CN111846469A - Plasma bag extruder - Google Patents

Abstract

The invention provides a plasma bag extruder, comprising: a feeding system for conveying a plasma bag in a vertical direction; crowded material system, it includes: the plasma bag clamping device comprises a first clamping mechanism, a first vertical driving mechanism, a second clamping mechanism and a second vertical driving mechanism, wherein the first clamping mechanism and the second clamping mechanism are matched to clamp a plasma bag; and the control system is connected with the feeding system, the first clamping mechanism, the first vertical driving mechanism, the second clamping mechanism and the second vertical driving mechanism. This plasma bag extruder leads to the problem that efficiency is lower because of can only extrude one plasma bag among the prior art.

Description

Plasma bag extruder

Technical Field

The invention relates to plasma bag processing equipment, in particular to a plasma bag extruding machine.

Background

The Chinese patent discloses a plasma bag bubble extruder with application number of CN200720087560.0, which comprises a shell, an extrusion plate, a screw rod propelling mechanism for propelling the extrusion plate and a controller; the screw rod propelling mechanism comprises a screw rod and a motor for pushing the screw rod; one end of the screw rod is connected with the extrusion plate, the motor is arranged in the shell and is controlled by the controller; the pressing plate is disposed outside the housing. Although the extruder can extrude the gas in the plasma bag and can also be used for extruding the residual plasma in the plasma bag, the extruder still has the following defects:

the extruder can extrude only one plasma bag, which results in low production efficiency.

Disclosure of Invention

The invention provides a plasma bag extruding machine, which solves the problem of low efficiency caused by extruding only one plasma bag in the prior art.

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

the invention firstly provides a plasma bag extruder, which comprises:

a feeding system for conveying a plasma bag in a vertical direction;

crowded material system, it includes: the plasma bag clamping device comprises a first clamping mechanism, a first vertical driving mechanism, a second clamping mechanism and a second vertical driving mechanism, wherein the first clamping mechanism and the second clamping mechanism are matched to clamp a plasma bag; and

and the control system is connected with the feeding system, the first clamping mechanism, the first vertical driving mechanism, the second clamping mechanism and the second vertical driving mechanism.

Preferably, the feeding system comprises: the plasma bag clamping device comprises a first conveyor belt, a second conveyor belt and a mounting frame, wherein the first conveyor belt and the second conveyor belt are arranged on the mounting frame in the horizontal direction, and the first conveyor belt and the second conveyor belt convey and clamp the plasma bag in the vertical direction.

Preferably, the first and second clamping mechanisms each comprise: the clamping cylinder is installed at the output end of the first vertical driving mechanism or the second vertical driving mechanism, the installation seat is installed at the output end of the clamping cylinder, the rotatable clamping stick is installed on the installation seat, and the clamping stick is used for clamping a plasma bag.

Preferably, the first vertical driving mechanism and the second vertical driving mechanism each include: the vertical actuating cylinder and the sliding seat that drive install the guide rail on the mounting bracket, install the removal seat that can slide on the guide rail, remove and install the centre gripping cylinder on the seat, the sliding seat is fixed to the vertical actuating cylinder that drives, and the vertical actuating cylinder that drives is installed on the mounting bracket.

The invention also provides a plasma bag extruder, comprising:

a feeding system for conveying a plasma bag in a vertical direction;

crowded material system, it includes: the blood plasma bag clamping device comprises an elastic clamping mechanism, a clamping driving mechanism, a moving seat and a third vertical driving mechanism, wherein the third vertical driving mechanism is connected to the moving seat and used for driving the elastic clamping mechanism, the clamping driving mechanism and the moving seat to move in the vertical direction; and

and the control system is connected with the feeding system, the elastic clamping mechanism, the clamping driving mechanism and the third vertical driving mechanism.

