CN215032525U - Corner post production system - Google Patents

Abstract

The utility model discloses an angle post production system. The angle column production system is used for processing plates into angle columns and comprises a conveying device, a first bending device, a second bending device, a first positioning device, a second positioning device and a carrying device, wherein the first bending device is positioned at the downstream of the conveying device, the first bending device and the second bending device are oppositely arranged along a first direction, the first positioning device is connected with the first bending device, the second positioning device is connected with the second bending device, the first positioning device is arranged at the first bending device, the second positioning device is arranged at the second bending device, and the carrying device is positioned between the first bending device and the second bending device so as to carry the plates in the first bending device to the second bending device. According to the utility model discloses an angle post production system has shortened the time of production angle post, reduces artifical transport and artifical location, has improved production efficiency and productivity, and degree of automation is high.

Description

Corner post production system

Technical Field

The utility model relates to an angle post production technical field particularly relates to an angle post production system.

Background

Existing corner post production systems are used to process sheet material into corner posts. The corner post production system comprises a chamfering machine and a bending machine, and in the production process, the plates need to be manually and respectively carried to the chamfering machine and the bending machine, manual positioning is needed, and operation is complex.

Therefore, there is a need to provide a corner post production system to at least partially address the above-mentioned problems.

SUMMERY OF THE UTILITY MODEL

In the summary section a series of concepts in a simplified form is introduced, which will be described in further detail in the detailed description section. The inventive content does not imply any attempt to define the essential features and essential features of the claimed solution, nor is it implied to be intended to define the scope of the claimed solution.

In order to solve the above problem, according to a first aspect of the present invention, there is provided a corner post production system for processing a plate material into a corner post, the corner post production system comprising:

the conveying device is used for conveying the plate;

the first bending device and the second bending device are oppositely arranged along a first direction, the first direction is crossed with the conveying direction of the conveying device, and the first bending device is positioned at the downstream of the conveying device;

a first positioning device arranged at the first bending device for positioning the sheet material on the first bending device,

the second positioning device is arranged at the second bending device and used for positioning the sheet material on the second bending device; and

the carrying device is positioned between the first bending device and the second bending device and is used for carrying the plate at the first bending device to the second bending device.

According to the utility model, the corner post production system is used for processing the plate into the corner post, the corner post production system comprises a conveying device, a first bending device, a second bending device, a first positioning device, a second positioning device and a carrying device, the conveying device is used for conveying the plate, the first bending device is positioned at the downstream of the conveying device, the first bending device and the second bending device are oppositely arranged along a first direction, the first direction is crossed with the conveying direction of the conveying device, the first positioning device is connected with the first bending device, the second positioning device is connected with the second bending device, the first positioning device is arranged at the first bending device for positioning the plate on the first bending device, the second positioning device is arranged at the second bending device for positioning the plate on the second bending device, the carrying device is positioned between the first bending device and the second bending device, to carry the sheet material in the first bending device to the second bending device. Like this, shortened the time of production corner post, saved the time of panel turn-over, shortened the production beat, solved the efficiency bottleneck of bending, reduced artifical transport and artifical location, improved production efficiency and productivity, degree of automation is high.

Optionally, the first positioning device and the second positioning device each include a first positioning mechanism and a second positioning mechanism that are arranged oppositely along the first direction, the first bending device and the second bending device each include a bending member for bending the plate, and the bending member is located between the first positioning mechanism and the second positioning mechanism.

Optionally, the first positioning mechanism comprises a first positioning member movable in the first direction, the second positioning mechanism comprises a second positioning member movable in the first direction,

the first positioning member and the second positioning member can move relatively and can respectively abut against two sides of the plate.

Optionally, the corner post production system further comprises a lifting mechanism, the lifting mechanism is movable between a retracted position and a supporting position along the height direction of the corner post production system, the lifting mechanism located at the supporting position is located above the lifting mechanism located at the retracted position, and the lifting mechanism located at the supporting position is connected with the first positioning member so as to support the bent section of the plate.

