

The utility model aims to solve the problems, and designs automatic feeding and discharging cutting equipment which can finish automatic feeding and discharging and sectional cutting operations of sectional materials.

The technical scheme of the utility model for achieving the purpose is that the automatic feeding and discharging cutting equipment comprises a feeding mechanism, a discharging mechanism and a plurality of clamping and cutting mechanisms, and further comprises:

the material receiving mechanisms are respectively arranged at one sides of the clamping and cutting mechanisms and are used for transferring the product to be cut to the clamping and cutting mechanisms;

the stirring mechanism is arranged between the feeding mechanism and the clamping and cutting mechanism and is used for stirring and conveying products to be cut on the feeding mechanism to the receiving mechanism one by one;

the material stirring mechanism and the material receiving mechanisms are arranged on the base, the material stirring mechanisms are arranged on the base side by side and are in sliding connection with the base, a material discharging conveying line is further arranged between the material stirring mechanism and the material receiving mechanisms, and the material discharging conveying line sequentially passes through the clamping and cutting mechanisms and is in butt joint with the material discharging mechanisms.

Preferably, the material stirring mechanism comprises a truss, a plurality of feeding assemblies arranged below the truss and a plurality of material pressing assemblies arranged on the truss.

Preferably, the feeding assembly comprises a supporting seat, a material ejection cylinder arranged on one side of the supporting seat, and a first sliding plate and a second sliding plate obliquely arranged on the other side of the supporting seat, wherein an inclined plane is arranged on the upper end face of the supporting seat, the upper surface of the first sliding plate is flush with the inclined plane, and the second sliding plate is parallel to the first sliding plate up and down.

Preferably, the side of supporting seat is provided with the slide rail, the side of liftout cylinder is provided with the rack, slide rail and rack slope set up, and inclination with the inclination of first slide is unanimous, the liftout cylinder pass through the slider with slide rail sliding connection, connect through drive assembly between a plurality of feeding assemblies, drive assembly is connected with the rack drive of a plurality of liftout cylinder one sides in proper order.

Preferably, the material pressing assembly comprises a fixed block, a sliding rod and a pressing rod, wherein the sliding rod is connected with the fixed block in a vertical sliding mode, the pressing rod is obliquely arranged at the lower end of the sliding rod, a rack is arranged on the sliding rod, a plurality of feeding assemblies are connected through a transmission assembly, and the transmission assembly is sequentially connected with a plurality of racks on the pressing rod in a transmission mode.

Preferably, the base is provided with a sliding rail and a rack, the bottoms of the clamping and cutting mechanisms are in sliding connection with the sliding rail, the clamping and cutting mechanisms are provided with a transmission motor, the output end of the transmission motor is provided with a gear, and the gear is meshed with the rack.

Preferably, the material receiving mechanism comprises a support, a material receiving cylinder and a guide rod which are obliquely arranged on the support, and a material receiving plate arranged at the front end of the guide rod, wherein the guide rod is in sliding connection with the support, and the output end of the material receiving cylinder is fixedly connected with the material receiving plate.

Preferably, a pushing mechanism is arranged at one side of the tail end of the discharging conveying line, and the cut product on the discharging conveying line is pushed onto the discharging mechanism through the pushing mechanism.

Compared with the prior art, the beneficial effects of the method are as follows:

the utility model has the characteristics of compact structure, high degree of automation and the like, the loading and unloading and cutting of the sectional materials are automatically completed by equipment, the sectional materials are conveyed to the stirring mechanism through the loading mechanism, the stirring mechanism is used for stirring the sectional materials to the receiving mechanism one by one, finally the receiving mechanism is used for conveying the sectional materials to the clamping and cutting processing, the clamping and cutting mechanism is used for clamping the sectional materials and cutting the sectional materials in sections, the cut sectional materials are conveyed to the unloading mechanism through the unloading conveying line, the unloading is completed, the cutting length of each section of the sectional materials can be freely adjusted, the feeding of a machine replaces the manual feeding, the accuracy is enhanced, the randomness of the manual is reduced, the qualification rate of the product is greatly improved, the material waste caused by the manual errors is reduced, the cost is well controlled, and the utility model is suitable for the cutting operation of the sectional materials in a large batch.