Preferably, the feeding system comprises: a first conveyor belt, a second conveyor belt, a third conveyor belt, a movable seat, a second elastic piece, a treading driving mechanism and a mounting frame, wherein the first conveyor belt and the second conveyor belt are arranged on the mounting frame in the horizontal direction, a moving seat is arranged on the mounting frame and can move in the direction far away from or close to the first conveyor belt, a third conveyor belt is arranged on the moving seat, the second conveyor belt and the third conveyor belt are arranged on the same straight line and are parallel to the first conveyor belt, the second conveyor belt and the third conveyor belt are matched to convey and clamp a plasma bag in the vertical direction, a second elastic piece is arranged between the moving seat and the mounting frame, the third conveyor belt can be kept to be positioned close to the first conveyor belt under the elastic force of the second elastic member, a treading driving mechanism is installed beside the movable seat and used for realizing that an operator treads the movable seat to drive the third conveyor belt to be far away from the first conveyor belt.

Preferably, the step-on driving mechanism includes: the swinging boom, the third elastic component, the slider, guide rail and pedal, swinging boom one end is located and removes seat and is close to first conveyer belt one side, the swinging boom middle part is articulated with the mounting bracket, be provided with the third elastic component between swinging boom and the mounting bracket, the swinging boom other end articulates to the slider, the slider can be installed on the guide rail with sliding, the slider can be at the guide rail and move down on the horizontal direction, the installation intracavity that the mounting bracket was seted up is installed to the guide rail, the guide rail can be relative the mounting bracket and move in the vertical direction, the guide rail is connected to the pedal who emits the mounting bracket.

Compared with the prior art, the invention has the following beneficial effects:

the control system includes: the material extruding device comprises a first signal switch, a second signal switch, a third signal switch and a control box, wherein the first signal switch is located at the input end of a first conveying belt, the second signal switch is located on one side, close to the output end of the first conveying belt, of the first signal switch, the third signal switch is located on the other side, close to the output end of the first conveying belt, of the second signal switch, the third signal switch is located on the other side, the first signal switch, the second signal switch and the third signal switch can be time-sharing infrared sensors, and the material feeding system, the material extruding system, the first signal switch, the second signal switch and the third signal switch are. During operation, the first signal switch senses that an operator puts a plasma bag at the conveying end of the feeding system; then, the feeding system works, the feeding system conveys the first plasma bag to the second signal switch, the second signal switch senses the first plasma bag, and the feeding system stops working; then, the operator places the second plasma bag at the input end of the feeding system, namely the position of the first signal switch; then, after the first signal switch detects that the second plasma bag is put in, the control box controls the feeding system to work, the second plasma bag is conveyed to the second signal switch, and the first plasma bag is conveyed to the third signal switch; then, the control box controls the feeding system to stop operating through detection signals of the second signal switch and the third signal switch, and at the moment, an operator puts a third plasma bag into the input end of the feeding system to realize that the three plasma bags are in place; then, the first signal switch, the second signal switch and the third signal switch detect that the plasma bags are in place, the control box controls the feeding system to move, three extrusion systems are sequentially arranged beside the feeding system, the feeding system respectively conveys the first plasma bag, the second plasma bag and the third plasma bag to the three extrusion systems, and the feeding system stops working after the plasma bags are in place; then, the control box controls the three extrusion systems to operate simultaneously, and the three extrusion systems respectively extrude the first plasma bag, the second plasma bag and the third plasma bag to extrude residual plasma, so that the extrusion work is realized; and finally, the control box controls the feeding system to operate, and the first plasma bag, the second plasma bag and the third plasma bag are conveyed out. Thereby realizing the extrusion work of three plasma bags at the same time and improving the production efficiency.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

FIG. 1 is a schematic view showing the structure of a plasma bag extruding machine according to example 1;

FIG. 2 is a side view at the extrusion system in example 1;

FIG. 3 is a top view of the feeding system in example 2;

FIG. 4 is a sectional view at the input end of the feeding system in embodiment 2;

FIG. 5 is an enlarged view taken at A in FIG. 4;

fig. 6 is a sectional view at the extrusion system in example 2.

