CN219817097U

CN219817097U - Supporting rod detection sorting machine

Info

Publication number: CN219817097U
Application number: CN202320248850.8U
Authority: CN
Inventors: 覃柱东
Original assignee: Zhaoqing Gaoyao District Yuningxin Intelligent Manufacturing Co ltd
Current assignee: Zhaoqing Gaoyao District Yuningxin Intelligent Manufacturing Co ltd
Priority date: 2023-02-16
Filing date: 2023-02-16
Publication date: 2023-10-13
Anticipated expiration: 2033-02-16

Abstract

The utility model discloses a supporting rod detection sorting machine which comprises a conveying device, a testing device and a sorting device. The conveying device comprises a conveying mechanism and a feeding mechanism, wherein the conveying mechanism comprises a workbench, a conveying chain arranged on the workbench and a conveying block arranged on the conveying chain, a containing hole for containing the supporting rod is formed in the conveying block, and the feeding mechanism is positioned at the input end of the conveying chain and used for placing the supporting rod into the containing hole; the testing device comprises a first testing mechanism and a second testing mechanism which are sequentially arranged along the conveying chain, wherein the first testing mechanism is used for measuring the height of the supporting rod in the accommodating hole, and the second testing mechanism is used for measuring the pressure of the supporting rod in the accommodating hole; the sorting device comprises a sorting plate arranged below the output hole in the workbench and a sorting mechanism arranged on the sorting plate, and the first sorting cylinder is used for driving the conveying pipe to be in butt joint with the corresponding sorting hole. Therefore, the height and pressure of the support bar can be detected, and sorting can be performed according to the test result.

Description

Supporting rod detection sorting machine

Technical Field

The utility model relates to the field of supporting rod production equipment, in particular to a supporting rod detection sorting machine.

Background

The supporting rod is a fitting which can play the roles of supporting, buffering, braking, height adjustment, angle adjustment and the like. According to different characteristics and application fields, the supporting rod is also called a pneumatic supporting rod, a hydraulic supporting rod and the like, and the basic principle of the supporting rod is to press inert gas and oil or an oil-gas mixture into a closed cavity. The support rod is suitable for various showcases, jewelry boxes, filing cabinets, office cabinets, cosmetic boxes, furniture, precision instruments, process boxes, high-grade miniature electrical appliances and other cabinet furniture industries, and has widely replaced common hardware springs. The support bar is required to be detected and sorted in height and pressure after being produced.

Disclosure of Invention

The present utility model aims to solve at least one of the technical problems existing in the prior art. Therefore, the utility model provides the supporting rod detection sorting machine which can detect the height and the pressure of the supporting rod and sort according to the test result.

The technical scheme adopted for solving the technical problems is as follows:

a supporting rod detection sorting machine comprises

The conveying device comprises a conveying mechanism and a feeding mechanism, wherein the conveying mechanism comprises a workbench, a conveying chain arranged on the workbench and a conveying block arranged on the conveying chain, a containing hole for containing a supporting rod is formed in the conveying block, the feeding mechanism is positioned at the input end of the conveying chain and used for placing the supporting rod into the containing hole, and an output hole for receiving the supporting rod of the containing hole is formed in one side, close to the output end of the conveying chain, of the workbench;

the testing device comprises a first testing mechanism and a second testing mechanism which are sequentially arranged along the conveying chain, wherein the first testing mechanism is used for measuring the height of the supporting rod in the accommodating hole, and the second testing mechanism is used for measuring the pressure of the supporting rod in the accommodating hole;

sorting unit, be located including setting up in the workstation the flitch of the below of output hole, setting are in sorting mechanism on the flitch, be equipped with a plurality of vertical distribution sorting holes on the flitch, every sorting hole's below is equipped with the blown down tank that corresponds, sorting mechanism includes first sorting cylinder, sets up first sorting cylinder output is fixed with the conveyer pipe, the conveyer pipe is used for the intercommunication output hole and sorting hole, first sorting cylinder is used for driving conveyer pipe and the butt joint of corresponding sorting hole.

The supporting rod detection sorting machine provided by the embodiment of the utility model has at least the following beneficial effects: during operation, the loading mechanism places the bracing piece into the holding hole of delivery block, the conveying chain drives the delivery block motion, come to first accredited testing organization stop, first accredited testing organization measures the height of downthehole bracing piece of holding, then the conveying chain continues to move, come to second accredited testing organization stop, second accredited testing organization is used for measuring the pressure of downthehole bracing piece of holding, sorting mechanism is according to measuring result, first sorting cylinder drives conveyer pipe and the butt joint of sorting hole that corresponds, when delivery block comes to the delivery hole top, the bracing piece gets into the conveyer pipe from the delivery hole and reentry sorting hole, thereby fall into corresponding blown down tank, play the effect of sorting. Therefore, the height and pressure of the support bar can be detected, and sorting can be performed according to the test result.

