Shake even device fast after blood internal medicine marrow is gathered
Technical Field
The invention relates to a shaking device, in particular to a rapid shaking device for collected marrow in a blood internal medicine.
Background
Bone marrow is present in the cancellous and long bone marrow cavities, is composed of various types of cells and reticular connective tissue, is classified into red bone marrow and yellow bone marrow according to their structures, and is a soft, blood-rich tissue.
After gathering out the marrow, the marrow can be by the bottle, bottled marrow is placed and can be deposited the layering after a long time, consequently need shake the marrow when getting to use the marrow, generally shake the marrow and shake evenly by the manual work, need the staff to hold bottled marrow when the manual work is shaken evenly, then shake and shake evenly, the manual work is shaken evenly not only need shake the longer time, leads to the staff hand sour easily, causes the marrow to shake the taking of uneven influence marrow in addition easily.
Therefore, the bone marrow rapid shaking device for the hematology department, which does not need to consume physical strength, needs to be designed.
Disclosure of Invention
In order to overcome the defects that when the bottled bone marrow is shaken up manually, a worker needs to hold the bottled bone marrow and then shakes up, the manual shaking up needs to be carried out for a long time, the worker is easy to feel sour, and the taking of the bone marrow is affected by the uneven shaking up of the bone marrow, the technical problems to be solved by the invention are that: provides a bone marrow rapid shaking device used in the blood medicine without physical power consumption after being collected.
The technical scheme is as follows: the utility model provides a shake even device fast after hematology department's marrow is gathered, including: mounting the component; a placement assembly mounted on the mounting assembly; the shaking assembly is arranged on the placing assembly; and the power assembly is arranged on the mounting assembly.
As a further preferred aspect, the mounting assembly comprises: a mounting frame; the L-shaped supporting rods are symmetrically arranged on two sides of the mounting rack; the connecting plate is arranged between the L-shaped supporting rods on the two sides; and the supports are arranged on two sides of the connecting plate.
As a further preferred solution, the placing assembly comprises: the L-shaped track is arranged on the L-shaped support rod; the placing plate is arranged between the L-shaped rails on the two sides in a sliding manner; and the limiting plate is arranged on the placing plate.
As a further preferable mode, the shaking assembly includes: the mounting frame is provided with a sliding groove, and the sliding blocks are arranged on two sides of the sliding groove in a sliding manner; the connecting frame is arranged between the sliding blocks; at least two concave frames are symmetrically arranged on the connecting frame; the first spring is installed between the sliding block on one side and the installation frame.
As a further preferable mode, the power module includes: the first barrel-shaped cam is arranged on the connecting frame; the speed reducing motor is arranged on the mounting frame; and the second barrel-shaped cam is arranged on an output shaft of the speed reducing motor and is matched with the first barrel-shaped cam.
As a further preferable scheme, the device further comprises a jacking assembly, wherein the jacking assembly comprises: the guide plates are arranged on two sides of the connecting plate; the lifting block is arranged on the guide plate in a sliding manner; the T-shaped plate is arranged between the guide plates on the two sides; and the second spring is arranged between the T-shaped plate and the lifting block.
As a further preferable scheme, the device further comprises a buffer assembly, wherein the buffer assembly comprises: the lifting rod is arranged on the lifting block; the piston is arranged on the lifting rod; and the small cylinder bodies are arranged on two sides of the T-shaped plate and are in sliding fit with the pistons.
As a further preferable embodiment, the method further comprises: the gyro wheel, two at least gyro wheels rotary type are installed on placing the board.
As a further preferable scheme, the device further comprises a rotating assembly, wherein the rotating assembly comprises: the racks are arranged on two sides of the mounting rack; the mounting ring is rotatably mounted on the concave frame; and the gear ring is arranged on the mounting ring and is meshed with the rack.
Compared with the prior art, the invention has the following advantages: 1. the bone marrow rack is provided with the jacking assembly, so that a worker does not need to manually drag the placing plate to enable bone marrow to be in contact with the concave rack, and further, the burden of the worker is reduced.
2. The bone marrow placing plate is provided with the buffer assembly, so that the placing plate can only slowly ascend due to the action of the piston and the small cylinder body, and bone marrow spilling caused by too fast ascending of the placing plate can be effectively prevented.
3. The bone marrow shaking machine is provided with the rollers, so that bone marrow can move more quickly, bone marrow can be shaken up quickly, and the shaking up efficiency is improved.