Reference numerals: the feeding system 1, the first conveyor belt 11, the second conveyor belt 12, the mounting frame 13, the closing plate 130, the insertion rod 131, the convex portion 132, the first release limiting rod 133, the rod body 134, the mounting disc 135, the second release limiting rod 136, the hemisphere 137, the hook rod 138, the third conveyor belt 14, the moving seat 15, the second elastic member 16, the stepping driving mechanism 17, the rotating arm 172, the third elastic member 173, the slider 174, the guide seat 175, the stepping plate 176, the roller 177, the coil spring 178, the action block 179, the elastic clamping mechanism 2, the rod body 21, the mounting arm 22, the first elastic member 20, the clamping driving mechanism 3, the gathering cylinder 31, the driving block 32, the third vertical driving mechanism 4, the first clamping mechanism 5, the second clamping mechanism 6, the clamping cylinder 61, the mounting seat 62, the clamping rod 63, the first vertical driving mechanism 7, the second vertical driving mechanism 8, the vertical driving cylinder 81, the seat 82, the guide rail 83, the sliding block 15, the second release limiting rod, A plasma bag 9.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the functions of the invention clearer and easier to understand, the invention is further explained by combining the drawings and the detailed implementation mode:

example 1:

as shown in fig. 1 and 2, the present embodiment proposes a plasma bag 9 extruder, including:

a feeding system 1 for conveying a plasma bag 9 in a vertical direction;

crowded material system, it includes: the plasma bag clamping device comprises a first clamping mechanism 5, a first vertical driving mechanism 7, a second clamping mechanism 6 and a second vertical driving mechanism 8, wherein the first clamping mechanism 5 and the second clamping mechanism 6 are matched to clamp a plasma bag 9, the first clamping mechanism 5 is connected with the first vertical driving mechanism 7, and the second clamping mechanism 6 is connected with the second vertical driving mechanism 8; and

and the control system is connected with the feeding system 1, the first clamping mechanism 5, the first vertical driving mechanism 7, the second clamping mechanism 6 and the second vertical driving mechanism 8.

In order to design the feed system 1 with a simple structure, the feed system 1 includes: the plasma bag conveying device comprises a first conveying belt 11, a second conveying belt 12 and a mounting frame 13, wherein the first conveying belt 11 and the second conveying belt 12 which are located in the horizontal direction are mounted on the mounting frame 13, the first conveying belt 11 and the second conveying belt 12 convey and clamp the plasma bag 9 which is located in the vertical direction, and conveying surfaces of the first conveying belt 11 and the second conveying belt 12 are located in the vertical direction.

In order to design the first and second holding mechanisms 5 and 6 having a simple structure, each of the first and second holding mechanisms 5 and 6 includes: centre gripping cylinder 61, mount pad 62 and centre gripping rod 63, centre gripping cylinder 61 is installed at the output of first vertical actuating mechanism 7 or the vertical actuating mechanism 8 of second, mount pad 62 is installed to centre gripping cylinder 61 output, install on the mount pad 62 can pivoted centre gripping rod 63, centre gripping rod 63 is used for pressing from both sides tight plasma bag 9, centre gripping cylinder 61 moves on the horizontal direction, two centre gripping cylinders 61 extend and make two centre gripping rods 63 be close to each other to the realization is pressed from both sides tightly.

In order to design the first vertical driving mechanism 7 and the second vertical driving mechanism 8 having simple structures, the first vertical driving mechanism 7 and the second vertical driving mechanism 8 each include: the vertical driving air cylinder 81 and the sliding seat 82 are installed on the installation frame 13, a guide rail 83 is installed on the installation frame 13, the sliding seat 82 capable of sliding is installed on the guide rail 83, the clamping air cylinder 61 is installed on the sliding seat 82, the sliding seat 82 is fixed to the vertical driving air cylinder 81, and the vertical driving air cylinder 81 is installed on the installation frame 13.

Example 2:

this example differs from example 1 in that: the feeding system 1 and the extruding system are adjusted on the basis of the embodiment 1, the feeding system 1 is adjusted to be mainly convenient for an operator to place the plasma bag 9 between the first conveying belt 11 and the second conveying belt 12, and the extruding system is adjusted to be mainly used for reducing the number of cylinders required by clamping in one extruding system.

