CN216827545U - Transport mechanism is used in capillary production - Google Patents

Abstract

The utility model provides a transport mechanism is used in capillary production relates to capillary technical field, including the transport mechanism body, two first L type pieces are installed through first bolt in the top of transport mechanism body. The utility model discloses an at the rectangle piece, the mount pad, the bull stick, change the leaf, including a motor, an end cap, a controller, and a cover plate, first water conservancy diversion piece, the honeycomb duct, be equipped with under the cooperation of the semicircular groove of water and second water conservancy diversion piece, can make the capillary after the production remove dust and handle, the influence of dust to environment and people's health has been reduced promptly, improve the availability factor of transport mechanism body promptly effectively, under the cooperation of first L type piece and first bolt, can be with the stable fixing of rectangle piece on the transport mechanism body, under the cooperation of second bolt and second L type piece, can fix the honeycomb duct on the transport mechanism body, under the effect of honeycomb duct, can be with rinsing the capillary water conservancy diversion after well on the transport mechanism body's the conveyer belt.

Description

Transport mechanism is used in capillary production

Technical Field

The utility model relates to a capillary technical field especially relates to a transport mechanism is used in capillary production.

Background

Capillary tubes are thin tubes with an internal diameter of 1 mm or less and are used in medicine and in construction materials.

The existing conveying mechanism for capillary tube production has single use function, can only carry out the transportation of capillary materials, and can not carry out simple dust removal treatment on the produced capillary tubes, namely, the use efficiency of the conveying mechanism is reduced, so that a novel conveying mechanism for capillary tube production needs to be provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving current technique, current transport mechanism body service function singleness can only carry out the transportation of capillary material, and can not carry out simple dust removal processing to the capillary after the production, reduces transport mechanism body availability factor's problem promptly, and the transport mechanism is used in capillary production that proposes.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a transport mechanism is used in capillary production, includes the transport mechanism body, two first L type pieces, two are installed through first bolt in the top of transport mechanism body be fixed with the rectangular block between the relative one side of first L type piece, two mount pads, two are installed to the bottom of first L type piece rotate between the inside of mount pad and be connected with the bull stick, the surface equidistance of bull stick distributes and is fixed with three commentaries on classics leaf, the one end of bull stick is fixed with the motor, and the motor is the one side of installing at the rectangular block, fixed first water conservancy diversion piece between the top of two rectangular blocks, second L type piece, two are installed through the second bolt in the top of transport mechanism body be fixed with the honeycomb duct between the relative one side of second L type piece, the semicircular groove has been seted up at the top of rectangular block.

Preferably, the bottom of the flow guide pipe is provided with a concave trapezoidal block.

Preferably, third L-shaped blocks are fixed on two sides of the concave trapezoidal block, and the two third L-shaped blocks are installed on the flow guide pipe through third bolts.

Preferably, the top of the inner wall of the draft tube is provided with a rectangular groove.

Preferably, a plurality of cylindrical holes are formed in the bottom of the inner wall of the flow guide pipe in an equidistant distribution mode.

Preferably, the discharge end of the conveying mechanism body is provided with a second flow guide block through a fourth bolt.

Compared with the prior art, the utility model has the advantages and positive effects that,

1. the utility model discloses in, through at the rectangle piece, the mount pad, the bull stick, change the leaf, including a motor, an end cap, a controller, and a cover plate, first water conservancy diversion piece, the honeycomb duct, be equipped with under the cooperation of the semicircular groove of water and second water conservancy diversion piece, can make the capillary after the production remove dust and handle, the influence of dust to environment and people health has been reduced promptly, improve the availability factor of transport mechanism body promptly effectively, under the cooperation of first L type piece and first bolt, can be with the stable fixing of rectangle piece on the transport mechanism body, under the cooperation of second bolt and second L type piece, can fix the honeycomb duct on the transport mechanism body, under the effect of honeycomb duct, can be with rinsing on the conveyer belt of transport mechanism body with the capillary water conservancy diversion after good.

2. The utility model discloses in, through under the effect in the cylinder hole, can store the water conservancy diversion on the capillary that has water after wasing concave type trapezoidal piece, under the cooperation of third bolt and third L type piece, can let concave type trapezoidal piece carry out quick dismouting on the honeycomb duct, be convenient for clear up the inside water of concave type trapezoidal piece, under the effect of rectangular channel, be convenient for observe the inside condition of capillary entering honeycomb duct after being washd.