Optionally, the first and second locating members are movable in the same direction along the first direction.

Optionally, the conveying device includes a conveying moving member and an adsorbing member connected to the conveying moving member, the conveying moving member is movable, and the adsorbing member is configured to adsorb the bent plate material or the corner post.

Optionally, the conveying device comprises a bending blanking mechanism, the bending blanking mechanism is located below the adsorption member along the height direction of the corner post production system, and the adsorption member is used for moving the corner posts to the bending blanking mechanism and stacking the corner posts together.

Optionally, the plate bending device further comprises a chamfering device, the chamfering device is used for chamfering the plates, the conveying device comprises a bending feeding mechanism, and the chamfering device is connected with the first bending device through the bending feeding mechanism.

Optionally, the conveying device further comprises a chamfering feeding mechanism and a chamfering discharging mechanism which are connected with the chamfering device, the chamfering feeding mechanism is used for moving one of the stacked plates into the chamfering device, the chamfering discharging mechanism is used for moving out the plates in the chamfering device and stacking the plates together, and the chamfering discharging mechanism is connected with the bending feeding mechanism.

Optionally, the chamfering device comprises at least two chamfering moving members and at least two chamfering members, the at least two chamfering moving members are respectively connected with the at least two chamfering members, the chamfering moving members can move, and the chamfering members are used for chamfering the plate material.

Drawings

The following drawings of the present invention are used herein as part of the present invention for understanding the present invention. There are shown in the drawings embodiments of the invention and the description thereof for the purpose of illustrating the devices and principles of the invention. In the drawings, there is shown in the drawings,

fig. 1 is a top view of a corner post production system according to a preferred embodiment of the present invention;

FIG. 2 is a left side view of a portion of the corner post production system shown in FIG. 1;

fig. 3 is a top view of a chamfering apparatus of the corner post production system shown in fig. 1.

Description of reference numerals:

100: corner post production system 101: control device

102: the guardrail 110: conveying device

111: bending and blanking mechanism 112: bending feeding mechanism

113: chamfering and blanking mechanism 114: chamfer feeding mechanism

115: the preparation table 116: first storage mechanism

117: the detection mechanism 118: second storage mechanism

121: first bending device 122: second bending device

123: bending member 124: bending seat

131: first positioning device 132: second positioning device

141: first positioning mechanism 142: second positioning mechanism

143: second positioning member 144: positioning frame

150: conveyance device 151: conveying moving member

152: the adsorption member 160: chamfering device

161: chamfer moving member 162: chamfering component

163: chamfer drive mechanism 164: adjusting mechanism

165: the milling cutter 200: corner post

Detailed Description

In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present invention. It will be apparent, however, to one skilled in the art, that the present invention may be practiced without one or more of these specific details. In other instances, well-known features have not been described in order to avoid obscuring the present invention.

In the following description, for purposes of explanation, numerous specific details are set forth in order to provide a thorough understanding of the present invention. It is apparent that the practice of the invention is not limited to the specific details known to those skilled in the art. The present invention is described in detail below with reference to the preferred embodiments, however, the present invention can have other embodiments in addition to the detailed description, and should not be construed as being limited to the embodiments set forth herein.

It is to be understood that the terms "a," "an," and "the" as used herein are intended to describe specific embodiments only and are not to be taken as limiting the invention, which is intended to include the plural forms as well, unless the context clearly indicates otherwise. When the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof. The terms "upper", "lower", "front", "rear", "left", "right" and the like as used herein are for illustrative purposes only and are not limiting.

Ordinal words such as "first" and "second" are referred to in this application as labels only, and do not have any other meanings, such as a particular order, etc. Also, for example, the term "first component" does not itself imply the presence of "second component", and the term "second component" does not itself imply the presence of "first component".

Hereinafter, specific embodiments of the present invention will be described in more detail with reference to the accompanying drawings, which illustrate representative embodiments of the present invention and do not limit the present invention.

