CN108974680B - Automatic bin of arranging of silicone tube - Google Patents

Abstract

an automatic silicone tube discharging bin comprises a bin bottom plate, a bin discharging mechanism, a bin frame and a material tube detection mechanism, wherein the bin discharging mechanism, the bin frame and the material tube detection mechanism are fixedly arranged on the bin bottom plate; the material pipe detection mechanism comprises a guide rail mounting block, a detection mounting plate is mounted on the guide rail mounting plate, a detection needle is arranged on the detection mounting plate, and a return spring is arranged between the detection mounting plate and the detection needle; the photoelectric switch board is arranged below the detection mounting board, a photoelectric switch is arranged on the photoelectric switch board, and the photoelectric switch is located under the detection needle. The invention provides an automatic silicone tube discharging bin which achieves the effects of automatic discharging of silicone tubes and accurate detection of whether a material tube is discharged or not.

Description

Automatic bin of arranging of silicone tube

Technical Field

the invention relates to the technical field of silicone tube discharging, in particular to an automatic silicone tube discharging bin.

background

The silicone tube is processed by high-quality silicone rubber, has the characteristics of softness, insulation, high temperature resistance, stable performance and the like, and is widely applied to insulation protection of various electrical appliances, medical instruments and electronic instruments or used as a water delivery pipe of a water dispenser and a coffee pot;

among the prior art, silicone tube often adopts the manual work to arrange material, pendulum material operation because of its material is soft, and the material loading operation is because whether the material agent of material pipe has been discharged to the manual work row material can't accurately judge when the material pipe is arranged to produce to cause unnecessary waste and influence for production.

Disclosure of Invention

The invention aims to provide an automatic silicone tube discharging bin, which realizes the effects of automatic discharging of silicone tubes and accurate detection of whether a material pipe is discharged.

in order to achieve the purpose, the invention adopts the following technical scheme:

An automatic silicone tube discharging bin comprises a bin bottom plate, a bin discharging mechanism, a bin frame and a material tube detecting mechanism, wherein the bin discharging mechanism, the bin frame and the material tube detecting mechanism are fixedly arranged on the bin bottom plate;

the material pipe detection mechanism comprises a guide rail mounting block, a detection mounting plate is mounted on the guide rail mounting plate, a detection needle is arranged on the detection mounting plate, and a return spring is arranged between the detection mounting plate and the detection needle; and a photoelectric switch board is arranged below the detection mounting board, a photoelectric switch is arranged on the photoelectric switch board, and the photoelectric switch is positioned under the detection needle.

Preferably, the bin discharging mechanism comprises a large grid plate discharging device, and the large grid plate discharging device comprises a grid fixing plate, a slider connecting plate, a movable guide rail and a guide rail connecting block;

the side surface of the grid fixing plate is provided with a large grid block, the bottom of the grid fixing plate is connected with the sliding block connecting plate, and the lower end of the sliding block connecting plate is provided with the large grid sliding block;

The guide rail connecting block is fixed on the stock bin bottom plate, the movable guide rail is fixed above the guide rail connecting block, and the large grid sliding block is erected on the movable guide rail and can move transversely along the movable guide rail.

Preferably, the large grid plate discharging device further comprises a first connecting plate, a second connecting plate, a buffer fixing block and a cylinder mounting block;

The buffer fixing block is fixed on the stock bin bottom plate, and a buffer is arranged at the top of the buffer fixing block;

the air cylinder mounting block is positioned below the front end of the buffer and is mutually fixed with the buffer fixing block, and a large grid power air cylinder is arranged on the air cylinder mounting block;

the second connecting plate is fixedly connected with the sliding block connecting plate and the first connecting plate, and the first connecting plate is connected with the large grid plate power cylinder.

Preferably, the bin discharging mechanism further comprises a small grid plate discharging device, and the small grid plate discharging device comprises a speed reducing motor, a cam shaft and a small grid connecting block;

the speed reducing motor drives the cam shaft to rotate, the cam shaft is fixedly connected with the small grid connecting block, and the small grid block is arranged above the small grid connecting block.

