CN217017536U - Detection screening machine - Google Patents

Abstract

The embodiment of the application provides a detect sieve separator, includes the frame. The support is provided with material loading transfer chain and unloading transfer chain, still is provided with drive assembly, is provided with the translation axle on the drive assembly, is provided with detection device on the translation axle. Still be provided with the guide rail No. one on the translation axle, be provided with on the guide rail and draw subassembly and linear module No. one. The extraction component comprises a second connecting plate and an L-shaped connecting plate, a cylinder and a linear bearing are arranged on the L-shaped connecting plate, the linear bearing is sleeved on the L-shaped connecting plate, a cylindrical shaft is arranged on the linear bearing, one end of the second connecting plate is connected with one end of the cylindrical shaft, the other end of the second connecting plate is connected with an output shaft of the cylinder, a cylinder clamping jaw is arranged at the other end of the cylindrical shaft, a motor is arranged on the L-shaped connecting plate, a belt wheel is arranged on an output shaft of the motor, the cylindrical shaft is sleeved with a second belt wheel, and the first belt wheel is connected with the second belt wheel through belt transmission. The advantages are that: the product can be freely taken and placed.

Description

Detection screening machine

Technical Field

The utility model relates to the field of transmission, in particular to a detection screening machine.

Background

In the transmission field, when a plurality of products are transmitted, the products need to be detected and then moved to corresponding receiving mechanisms, at present, in a production line of an assembly line, a corresponding detection device is usually arranged at a fixed position of a feed assembly line, and then the products are sent to the corresponding assembly line by utilizing an extraction assembly. However, this method does not allow free access to the product.

In view of the above, there is a need for a new type of screening machine.

SUMMERY OF THE UTILITY MODEL

The detection screening machine provided by the utility model effectively overcomes the defect that products cannot be freely taken and placed in the prior art.

The technical scheme adopted by the utility model is as follows:

a detection screening machine comprises a machine frame. Be provided with material loading transfer chain and unloading transfer chain along the X direction in the frame, material loading transfer chain and unloading transfer chain parallel arrangement, material loading transfer chain and unloading transfer chain top are provided with drive assembly along the Y direction, the last translation axle that can follow drive assembly horizontal movement that is provided with of drive assembly, the epaxial detection device that is used for carrying out the detection to the material loading transfer chain that is provided with of translation. The translation is epaxial still to be provided with the guide rail No. one along the X direction, be provided with the linear module No. one of extraction element and being used for driving the extraction element along a guide rail motion on the guide rail. The extraction component comprises a second connecting plate and an L-shaped connecting plate which is arranged on a first guide rail and can slide relative to the first guide rail, wherein an air cylinder and a linear bearing are arranged on the L-shaped connecting plate, the linear bearing is sleeved on the L-shaped connecting plate, a cylindrical shaft is arranged on the linear bearing, one end of the second connecting plate is connected with one end of the cylindrical shaft, the other end of the second connecting plate is connected with an output shaft of the air cylinder, an air cylinder clamping jaw is arranged at the other end of the cylindrical shaft, a motor is arranged on the L-shaped connecting plate, a first belt wheel is arranged on an output shaft of the motor, a second belt wheel is sleeved on the cylindrical shaft, and the first belt wheel is connected with the second belt wheel through belt transmission.

Further, the method comprises the following steps: and limiting blocks are arranged on two sides of the L-shaped connecting plate.

Further, the method comprises the following steps: the detection device is an industrial camera.

Further, the method comprises the following steps: a through hole has been seted up to L type connecting plate, set up No. three connecting plates on the L type connecting plate, No. three connecting plates are located directly over a through hole, set up on the connecting plate and have a plurality of stands, No. three connecting plates pass through stand and L type connecting plate fixed connection, be provided with No. two through-holes on No. three connecting plates, motor output shaft passes behind No. three connecting plates and is connected with a band pulley.

Further, the method comprises the following steps: a sharp module both ends all are provided with infrared photoelectricity No. one, be provided with on the connecting plate be used for with infrared photoelectricity complex lug No. one.