As shown in fig. 1 to 3, the present invention provides a corner post production system 100 for processing a plate material into a corner post 200. The corner post production system 100 is capable of bending a sheet of material multiple times to form the corner post 200. Specifically, as shown in fig. 1, the corner post production system 100 includes a conveying device 110, a first bending device 121, a second bending device 122, a first positioning device 131, a second positioning device 132, and a handling device 150, wherein the conveying device 110 is used for conveying a plate material. The first bending device 121 is located downstream of the conveyor 110, and the conveyor 110 can feed the sheet into the first bending device 121. The first bending device 121 may bend the plate material.

The first and second bending devices 121 and 122 may be oppositely disposed along the first direction D1. The second bending device 122 may bend the bent plate again. The first direction D1 intersects the conveyance direction D2 of the conveyance device 110. In the embodiment shown in fig. 1, the first direction D1 points above the page, but those skilled in the art should understand that the first direction D1 may also point below the page, which is not intended to be limited by the present embodiment. The conveying direction D2 of the conveying device 110 is directed to the left side of the page, and those skilled in the art should understand that the positions of the conveying device 110 and the first bending device 121 can be adjusted, and the conveying direction D2 of the conveying device 110 can also be directed to the right side of the page, which is not intended to limit the present embodiment.

The first positioning device 131 is disposed at the first bending device 121 for positioning the sheet material on the first bending device 121 to prevent the sheet material from shifting during the bending process. The second positioning device 132 is disposed at the second bending device 122 for positioning the sheet material on the second bending device 122 to prevent the sheet material from shifting during the bending process. The first positioning device 131 and the second positioning device 132 may be oppositely arranged along the first direction D1. Thereby preventing the first and second positioning devices 131 and 132 from interfering with the movement of the plate.

The handling device 150 is located between the first bending device 121 and the second bending device 122 to handle the sheet material in the first bending device 121 to the second bending device 122. The first bending device 121 is used for bending the plate material, the conveying device 150 conveys the bent plate material in the first bending device 121 to the second bending device 122, and the second bending device 122 bends the bent plate material again to form the corner post 200. Like this, two bending devices can bend panel simultaneously, have improved production efficiency. When the conveying device 150 moves the sheet out of the first bending device 121, the conveying device 110 can simultaneously convey the sheet into the first bending device 121, so as to reduce waiting time and improve efficiency.

According to the utility model, the corner post production system is used for processing the plate into the corner post, the corner post production system comprises a conveying device, a first bending device, a second bending device, a first positioning device, a second positioning device and a carrying device, the conveying device is used for conveying the plate, the first bending device is positioned at the downstream of the conveying device, the first bending device and the second bending device are oppositely arranged along a first direction, the first direction is crossed with the conveying direction of the conveying device, the first positioning device is connected with the first bending device, the second positioning device is connected with the second bending device, the first positioning device is arranged at the first bending device for positioning the plate on the first bending device, the second positioning device is arranged at the second bending device for positioning the plate on the second bending device, the carrying device is positioned between the first bending device and the second bending device, to carry the sheet material in the first bending device to the second bending device. Like this, shortened the time of production corner post, saved the time of panel turn-over, shortened the production beat, solved the efficiency bottleneck of bending, reduced artifical transport and artifical location, improved production efficiency and productivity, degree of automation is high.

Further, the first positioning device 131 and the second positioning device 132 each include a first positioning mechanism 141 and a second positioning mechanism 142, and the first positioning mechanism 141 and the second positioning mechanism 142 are oppositely arranged along the first direction D1. As shown in fig. 2, the first bending device 121 and the second bending device 122 each include a bending member 123, and the bending member 123 is used for bending the plate material. Bending member 123 may be configured as a knife. The bending member 123 is movable in the height direction of the corner post production system 100. The height direction of the corner post production system 100 may be substantially parallel to the thickness direction of the plate material.

