CN106006075B - The rotary push plate loader in front end - Google Patents

Abstract

The present invention relates to a kind of rotary push plate loaders in front end, including hopper, push plate, rotating wheel and connecting rod, the push plate is connect by connecting rod with rotating wheel, form a crank block slider structure, rotating wheel rotates driven by the motor, when rotating wheel rotates, push plate slides up and down in hopper, rolling unit is fixedly connected at the top of the push plate, when push plate slides into feed hopper bottom, heparin tube slides on the left of the rolling unit at the top of push plate and hopper between baffle, push plate just pushes heparin tube and up moves, when the force of sliding friction between heparin tube and hopper is small, heparin tube is up moving for slidingtype, when force of sliding friction is big between heparin tube and hopper, heparin tube is up moving for roller under the action of rolling unit.Advantage, which is to solve, blocks Guan Xianxiang because caused by frictional force causes greatly heparin tube pipe cap to deform, while thrust needed for dropping bottom push plate, reduces energy consumption.

Description

Front end rotary push plate feeder

Technical Field

The invention relates to a mechanical conveying device, in particular to a front-end rotary push plate loading device for conveying medical blood collection tubes

Background

The medical blood collection tube is a common medical appliance, the front ends of a blood collection management system and a blood collection tube sorting management system of the medical blood collection tube often push the blood collection tube to a conveying belt line, and the blood collection tube moves forwards in a sliding mode in the pushing process of the existing pushing mechanism. The tube caps of many blood collection tubes are made of plastic materials, are low in hardness and easy to deform, have high friction coefficient with other materials, and the tube deforms in the pushing process to clamp the push plate, so that pushing cannot be completed.

Disclosure of Invention

In order to solve the defects in the prior art, the invention aims to provide a novel push plate feeder capable of solving the problem of pipe clamping.

In order to achieve the purpose, the front-end rotary type push plate feeder comprises a hopper, a push plate, a rotating wheel and a connecting rod, wherein the push plate is connected with the rotating wheel through the connecting rod to form a slider-crank structure, the rotating wheel rotates under the driving of a motor, when the rotating wheel rotates, the push plate slides up and down in the hopper, a rolling unit is fixedly connected to the top of the push plate, when the push plate slides to the bottom of the hopper, a blood sampling tube slides between the rolling unit at the top of the push plate and a baffle on the left side of the hopper, the push plate pushes the blood sampling tube to move up, when the sliding friction force between the blood sampling tube and the hopper is small, the blood sampling tube moves up in a sliding mode, when the sliding friction force between the blood sampling tube and the hopper is large, and the blood sampling tube moves up in a rolling.

Preferably, the rolling unit is a roller assembly, the roller assembly comprises a push block, a left stop block, a right stop block and a front roller, the left side of the push block is provided with the left stop block, the right side of the push block is provided with the right stop block, the front roller can extend into the blind holes of the left stop block and the right stop block, and the front roller can rotate in the blind holes.

Advantageously, the roller assembly further comprises a semi-cylindrical slot in the pusher, the front roller being within the semi-cylindrical slot, the front roller being outside the slot with the top and middle and bottom portions in the slot, the front roller being capable of rolling within the semi-cylindrical slot of the pusher, the left and right stops being capable of restraining the front roller within the semi-cylindrical slot of the pusher.

Advantageously, at least one bottom roller is mounted in the hopper, adjacent to the push plate, and is rotatable, when the push plate slides downwards, friction is generated between the lowermost blood collection tube and the push plate, and the friction force generated can enable the blood collection tube and the bottom roller to rotate together.

Advantageously, the roller assembly and the push plate are fixedly connected by bolts or welding.

Preferably, the roller assembly further comprises bearings fixed in the blind holes of the left stopper and the right stopper, respectively, and the two sides of the roller are fixed in the bearings, and the roller can rotate around the bearings.

Advantageously, the rolling unit is a roller assembly including a push block, a left stopper, a right stopper, a roller and a shaft, the left stopper is mounted on the left side of the push block, the right stopper is mounted on the right side of the push block, the shaft passes through the roller and is fixed in the holes of the left stopper and the right stopper, and the roller can rotate around the shaft.

Preferably, the rolling unit is a ball assembly, the ball assembly comprises a push block, a left stop block, a right stop block and a ball, an open circular groove is formed in the upper portion of the push block, the left stop block is mounted on the left side of the push block, the right stop block is mounted on the right side of the push block, the ball is placed in the circular groove of the push block, a plurality of balls are filled in the groove, and the ball can rotate in the groove.

Advantageously, the left and right stops have an inward and backward chamfer at their top, forming an inclined surface with an inner and rear bottom, and allowing the tube to slide inwards or backwards resting on it.