4. The bone marrow shaking device is provided with the rotating assembly, so that bone marrow is driven to rotate, the shaking of the bone marrow can be accelerated, and the shaking efficiency is further improved.
Drawings
Fig. 1 is a schematic perspective view of the present invention.
Fig. 2 is a perspective view of the mounting assembly of the present invention.
Fig. 3 is a schematic perspective view of the placement module of the present invention.
FIG. 4 is a schematic perspective view of a wobble assembly according to the present invention.
Fig. 5 is a schematic perspective view of the power module of the present invention.
Fig. 6 is a schematic perspective view of the jacking assembly and the buffering assembly according to the present invention.
Fig. 7 is a perspective view of the rotating assembly of the present invention.
The parts are labeled as follows: 1. the device comprises a mounting assembly, 101, a mounting frame, 102, an L-shaped support rod, 103, a connecting plate, 104, a support, 2, a placing assembly, 201, an L-shaped track, 202, a placing plate, 203, a limiting plate, 3, a shaking assembly, 301, a sliding groove, 302, a sliding block, 303, a connecting frame, 304, a concave frame, 305, a first spring, 4, a power assembly, 401, a first barrel cam, 402, a speed reducing motor, 403, a second barrel cam, 5, a jacking assembly, 501, a guide plate, 502, a lifting block, 503, a T-shaped plate, 504, a second spring, 6, a buffering assembly, 601, a lifting rod, 602, a piston, 603, a small cylinder body, 7, a roller, 8, a rotating assembly, 801, a rack, 802, a mounting ring, 803 and a gear ring.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Example 1
The utility model provides a shake even device fast after hematology department's marrow is gathered, as shown in fig. 1 to 5, including installation component 1, place subassembly 2, rock subassembly 3 and power component 4, be equipped with on the installation component 1 and place subassembly 2, be equipped with on the placement component 2 and rock subassembly 3, be equipped with power component 4 on the installation component 1.
When needs are shaken even to the marrow, place the marrow on placing subassembly 2, then control and place subassembly 2 and remove, and then make the marrow can with rock subassembly 3 contact, control power component 4 and begin the function afterwards, power component 4 just can drive and rock subassembly 3 and operate to make the marrow shaken even, shake even completion back, close power component 4, control afterwards and place subassembly 2 and reset, then take out the marrow can.
The mounting assembly 1 comprises a mounting frame 101, L-shaped supporting rods 102, connecting plates 103 and supports 104, the L-shaped supporting rods 102 are symmetrically connected to the left side and the right side of the lower portion of the mounting frame 101 in a front-back mode, the connecting plates 103 are connected between the L-shaped supporting rods 102 on the front side and the rear side, and the supports 104 are arranged on the left side and the right side of the lower portion of the connecting plates 103.
The placing assembly 2 comprises an L-shaped rail 201, a placing plate 202 and a limiting plate 203, the L-shaped rail 201 is arranged on the L-shaped supporting rod 102, the placing plate 202 is arranged between the L-shaped rails 201 on the front side and the rear side in a sliding mode, and the limiting plate 203 is arranged on the placing plate 202.
When needs shake even to the marrow, place the marrow on placing board 202, the marrow just can be blocked by limiting plate 203, prevent that the marrow from dropping, board 202 is placed in control afterwards and is removed, and then make and place board 202 and remove on L shape track 201, thereby make the marrow remove to with shake subassembly 3 contact, control power component 4 after that begins the function, power component 4 just can drive and shake subassembly 3 and operate, thereby make the marrow shaken even, shake even completion after, close power component 4, control afterwards places board 202 and removes the reset, then take out the marrow can.
The shaking assembly 3 comprises a sliding block 302, a connecting frame 303, a concave frame 304 and a first spring 305, a sliding groove 301 is formed in the mounting frame 101, the sliding blocks 302 are arranged on the left side and the right side of the sliding groove 301 in a sliding mode, the connecting frame 303 is connected between the sliding blocks 302, the four concave frames 304 are symmetrically connected to the connecting frame 303 in a front-back mode, and the first spring 305 is connected between the right sliding block 302 and the mounting frame 101.
When needs shake even to the marrow, place the marrow on placing board 202, the board 202 removal is placed in the control afterwards, thereby make the marrow remove to contacting with concave frame 304, control power component 4 and begin the function afterwards, power component 4 just can drive link 303 and concave frame 304 and remove, make concave frame 304 constantly reciprocating motion because of the effect of first spring 305 simultaneously, thereby make the marrow shaken even, shake even the completion after, close power component 4, the board 202 removal of placing of control afterwards resets, then take out the marrow can.
