CN112870400A - Be used for gastroenterology inspection test tube automatic disinfection equipment - Google Patents

Abstract

For solving above-mentioned technical problem, a be used for gastroenterology inspection test tube self-sterilizer, including the installation step up thrust unit, transmission, test tube feeding device, test tube eduction gear, step up other device removal of thrust unit installation through the installation and press from both sides the test tube that needs the disinfection tightly then impel, transmission provides the device operation and makes power and transmission condition, test tube feeding device steps up the circumstances that thrust unit removed according to the installation and outwards releases the sterile test tube of needs and disinfect, test tube eduction gear spreads functions such as the test tube after disinfecting, its characterized in that: the transmission device is installed and fixed on the installation clamping pushing device, the test tube feeding device is installed and fixed on the installation clamping pushing device, and the test tube discharging device is installed and fixed on the installation clamping pushing device.

Description

Be used for gastroenterology inspection test tube automatic disinfection equipment

Technical Field

The invention relates to an automatic disinfection device for test tubes for digestive system department inspection, in particular to an automatic disinfection device for test tubes for digestive system department inspection.

Background

Many examination items in hospitals are filled in test tubes and then detected, and for the purpose of recycling and reducing pollution to the environment, the automatic test tube disinfection equipment for the digestive system department examination is invented.

Disclosure of Invention

The invention relates to an automatic disinfection device for test tubes for inspection in the department of gastroenterology, in particular to an automatic disinfection device for test tubes for inspection in the department of gastroenterology.

For solving above-mentioned technical problem, a be used for gastroenterology inspection test tube self-sterilizer, including the installation step up thrust unit, transmission, test tube feeding device, test tube eduction gear, step up other device removal of thrust unit installation through the installation and press from both sides the test tube that needs the disinfection tightly then impel, transmission provides the device operation and makes power and transmission condition, test tube feeding device steps up the circumstances that thrust unit removed according to the installation and outwards releases the sterile test tube of needs and disinfect, test tube eduction gear spreads functions such as the test tube after disinfecting, its characterized in that: the transmission device is installed and fixed on the installation clamping pushing device, the test tube feeding device is installed and fixed on the installation clamping pushing device, and the test tube discharging device is installed and fixed on the installation clamping pushing device.

As a further optimization of the technical scheme, the automatic disinfection equipment for the test tube for the test of the gastroenterology comprises a mounting plate, a supporting column, a sliding channel, a mounting clamping box, a spring, a friction block, a mounting and fixing bent rod, a section transmission rack, a pushing rod, a sliding sleeve, a fixing sleeve, a first hinge rod, a clamping rod, a second hinge rod, a clamping and matching column, a first spring, a sliding plate, a connecting and pushing column and a clamping claw, wherein the supporting column is mounted and fixed on the mounting plate, the sliding channel is mounted and fixed on the supporting column, the mounting clamping box is slidably mounted on the sliding channel, the spring is mounted and fixed on the friction block, the friction block is slidably mounted inside the mounting clamping box, the friction block is matched with the sliding channel, the mounting and fixing bent rod is mounted and fixed inside the mounting clamping box, the section transmission rack is slidably mounted on the mounting clamping box, the installation of catch bar is fixed on section driving rack, sliding sleeve slidable mounting is on the catch bar, fixed cover installation is fixed on the fixed knee of installation, hinge bar I articulates on sliding sleeve and the fixed knee of installation, clamping lever slidable mounting is sheathe in fixed, hinge bar II articulates on moving cover and clamping lever, press from both sides tight cooperation post installation and fix on clamping lever, spring I is installed inside pressing from both sides tight cooperation post, sliding plate slidable mounting is inside pressing from both sides tight cooperation post, connect the promotion post and install on the sliding plate, press from both sides the claw and install on connecting the promotion post.

As a further optimization of the technical scheme, the automatic disinfection equipment for the test tube for the test of the gastroenterology comprises a first mounting frame, a first rotating shaft, a rotating ratchet wheel, a driving belt wheel, a first bevel gear, a second rotating shaft, a first receiving bevel gear, a first driving belt wheel, a third rotating shaft, a third receiving belt wheel, a driving belt, an output belt wheel, a second mounting frame, a fourth rotating shaft, a second receiving belt wheel, a second output bevel gear, a second driving belt, a fifth rotating shaft, a second receiving bevel gear, a large output bevel gear, a driving shaft, a first half bevel gear, a second half bevel gear and a pushing gear barrel, wherein the first mounting frame is fixedly arranged on the mounting frame, the first rotating shaft is rotatably arranged on the first mounting frame, the rotating ratchet wheel is fixedly arranged on the first rotating shaft, the rotating ratchet wheel is matched with a section driving rack, the driving belt wheel, a second rotating shaft is rotatably arranged on the mounting plate, a first receiving bevel gear is fixedly arranged on a second rotating shaft, a first receiving bevel gear is meshed with the first bevel gear, a first driving belt wheel is fixedly arranged on the second rotating shaft, a third rotating shaft is rotatably arranged on a first mounting frame, a third receiving belt wheel is fixedly arranged on a third rotating shaft, a driving belt is arranged on the driving belt wheel and the second receiving belt wheel, an output belt wheel is fixedly arranged on the third rotating shaft, a second mounting frame is fixedly arranged on the mounting plate, a fourth rotating shaft is rotatably arranged on a second mounting frame, a second receiving belt wheel is fixedly arranged on a fourth rotating shaft, an output bevel gear is fixedly arranged on the fourth rotating shaft, a second driving belt is arranged on the output belt wheel and the second receiving belt wheel, a fifth rotating shaft is rotatably arranged on the second mounting frame, a second receiving bevel, the transmission shaft is rotatably installed on the second installation frame, the first half bevel gear is installed and fixed on the transmission shaft, the second half bevel gear is installed and fixed on the transmission shaft, and the pushing gear barrel is installed and fixed on the transmission shaft.