The first bending device 121 and the second bending device 122 each further include a bending base 124, and the bending base 124 and the bending member 123 are arranged opposite to each other in the height direction of the corner post production system 100. The bending member 123 is movable between a standby position and a bending position in the height direction of the corner post production system 100. The bending member 123 located at the bending position abuts against the plate material and can apply a force to the plate material to bend the plate material. The bending member 123 located at the standby position is separated from the plate material and spaced apart from the plate material to leave a space for the plate material to move.

The bending member 123 is located between the first positioning mechanism 141 and the second positioning mechanism 142. The first positioning mechanism 141 and the second positioning mechanism 142 can position the plate together to ensure the accuracy of the position where the plate is located. The first positioning mechanism 141 and the second positioning mechanism 142 can abut against both sides of the plate material along the first direction D1 to position the plate material to the bending position.

The conveying device 110 conveys the plate material to the bending seat 124 of the first bending device 121. The bending seat 124 of the first bending device 121 places the plate, and the first positioning mechanism 141 and the second positioning mechanism 142 of the first positioning device 131 are abutted against two sides of the plate. The bending member 123 of the first bending device 121 is moved downward in the height direction of the corner post production system 100 to a bending position to bend the plate material. The bending member 123 of the first bending device 121 moves the bent plate upward along the height direction of the corner post production system 100 to a standby position for the next bending.

The conveying device 150 conveys the sheet material in the first bending device 121 to the second bending device 122. The bending seat 124 of the second bending device 122 is used for placing the bent plate, and the first positioning mechanism 141 and the second positioning mechanism 142 of the second positioning device 132 are abutted against two sides of the bent plate. The bending member 123 of the second bending device 122 is moved downward in the height direction of the corner post production system 100 to a bending position to bend the plate material. The bending member 123 of the second bending device 122 moves the bent plate upward along the height direction of the corner post production system 100 to a standby position for the next bending.

Further, the first positioning mechanism 141 includes a first positioning member (in fig. 2, the first positioning member of the first positioning device is shielded by the first bending device, and the first positioning member of the second positioning device is shielded by the second bending device), and the first positioning member is movable along the first direction D1. The second positioning mechanism 142 includes a second positioning member 143, and the second positioning member 143 is movable in the first direction D1. The first and second positioning members 143 are abutted against both sides of the plate material to position the plate material.

Optionally, the first positioning mechanism 141 further includes a first driving mechanism, and the first driving mechanism is connected to the first positioning member to drive the first positioning member to move. The first driving mechanism may include a servo motor and a ball screw, and the servo motor is connected to the first positioning member through the ball screw. The servo motor can drive the ball screw to rotate, so that the first positioning component is driven to move. The first positioning mechanism 141 further includes a first guide rail for guiding the movement of the first positioning member. The first positioning member is movably connected to the first rail. The first positioning member may include a linear bearing and a stopper connected to the linear bearing. The linear bearing is movably connected to the first rail. The stop block is used for abutting against the plate. The structure of the second positioning mechanism 142 is similar to that of the first positioning mechanism 141, and for brevity of the page, the description thereof will not be repeated.

The first and second positioning members 143 are relatively movable and the first and second positioning members 143 can be respectively abutted against both sides of the plate material. The first positioning member moves in the first direction D1 toward the second positioning member 143, and the second positioning member 143 moves in the first direction D1 toward the first positioning member. The first positioning member abuts against one side of the plate material in the first direction D1, and the second positioning member 143 abuts against the other side of the plate material in the first direction D1. Preferably, the first positioning member abuts against one side of the plate material in the width direction of the plate material, and the second positioning member 143 abuts against the other side of the plate material in the width direction of the plate material. In this way, the first and second positioning members 143 can position the plate material, so that the bending member 123 can accurately bend the plate material.

The first bending device 121 and the second bending device 122 are both capable of bending the sheet material multiple times. The bent plate has a bent section, and the bent section and the first positioning member have a height difference in the height direction of the corner post production system 100. The bending section is spaced apart from the first positioning member in the height direction of the corner post production system 100, and in order to enable the first positioning member to move the bent plate, the corner post production system 100 further includes a lifting mechanism for supporting the bent plate.