Drawings

FIG. 1 is a schematic view of the overall structure of the present utility model;

FIG. 2 is a schematic view of another view of the present utility model;

FIG. 3 is a schematic diagram of a material shifting mechanism according to the present utility model;

fig. 4 is an enlarged view of the structure at a in fig. 3;

FIG. 5 is a schematic view of a material shifting mechanism according to another embodiment of the present utility model;

fig. 6 is an enlarged view of the structure at B in fig. 5;

FIG. 7 is a schematic view of the bottom structure of the clamping and cutting mechanism of the present utility model;

fig. 8 is a schematic structural view of a receiving mechanism in the present utility model.

In the figure, 1, a feeding mechanism; 2. a stirring mechanism; 21. truss; 22. a feeding assembly; 221. a support base; 222. a liftout cylinder; 223. a first slide plate; 224. a second slide plate; 23. a pressing assembly; 231. a fixed block; 232. a slide bar; 233. a compression bar; 3. clamping the cutting mechanism; 4. a receiving mechanism; 41. a support; 42. a material receiving cylinder; 43. a guide rod; 44. a receiving plate; 5. a base; 6. a blanking conveying line; 61. a pushing mechanism; 7. a blanking mechanism; 8. a clamping mechanism; 9. a transmission assembly; 10. a rack; 11. a drive motor; 12. a gear.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1 and 2, an automatic feeding and discharging cutting device mainly comprises a feeding mechanism 1, a discharging mechanism 7, a discharging conveying line 6, a stirring mechanism 2, a plurality of clamping and cutting mechanisms 3 and a plurality of receiving mechanisms 4, wherein the stirring mechanism 2 and the clamping and cutting mechanisms 3 are arranged on a base 5, the stirring mechanism 2 is positioned between the clamping and cutting mechanisms 3 and the feeding mechanism 1, the receiving mechanisms 4 are arranged on one side of the clamping and cutting mechanisms 3, the discharging conveying line 6 sequentially passes through the clamping and cutting mechanisms 3 and is in butt joint with the discharging mechanism 7, during operation, the feeding mechanism 1 can convey sectional materials to the stirring mechanism 2, then the stirring mechanism 2 can convey the sectional materials to the position where the clamping and cutting mechanisms 3 are located one by one, during conveying, the sectional materials can be conveyed to the clamping and cutting mechanisms 3 through the clamping and cutting mechanisms 4, then the cut-down sectional materials can be conveyed to the discharging conveying line 6 below, and finally the sectional materials can be conveyed to the discharging mechanism 7 through the discharging conveying line 6.

The feeding mechanism 1 utilizes a chain to convey the sectional materials to the stirring mechanism 2, and the stirring mechanism 2 can simultaneously store a plurality of sectional materials and then stir and send the sectional materials to the receiving mechanism 4 one by one.

Referring to fig. 3 and 5, the kick-out mechanism 2 mainly comprises a truss 21, a plurality of feeding components 22 and a plurality of pressing components 23, wherein the plurality of feeding components 22 are located below the truss 21 and are mounted on the base 5 side by side, the plurality of pressing components 23 are arranged on the truss 21 side by side, a profile arrives on the feeding components 22 and is pressed by the pressing components 23, and when the clamping and cutting mechanism 3 is required to feed, the pressing components 23 are moved away from the profile to wait for the feeding components 22 to feed.

Referring to fig. 3-6, the feeding assembly 22 is composed of a supporting seat 221, a material ejection cylinder 222, a first sliding plate 223, a second sliding plate 224 and the like, wherein the supporting seat 221 among the plurality of feeding assemblies 22 is connected through a transmission assembly 9, a sliding rail is obliquely arranged on one side of the supporting seat 221, a rack 10 is obliquely arranged on one side of the material ejection cylinder 222, the inclination angle of the sliding rail is consistent with that of the rack 10, the material ejection cylinder 222 is in sliding connection with the sliding rail through a sliding block, the transmission assembly 9 mainly comprises a motor and a transmission shaft, a plurality of gears 12 are arranged on the transmission shaft, the gears 12 are meshed with the corresponding racks 10, the motor drives the transmission shaft to rotate, the racks 10 are driven to move through the gears 12, and then the material ejection cylinder 222 is driven to slide along the sliding rail, so as to adjust the position of the material ejection cylinder 222.