Preferably, the bin frame comprises a bin support and a bin, and the bin is formed by splicing a left side bin plate, a right side bin plate, a front bin plate, a rear bin plate and a bottom bin plate;

The bin support comprises a left support rod, a right support rod, a top connecting rod, a support rod sliding block and a support rod guide rail;

the support rod guide rail is fixedly arranged on the bottom plate of the storage bin, the support rod sliding block is fixedly arranged at the bottom end of the support rod, and the support rod sliding block can move back and forth along the support rod guide rail;

and the top connecting rod is erected between the left supporting rod and the right supporting rod, and the top connecting rod and the top of the rear storage bin plate are fixed mutually.

preferably, the bottom bin plate is provided with a bottom bin plate support, and the bottom bin plate support is fixed between the bin bottom plate and the bottom bin plate;

Control two the edge of side feed bin board and preceding feed bin board all is provided with feed bin branch, feed bin branch is fixed on the feed bin bottom plate.

Preferably, the material pipe detection mechanism further comprises a connecting bottom plate, the connecting bottom plate is fixed on the stock bin bottom plate, the guide rail mounting blocks are vertically arranged on the left side and the right side of the top of the connecting bottom plate, and the power cylinder is mounted in the middle of the connecting bottom plate; and an air cylinder connecting plate is erected between the tops of the two guide rail mounting blocks and is fixed with the power air cylinder through a floating joint.

Preferably, the slider connecting plate is provided with two reinforcing plates, and the reinforcing plates are respectively fixed on the slider connecting plate and the grid fixing plate.

preferably, one end of the bin supporting rod is fixed with the edges of the side bin plate and the front bin plate, the other end of the bin supporting rod is fixed with the bin bottom plate, and an angle formed between the bin supporting rod and the bin bottom plate is an acute angle.

preferably, the side bin plate and the front bin plate are provided with grid hole sites. .

drawings

FIG. 1 is a front view structural diagram of an integral bin for automatically discharging silicone tubes;

FIG. 2 is a perspective view of the bin discharge mechanism of the present invention;

FIG. 3 is a front structural view of the bin discharge mechanism of the present invention;

FIG. 4 is a perspective view of the bin frame of the present invention;

fig. 5 is a perspective view of the material tube detecting mechanism of the present invention.

Wherein: the device comprises a bin bottom plate 1, a bin discharging mechanism 2, a grid fixing plate 21, a reinforcing plate 22, a slider connecting plate 23, a large grid slider 24, a movable guide rail 25, a guide rail connecting block 26, a buffer 27, a buffer fixing block 28, an air cylinder mounting block 29, a large grid power air cylinder 210, a first connecting plate 211, a second connecting plate 212, a speed reducing motor 213, a cam shaft 214, a small grid connecting block 215, a small grid block 216, a large grid block 217, a bin frame 3, a bin support 31, a support rod 311, a top connecting rod 312, a side bin plate 32, a front bin plate 33, a rear bin plate 34, a bin support rod 35, a support rod guide rail 36, a support rod slider 37, a bottom bin plate 38, a bottom bin plate support 39, a material pipe detection mechanism 4, a connecting bottom plate 41, a guide rail mounting block 42, a power air cylinder 43, a floating joint 44, an air cylinder connecting plate 45, a detection mounting plate 46, Photoelectric switch 48, detection needle 49, return spring 410.

Detailed Description

the technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

In this embodiment, an automatic silicone tube discharging bin is shown in fig. 1 and includes a bin bottom plate 1, a bin discharging structure 2, a bin frame 3 and a material tube detecting mechanism 4, where the bin discharging structure 2, the bin frame 3 and the material tube detecting mechanism 4 are all fixedly mounted on the bin bottom plate 1, the bin discharging structure 2 is covered by the bin frame 3, and the material tube detecting mechanism 4 is mounted in the middle of two sides of the bin discharging structure 2;

As shown in fig. 5, the material pipe detecting mechanism 4 includes a guide rail mounting block 42, a detecting mounting plate 46 is mounted on the guide rail mounting block, a detecting needle 49 is disposed on the detecting mounting plate 46, and a return spring 410 is disposed between the detecting mounting plate 46 and the detecting needle 49; and a photoelectric switch plate 47 is arranged below the detection mounting plate 46, a photoelectric switch 48 is arranged on the photoelectric switch plate 47, and the photoelectric switch 48 is positioned under the detection pin 49.

The detection needle 49 arranged on the detection mounting plate 46 is used for contacting the detection material pipe, and the photoelectric switch 48 is used for detecting whether the detection needle 49 is detected or not so as to judge whether the material pipe is filled or not, and the detection judgment result shows an operation principle; the return spring 410 is used for returning the detection needle 49, and whether the material tube is discharged or not is judged through the matching use of the detection needle 49 and the photoelectric switch 48.