According to some embodiments of the utility model, the feeding mechanism comprises a feeding block arranged above the conveying chain, the feeding block is provided with a feeding channel for feeding the supporting rods, the feeding channel is sequentially provided with a first abutting component and a second abutting component which prevent the supporting rods from falling down from top to bottom, the first abutting component and the second abutting component both comprise a fixing frame arranged on the outer wall of the feeding channel, an abutting cylinder arranged on the fixing frame and an abutting rod arranged on the abutting cylinder, and the outer wall of the feeding channel is provided with a side hole for accommodating the penetration of the abutting rod.

The beneficial effects are that: when setting up the bracing piece pan feeding like this, first material subassembly and second material subassembly that supports all block the bracing piece, then the second is supported the material cylinder drive butt pole of material subassembly and is released, and the bracing piece below falls into the holding hole of delivery block, and the butt pole is closed to the butt cylinder drive butt pole of second material subassembly, and the butt pole of the material cylinder drive butt pole of first material subassembly is released, supplements the bracing piece, guarantees like this that one bracing piece gets into the holding hole at a time.

According to some embodiments of the utility model, the first test mechanism comprises a first portal frame spanning over the conveyor chain, a first test cylinder disposed on the first portal frame, a first sensor mounted at an output of the first test cylinder for measuring a pressure of the support bar.

The beneficial effects are that: the first test mechanism is simple in structure and easy to control, the first sensor is driven to descend to a certain height through the first test cylinder, and the first sensor touches and presses down the support rod, so that the pressure value of the support rod is judged according to the pressing force.

According to some embodiments of the utility model, the first test cylinder is arranged on one side of the first portal frame, a pre-pressing cylinder is arranged on the other side of the first portal frame, and a pre-pressing plate for pre-pressing the support rod is arranged at the output end of the pre-pressing cylinder.

The beneficial effects are that: the precompression cylinder is arranged to drive the precompression rod to precompress the support rod, so that the support rod is guaranteed to be completely installed in the accommodating hole, and preparation is made for subsequent measurement of the pressure and the height of the support rod.

According to some embodiments of the utility model, the second test mechanism comprises a second portal frame crossing over the conveyor chain, a second test cylinder arranged on the second portal frame, a second sensor mounted at the output end of the second test cylinder for measuring the height of the support bar.

The beneficial effects are that: the second testing mechanism is simple in structure and easy to control, the second sensor is driven to descend to a certain height through the second testing cylinder, and the second sensor touches and presses down the supporting rod, so that the height of the supporting rod is judged according to the pressing-down height.

According to some embodiments of the utility model, the sorting holes are vertically distributed in 3.

The beneficial effects are that: and 3 sorting holes are formed, and the products with unqualified heights, unqualified pressures and qualified products are respectively collected, so that the sorting purpose is achieved.

According to some embodiments of the utility model, the output end of the first sorting cylinder is provided with a sliding block, the sliding block is provided with a second sorting cylinder, and the output end of the second sorting cylinder is provided with a push rod which is used for being connected with the conveying pipe.

The beneficial effects are that: the arrangement is that if the supporting rod enters the first sorting hole, the first sorting cylinder and the second sorting cylinder do not move, if the supporting rod enters the second sorting hole, the first sorting cylinder pushes out, the conveying pipe is in butt joint with the second sorting hole, if the supporting rod enters the third sorting hole, the first sorting cylinder and the second sorting cylinder push out together, and the conveying pipe is in butt joint with the third sorting hole, so that control and butt joint of the sorting holes are facilitated.

According to some embodiments of the utility model, the spout is disposed obliquely and extends out of the table.

The beneficial effects are that: this arrangement facilitates collection of the sorted support bars.

According to some embodiments of the utility model, the transport block is provided with a plurality of transport blocks.

The beneficial effects are that: the conveying blocks are arranged in a plurality, so that the detection efficiency is improved, and the feeding mechanism, the pre-pressing cylinder, the first detection mechanism and the sorting mechanism are required to keep a proper distance, so that each mechanism can work synchronously when the conveying chain is stopped.

According to some embodiments of the utility model, the receiving holes are provided laterally in plurality.

The beneficial effects are that: the holding hole sets up a plurality of, once can test a plurality of bracing pieces, is favorable to improving detection efficiency.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model.