As a further optimization of the technical scheme, the automatic disinfection equipment for the test tube for the detection of the gastroenterology comprises a placing box, an inlet port, a sliding groove hole, an outlet port, a propulsion spring, a push plate, a sliding toothed plate, a connecting disinfection barrel, a feed port, a storage cavity, a connecting pore channel, a spring III, a sliding plate III, a connecting push column, a propulsion disinfection column, a liquid inlet hole and a liquid outlet hole, wherein the placing box is fixedly arranged on the sliding groove channel, the inlet port is arranged on the placing box, the sliding groove hole is arranged on the placing box, the outlet port is arranged on the placing box, the propulsion spring is fixedly arranged on the placing box and the push plate, the push plate is slidably arranged inside the placing box and on the sliding groove hole, the sliding toothed plate is slidably arranged on a mounting frame II, the connecting disinfection barrel is fixedly arranged on the sliding toothed plate, the feed port is arranged on the connecting disinfection barrel, the storage cavity is, the connecting pore channel is arranged on the connecting disinfection barrel, the spring III is arranged inside the connecting disinfection barrel, the sliding plate III is slidably arranged inside the connecting disinfection barrel, the connecting pushing column is fixedly arranged on the sliding plate III, the pushing disinfection column is fixedly arranged on the connecting pushing column, the liquid inlet hole is arranged on the pushing disinfection column, and the liquid outlet hole is arranged on the pushing disinfection column.

As a further optimization of the technical scheme, the automatic disinfection equipment for the test tube for the test of the gastroenterology, disclosed by the invention, comprises a rotating cylinder, a receiving transmission belt, a cross connecting shaft, a transmission cross hole sheave and a matching pushing spring, a transmission inclined plane crawler belt and a mounting hole, wherein the rotating cylinder is rotatably arranged on the mounting plate, the receiving transmission belt is arranged on the rotating cylinder and a first transmission belt wheel, a cross connecting shaft is fixedly arranged on the rotating cylinder, the transmission cross hole sheave is slidably arranged on the cross connecting shaft, the matching pushing spring is sleeved on the cross connecting shaft, the transmission inclined plane crawler belt is arranged on the transmission cross hole sheave, and the mounting hole is arranged on the transmission inclined plane crawler belt.

As a further optimization of the technical scheme, the automatic disinfection equipment for the test tube for the test of the gastroenterology is provided, the supporting column for installing the clamping pushing device, the sliding channel, the fixed bent rod for installing and fixing, the sliding sleeve, the fixed sleeve, the first hinge rod, the clamping rod, the second hinge rod, the clamping matching column, the first spring, the sliding plate, the connecting pushing column and the clamping claw are two in number, the number of the springs is six, the number of the friction blocks is four, and the reciprocating pushing device is arranged on the section transmission rack.

As a further optimization of the technical scheme, the automatic disinfection equipment for the test tubes for the test of the digestive system department is characterized in that a disinfectant feeding device is arranged at a feed port of the test tube feeding device.

The automatic disinfection equipment for the test tube in the digestive system department has the beneficial effects that:

the invention relates to automatic disinfection equipment for test tubes for inspection in the department of gastroenterology, in particular to automatic disinfection equipment for test tubes for inspection in the department of gastroenterology, which realizes the functions of clamping and then pushing test tubes to be disinfected by installing a clamping and pushing device and installing other devices to move, driving the device to run to enable power and driving conditions to be provided by a driving device, outwards pushing the test tubes to be disinfected and disinfecting the test tubes according to the moving condition of the installing and clamping and pushing device, and transmitting the disinfected test tubes by a test tube discharging device.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a first structural schematic diagram of the installation clamping pushing device of the invention.

Fig. 4 is a schematic structural diagram of the installation clamping pushing device of the invention.

Fig. 5 is a third schematic structural view of the installation clamping pushing device of the invention.

Fig. 6 is a fourth schematic structural view of the installation clamping pushing device of the invention.

Fig. 7 is a first structural schematic diagram of the transmission device of the present invention.

FIG. 8 is a second schematic structural diagram of the transmission device of the present invention.

Fig. 9 is a third schematic structural diagram of the transmission device of the present invention.

Fig. 10 is a first structural schematic diagram of the test tube feeding device of the present invention.

FIG. 11 is a second structural view of the test tube feeding device of the present invention.

FIG. 12 is a schematic view showing the structure of a test tube feeding device of the present invention

FIG. 13 is a first schematic structural view of a test tube discharging device according to the present invention.

FIG. 14 is a second schematic view of the test tube discharging device of the present invention.