Preferably, as shown in fig. 2, the bin discharging structure 2 comprises a large grid plate discharging device, and the large grid plate discharging device comprises a grid fixing plate 21, a slider connecting plate 23, a moving guide rail 25 and a guide rail connecting block 26;

the side surface of the grid fixing plate 21 is provided with a large grid block 217, the bottom of the grid fixing plate 21 is connected with the slide block connecting plate 23, and the lower end of the slide block connecting plate 23 is provided with the large grid slide block 24;

The guide rail connecting block 26 is fixed on the stock bin bottom plate 1, the movable guide rail 25 is fixed above the guide rail connecting block 26, and the large grid sliding block 24 is erected on the movable guide rail 25 and can transversely move along the movable guide rail 25.

The grid fixing plate 21 is used for fixing the large grid block 217, the sliding block connecting plate 23 serves as a basis for free movement of the large grid block 217, and the sliding block connecting plate 23 transversely slides on the moving guide rail 25 through the large grid sliding block 24, so that transverse sliding of the large grid block 217 is achieved, and a transverse integral material discharging function is achieved.

preferably, as shown in fig. 2 and 3, the large grid plate discharging device further includes a first connecting plate 211, a second connecting plate 212, a buffer fixing block 28, and a cylinder mounting block 29;

the buffer fixing block 28 is fixed on the stock bin bottom plate 1, and a buffer 27 is arranged at the top of the buffer fixing block 28;

the cylinder mounting block 29 is positioned below the front end of the buffer 27 and fixed with the buffer fixing block 28, and the cylinder mounting block 29 is provided with a large grid power cylinder 210;

the second connecting plate 212 connects and fixes the slider connecting plate 23 and the first connecting plate 211, and the first connecting plate 211 is connected with the large-grid power cylinder 43.

The large grid power cylinder 210 provides power support for the transverse movement of the large grid block 217, the large grid power cylinder 210 drives the first connecting plate 211 to move, the first connecting plate 211 is fixed with the second connecting plate 212, and the second connecting plate 212 is fixed with the sliding block connecting plate 23, so that the whole large grid block 217 is driven to move.

the buffer 27 can abut against the grid fixing plate 21 when the large grid block 217 moves transversely, so as to provide a buffer force for the large grid block 217 and prevent the large grid block 217 from being damaged due to inertia.

preferably, as shown in fig. 3, the bin discharging structure 2 further comprises a small grid discharging device, wherein the small grid discharging device comprises a speed reducing motor 213, a cam shaft 214 and a small grid connecting block 215;

The speed reducing motor 213 drives the cam shaft 214 to rotate, the cam shaft 214 is fixedly connected with the small grid connecting block 215, and the small grid block 216 is arranged above the small grid connecting block 215.

When the large grid block 217 moves transversely, the small grid block 216 also moves transversely under the driving of the cam shaft 214 synchronously, but the movement direction of the small grid block 216 is opposite to that of the large grid block 217 although the small grid block moves synchronously; the geared motor 213 provides power support. The transverse movement of the small grid block 216 realizes the secondary accurate discharging function.

Preferably, as shown in fig. 4, the bin frame 3 includes a bin support 31 and a bin, and the bin is formed by splicing a left side bin plate 32, a right side bin plate 32, a front bin plate 33, a rear bin plate 34 and a bottom bin plate 38;

the bin bracket 31 comprises a left support rod 311, a right support rod 311, a top connecting rod 312, a support rod sliding block 37 and a support rod guide rail 36;

The support rod guide rail 36 is fixedly installed on the bottom plate 1 of the storage bin, the support rod sliding block 37 is fixedly installed at the bottom end of the support rod 311, and the support rod sliding block 37 can move back and forth along the support rod guide rail 36;

the top connecting rod 312 is erected between the left supporting rod 311 and the right supporting rod 311, and the top connecting rod 312 and the top of the rear bin plate 34 are fixed to each other.

the bin support 31 can move back and forth on the support rod guide rail 36, so that the bin plate 34 is driven to move back and forth, the size of the bin is compatible, and discharging of material pipes with different sizes is considered.

Preferably, the bottom silo plate 38 is provided with a bottom silo plate bracket 39, and the bottom silo plate bracket 39 is fixed between the silo bottom plate 1 and the bottom silo plate 38;

Control two the edge of side feed bin board 32 and preceding feed bin board 33 all is provided with feed bin branch 35, feed bin branch 35 is fixed on the feed bin bottom plate 1.