Drawings

FIG. 1 is a perspective view of a transport mechanism for capillary tube production according to the present invention;

FIG. 2 is another perspective view of the capillary tube production transport mechanism according to the present invention;

fig. 3 is the utility model provides a capillary production is with transport mechanism's part cuts off perspective view.

Illustration of the drawings: 1. a transport mechanism body; 2. a first L-shaped block; 3. a rectangular block; 4. a mounting seat; 5. a rotating rod; 6. rotating the leaves; 7. a motor; 8. a first flow guide block; 9. a flow guide pipe; 10. a second L-shaped block; 11. a concave trapezoidal block; 12. a third L-shaped block; 13. a rectangular groove; 14. a cylindrical bore; 15. a second flow guide block; 16. a semicircular groove.

Detailed Description

In order to make the above objects, features and advantages of the present invention more clearly understood, the present invention will be further described with reference to the accompanying drawings and examples. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the present invention is not limited to the limitations of the specific embodiments of the present disclosure.

Embodiment 1, as shown in fig. 1-3, the utility model provides a transport mechanism for capillary tube production, which comprises a transport mechanism body 1, two first L-shaped blocks 2 are installed on the top of the transport mechanism body 1 through first bolts, a rectangular block 3 is fixed between opposite sides of the two first L-shaped blocks 2, two installation bases 4 are installed on the bottoms of the two first L-shaped blocks 2, a rotating rod 5 is rotatably connected between the insides of the two installation bases 4, three rotating vanes 6 are distributed and fixed on the outer surface of the rotating rod 5 at equal intervals, a motor 7 is fixed on one end of the rotating rod 5, the motor 7 is installed on one side of the rectangular block 3, a first flow guide block 8 is fixed between the tops of the two rectangular blocks 3, a second L-shaped block 10 is installed on the top of the transport mechanism body 1 through second bolts, a flow guide pipe 9 is fixed between opposite sides of the two second L-shaped blocks 10, a semicircular groove 16 is opened on the top of the rectangular block 3, and a second flow guide block 15 is installed at the discharge end of the conveying mechanism body 1 through a fourth bolt.

The effect that whole embodiment 1 reached is, when the capillary after production needs to carry on the conveying with the transport mechanism body 1, put right amount of water in the inside of the semicircular groove 16 at first, then guide the capillary produced to the first water conservancy diversion piece 8, later under the effect of first water conservancy diversion piece 8, direct guide the capillary to the rotating vane 6, meanwhile, start the electrical machinery 7, the electrical machinery 7 that will start at this moment will drive the rotating lever 5 to rotate through the mount pad 4, and the rotating lever 5 that rotates will drive all rotating vanes 6 to rotate, when the rotating vane 6 rotates, the rotating vane 6 will drive the capillary that is guided to the rotating vane 6 to enter the semicircular groove 16 that is equipped with water, when the capillary carries on the aquatic, the dust on the capillary will be washed off by the water directly, then the rotating vane 6 will bring up the capillary from the aquatic, when the capillary moves to the appropriate position, under the effect of gravity, the capillary can directly be followed and turned on 6 landing, the capillary can directly be guided to the inside of honeycomb duct 9 afterwards, directly guide to the conveyer belt of transport mechanism body 1 and carry out the conveying from the inside of honeycomb duct 9 at last, when the capillary removed the end of conveyer belt, at this moment under the effect of second water conservancy diversion piece 15, directly can guide to the collection frame that the staff prepared, give the sanitization with the dust on capillary surface in capillary transportation process effectively promptly, protected environment and people's health promptly, improve the availability factor of transport mechanism body 1 promptly effectively.

The conveying mechanism body 1 is prior art, and will not be explained in detail here.

Embodiment 2, as shown in fig. 1-3, the bottom of honeycomb duct 9 is provided with concave trapezoidal block 11, and the both sides of concave trapezoidal block 11 all are fixed with third L type piece 12, and two third L type pieces 12 all install on honeycomb duct 9 through the third bolt, and rectangular channel 13 has been seted up at the inner wall top of honeycomb duct 9, and a plurality of cylinder holes 14 have been seted up to the inner wall bottom equidistance distribution of honeycomb duct 9.

The effect that its whole embodiment 2 reached is, in order to prevent that the capillary after being washd from taking water to be led to honeycomb duct 9 together, the heel capillary is led to the conveyer belt of transport mechanism body 1 together, cause the condition that the capillary becomes dirty once more, at this moment when the capillary just had been led to honeycomb duct 9 on, under the effect of a plurality of cylinder holes 14, the water on capillary surface can be under the effect of gravity, directly drop to the inside of concave trapezoidal piece 11 and collect, avoided effectively that above-mentioned water from reaching the condition that causes the capillary to become dirty once more on the conveyer belt, when the inside water of concave trapezoidal piece 11 needs to be cleared up, directly take off the third bolt this moment, utilize third L type piece 12 to drive concave trapezoidal piece 11 and shift out the bottom of honeycomb duct 9, carry out inside water clearance can.