In the figure: installing a clamping pushing device 1; a mounting plate 1-1; 1-2 of a support column; a sliding channel 1-3; installing a clamping box 1-4; 1-5 of a spring; 1-6 of friction blocks; installing and fixing bent rods 1-7; section transmission racks 1-8; push rods 1-9; 1-10 of a sliding sleeve; 1-11 parts of a fixed sleeve; 1-12 of a hinge rod I; 1-13 of a clamping bar; two hinge rods 1-14; clamping the matching columns by 1-15; 1-16 parts of a first spring; a slide plate 1-17; connecting pushing columns 1-18; clamping jaws 1-19; a transmission 2; a first mounting frame 2-1; rotating the first shaft 2-2; rotating the ratchet 2-3; 2-4 of a transmission belt wheel; 2-5 parts of a first bevel gear; 2-6 parts of a second rotating shaft; receiving bevel gears I2-7; a first transmission belt wheel 2-8; rotating the shaft three by 2-9; receiving belt wheels 2-10; 2-11 parts of a transmission belt; an output pulley 2-12; mounting frames II 2-13; rotating the shaft four by 2-14; receiving belt wheels 2-15; output bevel gears 2-16; 2-17 parts of a second transmission belt; rotating the shaft five 2-18; receiving bevel gears two 2-19; 2-20 parts of output large bevel gear; 2-21 parts of a transmission shaft; 2-22 parts of a half bevel gear I; 2-23 parts of a half bevel gear II; pushing the gear barrel 2-24; a test tube feeding device 3; 3-1 of a placing box; an inlet port 3-2; 3-3 of a sliding groove hole; a discharge port 3-4; 3-5 parts of a propelling spring; 3-6 of a push plate; sliding toothed plates 3-7; connecting a disinfection barrel 3-8; a feed inlet 3-9; 3-10 parts of storage cavity; connecting pore channels 3-11; 3-12 parts of a spring; sliding plates 3-13; connecting pushing columns 3-14; pushing the disinfection column 3-15; 3-16 parts of liquid inlet hole; 3-17 parts of liquid discharge holes; a test tube discharging device 4; rotating the cylinder 4-1; receiving a transmission belt 4-2; 4-3 of a cross connecting shaft; 4-4 of a transmission cross hole sheave; the inclined plane caterpillar band 4-6 is driven by matching with the pushing spring 4-5; and mounting holes 4-7.

Detailed Description

The first embodiment is as follows:

in order to solve the above technical problems, an automatic test tube sterilizing apparatus for digestive system department inspection is disclosed, which comprises an installation clamping pushing device 1, a transmission device 2, a test tube feeding device 3, a test tube discharging device 4, wherein other devices are installed to move through the installation clamping pushing device 1, the transmission device 2, the test tube feeding device 3 and the test tube discharging device 4, test tubes to be sterilized are clamped and then pushed, the transmission device provides power and transmission conditions for the operation of the device, the test tube feeding device outwards pushes out test tubes to be sterilized according to the condition that the installation clamping pushing device moves and performs sterilization, the test tube discharging device sends out sterilized test tubes, and the automatic test tube sterilizing apparatus is characterized in that: the transmission device 2 is fixedly installed on the installation clamping pushing device 1, the test tube feeding device 3 is fixedly installed on the installation clamping pushing device 1, and the test tube discharging device 4 is fixedly installed on the installation clamping pushing device 1.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, and 14, and the embodiment further describes the embodiment, where the installation and clamping pushing device 1 includes a mounting plate 1-1, a support column 1-2, a sliding channel 1-3, an installation and clamping box 1-4, a spring 1-5, a friction block 1-6, an installation and fixing curved rod 1-7, a section transmission rack 1-8, a push rod 1-9, a sliding sleeve 1-10, a fixing sleeve 1-11, a hinge rod 1-12, a clamping rod 1-13, a hinge rod two 1-14, a clamping fit column 1-15, a spring one 1-16, a sliding plate 1-17, a connection and push column 1-18, and a clamping claw 1-19, then a section transmission rack 1-8 provided with a clamping pushing device 1 moves forwards under the action of a reciprocating pushing device, the section transmission rack 1-8 pushes a push rod 1-9 to move in the moving process, then the moving push rod 1-9 pushes a first hinge rod 1-12 and a second hinge rod 1-14 through a sliding sleeve 1-10, one end of the first hinge rod 1-12 is fixed on a fixed bent rod 1-7, so that the second hinge rod 1-14 pushes two clamping rods 1-13 to move towards the center, the clamping rods 1-13 drive a clamping fit column 1-15, a first spring 1-16, a sliding plate 1-17, a connecting push column 1-18 and a clamping claw 1-19 to move, the clamping claw 1-19 cannot clamp a test tube after clamping, and then the section transmission rack 1-8 pushes a mounting clamp through the push rod 1-9 The tight box 1-4 moves, when the section transmission rack 1-8 moves in a reciprocating way, the rotary ratchet wheel 2-3 cannot be driven to rotate, the section transmission rack 1-8 enables the clamping claw 1-19 to loosen the test tube firstly through the push rod 1-9 and then pulls the installation clamping box 1-4 to restore to the original position, then the process is repeated, the supporting column 1-2 is installed and fixed on the installation plate 1-1, the sliding channel 1-3 is installed and fixed on the supporting column 1-2, the installation clamping box 1-4 is installed and fixed on the sliding channel 1-3 in a sliding way, the spring 1-5 is installed and fixed on the friction block 1-6, the friction block 1-6 is installed and fixed inside the installation clamping box 1-4 in a sliding way, the friction block 1-6 is matched with the sliding channel 1-3, and the installation fixing bent rod 1-7 is installed and fixed inside the, a section transmission rack 1-8 is slidably arranged on an installation clamping box 1-4, a push rod 1-9 is fixedly arranged on the section transmission rack 1-8, a sliding sleeve 1-10 is slidably arranged on the push rod 1-9, a fixed sleeve 1-11 is fixedly arranged on an installation fixed bent rod 1-7, a first hinge rod 1-12 is hinged on the sliding sleeve 1-10 and the installation fixed bent rod 1-7, a clamping rod 1-13 is slidably arranged on the fixed sleeve 1-11, a second hinge rod 1-14 is hinged on the movable sleeve 1-10 and the clamping rod 1-13, a clamping matching column 1-15 is fixedly arranged on the clamping rod 1-13, a first spring 1-16 is arranged inside the clamping matching column 1-15, a sliding plate 1-17 is slidably arranged inside the clamping matching column 1-15, the connecting pushing column 1-18 is arranged on the sliding plate 1-17, and the clamping claw 1-19 is arranged on the connecting pushing column 1-18.