The invention has the beneficial effects that: the front part of the push plate adopted by the invention is provided with the rotatable roller or the idler wheel, the roller or the idler wheel is contacted with the blood sampling tube, and in the pushing process, if the friction force between the blood sampling tube and the hopper is large, the blood sampling tube and the roller or the idler wheel can rotate together to realize rolling forward movement, so that the tube clamping phenomenon caused by the deformation of the tube cap of the blood sampling tube due to the friction force is solved, meanwhile, the pushing force required by the push plate is reduced, and the energy consumption is reduced.

Drawings

FIG. 1 is a schematic structural diagram of a first embodiment of the present invention;

FIG. 2 is a schematic structural view of a roller assembly according to a first embodiment of the present invention;

wherein,

1. a hopper;

2. a blood collection tube;

3. pushing the plate;

4. a rotating wheel;

5. a connecting rod;

6. a roller assembly;

7. a bottom roller;

8. a right stopper;

9. a front roller;

10. a push block;

11. a left stop block;

Detailed Description

As shown in fig. 1 and 2, the front-end rotary type push plate loader provided by the invention comprises a hopper 1, a push plate 3, a rotating wheel 4 and a connecting rod 5, wherein the push plate 3 is connected with the rotating wheel 4 through the connecting rod 5 to form a crank-slider structure, the rotating wheel 4 is driven by a motor to rotate, the left side plate of the hopper 1 inclines by 120 degrees, the push plate 3 is parallel to the left side plate, inclined sliding grooves are formed in the front side and the rear side of the hopper, and the push plate 3 can slide up and down along the sliding grooves. When swiveling wheel 4 rotated, push pedal 3 slided from top to bottom in the hopper, push pedal top fixedly connected with rolls the unit, and when the push pedal slided the hopper bottom, between the roll unit at 3 tops of push pedal and the 1 left side baffle of hopper, the push pedal just pushed up heparin tube 2 and moved up, and sliding friction power between heparin tube 2 and hopper 1 is little, and the heparin tube is the up-moving of slidingtype, and sliding friction power between heparin tube 2 and hopper 1 is big, and the heparin tube is the up-moving of roll formula in the effect of rolling the unit.

As a first embodiment, the rolling unit is a roller assembly 6, the roller assembly 6 comprises a push block 10, a left block 11, a right block 8 and a front roller 9, the left block 11 is installed on the left side of the push block 10, the right block 8 is installed on the right side, the front roller 9 can extend into blind holes of the left block 11 and the right block 8, and the front roller 9 can rotate in the blind holes.

As a modification, the roller assembly 6 further comprises a semi-cylindrical groove in the push block 10, the front roller 9 is in the semi-cylindrical groove, the top of the front roller 9 is out of the groove, the middle part and the bottom part are in the groove, the front roller 9 can roll in the semi-cylindrical groove of the push block 10, and the left and right stoppers can limit the front roller in the semi-cylindrical groove of the push block. The roller assembly 6 and the push plate 3 are fixedly connected through bolts or welding and slide up and down together. When the roller assembly 6 slides upwards, the blood sampling tube can be pushed to roll upwards, and the blood sampling tube and the front roller 9 can simultaneously roll and move upwards.

As an improvement, the roller assembly further comprises bearings, the bearings are respectively fixed in the blind holes of the left stop block and the right stop block, two sides of the roller are fixed in the bearings, and the roller can rotate around the bearings.

When push pedal 3 slided 1 bottoms of hopper, between the anterior roller 9 at push pedal 3 top and the 1 left side baffle of hopper, 2 blood sampling tubes slid between 3 push pedal's front roller and the hopper left side baffle, and push pedal 3 just pushed 2 upward movements of blood sampling tubes, and sliding friction is little between blood sampling tubes 2 and hopper 1, and blood sampling tubes 2 is the upward movement of slidingtype, and sliding friction is big between blood sampling tubes 2 and hopper 1, and blood sampling tubes is the up movement of roll formula under the effect of front roller 9.

Advantageously, 2 at least one bottom rollers 7 are mounted in the hopper 1 at the bottom adjacent to the pushing plate 3, so that when the pushing plate 3 slides downwards, there is friction between the lowermost blood collection tube 2 and the pushing plate 3, and the friction force generated can make the blood collection tube 2 rotate together with the bottom rollers 7, and the number of the bottom rollers can be 2.

