Medical living body soaking type collecting device
Technical Field
The invention relates to living body soaking type collecting equipment, in particular to living body soaking type collecting equipment for medical treatment.
Background
In the living body collecting device for medical treatment, soaking type collection is often needed, the existing device needs larger personnel to be matched and completed when in use, and automatic sealing of a collecting test tube cannot be completed, but no good living body soaking type collecting device is available on the market, so the living body soaking type collecting device for medical treatment is designed.
Disclosure of Invention
The invention mainly solves the technical problem of providing a living body soaking type collecting device for medical treatment, which can convey test tubes, can convey culture solution into the test tubes below the test tubes conveyed to an input tube, can seal the test tubes filled with the culture solution and living bodies, and can automatically output the sealed test tubes.
In order to solve the technical problem, the invention relates to living body soaking type collecting equipment, in particular to living body soaking type collecting equipment for medical treatment, which comprises a test tube conveying mechanism, a culture solution input linkage mechanism and an output linkage mechanism, wherein the equipment can convey test tubes, the equipment can convey culture solution into the test tubes under the test tubes conveyed to the input tubes, the equipment can seal the test tubes filled with the culture solution and living bodies, and the equipment can automatically output the sealed test tubes.
The test tube conveying mechanism is connected with the culture solution input linkage mechanism, the culture solution input linkage mechanism is connected with the output linkage mechanism, and the output linkage mechanism is connected with the test tube conveying mechanism.
As a further optimization of the technical proposal, the invention relates to a living body soaking type collecting device for medical treatment, test tube transport mechanism include the power shaft, connecting plate an, the friction pulley, the conveying axle, the conveyer belt, the test tube, the equipment fixing box, equipment fixing plate a, equipment fixing plate b, fixed conveying axle, the power shaft is connected with connecting plate an bearing, the power shaft is connected with the friction pulley, the power shaft is connected with equipment fixing box bearing, connecting plate a is connected with the equipment fixing box, connecting plate a is connected with equipment fixing plate a, the friction pulley is connected with conveying axle friction, the conveying axle is connected with conveyer belt friction, the conveying axle is connected with equipment fixing box bearing, the conveyer belt is connected with fixed conveying axle friction, the equipment fixing box is connected with equipment fixing plate a, the equipment fixing box is connected with fixed conveying axle, the equipment fixing box is connected with equipment fixing plate b, equipment fixing plate a is connected with equipment fixing plate b.
As a further optimization of the technical scheme, the invention relates to a living body soaking type collecting device for medical treatment, wherein a knocking execution mechanism comprises a belt a, a connecting shaft a, an adsorption screw propeller, a lower adsorption pipe, an upper adsorption pipe, an input sliding plate a, a limiting groove, a reset spring, a reset shaft, a reset connecting plate, a limiting plate, an air inlet and exhaust screw propeller, a connecting plate b, a connecting plate c, a connecting ring, an adsorption pipe, an adsorption limiting plate, an air blowing pipe, a blow-up pipe limiting plate, an input sliding plate b, an input hole and a box body connecting block, wherein one end of the belt a is in friction connection with a power shaft, the other end of the belt a is in friction connection with the connecting shaft a, the connecting shaft a is connected with the air inlet and exhaust screw propeller, the connecting shaft a is connected with a connecting plate b bearing, the connecting shaft a is connected with a connecting plate c bearing, the connecting shaft a is connected with a box body connecting block bearing, the lower adsorption pipe is connected with a hole on the box body connecting block, the upper adsorption tube is made of a rubber hose, one end of the upper adsorption tube is connected with the hole on the connecting plate a, the other end of the upper adsorption tube is connected with the hole on the input sliding plate a, the input sliding plate a is connected with the reset connecting plate, the input sliding plate a is connected with the input sliding plate b, the input sliding plate a is connected with the box body connecting block in a sliding manner, the limiting groove is connected with the box body connecting block, the reset spring is sleeved on the reset shaft and is limited on the reset connecting plate and the equipment installation box, one side of the reset shaft is connected with the equipment installation box in a sliding manner, the reset connecting plate is connected with the input sliding plate b, the limiting plate is connected with the box body connecting block, the connecting plate b is connected with the connecting ring, the hole on the connecting plate b is connected with the air blowing tube, one end of the connecting plate c is connected with the equipment installation box, the other end of the connecting plate c is connected with the equipment installation plate a, the connecting ring, and the hole on the connecting plate c is connected with the adsorption tube, the adsorption tube is connected with the adsorption limiting plate, the adsorption limiting plate is connected with the equipment installation box, the blowpipe is connected with a hole in the blowing pipe limiting plate, the blowing pipe limiting plate is connected with the input sliding plate b in a sliding mode, the blowing pipe limiting plate is connected with the equipment installation plate b, the input hole is formed in the box connecting block, the box connecting block is connected with the equipment installation box, and the box connecting block is connected with the equipment installation plate a.