As shown in fig. 3 to 6, the present embodiment also proposes a plasma bag 9 extruder, comprising:

a feeding system 1 for conveying a plasma bag 9 in a vertical direction;

crowded material system, it includes: the blood plasma bag clamping device comprises an elastic clamping mechanism 2, a clamping driving mechanism 3, a moving seat and a third vertical driving mechanism 4, wherein the third vertical driving mechanism 4 is connected to the moving seat, the third vertical driving mechanism 4 is used for driving the elastic clamping mechanism 2, the clamping driving mechanism 3 and the moving seat to move in the vertical direction, the elastic clamping mechanism 2 and the clamping driving mechanism 3 are installed on the moving seat, a first elastic piece 20 is arranged in the elastic clamping mechanism 2, the first elastic piece 20 is used for keeping the elastic clamping mechanism 2 in an open state, the clamping driving mechanism 3 acts on the elastic clamping mechanism 2, and the clamping driving mechanism 3 is used for forcing the elastic clamping mechanism 2 to clamp a blood plasma bag 9; and

and the control system is connected with the feeding system 1, the elastic clamping mechanism 2, the clamping driving mechanism 3 and the third vertical driving mechanism 4.

In order to design the feeding system 1 with a simple structure, the gap between the third conveyor belt 14 and the first conveyor belt 11 can be increased by realizing pedal driving, so as to avoid the need of manual operation and the need of a plurality of persons for operation, the feeding system 1 comprises: the plasma bag clamping device comprises a first conveyor belt 11, a second conveyor belt 12, a third conveyor belt 14, a moving seat 15, a second elastic piece 16, a stepping driving mechanism 17 and a mounting frame 13, wherein the first conveyor belt 11 and the second conveyor belt 12 which are positioned in the horizontal direction are installed on the mounting frame 13, the moving seat 15 is installed on the mounting frame 13, the moving seat 15 can move in the direction far away from or close to the first conveyor belt 11, the third conveyor belt 14 is installed on the moving seat 15, the second conveyor belt 12 and the third conveyor belt 14 are positioned on the same straight line, the second conveyor belt 12 and the third conveyor belt 14 are parallel to the first conveyor belt 11, the second conveyor belt 12 and the third conveyor belt 14 are matched to convey and clamp a plasma bag 9 positioned in the vertical direction, the second elastic piece 16 is installed between the moving seat 15 and the mounting frame 13, and the third conveyor belt 14 can be kept to be positioned close to the first conveyor belt 11 under the elasticity of the second elastic, the treading driving mechanism 17 is installed beside the moving seat 15, and the treading driving mechanism 17 is used for realizing that an operator treads and drives the moving seat 15 to drive the third conveyor belt 14 to be far away from the first conveyor belt 11.

The first elastic member 20 is a first spring, and the second elastic member 16 is a second spring.

Trample drive mechanism 17 for design simple structure realizes that vertical direction tramples the drive that tramples pedal 176 just can drive the last moving seat 15 direction of horizontal direction, tramples drive mechanism 17 and includes: rotating arm 172, third elastic component 173, slider 174, guide holder 175 and step 176, rotating arm 172 one end is located and moves seat 15 and is close to first conveyer belt 11 one side, rotating arm 172 middle part is articulated with mounting bracket 13, be provided with third elastic component 173 between rotating arm 172 and the mounting bracket 13, rotating arm 172 other end is articulated to slider 174, slider 174 can be installed on guide holder 175 slidably, slider 174 can move on the horizontal direction under the direction of guide holder 175, guide holder 175 installs in the installation cavity that mounting bracket 13 was seted up, guide holder 175 can move on the vertical direction relative to mounting bracket 13, guide holder 175 is connected to the step 176 that emerges mounting bracket 13.