As a second embodiment, the rolling unit is a roller assembly, the roller assembly includes a push block, a left block, a right block, a roller and a shaft, the left block is installed on the left side of the push block, the right block is installed on the right side of the push block, the shaft passes through the roller and is fixed in the holes of the left block and the right block, the roller can rotate around the shaft, for example, the shaft is connected with 3 rollers respectively at two ends and a middle position of the shaft. When the push pedal slided the hopper bottom, the heparin tube slided between the gyro wheel at push pedal top and hopper left side baffle, and the push pedal just pushed the heparin tube and up moved, and sliding friction power between heparin tube and hopper is little, and the heparin tube is the up movement of slidingtype, and sliding friction power is big between heparin tube and hopper, and the heparin tube is the up movement of roll formula under the effect of gyro wheel.

As a third embodiment, the rolling unit is a ball assembly, the ball assembly includes a push block, a left stopper, a right stopper, and a ball, an open circular groove is formed in the upper portion of the push block, the left stopper is installed on the left side of the push block, the right stopper is installed on the right side of the push block, the ball is placed in the circular groove of the push block, and the groove is filled with a plurality of balls, and the ball can rotate in the groove. When the push pedal slided the hopper bottom, the heparin tube slided between the ball at push pedal top and hopper left side baffle, and the push pedal just pushed the heparin tube and up moved, and sliding friction power between heparin tube and hopper is little, and the heparin tube is the up movement of slidingtype, and sliding friction power is big between heparin tube and hopper, and the heparin tube is the up movement of roll formula under the effect of ball.

In addition, there are inward and backward chamfers on the top of the left and right blocks to form an inclined plane at the bottom of the inner side and the back side, and the blood sampling tube can slide inward or backward leaning on the top.

The foregoing has described in detail preferred embodiments of the present invention. It should be understood that numerous modifications and variations can be devised by those skilled in the art in light of the above teachings. Therefore, the technical solutions available to those skilled in the art through logic analysis, reasoning and limited experiments based on the design concept of the present invention should be within the scope of the present invention and/or the protection scope defined by the claims.

Claims (5)

1. Glassware in front end rotation type push pedal, including hopper (1), push pedal (3), swiveling wheel (4) and connecting rod (5), push pedal (3) are connected with swiveling wheel (4) through connecting rod (5), constitute a slider-crank structure, and swiveling wheel (4) rotate under the drive of motor, and when swiveling wheel (4) rotated, push pedal (3) slided its characterized in that from top to bottom in hopper (1): the top of the push plate (3) is fixedly connected with a rolling unit, when the push plate (3) slides to the bottom of the hopper (1), the blood sampling tube (2) slides to a position between the rolling unit at the top of the push plate and a baffle on the left side of the hopper (1), the push plate (3) pushes the blood sampling tube (2) to move upwards, when the sliding friction force between the blood sampling tube (2) and the hopper (1) is small, the blood sampling tube (2) moves upwards in a sliding mode, when the sliding friction force between the blood sampling tube (2) and the hopper (1) is large, the blood sampling tube (2) moves upwards in a rolling mode under the action of the rolling unit; the rolling unit is a roller assembly (6), the roller assembly (6) comprises a push block (10), a left stop block (11), a right stop block (8) and a front roller (9), the left side of the push block (10) is provided with the left stop block (11), the right side of the push block (10) is provided with the right stop block (8), the front roller (9) can extend into blind holes of the left stop block (11) and the right stop block (8), and the front roller (9) can rotate in the blind holes; the roller assembly (6) further comprises a semi-cylindrical groove located in the push block (10), the front roller (9) is located in the semi-cylindrical groove, the top of the front roller (9) is located outside the groove, the middle and the bottom of the front roller are located in the groove, the front roller (9) can rotate in the semi-cylindrical groove of the push block (10), and the left stop block and the right stop block can limit the front roller in the semi-cylindrical groove of the push block.

2. The front rotary pusher loader of claim 1 wherein: hopper (1) in with push pedal (3) department adjacent bottom, install at least one bottom roller (7) that can rotate, when push pedal (3) department down slides, there is the friction between blood sampling pipe (2) and push pedal (3) the bottom, the frictional force that produces can make blood sampling pipe (2) rotate together with bottom roller (7).

3. The front rotary pusher loader of claim 2 wherein: the roller assembly (6) and the push plate (3) are fixedly connected through bolts or welding.

4. The front rotary pusher loader of claim 3 wherein: the roller assembly further comprises a bearing, the bearing is respectively fixed in the blind holes of the left stop block and the right stop block, two sides of the roller are fixed in the bearing, and the roller can rotate around the bearing.

5. The front rotary pusher loader of claim 4 wherein: the tops of the left block and the right block are provided with inward and backward chamfers to form an inclined plane at the inner side and the back side, and the blood sampling tube can slide inwards or backwards by leaning against the inclined plane.