The corner post production system 100 includes two lifting mechanisms connected to the first positioning device 131 and the second positioning device 132, respectively. The elevating mechanism is movably connected to the first positioning mechanism 141. One of the two elevating mechanisms is connected to the first positioning mechanism 141 of the first positioning device 131, and the other of the two elevating mechanisms is connected to the first positioning mechanism 141 of the second positioning device 132.

The elevating mechanism is movable between a retracted position and a support position in the height direction of the corner post production system 100. The lifting mechanism may include a cylinder and a pallet coupled to drive the pallet to move in the height direction of the corner post production system 100. The lift mechanism in the support position is above the lift mechanism in the retracted position. The lifting mechanism located at the supporting position is connected with the first positioning member and is used for supporting the bent section of the plate. Therefore, the height difference between the bending section of the plate and the first positioning member can be overcome, so that the first positioning member can move the bending section of the plate, and the bending member 123 can bend the plate for multiple times.

Further, the first and second positioning members 143 can also move toward the same direction along the first direction D1. The first and second positioning members 143 are oppositely arranged in the first direction D1. The second positioning member 143 moves in the first direction D1 toward the first positioning member, and the first positioning member moves in the first direction D1 away from the second positioning member 143. The second positioning member 143 urges the sheet material to move in the first direction D1 toward the first positioning member.

The first and second positioning members 143 are each movable between a first positioning position and a second positioning position. The first and second positioning members 143 at the first positioning position may position the plate material to the first bending position. The bending member 123 can bend the plate material located at the first bending position. The first positioning member and the second positioning member 143 located at the first positioning position may both move in the same direction along the first direction D1 to the second positioning position, so that the plate material located at the first bending position moves to the second bending position. The first positioning member and the second positioning member 143 located at the second positioning position may position the plate material located at the second bending position. The bending member 123 can bend the plate material located at the second bending position. Thus, the bending member 123 can bend the plate material a plurality of times, reducing plate material conveyance and improving efficiency.

The first bending device 121 and the second bending device 122 may each bend the plate material for multiple times. For example, the first bending device 121 may perform two right-angle bending on the plate material, the conveying device 150 conveys the bent plate material in the first bending device 121 to the second bending device 122, and the second bending device 122 performs another three right-angle bending on the bent plate material to finally form the corner post 200. Alternatively, the first bending device 121 may perform a right-angle bending on the plate material once, the conveying device 150 conveys the bent plate material in the first bending device 121 to the second bending device 122, and the second bending device 122 performs a right-angle bending on the bent plate material twice again to finally form the corner post 200.

The handling device 150 may be configured as an automated robot. The conveying device 150 includes a conveying moving member 151 and an adsorbing member 152, and the adsorbing member 152 is connected to the conveying moving member 151. The suction member 152 is used to suck the bent plate material. The suction member 152 includes a plurality of suction cups for sucking the plate. The longitudinal direction of the adsorption member 152 is substantially parallel to the longitudinal direction of the plate material to stably connect the plate material. The carrying moving member 151 can move to move the adsorption member 152. For example, the conveyance moving member 151 can move in the first direction D1, and the conveyance moving member 151 can also rotate around the rotation axis.

The conveyance moving member 151 can drive the suction member 152 to move to the first bending device 121, and the suction member 152 can suck the bent plate material in the first bending device 121. The conveying and moving member 151 can also drive the suction member 152 to move the bent plate material into the second bending device 122. The second bending device 122 continues to bend the sheet. Optionally, the first positioning device 131 further comprises a positioning frame 144, and the positioning frame 144 can support the plate. The suction member 152 may first move the plate into the positioning frame 144. The carrying moving member 151 may adjust the position of the suction member 152 so that the suction member 152 can place the plate material at an appropriate position of the second bending device 122.