A roller 177 is installed at one end of the rotating arm 172, which is far away from the slider 174, the roller 177 is tangent to an action block 179 extending from the bottom of the moving seat 15, the third conveyor belt 14 can be located at a position close to the first conveyor belt 11 under the elastic force of the second elastic element 16, the third elastic element 173 is a coil spring 178, a rotating shaft for guiding the rotation of the rotating arm 172 extends from the inner wall of the installation cavity, the rotating shaft extends to form a central shaft, a central hole of the rotating arm 172 is a rotating hole, a coil spring 178 is convoluted between the rotating hole and the central shaft, the inner end of the coil spring 178 is fixed with the central shaft, the outer end of the coil spring 178 is fixed with the inner wall of the rotating hole, and the roller 177 can keep no extrusion force on the moving seat. When the plasma bag 9 needs to be installed between the third conveyor belt 14 and the first conveyor belt 11, firstly, the pedal 176 is stepped on, the guide seat 175 is lowered, the sliding block 174 moves towards the center of the rotating arm 172, the rotating arm 172 rotates, the roller 177 presses the action block 179, the action block 179 drives the moving seat 15 and the third conveyor belt 14 to move, the third conveyor belt 14 is far away from the first conveyor belt 11, the distance between the first conveyor belt 11 and the third conveyor belt 14 is enlarged, and at this time, the plasma bag 9 can be placed between the third conveyor belt 14 and the first conveyor belt 11; then, the plasma bag 9 is placed between the third conveyor belt 14 and the first conveyor belt 11; then, the pedal 176 is released, the roller 177 is pulled to a position without extrusion force on the action block 179 under the elastic force of the coil spring 178, meanwhile, the second spring enables the sliding block to move towards the direction of the first conveyor belt 11, and finally, the second spring enables the third conveyor belt 14 to be matched with the first conveyor belt 11 to clamp the plasma bag 9; finally, the plasma bag 9 is released, and the installation of the plasma bag 9 is realized. The gap between the third conveyor belt and the second conveyor belt 12 is extremely small, and the conveying of the plasma bag 9 is not influenced.

The top of the installation cavity is communicated with the outside so that the movable seat 15 has a sliding space.

In order to avoid the second spring and the operation of the treading driving mechanism 17 from being blocked due to the entering of impurities from the top of the installation cavity, the following design is made: the side surface of the mounting frame 13 is sunken to form a guide groove which is communicated with the mounting cavity, a sealing plate 130 is inserted into the guide groove, the sealing plate 130 can move under the guide of the guide groove, the sealing plate 130 can not move upwards in the vertical direction under the action of the inner wall of the guide groove, an inserting rod 131 is erected on the surface of the sealing plate 130, the inserting rod 131 is inserted into an inserting hole formed in the movable seat 15, a clamping hole is formed in the outer wall of the inserting rod 131 in a sunken mode, a convex part 132 is protruded on the inner wall of the inserting hole and is in clamping fit with the convex part 132 to limit the movable seat 15 to move upwards relative to the sealing plate 130, an action block 179 penetrates through the sealing plate 130 and is fixed with the lower end of the inserting rod 131, a step is formed at the joint of the action block 179 and the inserting rod 131, the action block 179 and the inserting rod 131 move downwards relative to the sealing plate 130, the sealing plate 130 always seals the mounting cavity when the third, the other end of the second spring is connected with the inner wall of the mounting cavity.

Second spring both ends are the loop configuration, the installation cavity inner wall is formed with and inserts the first limit in the second spring one end and takes off pole 133, it has a body of rod 134 to insert on the installation cavity inner wall, the body of rod 134 passes second spring center, the body of rod 134 passes a mounting disc 135, mounting disc 135 one side is formed with and inserts second limit in the second spring other end and takes off pole 136, mounting disc 135 deviates from first limit and takes off pole 133 one side and is fixed with hemispheroid 137, the action block 179 bottom surface is the arc surface, it has hook rod 138 to extend to be close to first limit and take off pole 133 one side at the action block 179, a confession hook rod 138 male hook hole has been seted up to mounting disc 135 top surface, the body of rod 134 is the cuboid structure, mounting disc 135 can not rotate for body of rod 134 relatively.

