阅读说明：本技术 一种化工生产塑料桶用自动加工装置 (Automatic processing device for chemical production plastic barrel ) 是由 杨雨晴 于 2021-07-29 设计创作，主要内容包括：本发明属于化工生产技术领域,尤其是涉及一种化工生产塑料桶用自动加工装置,包括主台座和副台座及用于输送的传送带,主台座和副台座并联固定,主台座边缘有缺口承接传送带,主台座上并立有左支架和右支架,左支架和右支架均在边缘处,左支架留有出口,右支架留有配套的推出组件,左支架和右支架上固定有悬吊机构,副台座上设有可移动的切屑机构。优点在于：本发明可对化学筒体在进行加工时进行削边作业,从而免除人工操作,进一步提高加工件的质量,同时还可以较为方便的对筒体的封闭环体内进行削边作业。(The invention belongs to the technical field of chemical production, and particularly relates to an automatic processing device for a plastic barrel in chemical production, which comprises a main pedestal, an auxiliary pedestal and a conveyor belt for conveying, wherein the main pedestal and the auxiliary pedestal are fixed in parallel, the edge of the main pedestal is provided with a notch for receiving the conveyor belt, a left support and a right support are vertically arranged on the main pedestal, the left support and the right support are arranged at the edges, an outlet is reserved on the left support, a matched pushing-out component is reserved on the right support, suspension mechanisms are fixed on the left support and the right support, and a movable cutting mechanism is arranged on the auxiliary pedestal. Has the advantages that: the invention can carry out the edge cutting operation on the chemical cylinder during the processing, thereby avoiding manual operation, further improving the quality of the processed piece, and simultaneously being capable of carrying out the edge cutting operation on the closed ring body of the cylinder more conveniently.)

1. The utility model provides an automatic processing device for chemical production plastic drum, includes main pedestal and vice pedestal and is used for the conveyer belt of carrying, main pedestal and the parallelly connected fixed of vice pedestal, main pedestal edge has the breach to accept the conveyer belt, a serial communication port, have left socle and right branch frame immediately on the main pedestal, left socle and right branch frame are all in the edge, the left socle leaves the export, and the right branch frame leaves supporting release subassembly, be fixed with on left socle and the right branch frame and suspend the mechanism in midair, be equipped with mobilizable smear metal mechanism on the vice pedestal.

2. The automatic processing device for the chemical production plastic barrels, as claimed in claim 1, wherein the outlet is located at the joint of the left support and the main pedestal, and the opening area is 50% -60% of the surface of the left support and is in a grid shape.

3. The automatic processing device for the chemical production plastic barrels in claim 1, wherein the pushing-out component comprises a wedge-shaped pushing plate, and the end surface of the wedge-shaped pushing plate is connected with the right bracket by a first hydraulic rod.

4. The automatic processing device for the chemical production plastic barrels, as set forth in claim 1, wherein the suspension mechanism comprises a slide rail frame, the ends of the slide rail frame are fixed to the tops of the left and right supports, the slide rail frame is provided with a second hydraulic rod and a movable frame, the movable frame is pushed by the second hydraulic rod, each movable frame is provided with a clamping device, and a pair of symmetrical clamping devices form a set of clamping system.

5. The automatic processing device for the chemical production plastic bucket according to claim 4, wherein the movable frame is embedded on the slide rail frame in a manner of clamping the slide rail, and the plurality of connecting walls of the slide rail frame are used for jointly maintaining the stability of operation.

6. The automatic processing device for the chemical production plastic barrels is characterized in that the clamping device comprises a plurality of third hydraulic rods for controlling lifting, a mounting plate is arranged below the third hydraulic rods, a clamping plate is arranged on the end face of the mounting plate, and a driving motor for controlling the rotation of the clamping plate is mounted on the mounting plate.

7. The automatic processing device for the chemical production plastic barrels, as set forth in claim 1, is characterized in that the cutting mechanism comprises a fourth hydraulic rod and a moving block, the fourth hydraulic rod is embedded in the auxiliary pedestal to drive the moving block, the moving block is provided with a vertical support and a fifth hydraulic rod embedded therein, the fifth hydraulic rod is provided with a bearing block, a sixth hydraulic rod is arranged in the bearing block and provided with a drill bit, and the sixth hydraulic rod pushes the drill bit to move forward and backward.

8. The automatic processing device for the chemical production plastic barrels as claimed in the claim, wherein the grinding roller can be embedded in the drill bit.

9. The automatic processing device for the chemical production plastic barrels as claimed in claim 7, wherein a row of sensors are fixed on the moving block for monitoring the objects on the conveyor belt, the sensors transmit the detection information to a rear control computer through a transmitter, the sensors detect the edges of the objects to match with the data in the computer, a drill is used for cutting after the matching is completed, and if the matching task is not completed, the objects can be continuously clamped to rotate and be matched again until the matching is completed.