The working principle is as follows: when the produced capillary tube needs to be conveyed by the conveying mechanism body 1, firstly, a proper amount of water is placed in the semicircular groove 16, then, the produced capillary tube is guided to the first guide block 8, then, the capillary tube is directly guided to the rotating vane 6 under the action of the first guide block 8, meanwhile, the motor 7 is started, the started motor 7 can drive the rotating lever 5 to rotate through the mounting seat 4, the rotating lever 5 can drive all the rotating vanes 6 to rotate rotationally, when the rotating vane 6 rotates, the rotating vane 6 can drive the capillary tube guided to the rotating vane 6 to enter the semicircular groove 16 filled with water, when the capillary tube is in water, dust on the capillary tube can be directly cleaned by the water, then, the rotating vane 6 can bring the capillary tube up from the water, when the capillary tube moves to a proper position, under the action of gravity, the capillary tube can directly slide from the rotating blade 6 and then fall onto the guide tube 9, when the capillary tube is just guided to the guide tube 9, water on the surface of the capillary tube can directly fall into the concave trapezoidal block 11 for collection under the action of the plurality of cylindrical holes 14, namely the situation that the capillary tube becomes dirty again when the water reaches the conveyer belt is effectively avoided, then the dewatered capillary tube can be directly guided to the conveyer belt of the conveyer mechanism body 1 for conveying from the inside of the guide tube 9, when the capillary tube moves to the tail end of the conveyer belt, the capillary tube can be directly guided to a collection frame prepared by a worker under the action of the second guide block 15, namely dust on the surface of the capillary tube is effectively cleaned in the capillary tube conveying process, namely the environment and the health of people are protected, namely the use efficiency of the conveyer mechanism body 1 is effectively improved, when the water in the concave trapezoidal block 11 needs to be cleaned, the third bolt is directly taken down at the moment, the concave trapezoidal block 11 is driven by the third L-shaped block 12 to move out of the bottom of the flow guide pipe 9, and the internal water is cleaned.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in other forms, and any person skilled in the art may apply the equivalent embodiments modified or modified by the above technical contents disclosed as equivalent variations to other fields, but any simple modifications, equivalent changes and modifications made to the above embodiments according to the technical spirit of the present invention will still fall within the protection scope of the technical solution of the present invention.

Claims (6)

1. The utility model provides a transport mechanism is used in capillary production, includes transport mechanism body (1), its characterized in that: the conveying mechanism is characterized in that two first L-shaped blocks (2) are installed at the top of the conveying mechanism body (1) through first bolts, rectangular blocks (3) are fixed between opposite sides of the two first L-shaped blocks (2), two installation bases (4) are installed at the bottom of the two first L-shaped blocks (2), two rotating rods (5) are rotatably connected between the insides of the installation bases (4), three rotating blades (6) are distributed and fixed on the outer surface of each rotating rod (5) in an equidistance mode, a motor (7) is fixed at one end of each rotating rod (5), the motor (7) is installed on one side of each rectangular block (3), a first flow guide block (8) is fixed between the tops of the two rectangular blocks (3), a second L-shaped block (10) is installed at the top of the conveying mechanism body (1) through second bolts, and a flow guide pipe (9) is fixed between opposite sides of the two second L-shaped blocks (10), the top of the rectangular block (3) is provided with a semicircular groove (16).

2. The transport mechanism for capillary production according to claim 1, wherein: and a concave trapezoidal block (11) is arranged at the bottom of the flow guide pipe (9).

3. The transport mechanism for capillary production according to claim 2, wherein: and third L-shaped blocks (12) are fixed on two sides of the concave trapezoidal block (11), and the two third L-shaped blocks (12) are installed on the flow guide pipe (9) through third bolts.

4. The transport mechanism for capillary production according to claim 1, wherein: and a rectangular groove (13) is formed in the top of the inner wall of the flow guide pipe (9).

5. The transport mechanism for capillary production according to claim 1, wherein: and a plurality of cylindrical holes (14) are distributed at the bottom of the inner wall of the draft tube (9) at equal intervals.

6. The transport mechanism for capillary production according to claim 1, wherein: and a second flow guide block (15) is installed at the discharge end of the conveying mechanism body (1) through a fourth bolt.

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