The third concrete implementation mode:

the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, and 14, and the present embodiment further describes the present embodiment, where the transmission device 2 includes a first mounting frame 2-1, a first rotating shaft 2-2, a rotating ratchet 2-3, a transmission pulley 2-4, a first bevel gear 2-5, a second rotating shaft 2-6, a first receiving bevel gear 2-7, a first transmission pulley 2-8, a third rotating shaft 2-9, a second receiving pulley 2-10, a transmission belt 2-11, an output pulley 2-12, a second mounting frame 2-13, a fourth rotating shaft 2-14, a second receiving pulley 2-15, an output bevel gear 2-16, a second transmission belt 2-17, a fifth rotating shaft 2-18, a second receiving bevel gear 2-19, a second output bevel gear 2-16, a second transmission belt 2-17, The section of the section transmission rack 1-8 on the tooth surface drives a rotating ratchet 2-3 of the transmission device 2 to rotate, the rotating ratchet 2-3 drives a transmission belt wheel 2-4 and a bevel gear I2-5 to rotate through a rotating shaft I2-2, the transmission belt wheel 2-4 drives a receiving belt wheel 2-10 to rotate through a transmission belt 2-11, the receiving belt wheel 2-10 drives an output belt wheel 2-12 to rotate through a rotating shaft III 2-9, the output belt wheel 2-12 drives a receiving belt wheel 2-15 to rotate through a transmission belt II 2-17, and the receiving belt wheel II 2-15 drives an output bevel gear 2-16 to rotate through a rotating shaft IV 2-14, the output bevel gears 2-16 drive the rotating shafts five 2-18 to rotate through receiving the bevel gears two 2-19, the rotating shafts five 2-18 drive the output large bevel gears 2-20 to rotate, the output large bevel gears 2-20 reciprocate and the half bevel gears one 2-22 are meshed with the half bevel gears two 2-23 to drive the transmission shafts 2-21 to reciprocate, the mounting frame one 2-1 is fixedly arranged on the mounting frame 1-1, the rotating shafts one 2-2 are rotatably arranged on the mounting frame one 2-1, the rotating ratchets 2-3 are fixedly arranged on the rotating shafts one 2-2, the rotating ratchets 2-3 are matched with the section transmission racks 1-8, the transmission belt wheels 2-4 are fixedly arranged on the rotating shafts one 2-2, the bevel gears one 2-5 are fixedly arranged on the rotating shafts two 2-6, a second rotating shaft 2-6 is rotatably arranged on the mounting plate 1-1, a first receiving bevel gear 2-7 is fixedly arranged on a second rotating shaft 2-6, the first receiving bevel gear 2-7 is meshed with a first bevel gear 2-5, meanwhile, the first bevel gear 2-5 drives the second rotating shaft 2-6 to rotate through the first receiving bevel gear 2-7, the second rotating shaft 2-6 drives a first driving belt wheel 2-8 to rotate, the first driving belt wheel 2-8 drives a rotating cylinder 4-1 to rotate through a first receiving driving belt 4-2, the first driving belt wheel 2-8 is fixedly arranged on the second rotating shaft 2-6, a third rotating shaft 2-9 is rotatably arranged on the first mounting frame 2-1, a third receiving belt wheel 2-10 is fixedly arranged on the third rotating shaft 2-9, a driving belt 2-11 is arranged on the first driving belt wheel 2-4 and the second, the output belt wheels 2-12 are fixedly arranged on the third rotating shaft 2-9, the second mounting frames 2-13 are fixedly arranged on the mounting plates 1-1, the fourth rotating shafts 2-14 are rotatably arranged on the second mounting frames 2-13, the second receiving belt wheels 2-15 are fixedly arranged on the fourth rotating shafts 2-14, the output bevel gears 2-16 are fixedly arranged on the fourth rotating shafts 2-14, the second transmission belts 2-17 are arranged on the output belt wheels 2-12 and the second receiving belt wheels 2-15, the fifth rotating shafts 2-18 are rotatably arranged on the second mounting frames 2-13, the second receiving bevel gears 2-19 are fixedly arranged on the fifth rotating shafts 2-18, the second receiving bevel gears 2-19 are meshed with the output bevel gears 2-16, and the large output bevel gears 2-20 are fixedly arranged on the fifth rotating shafts 2-18, the transmission shaft 2-21 is rotatably arranged on the second mounting frame 2-13, the first half bevel gear 2-22 is fixedly arranged on the transmission shaft 2-21, the second half bevel gear 2-23 is fixedly arranged on the transmission shaft 2-21, and the pushing gear barrel 2-24 is fixedly arranged on the transmission shaft 2-21.