Further, the method comprises the following steps: the transmission assembly comprises a connecting frame and a connecting frame, the connecting frame is parallel to the connecting frame, a linear module for conveying the translation shaft is arranged on the connecting frame, a guide rail is arranged on the connecting frame and the connecting frame, and two ends of the translation shaft are respectively arranged on the two guide rails and can slide relative to the two guide rails.

Further, the method comprises the following steps: no. two straight line module both ends all are provided with infrared photoelectricity No. two, be provided with on the drive assembly and be used for with infrared photoelectricity matched with No. two lugs.

The utility model has the beneficial effects that:

1. set up a band pulley, No. two band pulleys, cylinder axle and linear bearing, drive the cylinder axle through motor drive and rotate, realize freely getting of product and put.

2. Set up No. three connecting plates on L type connecting plate, pass No. three connecting plates with the output shaft of motor and be connected with a band pulley, can guarantee that the change of motor is convenient.

Drawings

Fig. 1 is a schematic overall structural diagram of a detection screening machine according to an embodiment of the present application.

Figure 2 is an isometric view of a testing screening machine according to an embodiment of the present application.

Labeled as: 1. a frame; 2. a feeding conveying line; 3. a blanking conveying line; 4. a transmission assembly; 5. a translation shaft; 6. a detection device; 401. a first connecting frame; 402. a second connecting frame; 403. a second linear module; 404. a second guide rail; 405. second infrared photoelectric; 406. a second bump; 501. a first guide rail; 502. an extraction component; 503. a first straight line module; 5021. an L-shaped connecting plate; 5022. a cylinder; 5023. a linear bearing; 5024. a cylindrical shaft; 5025. a second connecting plate; 5026. a cylinder clamping jaw; 5027. a motor; 5028. a first belt wheel; 5029. a second belt wheel; 5030. a belt; 5031. a limiting block; 5032. a third connecting plate; 5033. a column; 5034. a first infrared photoelectric device; 5035. a first bump.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, as those skilled in the art will recognize without departing from the spirit and scope of the present invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Unless defined otherwise, all 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 in the description of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

As shown in fig. 1 and fig. 2, an inspection screening machine according to an embodiment of the present application includes a frame 1. Frame 1 is last to be provided with material loading transfer chain 2 and unloading transfer chain 3 along the X direction, material loading transfer chain 2 and 3 parallel arrangement of unloading transfer chain. The automatic feeding device is characterized in that a transmission assembly 4 is arranged above the feeding conveying line 2 and the discharging conveying line 3 along the Y direction, a translation shaft 5 capable of horizontally moving along the transmission assembly 4 is arranged on the transmission assembly 4, and a detection device 6 used for detecting the feeding conveying line 2 is arranged on the translation shaft 5. The translation shaft 5 is further provided with a first guide rail 501 along the X direction, and the first guide rail 501 is provided with an extraction assembly 502 and a first linear module 503 for driving the extraction assembly 502 to move along the first guide rail 501. Draw subassembly 502 includes No. two connecting plates 5025 and sets up on guide rail 501 and can be relatively gliding L type connecting plate 5021 of guide rail 501, be provided with cylinder 5022 and linear bearing 5023 on the L type connecting plate 5021, linear bearing 5023 cover is established on L type connecting plate 5021, be provided with cylinder 5024 on the linear bearing 5023, No. two connecting plate 5025 one end is connected with cylinder 5024 one end, the other end and the output shaft of cylinder 5022, the cylinder 5024 other end is provided with cylinder clamping jaw 5026, be provided with motor 5027 on the L type connecting plate 5021, be provided with No. one pulley 5028 on the output shaft of motor 5027, cylinder 5024 has cup jointed No. two pulleys 5029, No. one pulley 5028 and No. two pulleys 5029 pass through belt 5030 transmission connection.

It should be noted that, in the embodiment of the present application, the first linear module 503, the second linear module 403, the detecting device 6, the feeding conveyor line 2, the discharging conveyor line 3, the transmission assembly 4, the extraction assembly 502, and the like are all controlled by an external control system.