As a further optimization of the technical scheme, the invention relates to a living body soaking type collecting device for medical treatment, wherein a box body mechanism comprises an intermittent exhaust pipe, a mounting plate a, a mounting ring, a trapezoidal rubber ring, a test tube plug, a transmission shaft a, a special-shaped friction wheel a, an upper limiting plate and a lower limiting plate of the special-shaped friction wheel, a first friction wheel with a key, a first external thread shaft with a key groove, a second external thread shaft with a key groove, a spring connecting plate, a torsion spring, a threaded shaft limiting wheel, a second friction wheel with a key, a special-shaped friction wheel, a transmission frame, a special-shaped friction wheel c, a transmission strip, a pushing limiting plate a, a pushing shaft, a pushing limiting plate b, a pushing spring, a hinged plate a, a hinged plate b, a pushing limiting plate, an exhaust connecting plate, a thickening exhaust pipe and an output groove, one end of the intermittent exhaust pipe is connected with a hole on the limiting plate of a blow-up pipe, a second end of the intermittent exhaust pipe is connected with a hole on the mounting plate a, a third end of the thickening exhaust pipe is connected and communicated with the thickening exhaust pipe, the intermittent exhaust pipe is connected with an exhaust connecting plate, a mounting plate a is connected with a mounting ring, the mounting ring is connected with a hole on an equipment mounting plate b, the mounting ring is connected with a trapezoidal rubber ring, a test tube plug is placed in the mounting ring, a transmission shaft a is connected with an equipment mounting box bearing, the transmission shaft a is connected with an equipment mounting plate b bearing, the transmission shaft a is connected with a special-shaped friction wheel a, the transmission shaft a is connected with upper and lower limiting plates of the special-shaped friction wheel, the transmission shaft a is connected with a special-shaped friction wheel c, two sides of the special-shaped friction wheel a are connected with upper and lower limiting plates of two special-shaped friction wheels, the special-shaped friction wheel a is in friction connection with a first keyed friction wheel, the first keyed friction wheel is in sliding connection with a first z direction of a first splined external threaded shaft, the first splined external threaded shaft is connected with the equipment mounting plate b, the first splined external threaded shaft is connected with a second keyed friction wheel, and the second keyed external threaded shaft is in friction connection with the special-shaped friction wheel, the external thread shaft II with the key groove is connected with a spring connecting plate, the external thread shaft II with the key groove is in threaded connection with an equipment mounting plate b, the external thread shaft II with the key groove is connected with a conveying frame, the spring connecting plate is connected with a torsion spring, the torsion spring is connected with the equipment mounting plate b, two sides of a special-shaped friction wheel are connected with upper and lower limiting plates of two special-shaped friction wheels, a special-shaped friction wheel c is in friction connection with a conveying strip, one end of the conveying strip is connected with a pushing limiting plate a, the other end of the conveying strip is hinged with a hinged plate a, the pushing limiting plate a is connected with a pushing shaft, the pushing shaft is in sliding connection with the pushing limiting plate b, the pushing limiting plate b is connected with an equipment mounting box, the pushing spring is sleeved on the pushing shaft and limited on the pushing limiting plate a and the pushing limiting plate b, the hinged plate a is hinged with the hinged plate b, one end of the hinged plate b is in sliding connection with the pushing limiting plate b, and the other end of the fixed conveying shaft is in sliding connection with the fixed conveying shaft, the pushing limiting plate is connected with the equipment installation box, the exhaust connecting plate is connected with the equipment installation plate b, and the output groove is connected with the equipment installation box.
As a further optimization of the technical scheme, the living body soaking type collecting device for medical treatment is characterized in that power sources are arranged on the power shaft and the transmission shaft a and can rotate.