The bottom silo plate support 39 is used to support the bottom silo plate 38, and the silo strut 35 is used to support the side silo plate 32 and the front silo plate 33, so that the whole silo is firm and stable.

Preferably, the material pipe detection mechanism 4 further comprises a connection bottom plate 41, the connection bottom plate 41 is fixed on the stock bin bottom plate 1, the guide rail mounting blocks 42 are vertically arranged on the left side and the right side of the top of the connection bottom plate 41, and the power cylinder 43 is arranged in the middle of the connection bottom plate; and an air cylinder connecting plate 45 is erected between the tops of the two guide rail mounting blocks 42, and the air cylinder connecting plate 45 is fixed with the power air cylinder 43 through a floating joint 44.

the guide rail mounting block 42 mainly plays a role in supporting and fixing, is used for supporting the detection mounting plate 46, fixes the air cylinder connecting plate 45, provides power through the power air cylinder 43, realizes the up-and-down movement of the detection needle 49 on the detection mounting plate 46, and provides a power basis for the detection of the detection needle 49.

preferably, two reinforcing plates 22 are arranged on the slider connecting plate 23, and the reinforcing plates 22 are respectively fixed on the slider connecting plate 23 and the grid fixing plate 21.

The reinforcing plate 22 serves to stabilize the slider connecting plate 23 and the grid fixing plate 21.

preferably, one end of the bin support rod 35 is fixed to the edges of the side bin plate 32 and the front bin plate 33, the other end of the bin support rod is fixed to the bin bottom plate 1, and an angle formed between the bin support rod 35 and the bin bottom plate 1 is an acute angle.

Preferably, the side silo plate 32 is provided with grid hole sites. The grid hole sites are used for facilitating the discharge of the material pipe.

the operation principle of the embodiment is as follows:

The silicone tube stores materials in a storage bin, a large grid power cylinder 210 is fixed with a first connecting plate 211, the large grid power cylinder 210 drives the first connecting plate 211 to move transversely, the first connecting plate 211 is fixed with a second connecting plate 212, the second connecting plate 212 is fixed with a slider connecting plate 23, so that the slider connecting plate 23 is driven to move transversely along a slider moving guide rail 25, and finally a large grid block 217 on a grid fixing plate 21 fixed with the slider connecting plate 23 is driven to move transversely to match with grid hole positions of a side bin plate 32, and accurate material discharging of the material tube is realized;

Meanwhile, when the large grid block 217 moves transversely, the speed reducing motor 213 drives the cam shaft 214 to rotate, the cam shaft 214 is fixed with the small grid connecting block 215, the small grid connecting block 215 is fixed with the small grid block 216, and finally the small grid block 216 is driven to move transversely, but the moving direction is opposite to that of the large grid block 217, and the grid hole positions of the front bin plate 33 are matched, so that secondary accurate discharging of the material pipe is realized.

The material pipe detection mechanism 4 drives the detection needle 49 on the detection mounting plate 46 to wholly move up and down under the power support of the power cylinder 43, the reset spring 410 resets the detection needle 49, and the photoelectric switch located right below the detection needle 49 senses the existence of the detection needle 49 so as to judge whether the material pipe has the discharge material or not, when the cylinder pushes upwards, the detection needle 49 pushes the material pipe part, the detection needle 49 compresses the spring, the bottom of the detection needle 49 is located in the photoelectric switch 48, the material is contained in the material pipe, otherwise, the material is not contained;

The whole cooperation through back feed bin board 34 and bracing piece guide rail 36, bracing piece slider 37 of feed bin makes back feed bin board 34 also remove thereupon through the removal of bracing piece slider 37 in guide rail department to the increase with reduce the space size of feed bin, the material pipe of compatible certain size range.

The technical principle of the present invention is described above in connection with specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without inventive effort, which would fall within the scope of the present invention.

Claims (10)

1. The utility model provides an automatic bin of arranging of silicone tube, arranges material mechanism, feed bin framework and material pipe detection mechanism including feed bin bottom plate, feed bin, the equal fixed mounting of feed bin row material mechanism, feed bin framework and material pipe detection mechanism is in on the feed bin bottom plate, the cover of feed bin framework is established feed bin row material mechanism, material pipe detection mechanism installs in the middle of feed bin row material mechanism both sides, its characterized in that:

The material pipe detection mechanism comprises a guide rail mounting block, a detection mounting plate is mounted on the guide rail mounting plate, a detection needle is arranged on the detection mounting plate, and a return spring is arranged between the detection mounting plate and the detection needle; and a photoelectric switch board is arranged below the detection mounting board, a photoelectric switch is arranged on the photoelectric switch board, and the photoelectric switch is positioned under the detection needle.