The second bending device 122 continues to bend the bent sheet material to form the corner post 200. The adsorption member 152 may also adsorb the corner posts 200. The second positioning device 132 may include a positioning bracket 144, and the positioning bracket 144 may support the corner post 200. The suction member 152 may first move the corner post 200 into the spacer 144. The conveyance moving member 151 may adjust the position of the suction member 152 so that the suction member 152 can remove the corner post 200.

The conveying device 110 includes a bending blanking mechanism 111, and the bending blanking mechanism 111 is located below the adsorption member 152 in the height direction of the corner post production system 100. The suction member 152 may move the corner posts 200 onto the bend blanking mechanism 111 and stack them together. In this way, the production speed can be increased without having to move the corner posts again for stacking. The bending blanking mechanism 111 may be configured as a roller table to facilitate movement of the stacked corner posts 200. Optionally, as shown in fig. 1, the corner post production system 100 further includes a detection mechanism 117, and the detection mechanism 117 is configured to detect whether the corner post 200 is qualified. The detection mechanism 117 and the bending blanking mechanism 111 may be located on both sides of the conveying device 150 in the conveying direction D2 of the conveying device 110. The suction member 152 may place the corner post 200 on the detection mechanism 117 to facilitate detection.

The conveying device 110 includes a bending feed mechanism 112, and the bending feed mechanism 112 is used for conveying the plate material to the first bending device 121. The conveying direction of the bending feed mechanism 112 is substantially parallel to the conveying direction of the bending feed mechanism 111, so as to facilitate movement of the plate material and the corner posts 200. The corner post production system 100 further comprises a chamfering apparatus 160, and the chamfering apparatus 160 is used for chamfering the plate material. The chamfering device 160 may be connected to the first bending device 121 through the bending feed mechanism 112. In this way, the chamfered plate may be moved into the first bending apparatus 121 by the bending feed mechanism 112, which improves the degree of automation.

The conveying device 110 further comprises a chamfering and blanking mechanism 113 and a chamfering and feeding mechanism 114, and the chamfering and blanking mechanism 113 and the chamfering and feeding mechanism 114 are both connected with the chamfering device 160. The chamfering feed mechanism 114 is used to move the plate material into the chamfering device 160. The chamfering feeding mechanism 114 may include a plurality of suction cups capable of sucking the plate material. The chamfering feed mechanism 114 may move one of the stacked plurality of sheets into the chamfering device 160. The chamfering device 160 chamfers the sheet. The chamfering and blanking mechanism 113 is used for removing the plate in the chamfering device 160. The chamfering and blanking mechanism 113 may include a plurality of suction cups, and the plurality of suction cups may suck the plate material. The chamfering and blanking mechanism 113 can move and stack the plates in the chamfering device 160 together.

The chamfering blanking mechanism 113 may be connected to the bending feed mechanism 112, and the chamfering blanking mechanism 113 may be connected to the bending feed mechanism 112 through a stock table 115. The preparation table 115 may be configured as a roller table. The plate from the chamfering and blanking mechanism 113 may be moved to the bending and feeding mechanism 112 through the stock table 115. In order to prevent the stacked plates from affecting the production tact too much, the corner post production system 100 further includes a first storage mechanism 116, and the first storage mechanism 116 is provided at a side of the stock table 115 for storing the plates.

Bending feed mechanism 112 may include a plurality of suction cups that are capable of attracting the sheet material. The bend loading mechanism 112 may move one of the stacked plurality of sheets into the first bending device 121. Therefore, the amount of the plate from the chamfering device 160 can be controlled, the chamfering device 160 is prevented from processing the plate quickly to influence the bending process, and the production tact is good. Of course, the chamfering feeding mechanism 114 and the chamfering discharging mechanism 113 can operate simultaneously, and the feeding and the discharging are performed synchronously, so that the time is saved.

The corner post production system 100 can produce front and rear corner posts of a container. The corner post production system 100 further includes a second storage mechanism 118, and the second storage mechanism 118 may be connected to the chamfering blanking mechanism 113. The second storage mechanism 118 may be connected to the chamfering and blanking mechanism 113 through a roller table. The second storage mechanism 118 may temporarily store the stacked sheets.