The invention discloses a living body soaking type collecting device for medical treatment, which has the beneficial effects that:
the invention relates to a living body soaking type collecting device for medical treatment, which can convey test tubes, can convey culture solution into the test tubes below a conveying test tube and an input tube, can seal the test tubes filled with the culture solution and living bodies, and can automatically output the sealed test tubes.
Drawings
The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.
FIG. 1 is a first schematic structural diagram of a living body immersion type collecting device for medical treatment according to the present invention.
FIG. 2 is a schematic structural diagram of a second collecting apparatus for living body immersion for medical use according to the present invention.
Fig. 3 is a first structural schematic diagram of a test tube conveying mechanism 1 of a living body immersion type collecting device for medical use according to the present invention.
Fig. 4 is a schematic structural diagram of a test tube conveying mechanism 1 of a living body immersion type collecting device for medical use according to the present invention.
Fig. 5 is a third schematic structural diagram of the test tube conveying mechanism 1 of the living body immersion type collecting device for medical use of the present invention.
Fig. 6 is a fourth schematic structural diagram of the test tube conveying mechanism 1 of the living body immersion type collecting device for medical use of the present invention.
Fig. 7 is a fifth schematic structural diagram of the test tube conveying mechanism 1 of the living body immersion type collecting device for medical use of the present invention.
Fig. 8 is a sixth schematic structural view of the test tube conveying mechanism 1 of the living body immersion type collecting device for medical use of the present invention.
FIG. 9 is a schematic view of the structure of test tubes 1-6 of a living body immersion type collecting apparatus for medical use according to the present invention.
Fig. 10 is a schematic structural view of an apparatus installation case 1-7 of a living body immersion type collecting apparatus for medical use according to the present invention.
FIG. 11 is a first schematic structural view of a culture solution input linkage mechanism 2 of a living body immersion type collecting apparatus for medical use according to the present invention.
FIG. 12 is a second schematic structural view of the culture solution feeding linkage mechanism 2 of the living body immersion type collecting apparatus for medical use according to the present invention.
FIG. 13 is a third schematic structural view of a culture solution feeding linkage mechanism 2 of the living body immersion type collecting apparatus for medical use according to the present invention.
FIG. 14 is a fourth schematic structural view of the culture solution feeding linkage mechanism 2 of the living body immersion type collecting apparatus for medical use according to the present invention.
FIG. 15 is a fifth schematic structural view of the culture solution feeding linkage mechanism 2 of the living body immersion type collecting apparatus for medical use according to the present invention.
FIG. 16 is a sixth schematic structural view of the culture medium feeding linkage mechanism 2 of the living body immersion type collecting apparatus for medical use according to the present invention.
Fig. 17 is a first structural schematic diagram of an output linkage mechanism 3 of the living body immersion type collecting device for medical use of the present invention.
Fig. 18 is a second structural schematic diagram of an output linkage mechanism 3 of the living body immersion type collecting device for medical use of the present invention.
Fig. 19 is a third schematic structural view of an output link mechanism 3 of the living body immersion type collecting apparatus for medical use of the present invention.
Fig. 20 is a fourth schematic structural view of the output link mechanism 3 of the living body immersion type collecting apparatus for medical use of the present invention.
Fig. 21 is a fifth schematic structural view of the output linkage mechanism 3 of the living body immersion type collecting apparatus for medical use of the present invention.
Fig. 22 is a sixth schematic structural view of the output link mechanism 3 of the living body immersion type collecting apparatus for medical use of the present invention.