Technical Field

The invention belongs to the technical field of chemical production, and particularly relates to an automatic processing device for a plastic barrel in chemical production.

Background

The plastic barrel is mainly used for storing and transporting various liquids, has good characteristics for special dangerous goods packaging, has the characteristics of low probability of breakage, no rustiness, light weight and the like, has good oil resistance and strong corrosion resistance, and is mainly used for packaging dangerous goods needing heat preservation, moisture protection, pressure resistance and corrosion resistance.

The plastic barrel is mainly made of polyethylene, polypropylene and other plastics through blow molding and injection molding, and the plastic barrel is usually required to be chamfered during production and processing, so that leftover materials on the barrel are removed.

Therefore, we propose an automatic processing device for chemical production plastic barrels to solve the above problems.

Disclosure of Invention

The invention aims to solve the problems and provides an automatic processing device for chemical production plastic barrels, which can perform automatic cutting of closed structures.

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides an automatic processing device for chemical production plastic drum, includes main pedestal and vice pedestal and is used for the conveyer belt of carrying, main pedestal and the parallelly connected fixed of vice pedestal, main pedestal edge has the breach to accept the conveyer belt, on the main pedestal and have left socle and right branch frame immediately, left socle and right branch frame are all in the edge, the left socle leaves the export, and the right branch frame leaves supporting release subassembly, be fixed with on left socle and the right branch frame and suspend the mechanism in midair, be equipped with mobilizable smear metal mechanism on the vice pedestal.

In the automatic processing device for the chemical production plastic barrel, the outlet is positioned at the joint of the left bracket and the main pedestal, and the opening area is 50-60% of the surface of the left bracket and is in a grid shape.

In foretell automatic processing device for chemical production plastic drum, the release subassembly includes a wedge push pedal, and the terminal surface of wedge push pedal utilizes first hydraulic stem to be connected with the right branch frame.

In the automatic processing device for the chemical production plastic barrel, the suspension mechanism comprises a slide rail frame, the end of the slide rail frame is fixed with the top of the left support and the top of the right support, a second hydraulic rod and a moving frame are arranged in the slide rail frame, the moving frame is pushed by the second hydraulic rod, a clamping device is arranged below each moving frame, and a pair of symmetrical clamping devices form a set of clamping system.

In the automatic processing device for the chemical production plastic bucket, the movable frame is embedded on the slide rail frame in a clamping slide rail mode, and the stability of operation is jointly maintained by utilizing a plurality of connecting walls of the slide rail frame.

In foretell automatic processing device for chemical production plastic drum, the clamping equipment includes the third hydraulic stem that many controls go up and down, has the mounting panel down still under the third hydraulic stem, the terminal surface of mounting panel is equipped with the grip block, installs control grip block pivoted driving motor on the mounting panel.

In the automatic processing device for the chemical production plastic barrel, the cutting mechanism comprises a fourth hydraulic rod and a moving block, the fourth hydraulic rod is embedded in the auxiliary pedestal to drive the moving block, the moving block is provided with a vertical support, a fifth hydraulic rod is embedded in the vertical support, the fifth hydraulic rod is provided with a bearing block, a sixth hydraulic rod is arranged in the bearing block, and a drill bit is arranged in the sixth hydraulic rod and pushes the drill bit to move forwards and backwards.

In the automatic processing device for the chemical production plastic barrel, the drill bit can be embedded with a grinding roller.

In the automatic processing device for the chemical production plastic barrel, a row of sensors are fixed on the moving block and used for monitoring objects on the conveying belt, the sensors transmit detection information to a rear control computer through the transmitters, the sensors detect the edges of the objects to be matched with data in the computer, a drill bit is used for cutting after the matching is finished, and if the matching task is not finished, the objects can be continuously clamped to rotate and be matched again until the matching is finished.

Compared with the prior art, this chemical production is automatic processing device for plastic drum's advantage lies in:

the invention can input the geometric shape of the object to be processed in the background computer through the matching of the drill bit, the sensor and the conveyor belt, and compare the characteristic parts such as the recess, the protrusion and the inclination emphatically, after the positioning is finished, the drill bit can start the cutting operation, and simultaneously can carry out the edge cutting treatment on part of the concave angle and the closed area, thereby improving the efficiency and the quality of the operation.

Drawings

FIG. 1 is a schematic external structural view of an automatic processing device for chemical production plastic drums, according to the present invention;

FIG. 2 is an exploded view of the main stage of FIG. 1;

FIG. 3 is a schematic diagram of the construction of the drill bit of FIG. 1;

FIG. 4 is a structural deformation diagram of the drill bit of FIG. 3;

FIG. 5 is a schematic view of a partial structure of the clamping plate of FIG. 1;

FIG. 6 is an enlarged view of a portion of FIG. 1 at A;

FIG. 7 is a schematic view of the installation of the sensor of FIG. 1;

fig. 8 is a schematic diagram of the operational cooperation of the sensor of fig. 7.