During operation, the product is placed on material loading transfer chain 2 through the peripheral equipment, and after the product followed material loading transfer chain 2 and carried 6 below detection device, detection device 6 detected the product, and cylinder 5022 drive No. two connecting plates 5025 downstream in the subassembly 502 that draws afterwards, and No. two connecting plates 5025 drive cylindrical shaft 5024 downstream for the product in the material loading transfer chain 2 is got to cylinder clamping jaw 5026 clamp. Then the motor 5027 drives the first belt wheel 5028 to rotate, the first belt wheel 5028 drives the second belt wheel 5029 to synchronously rotate along with the belt 5030 to drive the cylindrical shaft 5024 to rotate, the cylindrical shaft 5024 drives the clamping jaw air cylinder 5022 to rotate a product to the blanking conveying line 3, and then the product is reset.

In the above-mentioned design, through design No. one band pulley 5028, No. two band pulleys 5029, cylinder axle 5024 and linear bearing 5023, drive cylinder axle 5024 through motor 5027 and rotate, realize getting freely of product and put.

Specifically, the method comprises the following steps: both sides of the L-shaped connecting plate 5021 are provided with limiting blocks 5031.

In operation, when the pick-up assembly 502 is driven by the first linear module 503, the stopper 5031 contacts the transmission assembly 4.

In the above design, the limiting block 5031 is arranged to effectively prevent the L-shaped connecting plate from colliding with the transmission assembly 4 during movement, which may affect the extraction of the product.

Specifically, the method comprises the following steps: the detection device 6 is an industrial camera.

In the above design, the industrial camera can meet the detection requirements for the product.

Specifically, the method comprises the following steps: as shown in fig. 1, a first through hole is formed in the L-shaped connecting plate 5021, a third connecting plate 5032 is arranged on the L-shaped connecting plate 5021, the third connecting plate 5032 is located right above the first through hole, a plurality of columns 5033 are arranged on the connecting plate, the third connecting plate 5032 is fixedly connected with the L-shaped connecting plate 5021 through the columns 5033, a second through hole is formed in the third connecting plate 5032, and an output shaft of the motor 5027 passes through the third connecting plate 5032 and then is connected with a first belt pulley 5028.

During operation, after the motor 5027 rotates, the first belt wheel 5028 is driven to rotate synchronously, and then the second belt wheel 5029 is driven to rotate through the belt 5030, so that the cylindrical shaft 5024 rotates.

In the above design, the third connecting plate 5032 is arranged on the L-shaped connecting plate 5021, and the output shaft of the motor 5027 passes through the third connecting plate 5032 to be connected with the first belt pulley 5028, so that the convenience in replacing the motor 5027 can be ensured.

Specifically, the method comprises the following steps: as shown in fig. 1 and fig. 2, a first infrared photo 5034 is disposed at each of two ends of the first linear module 503, and a first bump 5035 for matching with the first infrared photo 5034 is disposed on the L-shaped connection plate 5021.

During operation, by designing the first infrared photoelectric 5034, the first bump 5035 passes through the first infrared photoelectric 5034 and then the first linear module 503 stops moving.

In the above design, the first linear module 503 can be automatically stopped when the first infrared photoelectric 5034 is matched with the first bump 5035 to drive the L-shaped connecting plate 5021 to move to the two ends of the translation shaft 5.

Specifically, the method comprises the following steps: as shown in fig. 2, the transmission assembly 4 includes a first connecting frame 401 and a second connecting frame 402 which are arranged in parallel, a second straight line module 403 for conveying the translation shaft 5 is arranged on the second connecting frame 402, a second guide rail 404 is arranged on each of the first connecting frame 401 and the second connecting frame 402, and two ends of the translation shaft 5 are respectively arranged on the two second guide rails 404 and can slide relative to the second guide rails 404.

In operation, the second linear module 403 drives the translation shaft 5, so that two ends of the translation shaft 5 slide on the two second guide rails 404.

In the design, the first connecting frame 401 and the second connecting frame 402 are arranged, and the second guide rails 404 are arranged on the first connecting frame 401 and the second connecting frame 402, so that the translation shaft 5 is stable and smooth in the moving process.