As shown in fig. 3, the chamfering device 160 may include at least two chamfering members 161 and at least two chamfering members 162, and the at least two chamfering members 161 and the at least two chamfering members 162 are connected, respectively. The chamfering moving member 161 can move to drive the chamfering member 162 to move. The chamfering member 162 is used to chamfer the plate material.

The chamfering device 160 may include two chamfering moving members 161 and two chamfering members 162, and the two chamfering moving members 161 and the two chamfering members 162 are connected, respectively. The two chamfering members 162 may be oppositely disposed along the length direction of the plate material to chamfer both sides of the plate material along the length direction of the plate material, respectively. The chamfering device 160 further includes a chamfering driving mechanism 163 and an adjusting mechanism 164, the chamfering driving mechanism 163 is connected to the chamfering moving member 161, and the chamfering driving mechanism 163 is used to drive the chamfering moving member 161 to move. An adjustment mechanism 164 is connected to the chamfering moving member 161, and the adjustment mechanism 164 is used to adjust the position of the chamfering moving member 161, thereby adjusting the position of the chamfering member 162.

Of course, the chamfering apparatus 160 may include a greater number of chamfering moving members 161 and chamfering members 162, such as four, for which the present embodiment is not intended to be limited. Optionally, the chamfering device 160 may further include five chamfering bits, and the five chamfering bits may be arranged in front and back to complete one-time chamfering, so as to realize 45 ° chamfering of the straight edge of the 6mm plate.

Chamfering apparatus 160 may also include a cylinder that is capable of positioning the sheet material. For example, the cylinder may press against the sheet material to facilitate chamfering of the sheet material by the chamfering member 162. The chamfering moving member 161 can drive the chamfering member 162 to move in the width direction of the plate, and the chamfering moving member 161 can drive the chamfering member 162 to rotate to chamfer the opposite two corners of the plate in the width direction of the plate, thereby improving efficiency. Optionally, the chamfering apparatus 160 further comprises a milling cutter 165 to facilitate machining of the sheet material.

Preferably, returning to fig. 1, the corner post production system 100 further includes a control device 101, and the control device 101 may be electrically connected to the conveying device 110, the first bending device 121, the second bending device 122, the first positioning device 131, the second positioning device 132, the carrying device 150, and the chamfering device 160 to control the operations of the conveying device 110, the first bending device 121, the second bending device 122, the first positioning device 131, the second positioning device 132, the carrying device 150, and the chamfering device 160, respectively, so as to improve the degree of automation. The corner post production system 100 further comprises a guardrail 102 to prevent operators from mistakenly entering the conveying device 110, the chamfering device 160 and the bending device, thereby improving safety.

The chamfering feed mechanism 114 first moves one of the stacked sheets into the chamfering device 160. The cylinder in the chamfering apparatus 160 compresses the sheet material, and the chamfering member 162 chamfers the sheet material. The chamfering of the plate is completed and the cylinder of the chamfering device 160 is separated from the plate. The chamfering and blanking mechanism 113 removes the plate material in the chamfering device 160 and stacks the plate material. The stock table 115 moves the stacked chamfered plates to the bending feed mechanism 112. The bending feed mechanism 112 moves one of the stacked sheets into the first bending device 121. The first positioning device 131 positions the sheet material. The first bending device 121 bends the plate material. The bending of the sheet material is completed and the bending member of the first bending device 121 is separated from the sheet material. The conveying device 150 conveys the sheet material into the second bending device 122. The second positioning device 132 positions the sheet. The second bending device 122 bends the sheet material to form the corner post 200. The bending member of the second bending device 122 is separated from the corner post. The conveying device 150 moves the corner post 200 to the bending and blanking mechanism 111 and stacks the plate material. Thereby recycling the process.