Because the movable seat 15 needs to move, and the action block 179 of the movable seat 15, which is relatively fixed, needs to act on the treading driving mechanism 17, the top of the installation cavity needs to be communicated with the outside, so as to avoid the influence of impurities entering the installation cavity on the operation of the treading driving mechanism 17.

The steps of mounting the closing plate 130 and the second spring are as follows; first, one end of the second spring is hooked on the second disengagement limiting rod 136; then, the rod 134 penetrates through the mounting disc 135 and the hemisphere 137, and the action block 179 can also allow the rod 134 to penetrate; then, the mounting plate 135, the hemisphere 137, the rod 134 and the second spring are put into the mounting cavity together; then, the other end of the second spring is hooked on the first disengagement limiting rod 133; then, the rod 134 is inserted into the inner wall of the mounting cavity to support the second spring, and the mounting disc 135 is ensured to hook the second spring; then, the closing plate 130 is inserted into the guide groove; then, the action block 179 penetrates through the closing plate 130, because the hemispheroid 137 is close to the first conveyor belt 11 when the second spring is in the natural extension length, when the action block 179 is inserted, the bottom surface of the action block 179 presses the hemispheroid 137, so that the hemispheroid 137 moves towards the first release limiting rod 133, the second spring is compressed, the elasticity of the second spring can be kept to clamp the plasma bag 9, at the moment, the hook hole in the mounting disc 135 is aligned with the hook rod 138, the action block 179 is continuously descended, and the hook rod 138 is inserted into the hook hole, so that the relative connection between the second spring and the action block 179 is realized; finally, the moving seat 15 provided with the third conveyor belt 14 is covered on the inserted rod 131, and the clamping hole on the inserted rod 131 is in snap fit with the convex part 132 in the moving seat 15, so that the installation is realized. The second spring can be replaced by opening the closing plate 130 conveniently for installing the second spring and the closing plate 130, and the second spring is replaced after the sealing edge is sealed when the second spring loses elasticity, so that the clamping force of the first conveyor belt 11 and the third conveyor belt 14 on the plasma bag 9 is guaranteed.

The elastic gripping mechanism 2 includes: the plasma bag clamping device comprises stick bodies 21 and mounting arms 22, a plasma bag 9 is clamped between the two stick bodies 21, the top surface of a motion seat is recessed to form a mounting groove, the two mounting arms 22 are placed in the mounting groove, a guide rod penetrating through the mounting groove penetrates through the motion seat, the guide rod penetrates through the mounting arms 22, the guide rod guides the mounting arms 22 to move in the horizontal direction, each mounting arm 22 is provided with a rotatable stick body 21, and the plasma bag 9 is clamped between the two stick bodies 21.

The clamp driving mechanism 3 includes: gather together cylinder 31 and driving block 32, gather together cylinder 31 and install on the motion seat, gather together cylinder 31 piston rod and stretch into to the mounting groove in and be connected to driving block 32, an installation arm 22 deviates from another installation arm 22 one side and is formed with first extrusion face, two first extrusion faces form "V" type jointly, driving block 32 is "U" type structure, driving block 32 inboard is provided with the second extrusion face parallel with first extrusion face, first extrusion face is hugged closely with the second extrusion face, install the fourth spring between two installation arms 22, can keep two rod bodies 21 away from each other under the elasticity of fourth spring.

When the plasma bag 9 is squeezed, the third vertical driving mechanism 4 is lifted, and the two rod bodies 21 with larger distance are conveyed to the top of the plasma bag 9, and the rod bodies 21 are not contacted with the plasma bag 9; then, the gathering cylinder 31 raises the driving block 32, the driving block 32 extrudes the two mounting arms 22 to get close to each other, and the two stick bodies 21 clamp the plasma bag 9; finally, the third vertical driving mechanism 4 is lowered to lower the two sticks 21, and the two sticks 21 clamping the plasma bag 9 are lowered to a position, thereby squeezing out plasma in the plasma bag 9.

Finally, the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made to the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, and all of them should be covered in the claims of the present invention.