Drawings

The foregoing and/or additional aspects and advantages of the utility model will become apparent and may be better understood from the following description of embodiments taken in conjunction with the accompanying drawings in which:

FIG. 1 is a schematic diagram of an embodiment of the present utility model;

FIG. 2 is a schematic view of the feeding mechanism of FIG. 1;

FIG. 3 is an enlarged view of FIG. 1 at A;

FIG. 4 is a schematic view of the sorting apparatus of FIG. 1;

reference numerals: the feeding mechanism 100, the workbench 110, the conveyor chain 120, the conveying block 130, the accommodating hole 140, the output hole 150, the first testing mechanism 160, the second testing mechanism 170, the distributing plate 180, the sorting hole 190, the discharging chute 200, the first sorting cylinder 210, the conveying pipe 220, the feeding block 230, the feeding channel 240, the first feeding assembly 250, the second feeding assembly 260, the fixing frame 270, the feeding cylinder 280, the feeding rod 290, the first portal frame 300, the first testing cylinder 310, the first sensor 320, the pre-pressing cylinder 330, the pre-pressing plate 340, the second portal frame 350, the second testing cylinder 360, the second sensor 370, the sliding block 380, the second sorting cylinder 390 and the push rod 400.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the utility model.

In the description of the present utility model, it should be understood that references to orientation descriptions such as upper, lower, front, rear, left, right, etc. are based on the orientation or positional relationship shown in the drawings, are merely for convenience of description of the present utility model and to simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present utility model.

In the description of the present utility model, a number means one or more, a number means two or more, and greater than, less than, exceeding, etc. are understood to not include the present number, and above, below, within, etc. are understood to include the present number. The description of the first and second is for the purpose of distinguishing between technical features only and should not be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present utility model, unless explicitly defined otherwise, terms such as arrangement, installation, connection, etc. should be construed broadly and the specific meaning of the terms in the present utility model can be reasonably determined by a person skilled in the art in combination with the specific contents of the technical scheme.

A support bar detection sorter is described in detail below with reference to fig. 1-4 in one particular embodiment. It is to be understood that the following description is exemplary only and is not intended to limit the utility model in any way.

As shown in fig. 1 to 4, a supporting rod detection and sorting machine comprises a conveying device, a testing device and a sorting device.

The conveying device comprises a conveying mechanism and a feeding mechanism 100, wherein the conveying mechanism comprises a workbench 110, a conveying chain 120 arranged on the workbench 110 and a conveying block 130 arranged on the conveying chain 120, a containing hole 140 for containing a supporting rod is formed in the conveying block 130, the feeding mechanism 100 is positioned at the input end of the conveying chain 120 and used for placing the supporting rod into the containing hole 140, and an output hole 150 for receiving the supporting rod of the containing hole 140 is formed in one side, close to the output end of the conveying chain 120, of the workbench 110; the testing device comprises a first testing mechanism 160 and a second testing mechanism 170 which are sequentially arranged along the conveying chain 120, wherein the first testing mechanism 160 is used for measuring the height of the supporting rod in the accommodating hole 140, and the second testing mechanism 170 is used for measuring the pressure of the supporting rod in the accommodating hole 140; the sorting device comprises a material separating plate 180 arranged below the output hole 150 in the workbench 110, and a sorting mechanism arranged on the material separating plate 180, wherein a plurality of vertically distributed sorting holes 190 are formed in the material separating plate 180, a corresponding discharge chute 200 is arranged below each sorting hole 190, the sorting mechanism comprises a first sorting cylinder 210, a conveying pipe 220 is fixed at the output end of the first sorting cylinder 210, the conveying pipe 220 is used for communicating the output hole 150 and the sorting holes 190, and the first sorting cylinder 210 is used for driving the conveying pipe 220 to be in butt joint with the corresponding sorting holes 190.

During operation, the feeding mechanism 100 places the support rod into the accommodating hole 140 of the conveying block 130, the conveying chain 120 drives the conveying block 130 to move, the first testing mechanism 160 stops, the first testing mechanism 160 measures the height of the support rod in the accommodating hole 140, then the conveying chain 120 continues to move, the second testing mechanism 170 stops, the second testing mechanism 170 is used for measuring the pressure of the support rod in the accommodating hole 140, the sorting mechanism drives the conveying pipe 220 to be in butt joint with the corresponding sorting hole 190 according to the measurement result, and when the conveying block 130 arrives above the output hole 150, the support rod enters the conveying pipe 220 from the output hole 150 and then enters the sorting hole 190, so that the support rod falls into the corresponding discharging chute 200 to play a sorting role. Therefore, the height and pressure of the support bar can be detected, and sorting can be performed according to the test result.