The fourth concrete implementation mode:

referring to FIGS. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, the present embodiment will be further described, wherein the test tube feeding device 3 comprises a placing box 3-1, an inlet port 3-2, a sliding slot 3-3, an outlet port 3-4, a pushing spring 3-5, a pushing plate 3-6, a sliding toothed plate 3-7, a connecting sterilizing barrel 3-8, a feed port 3-9, a storage chamber 3-10, a connecting hole 3-11, a spring three 3-12, a sliding plate three 3-13, a connecting pushing column 3-14, a pushing sterilizing column 3-15, a feed port 3-16, and a drain port 3-17, the test tube to be sterilized is first placed in the placing box 3-1 of the test tube feeding device 3, in the process of placing the test tubes into the placing box 3-1, the push plate 3-6 and the test tubes are placed into the placing box 3-1 through the inlet 3-2, the transmission shaft 2-21 drives the sliding toothed plate 3-7 of the test tube feeding device 3 to move back and forth through the push toothed barrel 2-24, the sliding toothed plate 3-7 pushes the connecting disinfection barrel 3-8 to move downwards, the connecting disinfection barrel 3-8 pushes the pushing disinfection column 3-15 to move downwards through the spring three 3-12, the sliding plate three 3-13 and the connecting push column 3-14, the pushing disinfection column 3-15 is pushed to push the test tubes to be discharged from the outlet 3-4 and then fall between the clamping jaws 1-19, the upper ends of the test tubes can be clamped and then the sliding toothed plate 3-7 pushes the connecting disinfection barrel 3-8 to move downwards, and the test tubes can be pushed to still to generate the actions of pushing the disinfection column 3-15 and the connecting disinfection barrel 3-8 due to the test The springs 3-12 are compressed and then the connecting pore channels 3-11 are communicated with the liquid inlet holes 3-16, so that the disinfectant in the storage cavities 3-10 is discharged to the inner wall of the test tube through the liquid outlet holes 3-17 for disinfection, then the sliding toothed plates 3-7 drive the connecting disinfection barrels 3-8 to move upwards, when the connecting disinfection barrels 3-8 drive the lowest ends of the disinfection columns 3-15 to exceed the upper ends of the test tubes, the pushing springs 3-5 push the test tubes forward through the pushing plates 3-6 to replenish the pushed test tubes, then the pushing springs 3-5 push the pushing plates 3-6 to clamp the test tubes with the placing boxes 3-1, the placing boxes 3-1 are fixedly arranged on the sliding channel channels 1-3, and the inlet ports 3-2 are arranged on the placing boxes 3-1, a sliding groove hole 3-3 is arranged on a placing box 3-1, a discharge port 3-4 is arranged on the placing box 3-1, a pushing spring 3-5 is fixedly arranged on the placing box 3-1 and a pushing plate 3-6, the pushing plate 3-6 is slidably arranged inside the placing box 3-1 and on the sliding groove hole 3-3, a sliding toothed plate 3-7 is slidably arranged on a second mounting frame 2-13, a connecting sterilizing barrel 3-8 is fixedly arranged on the sliding toothed plate 3-7, a feed port 3-9 is arranged on the connecting sterilizing barrel 3-8, a storage cavity 3-10 is arranged on the connecting sterilizing barrel 3-8, a connecting pore channel 3-11 is arranged on the connecting sterilizing barrel 3-8, a spring three 3-12 is arranged inside the connecting sterilizing barrel 3-8, a sliding plate three 3-13 is slidably arranged inside the connecting sterilizing barrel 3-8, the connecting pushing column 3-14 is fixedly arranged on the sliding plate 3-13, the pushing disinfection column 3-15 is fixedly arranged on the connecting pushing column 3-14, the liquid inlet hole 3-16 is arranged on the pushing disinfection column 3-15, and the liquid outlet hole 3-17 is arranged on the pushing disinfection column 3-15.

The fifth concrete implementation mode:

the second embodiment will be further described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14. the second embodiment is further described, wherein the test tube discharging device 4 comprises a rotary cylinder 4-1, a receiving transmission belt 4-2, a cross connecting shaft 4-3, a transmission cross grooved pulley 4-4, a matching pushing spring 4-5, a transmission inclined track 4-6, and a mounting hole 4-7, the rotary cylinder 4-1 drives the transmission cross grooved pulley 4-4 through the cross connecting shaft 4-3, the transmission cross grooved pulley 4-4 drives the transmission inclined track 4-6 to rotate, then when the section transmission rack 1-8 and the rotary ratchet 2-3 are not engaged, the transmission cannot be continued, and the test tube feeding device 3 completes one reciprocating cycle of the sliding toothed plate 3-7 and the circulation of the transmission inclined track 4-6 The next mounting hole 4-7 is opposite to the test tube, the mounting clamping box 1-4 then the mounting clamping box 1-4 drives the test tube to move and enables the test tube to contact with the transmission inclined plane crawler 4-6 and then drives the transmission inclined plane crawler 4-6 and the transmission cross hole sheave 4-4 to move downwards and compresses the matching pushing spring 4-5, then the test tube enters the mounting hole 4-7, the rotary cylinder 4-1 is rotatably mounted on the mounting plate 1-1, the receiving transmission belt 4-2 is mounted on the rotary cylinder 4-1 and the transmission belt wheel I2-8, the cross connecting shaft 4-3 is fixedly mounted on the rotary cylinder 4-1, the transmission cross hole sheave 4-4 is slidably mounted on the cross connecting shaft 4-3, the matching pushing spring 4-5 is sleeved on the cross connecting shaft 4-3, the transmission inclined plane crawler 4-6 is arranged on the transmission cross hole grooved pulley 4-4, and the mounting hole 4-7 is arranged on the transmission inclined plane crawler 4-6.