In the figure, 1 main pedestal, 2 auxiliary pedestals, 3 conveyor belts, 4 left supports, 5 right supports, 6 outlets, 7 pushing assemblies, 8 suspension mechanisms, 9 cutting mechanisms, 10 wedge-shaped push plates, 11 first hydraulic rods, 12 slide rail supports, 13 second hydraulic rods, 14 moving frames, 15 clamping devices, 16 third hydraulic rods, 17 mounting plates, 18 clamping plates, 19 driving motors, 20 fourth hydraulic rods, 21 moving blocks, 22 vertical supports, 23 fifth hydraulic rods, 24 bearing blocks, 25 sixth hydraulic rods, 26 drill bits, 27 grinding rollers, 28 sensors, 29 protrusions, 30 sliding grooves, 31 moving openings, 32 cone segments, 33 cutting segments, 34 telescopic rods and 35 springs.

Detailed Description

The following examples are for illustrative purposes only and are not intended to limit the scope of the present invention.

Examples

As shown in fig. 1-8, an automatic processing device for chemical production plastic barrels comprises a main pedestal 1, an auxiliary pedestal 2 and a conveyor belt 3 for conveying, wherein the main pedestal 1 is used for receiving main conveying parts, the auxiliary pedestal 2 is used for cutting, the main pedestal 1 and the auxiliary pedestal 2 are used as basic bearing platforms of the functional parts and are installed in various environments, the main pedestal 1 and the auxiliary pedestal 2 are connected in parallel and fixed, the fixed connection is only one form of the scheme, the separation does not affect the functions, the edge of the main pedestal 1 is provided with a gap for receiving the conveyor belt 3, the gap can be provided with a plurality of gaps, when a plurality of gaps exist, the corresponding number of conveyor belts 3 can be installed, so that the purpose of better processing a plurality of types of products can be achieved, the depth of the gap is matched with the conveyor belt 3, the top point of the conveyor belt 3 is slightly smaller than the gap, the purpose of facilitating the random rolling of chemical barrels, a good fixing and limiting effect is achieved, and of course, a fixing device is arranged on the conveyor belt 3 for carrying out special chemical cylinder transportation.

Main pedestal 1 is gone up and has left socle 4 and right branch frame 5 immediately, left socle 4 and right branch frame 5 are all in the edge, the adjustment of position also can be carried out to left socle 4 and right branch frame 5, left socle 4 leaves export 6 and is used for carrying out the ejection of compact after processing, export 6 is located left socle 4 and the 1 department that links up of main pedestal, need seamless connection to carry out steady ejection of compact operation, the difference in height can lead to the ejection of compact failure, open area is 50% -60% of 4 faces of left socle, and be latticed.

The right branch frame 5 leaves supporting release subassembly 7, and release subassembly 7 can be that mechanical hook hangs and grabs, also can be the form of push pedal, including a wedge push pedal 10, the terminal surface of wedge push pedal 10 utilizes first hydraulic stem 11 to come to be connected with right branch frame 5, and first hydraulic stem 11 can have many, and the effect of first hydraulic stem 11 is that help wedge push pedal 10 carries out reciprocating motion to help wedge push pedal 10 to the product that the wedge push pedal 10 will be processed to be released and carry out ejection of compact operation to export 6.

The left support 4 and the right support 5 are fixed with suspension mechanisms 8, each suspension mechanism 8 comprises a slide rail frame 12, each slide rail frame 12 is rectangular, the ends of the slide rail frames 12 are fixed with the tops of the left support 4 and the right support 5 for fixing, the slide rail frames 12 are used as a suspension base, a second hydraulic rod 13 and a moving frame 14 are arranged in the slide rail frames 12, the second hydraulic rods 13 are located in the slide rail frames 12 of the rectangular frames, are usually a pair and are symmetrically arranged with the slide rail frames 12, the moving frame 14 is pushed by the second hydraulic rods 13, the moving frame 14 is embedded in the slide rail frames 12 and is clamped at two crossing edges of the slide rail frames 12 respectively, and therefore the second hydraulic rods 13 can be matched to push the moving frame 14.