As shown in fig. 4, the first sliding plate 223 is obliquely disposed on the supporting seat 221 near one side of the feeding mechanism 1, the second sliding plate 224 is obliquely disposed on the supporting seat 221 near one side of the clamping and cutting mechanism 3, an inclined plane is disposed at the upper end of the supporting seat 221, the inclined plane is flush with the upper surface of the first sliding plate 223, and the second sliding plate 224 is disposed in parallel with the first sliding plate 223 up and down, so that the feeding mechanism 1 will transfer the profile onto the first sliding plate 223 first, and slide along the inclined plane of the first sliding plate 223 to the supporting seat 221 for storage, and then compress the profile through the pressing assembly 23.

Referring to fig. 4, the pressing assembly 23 mainly consists of a fixed block 231, a sliding rod 232, a pressing rod 233 and the like, wherein the fixed block 231 in the plurality of pressing assemblies 23 is arranged on the truss 21 side by side, the sliding rod 232 is connected with the fixed block 231 in a vertically penetrating and sliding manner, the pressing rod 233 is obliquely arranged at the lower end of the sliding rod 232, the inclination angle is consistent with the inclination angle of the inclined surface on the supporting seat 221, a rack 10 is arranged at one side of the sliding rod 232, the plurality of feeding assemblies 22 are connected through a transmission assembly 9, a transmission shaft in the transmission assembly 9 sequentially penetrates through the plurality of fixed blocks 231 and is in rotary connection with the fixed block 231, a gear 12 on the transmission shaft is meshed with the corresponding rack 10, and when the transmission shaft rotates, the sliding rod 232 is driven to move up and down through the rack 10, and the section bar on the supporting seat 221 is pressed through the pressing rod 233.

When feeding is required, the compression bar 233 can loosen the profile, the ejection cylinder 222 can lift the profile on the supporting seat 221 upwards, the profile can slide down along the inclined plane of the second sliding plate 224 to the receiving mechanism 4, and the position of the ejection cylinder 222 can be adjusted according to different sizes of the profiles so as to continue feeding.

As shown in fig. 8, the receiving mechanism 4 is composed of a support 41, receiving cylinders 42, guide rods 43, receiving plates 44 and the like, wherein the receiving cylinders 42 are obliquely installed on the support 41, the guide rods 43 are provided with two, are respectively located on two sides of the receiving cylinders 42 and are in sliding connection with the support 41, two ends of each receiving plate 44 are respectively fixedly connected with one ends of the two guide rods 43, the receiving plates 44 are in an L-shaped section, the receiving cylinders 42 can drive the receiving plates 44 to move obliquely upwards during receiving, the section materials sliding down along the second sliding plates 224 can slide onto the receiving plates 44 in the plurality of receiving mechanisms 4, then the receiving cylinders 42 can drive the receiving plates 44 to move backwards, the section materials can fall on the clamping and cutting mechanism 3 during moving, and the clamping and cutting mechanism 3 can clamp and cut the section materials.

As shown in fig. 7, a transmission motor 11 is further disposed on the clamping and cutting mechanism 3, a gear 12 is disposed at an output end of the transmission motor 11, meanwhile, a slide rail and a rack 10 are disposed on the base 5, the slide rail and the rack 10 are disposed in parallel and extend from one end of the base 5 to the other end, the bottoms of the plurality of clamping and cutting mechanisms 3 are slidably connected with the slide rail, the gear 12 is disposed at the bottom of the clamping and cutting mechanism 3 and meshed with the rack 10, the gear 12 is driven to rotate by the transmission motor 11, the clamping and cutting mechanism 3 is driven to slide on the slide rail, the distance between the clamping and cutting mechanisms 3 is adjusted, thus the cutting length of each section of the profile can be freely adjusted, each section of the profile can be cut into the same length, and also can be cut into different lengths, and the cutting is adjusted according to actual requirements.

Clamping mechanisms 8 are also arranged at the two ends of the base 5, and clamping can be carried out on the two ends of the section bar during cutting.

After cutting, the clamping and cutting mechanism 3 pushes each segment onto the lower blanking conveying line 6. Referring to fig. 2, a pushing mechanism 61 is further disposed at one side of the tail end of the blanking conveying line 6, and one side of the blanking conveying line 6 away from the pushing mechanism 61 is in butt joint with the blanking mechanism 7, when the cut section is conveyed to the tail end of the blanking conveying line 6, the pushing mechanism 61 pushes the section to the blanking mechanism 7, and the blanking mechanism 7 completes the subsequent blanking operation.