As shown in fig. 2, the feeding mechanism 100 includes a feeding block 230 disposed above the conveying chain 120, the feeding block 230 is provided with a feeding channel 240 for feeding a supporting rod, a pipe into which the supporting rod enters should be disposed at the upper end of the feeding channel 240, the pipe is not shown in the drawing, the feeding channel 240 is sequentially provided with a first abutting component 250 and a second abutting component 260 for preventing the supporting rod from falling from top to bottom, the first abutting component 250 and the second abutting component 260 each include a fixing frame 270 disposed on the outer wall of the feeding channel 240, an abutting cylinder 280 mounted on the fixing frame 270, and an abutting rod 290 mounted on the abutting cylinder 280, and a side hole for accommodating the abutting rod 290 to penetrate is disposed on the outer wall of the feeding channel 240. When the supporting rod feeding is set, the first supporting component 250 and the second supporting component 260 block the supporting rods, then the supporting rod 280 of the second supporting component 260 drives the supporting rod 290 to be loosened, the lower supporting rods drop into the accommodating holes 140 of the conveying blocks 130, then the supporting rod 280 of the second supporting component 260 drives the supporting rod 290 to be closed, the supporting rod 280 of the first supporting component 250 drives the supporting rod 290 to be loosened, and the supporting rods are supplemented, so that one supporting rod at a time is ensured to enter the accommodating holes 140.

As shown in fig. 3, the first test mechanism 160 includes a first portal frame 300 crossing over the conveyor chain 120, a first test cylinder 310 provided on the first portal frame 300, a first sensor 320 installed at an output end of the first test cylinder 310, the first sensor 320 for measuring a pressure of the support bar. The first test mechanism 160 is simple in structure and easy to control, the first sensor 320 is driven to descend to a certain height by the first test cylinder 310, and the first sensor 320 touches and presses down the support rod, so that the pressure value of the support rod is judged according to the pressing force. It should be noted that, the first test cylinder 310 is disposed on one side of the first portal frame 300, the other side of the first portal frame 300 is provided with a pre-pressing cylinder 330, and an output end of the pre-pressing cylinder 330 is provided with a pre-pressing plate 340 for pre-pressing the support rod. The pre-pressing cylinder 330 is arranged to drive the pre-pressing rod to pre-press the supporting rod, so that the supporting rod is ensured to be completely installed in the accommodating hole 140, and the preparation is made for the subsequent measurement of the pressure and the height of the supporting rod. Accordingly, the second testing mechanism 170 includes a second portal frame 350 crossing over the conveyor chain 120, a second testing cylinder 360 provided on the second portal frame 350, and a second sensor 370 installed at an output end of the second testing cylinder 360, the second sensor 370 for measuring a height of the support bar. The second testing mechanism 170 is simple in structure and easy to control, the second testing cylinder 360 drives the second sensor 370 to descend to a certain height, and the second sensor 370 touches and presses down the supporting rod, so that the height of the supporting rod is judged according to the pressing-down height.

As shown in fig. 4, 3 sorting holes 190 are provided in a vertical distribution. And 3 sorting holes 190 are arranged to collect products with unqualified heights, unqualified pressures and qualified products respectively, so that the sorting purpose is achieved. In addition, the output end of the first sorting cylinder 210 is provided with a sliding block 380, the sliding block 380 is provided with a second sorting cylinder 390, the output end of the second sorting cylinder 390 is provided with a push rod 400, and the push rod 400 is used for being connected with the conveying pipe 220. So arranged, if the support rod enters the first sorting hole 190, the first sorting cylinder 210 and the second sorting cylinder 390 do not move, if the support rod enters the second sorting hole 190, the first sorting cylinder 210 pushes out, the conveying pipe 220 is abutted with the second sorting hole 190, if the support rod enters the third sorting hole 190, the first sorting cylinder 210 and the second sorting cylinder 390 push out together, and the conveying pipe 220 is abutted with the third sorting hole 190, thereby facilitating control of the abutting with the sorting hole 190. Moreover, the discharge chute 200 is inclined and extends outside the table 110. This arrangement facilitates collection of the sorted support bars.