According to the utility model discloses an angle post production system, can realize automatic chamfer and automatic bending, and can carry the automatic board after the automatic chamfer to bending device department, shorten the production beat, raise the efficiency and productivity, reduce to 2 operating personnel from the operating personnel that originally need 4, the lean method in the middle of the production line equipment design has both been utilized, material transfer between modern workshop process has been combined again, technologies such as station control, the efficiency is promoted, reduce the energy consumption, compromise operation and maintenance facility, guarantee safety in production and commodity circulation, effective control part machining precision point, improve the flexible degree of automation of the production of the angle post of container, realize full-automatic production mode.

Unless defined otherwise, technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. Terms such as "part," "member," and the like, when used herein, can refer to either a single part or a combination of parts. Terms such as "mounted," "disposed," and the like, as used herein, may refer to one component as being directly attached to another component or one component as being attached to another component through intervening components. Features described herein in one embodiment may be applied to another embodiment, either alone or in combination with other features, unless the feature is otherwise inapplicable or otherwise stated in the other embodiment.

The present invention has been described in terms of the above embodiments, but it is to be understood that the above embodiments are for purposes of illustration and description only and are not intended to limit the invention to the described embodiments. Furthermore, it will be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and that many more modifications and variations can be made in accordance with the teachings of the present invention, all of which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. A corner post production system for processing a sheet material into a corner post, the corner post production system comprising:

the conveying device is used for conveying the plate;

the first bending device and the second bending device are oppositely arranged along a first direction, the first direction is crossed with the conveying direction of the conveying device, and the first bending device is positioned at the downstream of the conveying device;

a first positioning device arranged at the first bending device for positioning the sheet material on the first bending device,

the second positioning device is arranged at the second bending device and used for positioning the sheet material on the second bending device; and

the carrying device is positioned between the first bending device and the second bending device and is used for carrying the plate at the first bending device to the second bending device.

2. The corner post production system according to claim 1, wherein the first positioning device and the second positioning device each include a first positioning mechanism and a second positioning mechanism arranged opposite to each other in the first direction, and the first bending device and the second bending device each include a bending member for bending the plate material, the bending member being located between the first positioning mechanism and the second positioning mechanism.

3. The corner post production system according to claim 2, wherein the first positioning mechanism includes a first positioning member movable in the first direction, the second positioning mechanism includes a second positioning member movable in the first direction,

the first positioning member and the second positioning member can move relatively and can respectively abut against two sides of the plate.

4. The corner post production system according to claim 3, further comprising a lifting mechanism movable in a height direction of the corner post production system between a retracted position and a support position, the lifting mechanism in the support position being above the lifting mechanism in the retracted position, the lifting mechanism in the support position being connected to the first positioning member for supporting the bent section of the sheet material.

5. The corner post production system according to claim 4, wherein the first and second positioning members are movable in the same direction along the first direction.

6. The corner post production system according to claim 1, wherein the conveying device comprises a conveying moving member and an adsorbing member connected with the conveying moving member, the conveying moving member is movable, and the adsorbing member is used for adsorbing the bent plate or the corner post.

7. The corner post production system according to claim 6, wherein the conveying device comprises a bending blanking mechanism located below the adsorption member in a height direction of the corner post production system, and the adsorption member is used for moving the corner posts onto the bending blanking mechanism and stacking the corner posts together.

8. The corner post production system of claim 1, further comprising a chamfering device for chamfering the plate, wherein the conveying device comprises a bending feeding mechanism, and the chamfering device is connected with the first bending device through the bending feeding mechanism.

9. The corner post production system according to claim 8, wherein the conveyor further comprises a chamfering feed mechanism and a chamfering discharge mechanism both connected to the chamfering device, the chamfering feed mechanism being configured to move one of the stacked plates into the chamfering device, the chamfering discharge mechanism being configured to move out and stack the plates together in the chamfering device, the chamfering discharge mechanism being connected to the bending feed mechanism.

10. The corner post production system according to claim 9, wherein the chamfering device comprises at least two chamfering moving members connected with the at least two chamfering members, respectively, the chamfering moving members being movable, and at least two chamfering members for chamfering the plate material.

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