The sixth specific implementation mode:

the second embodiment is further described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, and 14. the second embodiment is further described, where the supporting columns 1-2, the sliding channels 1-3, the mounting and fixing bent rods 1-7, the sliding sleeves 1-10, the fixing sleeves 1-11, the hinge rods 1-12, the clamping rods 1-13, the hinge rods 1-14, the clamping and fitting columns 1-15, the springs 1-16, the sliding plates 1-17, the connecting and pushing columns 1-18, and the clamping claws 1-19 are two in number, the springs 1-5 are six in number, the friction blocks 1-6 are four in number, and the driving section racks 1-8 are provided with reciprocating pushing devices.

The seventh embodiment:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, and 14, and the fourth embodiment will be further described, in which the feed ports 3 to 9 of the test tube feeding device 3 are provided with a disinfectant feeding device.

The working principle of the invention is as follows:

a test tube automatic sterilization device for digestive system examination has the working principle that whether the connection condition between the devices meets the requirements is checked before use, test tubes to be sterilized are firstly placed in a placing box 3-1 of a test tube feeding device 3, a push plate 3-6 and then the test tubes are placed in the placing box 3-1 through an inlet 3-2 in the placing process, then a push spring 3-5 pushes the push plate 3-6 to clamp the test tubes with the placing box 3-1, then a section transmission rack 1-8 of a clamping pushing device 1 is installed to move forwards under the action of a reciprocating pushing device, a section transmission rack 1-8 pushes a push rod 1-9 to move in the moving process, the section transmission rack 1-8 drives a rotation ratchet 2-3 of a transmission device 2 to rotate at the section with the tooth surface, the rotating ratchet wheel 2-3 drives a driving belt wheel 2-4 and a bevel gear I2-5 to rotate through a rotating shaft I2-2, the driving belt wheel 2-4 drives a receiving belt wheel 2-10 to rotate through a driving belt 2-11, the receiving belt wheel 2-10 drives an output belt wheel 2-12 to rotate through a rotating shaft III 2-9, the output belt wheel 2-12 drives a receiving belt wheel II 2-15 to rotate through a driving belt II 2-17, the receiving belt wheel II 2-15 drives an output bevel gear 2-16 to rotate through a rotating shaft IV 2-14, the output bevel gear 2-16 drives a rotating shaft V2-18 to rotate through a receiving bevel gear II 2-19, the rotating shaft V2-18 drives an output large bevel gear 2-20 to rotate, the output large bevel gear 2-20 reciprocates, the half bevel gear I2-22 is meshed with the half bevel gear II 2-23 to drive a transmission 2-21, the transmission shaft 2-21 drives the sliding toothed plate 3-7 of the test tube feeding device 3 to move in a reciprocating manner by pushing the toothed barrel 2-24, the sliding toothed plate 3-7 pushes the connecting disinfection barrel 3-8 to move downwards, the connecting disinfection barrel 3-8 pushes the disinfection column 3-15 to move downwards by pushing the spring three 3-12, the sliding plate three 3-13 and the connecting pushing column 3-14, the disinfection column 3-15 is pushed to push the test tube to be discharged from the discharge port 3-4 and then fall between the clamping jaws 1-19, because the upper end of the test tube is clamped, the sliding toothed plate 3-7 pushes the connecting disinfection barrel 3-8 to move downwards, because the test tube does not move, the test tube can push the disinfection column 3-15 and the connecting disinfection barrel 3-8 to move relatively, the spring three 3-12 is compressed, and then the connecting hole 3-11 and the liquid inlet hole are connected with the liquid inlet hole 3-16, the disinfectant in the storage cavity 3-10 is discharged to the inner wall of the test tube through a liquid discharge hole 3-17 for disinfection, then a sliding toothed plate 3-7 drives a connecting disinfection barrel 3-8 to move upwards, when the connecting disinfection barrel 3-8 drives a pushing disinfection column 3-15 to push the lowest end of the disinfection column to exceed the upper end of the test tube, a pushing spring 3-5 pushes the test tube forwards through a pushing plate 3-6 to finish the pushed test tube, meanwhile, a bevel gear I2-5 drives a rotating shaft II 2-6 to rotate through a receiving bevel gear I2-7, the rotating shaft II 2-6 drives a driving belt wheel I2-8 to rotate, the driving belt wheel I2-8 drives a rotating cylinder 4-1 to rotate through a receiving driving belt 4-2, the rotating cylinder 4-1 drives a driving cross-hole sheave 4 through a cross connecting shaft 4-3, the transmission cross-hole grooved pulley 4-4 drives the transmission inclined plane crawler 4-6 to rotate, then when the section transmission rack 1-8 and the rotation ratchet wheel 2-3 are not meshed, the transmission can not be continued, the test tube feeding device 3 finishes one reciprocating cycle of the sliding toothed plate 3-7 and the next installation hole 4-7 on the transmission inclined plane crawler 4-6 is opposite to a test tube, then the movable push rod 1-9 pushes the first hinge rod 1-12 and the second hinge rod 1-14 through the sliding sleeve 1-10, because one end of the first hinge rod 1-12 is fixed on the installation fixed bent rod 1-7, the second hinge rod 1-14 pushes the two clamping rods 1-13 to move to the center, and the clamping rods 1-13 drive the clamping fit columns 1-15 and the first springs 1-16, The test tube clamping device comprises a sliding plate 1-17, a connecting pushing column 1-18 and a clamping claw 1-19, wherein the clamping claw 1-19 cannot clamp a test tube continuously after clamping the test tube, then a section transmission rack 1-8 pushes a mounting clamping box 1-4 to move through a pushing rod 1-9, the mounting clamping box 1-4 and a mounting clamping box 1-4 drive the test tube to move, the test tube is driven to contact with a transmission inclined plane crawler 4-6 and then drives a transmission inclined plane crawler 4-6 and a transmission cross-hole sheave 4-4 to move downwards, a matched pushing spring 4-5 is compressed, then the test tube enters a mounting hole 4-7, when the section transmission rack 1-8 reciprocates, a rotating ratchet 2-3 cannot be driven to rotate, the section transmission rack 1-8 enables the clamping claw 1-19 to loosen the test tube firstly through the pushing rod 1-9 and then pulls the mounting clamping box 1-7 4 to restore to the original position and then repeat the above process.