It will be appreciated that the transfer block 130 is provided in plurality. The conveying blocks 130 are arranged in a plurality, so that the detection efficiency is improved, and it is worth mentioning that the feeding mechanism 100, the pre-pressing cylinder 330, the first detection mechanism and the sorting mechanism need to keep proper distances, so that each mechanism can work synchronously when the conveying chain 120 stops. In addition, the accommodating hole 140 is laterally provided in plurality. The accommodating holes 140 are formed in a plurality of positions, so that a plurality of support rods can be tested at a time, and the detection efficiency is improved.

The embodiments of the present utility model have been described in detail with reference to the accompanying drawings, but the present utility model is not limited to the above embodiments, and various changes can be made within the knowledge of one of ordinary skill in the art without departing from the spirit of the present utility model.

Claims

1. The utility model provides a bracing piece detects sorter which characterized in that includes:

the conveying device comprises a conveying mechanism and a feeding mechanism (100), wherein the conveying mechanism comprises a workbench (110), a conveying chain (120) arranged on the workbench (110) and a conveying block (130) arranged on the conveying chain (120), a containing hole (140) for containing a supporting rod is formed in the conveying block (130), the feeding mechanism (100) is located at the input end of the conveying chain (120) and used for placing the supporting rod into the containing hole (140), and an output hole (150) for receiving the supporting rod of the containing hole (140) is formed in one side, close to the output end of the conveying chain (120), of the workbench (110);

the testing device comprises a first testing mechanism (160) and a second testing mechanism (170) which are sequentially arranged along the conveying chain (120), wherein the first testing mechanism (160) is used for measuring the pressure of the supporting rod in the accommodating hole (140), and the second testing mechanism (170) is used for measuring the height of the supporting rod in the accommodating hole (140);

sorting unit, including setting up in workstation (110) be located divide flitch (180) of the below of output hole (150), set up divide sorting mechanism on flitch (180), divide and be equipped with a plurality of vertical distribution on flitch (180) and select separately hole (190), every select separately the below of hole (190) is equipped with corresponding blown down tank (200), sorting mechanism includes first sorting cylinder (210), sets up first sorting cylinder (210) output is fixed with conveyer pipe (220), conveyer pipe (220) are used for the intercommunication output hole (150) and select separately hole (190), first sorting cylinder (210) are used for driving conveyer pipe (220) are in butt joint with corresponding sorting hole (190).

2. The supporting rod detection sorting machine according to claim 1, wherein the feeding mechanism (100) comprises a feeding block (230) arranged above the conveying chain (120), the feeding block (230) is provided with a feeding channel (240) for feeding the supporting rods, the feeding channel (240) is sequentially provided with a first abutting component (250) and a second abutting component (260) for preventing the supporting rods from falling from top to bottom, the first abutting component (250) and the second abutting component (260) both comprise a fixing frame (270) arranged on the outer wall of the feeding channel (240), an abutting cylinder (280) arranged on the fixing frame (270) and an abutting rod (290) arranged on the abutting cylinder (280), and the outer wall of the feeding channel (240) is provided with a side hole for accommodating penetration of the abutting rod (290).

3. The support bar detection sorter of claim 1, wherein the first test mechanism (160) comprises a first gantry (300) spanning over the conveyor chain (120), a first test cylinder (310) disposed on the first gantry (300), a first sensor (320) mounted at an output of the first test cylinder (310), the first sensor (320) for measuring a pressure of the support bar.

4. A support bar detection and sorting machine according to claim 3, characterized in that the first test cylinder (310) is arranged on one side of the first portal frame (300), the other side of the first portal frame (300) is provided with a pre-pressing cylinder (330), and the output end of the pre-pressing cylinder (330) is provided with a pre-pressing plate (340) for pre-pressing the support bar.

5. The support bar detection sorter of claim 1 wherein the second test mechanism (170) comprises a second gantry (350) spanning over the conveyor chain (120), a second test cylinder (360) disposed on the second gantry (350), a second sensor (370) mounted at an output of the second test cylinder (360), the second sensor (370) for measuring a height of the support bar.

6. A support bar inspection classifier according to claim 1, wherein 3 of said classifying holes (190) are vertically distributed.

7. The supporting rod detection and sorting machine according to claim 6, wherein the output end of the first sorting cylinder (210) is provided with a sliding block (380), the sliding block (380) is provided with a second sorting cylinder (390), the output end of the second sorting cylinder (390) is provided with a push rod (400), and the push rod (400) is used for being connected with the conveying pipe (220).

8. The support bar inspection classifier of claim 1, wherein the discharge chute (200) is inclined and extends out of the table (110).

9. A support bar inspection sorter as in claim 1 wherein the transfer block (130) is provided in plurality.

10. The support bar inspection sorter of claim 1 wherein the receiving holes (140) are laterally provided in a plurality.