In the figure: a test tube transfer mechanism 1; a power shaft 1-1; connection board a 1-2; 1-3 of a friction wheel; a transmission shaft 1-4; a conveyor belt 1-5; 1-6 of test tube; 1-7 of an equipment installation box; equipment mounting plate a 1-8; equipment mounting plate b 1-9; fixing a transmission shaft 1-10; the culture solution input linkage mechanism 2; belt a 2-1; connecting shaft a 2-2; 2-3 of an adsorption propeller; 2-4 parts of a lower adsorption pipe; 2-5 parts of an upper adsorption pipe; input slide plate a 2-6; 2-7 parts of a limiting groove; 2-8 parts of a return spring; 2-9 of a reset shaft; 2-10 of a reset connecting plate; 2-11 parts of a limiting plate; 2-12 of an air inlet and outlet propeller; connecting plate b 2-13; connecting plate c 2-14; 2-15 parts of a connecting ring; 2-16 parts of an adsorption tube; 2-17 parts of an adsorption limit plate; 2-18 parts of an air blowing pipe; blowing up the pipe limiting plates 2-19; input slide plate b 2-20; input holes 2-21; 2-22 of box connecting blocks; an output link mechanism 3; 3-1 of an intermittent exhaust pipe; mounting plate a 3-2; 3-3 of a mounting ring; 3-4 parts of a trapezoidal rubber ring; 3-5 parts of a test tube plug; a transmission shaft a 3-6; a special-shaped friction wheel a 3-7; 3-8 parts of upper and lower limit plates of the special-shaped friction wheel; 3-9 parts of a friction wheel I with keys; 3-10 of a first external thread shaft with a key groove; 3-11 of a second external thread shaft with a key groove; 3-12 parts of a spring connecting plate; 3-13 parts of a torsion spring; 3-14 parts of a threaded shaft limiting wheel; 3-15 parts of a second friction wheel with keys; 3-16 parts of a special-shaped friction wheel; transfer boxes 3-17; a special-shaped friction wheel c 3-18; conveying strips 3-19; pushing the limit plate a 3-20; pushing the shaft 3-21; pushing the limit plate b 3-22; pushing springs 3-23; hinge plates a 3-24; hinge plates b 3-25; pushing the limit plates 3-26; exhaust connection plates 3 to 27; thickening the exhaust pipe 3-28; output slots 3-29.
Detailed Description
The first embodiment is as follows:
the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, and fig. 22, and the present invention relates to a living body-submerged collecting apparatus, and more particularly, to a living body-submerged collecting apparatus for medical use, which includes a test tube transfer mechanism 1, a culture solution input link mechanism 2, and an output link mechanism 3, and which is capable of transferring test tubes, transferring culture solution into the test tubes below the transfer tubes to the input tubes, sealing the test tubes containing the culture solution and the living bodies, and automatically outputting the sealed test tubes.
The test tube conveying mechanism 1 is connected with the culture solution input linkage mechanism 2, the culture solution input linkage mechanism 2 is connected with the output linkage mechanism 3, and the output linkage mechanism 3 is connected with the test tube conveying mechanism 1.
The second embodiment is as follows:
the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, which further describes the first embodiment, the present embodiment is capable of transferring test tubes, the apparatus is capable of inputting culture solution into the test tubes under the transfer of the test tubes to the input tube, the power shaft 1-1 rotates to rotate the friction wheels 1-3, the friction wheels 1-3 rotate to rotate the transfer shafts 1-4, the transfer shafts 1-4 rotate to move the transfer belts 1-5, the transfer shafts 1-5 can transfer the test tubes 1-6 inserted into the transfer belts 1-5 under the restriction of the fixed transfer shafts 1-10 when the transfer belts 1-5 move, when the test tube 1-6 is conveyed to be in contact with the input sliding plate a2-6, the input sliding plate a2-6 is driven to slide towards one side of the limiting groove 2-7, the limiting groove 2-7 presses the sliding plate a2-6 to enable the hole on the sliding plate a2-6 to coincide with the hole on the box body connecting block 2-22, in the process, the power shaft 1-1 also drives the connecting shaft a2-2 to rotate through the belt a2-1, the connecting shaft a2-2 rotates through the adsorption propeller 2-3, when the adsorption propeller 2-3 rotates, the culture solution in the space formed by the box body connecting block 2-22, the equipment installation box 1-7 and the equipment installation plate a1-8 can be input into the conveyed test tube 1-6 through the lower adsorption tube 2-4 and the upper adsorption tube 2-5, and when the test tube 1-6 does not press the input sliding plate a2-6, the holes on the sliding plate a2-6 are not overlapped with the holes on the box connecting block 2-22, at the moment, the culture solution is not discharged into the test tube 1-6, the air inlet and outlet screw propeller 2-12 is driven to rotate when the connecting shaft a2-2 rotates, the air is adsorbed into the adsorption tube 2-16 when the air inlet and outlet screw propeller 2-12 rotates, when the adsorption force acts on the test tube 1-6 in transmission, the test tube 1-6 can be tightly attached to the transmission belt 1-5, the process avoids that the culture solution in the test tube 1-6 inclined upper adsorption tube 2-5 can not be input into the test tube 1-6 when the test tube 1-6 which is not completely inserted into the transmission belt 1-5 passes below the upper adsorption tube 2-5,