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.

Claims (7)

1. The utility model provides a be used for gastroenterology inspection test tube automatic disinfection equipment, steps up thrust unit (1), transmission (2), test tube feeding device (3), test tube eduction gear (4) including the installation, its characterized in that: the transmission device (2) is fixedly installed on the installation clamping pushing device (1), the test tube feeding device (3) is fixedly installed on the installation clamping pushing device (1), and the test tube discharging device (4) is fixedly installed on the installation clamping pushing device (1).

2. An automatic sterilization apparatus for digestive medical examination tubes according to claim 1, characterized in that: the mounting and clamping pushing device (1) comprises a mounting plate (1-1), a supporting column (1-2), a sliding channel (1-3), a mounting and clamping box (1-4), a spring (1-5), a friction block (1-6), a mounting and fixing bent rod (1-7), a section transmission rack (1-8), a pushing rod (1-9), a sliding sleeve (1-10), a fixing sleeve (1-11), a first hinge rod (1-12), a clamping rod (1-13), a second hinge rod (1-14), a clamping fit column (1-15), a first spring (1-16), a sliding plate (1-17), a connecting and pushing column (1-18) and a clamping claw (1-19), wherein the supporting column (1-2) is fixedly mounted on the mounting plate (1-1), the sliding channel (1-3) is fixedly arranged on the supporting column (1-2), the mounting and clamping box (1-4) is slidably arranged on the sliding channel (1-3), the spring (1-5) is fixedly arranged on the friction block (1-6), the friction block (1-6) is slidably arranged in the mounting and clamping box (1-4), the friction block (1-6) is matched with the sliding channel (1-3), the mounting and fixing bent rod (1-7) is fixedly arranged in the mounting and clamping box (1-4), the section transmission rack (1-8) is slidably arranged on the mounting and clamping box (1-4), the push rod (1-9) is fixedly arranged on the section transmission rack (1-8), the sliding sleeve (1-10) is slidably arranged on the push rod (1-9), the fixed sleeve (1-11) is fixedly installed on the installation fixed bent rod (1-7), the first hinge rod (1-12) is hinged on the sliding sleeve (1-10) and the installation fixed bent rod (1-7), the clamping rod (1-13) is slidably installed on the fixed sleeve (1-11), the second hinge rod (1-14) is hinged on the moving sleeve (1-10) and the clamping rod (1-13), the clamping fit column (1-15) is fixedly installed on the clamping rod (1-13), the first spring (1-16) is installed inside the clamping fit column (1-15), the sliding plate (1-17) is slidably installed inside the clamping fit column (1-15), the connection pushing column (1-18) is installed on the sliding plate (1-17), and the clamping claw (1-19) is installed on the connection pushing column (1-18).