That is to say, the cutting equipment integrates the functions of loading, sectionally cutting, unloading and the like of the section bar, the cutting length can be freely adjusted, a large amount of labor cost is saved, mass production is realized, the labor productivity is improved, and the cutting equipment can adapt to the cutting operation of the section bar with various specifications.

The above technical solution only represents the preferred technical solution of the present utility model, and some changes that may be made by those skilled in the art to some parts of the technical solution represent the principles of the present utility model, and the technical solution falls within the scope of the present utility model.

Claims (8)

1. Automatic go up unloading cutting equipment, including feed mechanism (1), unloading mechanism (7) and a plurality of clamping cutting mechanism (3), its characterized in that still includes:

the material receiving mechanisms (4) are respectively arranged at one sides of the clamping and cutting mechanisms (3) and are used for conveying a product to be cut to the clamping and cutting mechanisms (3);

the stirring mechanism (2) is arranged between the feeding mechanism (1) and the clamping and cutting mechanism (3) and is used for stirring and conveying products to be cut on the feeding mechanism (1) to the receiving mechanism (4) one by one;

the material stirring mechanism (2) and the material receiving mechanisms (4) are all installed on the base (5), the material stirring mechanisms (2) are arranged on the base (5) side by side and are in sliding connection with the base (5), a material discharging conveying line (6) is further arranged between the material stirring mechanism (2) and the material receiving mechanisms (4), and the material discharging conveying line (6) sequentially passes through the clamping and cutting mechanisms (3) and is in butt joint with the material discharging mechanism (7).

2. An automatic feeding and discharging cutting apparatus according to claim 1, wherein said kick-out mechanism (2) comprises a truss (21), a plurality of feeding members (22) disposed below the truss (21), and a plurality of pressing members (23) mounted on the truss (21).

3. The automatic feeding and discharging cutting device according to claim 2, wherein the feeding assembly (22) comprises a supporting seat (221), a jacking cylinder (222) arranged on one side of the supporting seat (221), and a first sliding plate (223) and a second sliding plate (224) obliquely arranged on the other side of the supporting seat (221), wherein an inclined surface is arranged on the upper end surface of the supporting seat (221), the upper surface of the first sliding plate (223) is flush with the inclined surface, and the second sliding plate (224) is parallel to the first sliding plate (223) up and down.

4. The automatic feeding and discharging cutting device according to claim 3, wherein a sliding rail is arranged on the side face of the supporting seat (221), a rack (10) is arranged on the side face of the ejection cylinder (222), the sliding rail and the rack (10) are obliquely arranged, the inclination angle is consistent with that of the first sliding plate (223), the ejection cylinder (222) is in sliding connection with the sliding rail through a sliding block, a plurality of feeding components (22) are connected through a transmission component (9), and the transmission component (9) is sequentially connected with the racks (10) on one side of the ejection cylinders (222) in a transmission mode.

5. The automatic feeding and discharging cutting device according to claim 2, wherein the material pressing component (23) comprises a fixed block (231), a sliding rod (232) connected with the fixed block (231) in an up-down sliding mode, and a pressing rod (233) obliquely arranged at the lower end of the sliding rod (232), wherein a rack (10) is arranged on the sliding rod (232), a plurality of feeding components (22) are connected through a transmission component (9), and the transmission component (9) is sequentially connected with the racks (10) on the pressing rod (233) in a transmission mode.

6. An automatic feeding and discharging cutting device according to claim 1, characterized in that the base (5) is provided with a sliding rail and a rack (10), the bottoms of the clamping and cutting mechanisms (3) are all in sliding connection with the sliding rail, the clamping and cutting mechanisms (3) are provided with a transmission motor (11), the output end of the transmission motor (11) is provided with a gear (12), and the gear (12) is meshed with the rack (10).

7. An automatic feeding and discharging cutting device according to claim 1, wherein the receiving mechanism (4) comprises a support (41), a receiving cylinder (42) and a guide rod (43) which are obliquely arranged on the support (41), and a receiving plate (44) arranged at the front end of the guide rod (43), wherein the guide rod (43) is in sliding connection with the support (41), and the output end of the receiving cylinder (42) is fixedly connected with the receiving plate (44).

8. An automatic feeding and discharging cutting device according to claim 1, wherein a pushing mechanism (61) is arranged at one side of the tail end of the discharging conveying line (6), and the cut product on the discharging conveying line (6) is pushed onto the discharging mechanism (7) through the pushing mechanism (61).