Specifically, the method comprises the following steps: as shown in fig. 2, two ends of the second linear module 403 are both provided with a second infrared photoelectric device 405, and the transmission assembly 4 is provided with a second protruding block 406 for matching with the second infrared photoelectric device 405.

In operation, when the second bump 406 passes through the second infrared photoelectric device 405, the second infrared photoelectric device 405 stops moving after the second bump 406 blocks infrared light.

In the above design, through the cooperation of the second infrared photoelectric device 405 and the second bump 406, when the second linear module 403 drives the transmission assembly 4 to move, the second linear module 403 can automatically stop when the transmission assembly 4 is driven to move to the two ends of the transmission assembly 4.

The above-mentioned embodiments, objects, technical solutions and advantages of the present invention are further described in detail, it should be understood that the above-mentioned embodiments are only examples of the present invention, and should not be construed as limiting the present invention, and any modifications, equivalents, improvements and the like made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides a detect sieve separator, includes frame (1), its characterized in that: frame (1) is gone up and is provided with material loading transfer chain (2) and unloading transfer chain (3) along the X direction, material loading transfer chain (2) and unloading transfer chain (3) parallel arrangement, material loading transfer chain (2) and unloading transfer chain (3) top are provided with drive assembly (4) along the Y direction, be provided with translation axle (5) that can follow drive assembly (4) horizontal motion on drive assembly (4), be provided with detection device (6) that are used for detecting material loading transfer chain (2) on translation axle (5), still be provided with guide rail (501) along the X direction on translation axle (5), be provided with on guide rail (501) and draw subassembly (502) and be used for the drive to draw a straight line module (503) of subassembly (502) along guide rail (501) motion, draw subassembly (502) including No. two connecting plates (5025) and set up on guide rail (501) and can be relative guide rail (501) gliding L type even guide rail (501) type even Fishplate bar (5021), be provided with cylinder (5022) and linear bearing (5023) on L type connecting plate (5021), linear bearing (5023) cover is established on L type connecting plate (5021), be provided with cylinder axle (5024) on linear bearing (5023), No. two connecting plate (5025) one end is connected with cylinder axle (5024) one end, and the other end is connected with the output shaft of cylinder (5022), cylinder axle (5024) other end is provided with cylinder clamping jaw (5026), be provided with motor (5027) on L type connecting plate (5021), be provided with No. one band pulley (5028) on the output shaft of motor (5027), No. two band pulleys (5029) have been cup jointed in cylinder axle (5024), No. one band pulley (5028) and No. two band pulley (5029) pass through belt (5030) transmission connection.

2. The testing screening machine of claim 1, wherein: both sides of the L-shaped connecting plate (5021) are provided with limiting blocks (5031).

3. The testing screening machine of claim 1, wherein: the detection device (6) is an industrial camera.

4. The testing screening machine of claim 1, wherein: a No. one through hole has been seted up in L type connecting plate (5021), set up No. three connecting plate (5032) on L type connecting plate (5021), No. three connecting plate (5032) are located directly over a through hole, set up on the connecting plate and have a plurality of stands (5033), No. three connecting plate (5032) are through stand (5033) and L type connecting plate (5021) fixed connection, be provided with No. two through-holes on No. three connecting plate (5032), motor (5027) output shaft passes behind No. three connecting plate (5032) and is connected with a band pulley (5028).

5. The testing screening machine of claim 1, wherein: the two ends of the first straight line module (503) are respectively provided with a first infrared photoelectric device (5034), and the L-shaped connecting plate (5021) is provided with a first bump (5035) matched with the first infrared photoelectric device (5034).

6. The testing screening machine of claim 1, wherein: drive assembly (4) are including parallel arrangement's link (401) and No. two link (402), be provided with No. two straight line module (403) that are used for carrying translation axle (5) on No. two link (402), all be provided with guide rail No. two (404) on link (401) and No. two link (402), translation axle (5) both ends set up respectively on two guide rail No. two (404) and can slide relatively guide rail No. two (404).

7. The assay screening machine of claim 6, wherein: two ends of the second straight line module (403) are both provided with a second infrared photoelectric device (405), and the transmission component (4) is provided with a second convex block (406) matched with the second infrared photoelectric device (405).

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