2. the automatic bin of arranging of silicone tube of claim 1, characterized in that:

The bin discharging mechanism comprises a large grid plate discharging device, and the large grid plate discharging device comprises a grid fixing plate, a sliding block connecting plate, a movable guide rail and a guide rail connecting block;

The side surface of the grid fixing plate is provided with a large grid block, the bottom of the grid fixing plate is connected with the sliding block connecting plate, and the lower end of the sliding block connecting plate is provided with the large grid sliding block;

The guide rail connecting block is fixed on the stock bin bottom plate, the movable guide rail is fixed above the guide rail connecting block, and the large grid sliding block is erected on the movable guide rail and can move transversely along the movable guide rail.

3. the automatic bin of arranging of silicone tube of claim 2, characterized in that:

the large grid plate discharging device also comprises a first connecting plate, a second connecting plate, a buffer fixing block and a cylinder mounting block;

the buffer fixing block is fixed on the stock bin bottom plate, and a buffer is arranged at the top of the buffer fixing block;

The air cylinder mounting block is positioned below the front end of the buffer and is mutually fixed with the buffer fixing block, and a large grid power air cylinder is arranged on the air cylinder mounting block;

the second connecting plate is fixedly connected with the sliding block connecting plate and the first connecting plate, and the first connecting plate is connected with the large grid plate power cylinder.

4. The automatic bin of arranging of silicone tube of claim 2, characterized in that:

the bin discharging mechanism further comprises a small grid plate discharging device, and the small grid plate discharging device comprises a speed reducing motor, a cam shaft and a small grid connecting block;

the speed reducing motor drives the cam shaft to rotate, the cam shaft is fixedly connected with the small grid connecting block, and the small grid block is arranged above the small grid connecting block.

5. The automatic bin of arranging of silicone tube of claim 1, characterized in that:

The storage bin frame comprises a storage bin support and a storage bin, and the storage bin is formed by splicing a left side storage bin plate, a right side storage bin plate, a front storage bin plate, a rear storage bin plate and a bottom storage bin plate;

The bin support comprises a left support rod, a right support rod, a top connecting rod, a support rod sliding block and a support rod guide rail;

The support rod guide rail is fixedly arranged on the bottom plate of the storage bin, the support rod sliding block is fixedly arranged at the bottom end of the support rod, and the support rod sliding block can move back and forth along the support rod guide rail;

And the top connecting rod is erected between the left supporting rod and the right supporting rod, and the top connecting rod and the top of the rear storage bin plate are fixed mutually.

6. the automatic bin of arranging of silicone tube of claim 5, characterized in that:

the bottom bin plate is provided with a bottom bin plate bracket, and the bottom bin plate bracket is fixed between the bin bottom plate and the bottom bin plate;

Control two the edge of side feed bin board and preceding feed bin board all is provided with feed bin branch, feed bin branch is fixed on the feed bin bottom plate.

7. The automatic bin of arranging of silicone tube of claim 1, characterized in that:

the material pipe detection mechanism also comprises a connecting bottom plate, the connecting bottom plate is fixed on the stock bin bottom plate, the guide rail mounting blocks are vertically arranged on the left side and the right side of the top of the connecting bottom plate, and a power cylinder is arranged in the middle of the connecting bottom plate; and an air cylinder connecting plate is erected between the tops of the two guide rail mounting blocks and is fixed with the power air cylinder through a floating joint.

8. the automatic bin of arranging of silicone tube of claim 2, characterized in that:

the slider connecting plate is provided with two reinforcing plates which are respectively fixed on the slider connecting plate and the grid fixing plate.

9. The automatic bin of arranging of silicone tube of claim 6, characterized in that:

One end of the bin supporting rod is fixed with the edges of the side bin plate and the front bin plate, the other end of the bin supporting rod is fixed with the bin bottom plate, and an angle formed between the bin supporting rod and the bin bottom plate is an acute angle.

10. The automatic bin of arranging of silicone tube of claim 5, characterized in that:

And grid hole sites are arranged on the side bin plate and the front bin plate.