the third concrete implementation mode:
referring to FIGS. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, the present embodiment will be further described, wherein the apparatus is capable of sealing a test tube containing a culture solution with a living body, reacting force of suction force generated when the air inlet/outlet screw 2-12 rotates is applied to the air blowing tube 2-18 to intermittently blow up the air blowing tube 2-18, when the test tube 1-6 is transferred to the lower side of the mounting ring 3-3, the input sliding plate a2-6 moves the input sliding plate b2-20, at which time the holes of the input sliding plates b2-20 of the two blowing tube stopper plates 2-19 are overlapped, and the blown gas is partially discharged to the upper side of the test tube stopper 3-5 through the intermittent exhaust tube 3-1, blowing a test tube plug 3-5 to enable the test tube plug 3-5 to break through the limitation of a trapezoidal rubber ring 3-4, sealing a test tube 1-6 by the test tube plug 3-5, rotating a transmission shaft a3-6, rotating the transmission shaft a3-6 to drive a special-shaped friction wheel a3-7 and a special-shaped friction wheel 3-16 to rotate, driving an upper limit plate 3-8 and a lower limit plate 3-8 of the special-shaped friction wheel to rotate when the special-shaped friction wheel a3-7 rotates, limiting the longitudinal position of a first 3-9 of a friction wheel with a key when the upper limit plate 3-8 and the lower limit plate 3-8 of the special-shaped friction wheel rotate, driving a first 3-9 of a friction wheel with a key to rotate intermittently when the special-shaped friction wheel a3-7 rotates, driving a first 3-10 of an external thread shaft with a key to rotate along with the key and rise when the first 3-9 of the friction wheel with the key rotates anticlockwise, driving a first 3-10 of the external thread shaft with the key to rise to drive a spring connecting plate 3-12 on the same side, the first splined external thread shaft 3-10 is lifted to the limit position under the action of the torsion springs 3-13 and rapidly moves downwards, the first splined external thread shaft 3-10 is pressed to be conveyed to the test tube plug 3-5 on the test tube 1-6 below the first splined external thread shaft 3-10 to be pressed downwards when moving downwards, the test tube plug 3-5 is used for sealing the test tube 1-6, the test tube 1-6 is further sealed on the transmission shaft a3-6 to rotate, the transmission shaft a3-6 rotates to drive the second splined friction wheel 3-15 to intermittently rotate, the upper limiting plate 3-8 and the lower limiting plate 3-8 of the special-shaped friction wheel on the through side limit the z-direction height of the second splined friction wheel 3-15, the second splined external thread shaft 3-11 is driven to move downwards when the second splined friction wheel 3-15 rotates, and the second splined external thread shaft 3-11 moves downwards to the limit position under the action of the torsion springs 3-13 on the same side When the test tube is rapidly moved upwards, the second shaft 3-11 with the key groove and the external thread moves upwards to drive the conveying frames 3-17 to move, when the conveying frames 3-17 move, the test tube 1-6 can be driven to move upwards until the test tube is separated from the limit of the conveying belt 1-5, under the action of the intermittent exhaust pipe 3-1, the test tube 1-6 moving upwards can be blown into the output groove 3-29 and can be inclined out of the equipment through the output groove 3-29, when the transmission shaft a3-6 rotates, the special-shaped friction wheel c3-18 also can be driven to rotate, the special-shaped friction wheel c3-18 rotates to intermittently drive the conveying strip 3-19 to move towards the direction of the hinge plate b3-25, the conveying strip 3-19 can be rapidly reset under the action of the pushing spring 3-23, when the conveying strip 3-19 moves towards the direction of the hinge plate b3, the hinge plate a3-24 drives the hinge plate 3-25 to move upwards, the hinged plate b3-25 moves under the limitation of the fixed conveying shaft 1-10 and the pushing limit plate 3-26, the conveying device can convey the test tubes 1-6 above the hinged plate b3-25 for a short distance upwards, the test tubes 1-6 can be separated from the conveying belt 1-5 preliminarily, and the test tubes 1-6 are prevented from being clamped on the conveying belt 1-5, so that the conveying frames 3-17 are prevented from being clamped when the test tubes 1-6 are output.
It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.