The power assembly 4 comprises a first barrel-shaped cam 401, a speed reducing motor 402 and a second barrel-shaped cam 403, the left side of the connecting frame 303 is connected with the first barrel-shaped cam 401, the upper side of the left part of the mounting frame 101 is provided with the speed reducing motor 402, an output shaft of the speed reducing motor 402 is connected with the second barrel-shaped cam 403, and the second barrel-shaped cam 403 is matched with the first barrel-shaped cam 401.
When bone marrow needs to be shaken uniformly, the speed reducing motor 402 is started, the speed reducing motor 402 can drive the second barrel-shaped cam 403 to rotate, the second barrel-shaped cam 403 can be matched with the first barrel-shaped cam 401, the first barrel-shaped cam 401 moves towards the right side, the connecting frame 303 and the concave frame 304 move towards the right side, the first spring 305 is compressed, when the second barrel-shaped cam 403 rotates to the extent that the first barrel-shaped cam 401 is not pushed any more, the first spring 305 rebounds to drive the connecting frame 303, the first barrel-shaped cam 401 and the concave frame 304 to move towards the left side for resetting, the device repeats the processes, the bone marrow is shaken uniformly, after shaking is completed, the speed reducing motor 402 is closed, and the bone marrow is taken out.
Example 2
On the basis of embodiment 1, as shown in fig. 1, 6 and 7, the lifting device further comprises a lifting assembly 5, the lifting assembly 5 comprises a guide plate 501, a lifting block 502, a T-shaped plate 503 and a second spring 504, the guide plate 501 is connected to the left and right sides of the connecting plate 103, the lifting block 502 is slidably arranged on the guide plate 501, the T-shaped plate 503 is connected between the lower sides of the guide plates 501 on the left and right sides, and the second spring 504 is connected between the T-shaped plate 503 and the lifting block 502.
When needs shake even to the marrow, the board 202 is placed in control moves to the inboard, can contact with elevator 502, and then makes elevator 502 remove downwards, and second spring 504 is compressed, and when placing board 202 and remove to concave frame 304 downside, second spring 504 kick-backs and drives and place board 202 rebound, and then makes the marrow can contact with concave frame 304, thereby need not staff's manual holding and place board 202 and make the marrow can contact with concave frame 304, and then reduce staff's burden.
Still including buffer unit 6, buffer unit 6 is including lifter 601, piston 602 and little cylinder body 603, and the downside of lifter 502 all is connected with lifter 601, and piston 602 has all been welded to lifter 601's downside, and the front and back both sides of T shaped plate 503 all are equipped with little cylinder body 603, little cylinder body 603 and piston 602 sliding fit.
When the placing plate 202 moves to the inner side, the lifting block 502 can move downwards, the second spring 504 is compressed, the lifting rod 601 and the piston 602 move downwards, when the placing plate 202 moves to the lower side of the concave frame 304, the second spring 504 rebounds to drive the placing plate 202, the lifting rod 601 and the piston 602 to move upwards and reset, and then the placing plate 202 can only slowly ascend due to the effect of the piston 602 and the small cylinder body 603, so that the bone marrow spilling caused by the too fast ascending of the placing plate 202 can be effectively prevented.
The device also comprises rollers 7, and a plurality of rollers 7 are arranged on the placing plate 202 in a rotating mode.
When needs shake the bone marrow even, place the bone marrow on gyro wheel 7 to can make the bone marrow remove quicker, thereby can shake the bone marrow even fast, and then improve and shake even efficiency.
Still including rotating assembly 8, rotating assembly 8 is including rack 801, collar 802 and ring gear 803, and the front and back both sides of mounting bracket 101 all are connected with rack 801, and the equal rotary type of downside of concave frame 304 is connected with collar 802, all is connected with ring gear 803 on collar 802, and ring gear 803 and rack 801 mesh.
When concave frame 304 removed, can drive collar 802 and ring gear 803 and remove, and then make ring gear 803 rotate because of the effect of rack 801 to make collar 802 rotate, thereby it is rotatory to drive the marrow, and then can accelerate shaking of marrow even, thereby further improves and shakes even efficiency.
The technical principle of the embodiment of the present invention is described above in conjunction with the specific embodiments. The description is only intended to explain the principles of embodiments of the invention and should not be taken in any way as limiting the scope of the embodiments 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 step, and these embodiments will fall within the scope of the present invention.