Each moving frame 14 is provided with a clamping device 15 for unilateral clamping, a pair of clamping devices 15 can synchronously perform clamping operation by matching with the moving frame 14, the moving frame 14 is embedded on the slide rail frame 12 in a slide rail clamping manner, and the stability of operation is maintained by utilizing a plurality of connecting walls of the slide rail frame 12, a set of clamping system is formed by a pair of symmetrical clamping devices 15, each clamping device 15 comprises a plurality of third hydraulic rods 16 for controlling lifting, the third hydraulic rods 16 comprise a plurality of third hydraulic rods 16, a mounting plate 17 is also arranged below each third hydraulic rod 16, each third hydraulic rod 16 is used for controlling the lifting of the mounting plate 17, each third hydraulic rod 16 is controlled to lift and match with each second hydraulic rod 13 to move left and right so as to complete clamping movement of materials on the conveyor belt 3, the end surface of each mounting plate 17 is provided with a clamping plate 18 serving as a specific clamping component, and a driving motor 19 for controlling the rotation of the clamping plate 18 is arranged on each mounting plate 17, the driving motor 19 can drive the clamping plate 18 to rotate, a plurality of protrusions 29 are arranged on the surface of the clamping plate 18 and used for increasing static friction force during clamping, and the rotation of the clamping plate 18 drives materials to rotate out, so that multi-edge chip cutting operation can be automatically performed.

The clamping plate 18 can be divided into two layers, a plurality of telescopic rods 34 are arranged between the two layers, springs 35 are sleeved on the telescopic rods, and when clamping operation is carried out, better clamping is facilitated, and meanwhile damage to articles is not easily caused

The movable cutting mechanism 9 is arranged on the auxiliary pedestal 2, the cutting mechanism 9 comprises a fourth hydraulic rod 20 and a moving block 21, the fourth hydraulic rod 20 is embedded in the auxiliary pedestal 2 to drive the moving block 21, specifically, the upper surface of the auxiliary pedestal 2 is provided with a sliding groove 30, a sliding block is arranged in the sliding groove, the sliding block is fixedly connected with the moving block 21 so as to be driven to move left and right by the fourth hydraulic rod 20, the moving block 21 is provided with a through moving port 31, the moving block 21 is erected on a support 22, a fifth hydraulic rod 23 is embedded in the support 22, the fifth hydraulic rod 23 is arranged at the bottom of the moving port 31, a bearing block 24 arranged on the fifth hydraulic rod 23 is used for moving up and down in the moving port 31, a groove is formed in the bearing block 24, a sixth hydraulic rod 25 and a drill bit 26 are arranged in the groove, the drill bit 26 integrally protrudes out of the groove and is used for normally penetrating through the moving port 31, the sixth hydraulic rod 25 pushes the drill bit 26 to move forward and backward, therefore, the drill bit 26 performs cutting operation in a left-right advancing mode, the drill bit 26 specifically comprises a cone section 32 and a cutting section 33, the cutting section 33 is of a pointed end and a drill rod shape, a spiral blade groove is formed in the cone section 32, the cutting section 33 performs cutting in the rotating process, and the cone section 32 performs purging operation in a mode of increasing rotating power, so that the cutting position is kept clean during cutting of materials.

The drill bit 26 can be embedded with a grinding roller 27, the grinding roller 27 is embedded between the cone section 32 and the cutting section 33 and can be used for further finish machining, after the cutting section 33 is finished, the grinding roller 27 carries out local grinding and floating of the convex spike surface, and the matching mode can be combined and matched in a threaded screwing mode.

A row of sensors 28 are fixed on the moving block 21 and used for monitoring objects on the conveyor belt 3, the sensors 28 transmit detection information to a rear control computer through a transmitter, the sensors 28 detect the edges of the objects to match with data in the computer, a drill bit 26 is used for cutting after matching is completed, if a matching task is not completed, the objects can be continuously clamped to rotate and be matched again until the matching is completed, and the method comprises the following specific steps: the geometric shape of an article to be processed is input in a background computer, characteristic parts such as a recess, a protrusion and an inclination are compared emphatically, then the article is conveyed to the main pedestal 1 by the conveyor belt 3, after a clamping means is adopted, the characteristic comparison is carried out on the article by the plurality of sensors 28, the comparison means is that the clamped material is continuously rotated to measure the edge distance, and after the positioning is finished, the drill 26 can be started to carry out cutting operation.

Although the terms main table base 1, sub table base 2, conveyor belt 3, left support 4, right support 5, outlet 6, pushing-out assembly 7, suspension mechanism 8, cutting mechanism 9, wedge pushing plate 10, first hydraulic rod 11, slide rail frame 12, second hydraulic rod 13, moving frame 14, clamping device 15, third hydraulic rod 16, mounting plate 17, clamping plate 18, driving motor 19, fourth hydraulic rod 20, moving block 21, vertical support 22, fifth hydraulic rod 23, bearing block 24, sixth hydraulic rod 25, drill bit 26, grinding roller 27, sensor 28, protrusion 29, sliding groove 30, movable port 31, cone section 32, cutting section 33, telescopic rod 34, spring 35, etc., are used more herein, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.