Claims (7)

1. A plasma bag press, comprising:

a feeding system for conveying a plasma bag in a vertical direction;

crowded material system, it includes: the plasma bag clamping device comprises a first clamping mechanism, a first vertical driving mechanism, a second clamping mechanism and a second vertical driving mechanism, wherein the first clamping mechanism and the second clamping mechanism are matched to clamp a plasma bag; and

and the control system is connected with the feeding system, the first clamping mechanism, the first vertical driving mechanism, the second clamping mechanism and the second vertical driving mechanism.

2. The plasma bag press of claim 1, wherein the feed system comprises: the plasma bag clamping device comprises a first conveyor belt, a second conveyor belt and a mounting frame, wherein the first conveyor belt and the second conveyor belt are arranged on the mounting frame in the horizontal direction, and the first conveyor belt and the second conveyor belt convey and clamp the plasma bag in the vertical direction.

3. The plasma bag press of claim 1, wherein the first clamping mechanism and the second clamping mechanism each comprise: the clamping cylinder is installed at the output end of the first vertical driving mechanism or the second vertical driving mechanism, the installation seat is installed at the output end of the clamping cylinder, the rotatable clamping stick is installed on the installation seat, and the clamping stick is used for clamping a plasma bag.

4. The plasma bag press of claim 2, wherein the first vertical drive mechanism and the second vertical drive mechanism each comprise: the vertical driving cylinder and the sliding seat are mounted on the mounting frame, the guide rail is mounted on the mounting frame, the sliding seat capable of sliding is mounted on the guide rail, the clamping cylinder is mounted on the sliding seat, the sliding seat is fixed to the vertical driving cylinder, and the vertical driving cylinder is mounted on the mounting frame.

5. A plasma bag press, comprising:

a feeding system for conveying a plasma bag in a vertical direction;

crowded material system, it includes: the blood plasma bag clamping device comprises an elastic clamping mechanism, a clamping driving mechanism, a moving seat and a third vertical driving mechanism, wherein the third vertical driving mechanism is connected to the moving seat and used for driving the elastic clamping mechanism, the clamping driving mechanism and the moving seat to move in the vertical direction; and

and the control system is connected with the feeding system, the elastic clamping mechanism, the clamping driving mechanism and the third vertical driving mechanism.

6. The plasma bag press of claim 5, wherein the feed system comprises: a first conveyor belt, a second conveyor belt, a third conveyor belt, a movable seat, a second elastic piece, a treading driving mechanism and a mounting frame, wherein the first conveyor belt and the second conveyor belt are arranged on the mounting frame in the horizontal direction, a sliding seat is arranged on the mounting frame, the movable seat can move in the direction far away from or close to the first conveyor belt, a third conveyor belt is arranged on the movable seat, the second conveyor belt and the third conveyor belt are arranged on the same straight line, the second conveyor belt and the third conveyor belt are parallel to the first conveyor belt, the second conveyor belt and the third conveyor belt are matched for conveying and clamping a plasma bag in the vertical direction, a second elastic piece is arranged between the movable seat and the mounting frame, the third conveyor belt can be kept to be positioned close to the first conveyor belt under the elastic force of the second elastic member, a treading driving mechanism is installed beside the movable seat and used for realizing that an operator treads the movable seat to drive the third conveyor belt to be far away from the first conveyor belt.

7. The plasma bag press of claim 6, wherein the tread drive mechanism comprises: the swinging boom, the third elastic component, the slider, guide holder and pedal, swinging boom one end is located and removes the seat and is close to first conveyer belt one side, the swinging boom middle part is articulated with the mounting bracket, be provided with the third elastic component between swinging boom and the mounting bracket, the swinging boom other end articulates to the slider, the slider can be installed on the guide rail with sliding, the slider can move on the horizontal direction under the guide holder direction, the guide holder is installed in the installation cavity that the mounting bracket was seted up, the relative mount frame of guide holder ability is in the vertical direction upward movement, the guide holder is connected to the pedal that emits the mounting bracket.

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