3. An automatic sterilization apparatus for digestive medical examination tubes according to claim 1, characterized in that: the transmission device (2) comprises a first mounting frame (2-1), a first rotating shaft (2-2), a rotating ratchet wheel (2-3), a driving belt wheel (2-4), a first bevel gear (2-5), a second rotating shaft (2-6), a first receiving bevel gear (2-7), a first driving belt wheel (2-8), a third rotating shaft (2-9), a third receiving belt wheel (2-10), a driving belt (2-11), a fifth output belt wheel (2-12), a second mounting frame (2-13), a fourth rotating shaft (2-14), a second receiving belt wheel (2-15), a second output bevel gear (2-16), a second driving belt (2-17), a fifth rotating shaft (2-18), a second receiving bevel gear (2-19), a large output bevel gear (2-20), A transmission shaft (2-21), a first half bevel gear (2-22), a second half bevel gear (2-23) and a pushing gear barrel (2-24), wherein the first mounting frame (2-1) is fixedly arranged on the mounting plate (1-1), the first rotating shaft (2-2) is rotatably arranged on the first mounting frame (2-1), a rotating ratchet wheel (2-3) is fixedly arranged on the first rotating shaft (2-2), the rotating ratchet wheel (2-3) is matched with a section transmission rack (1-8), a transmission belt wheel (2-4) is fixedly arranged on the first rotating shaft (2-2), the first bevel gear (2-5) is fixedly arranged on the second rotating shaft (2-6), the second rotating shaft (2-6) is rotatably arranged on the mounting plate (1-1), and the first receiving bevel gear (2-7) is fixedly arranged on the second rotating shaft (2-6), the receiving bevel gear I (2-7) is meshed with the bevel gear I (2-5), the transmission belt wheel I (2-8) is fixedly arranged on the rotation shaft II (2-6), the rotation shaft III (2-9) is rotatably arranged on the mounting frame I (2-1), the receiving belt wheel (2-10) is fixedly arranged on the rotation shaft III (2-9), the transmission belt (2-11) is arranged on the transmission belt wheel (2-4) and the receiving belt wheel (2-10), the output belt wheel (2-12) is fixedly arranged on the rotation shaft III (2-9), the mounting frame II (2-13) is fixedly arranged on the mounting frame I (1-1), the rotation shaft IV (2-14) is rotatably arranged on the mounting frame II (2-13), and the receiving belt wheel II (2-15) is fixedly arranged on the rotation shaft IV (2-14), the output bevel gears (2-16) are fixedly arranged on the output belt wheels (2-14), the transmission belts (2-17) are arranged on the output belt wheels (2-12) and the receiving belt wheels (2-15), the rotating shafts (2-18) are rotatably arranged on the mounting frames (2-13), the receiving bevel gears (2-19) are fixedly arranged on the rotating shafts (2-18), the receiving bevel gears (2-19) are meshed with the output bevel gears (2-16), the output large bevel gears (2-20) are fixedly arranged on the rotating shafts (2-18), the transmission shafts (2-21) are rotatably arranged on the mounting frames (2-13), the half bevel gears (2-22) are fixedly arranged on the transmission shafts (2-21), the half bevel gears (2-23) are fixedly arranged on the transmission shafts (2-21), the pushing gear barrel (2-24) is fixedly arranged on the transmission shaft (2-21).

4. An automatic sterilization apparatus for digestive medical examination tubes according to claim 1, characterized in that: the test tube feeding device (3) comprises a placing box (3-1), an inlet (3-2), a sliding groove hole (3-3), an outlet (3-4), a propelling spring (3-5), a pushing plate (3-6), a sliding toothed plate (3-7), a connecting disinfection barrel (3-8), a feed inlet (3-9), a storage cavity (3-10), a connecting pore canal (3-11), a spring III (3-12), a sliding plate III (3-13), a connecting pushing column (3-14), a pushing disinfection column (3-15), a liquid inlet (3-16) and a liquid outlet (3-17), wherein the placing box (3-1) is fixedly arranged on the sliding groove channel (1-3), and the inlet (3-2) is arranged on the placing box (3-1), the sliding groove hole (3-3) is arranged on the placing box (3-1), the discharge port (3-4) is arranged on the placing box (3-1), the pushing spring (3-5) is fixedly arranged on the placing box (3-1) and the pushing plate (3-6), the pushing plate (3-6) is slidably arranged inside the placing box (3-1) and on the sliding groove hole (3-3), the sliding toothed plate (3-7) is slidably arranged on the second mounting frame (2-13), the connecting sterilizing barrel (3-8) is fixedly arranged on the sliding toothed plate (3-7), the feed port (3-9) is arranged on the connecting sterilizing barrel (3-8), the storage cavity (3-10) is arranged on the connecting sterilizing barrel (3-8), the connecting pore channel (3-11) is arranged on the connecting sterilizing barrel (3-8), the spring III (3-12) is arranged inside the connecting disinfection barrel (3-8), the sliding plate III (3-13) is slidably arranged inside the connecting disinfection barrel (3-8), the connecting pushing column (3-14) is fixedly arranged on the sliding plate III (3-13), the pushing disinfection column (3-15) is fixedly arranged on the connecting pushing column (3-14), the liquid inlet hole (3-16) is arranged on the pushing disinfection column (3-15), and the liquid outlet hole (3-17) is arranged on the pushing disinfection column (3-15).

5. An automatic sterilization apparatus for digestive medical examination tubes according to claim 1, characterized in that: the test tube discharging device (4) comprises a rotating cylinder (4-1), a receiving transmission belt (4-2), a cross connecting shaft (4-3), a transmission cross hole sheave (4-4) and a matching pushing spring (4-5), a transmission inclined surface crawler belt (4-6) and a mounting hole (4-7), wherein the rotating cylinder (4-1) is rotatably arranged on the mounting plate (1-1), the receiving transmission belt (4-2) is arranged on the rotating cylinder (4-1) and the transmission pulley I (2-8), the cross connecting shaft (4-3) is fixedly arranged on the rotating cylinder (4-1), the transmission cross hole sheave (4-4) is slidably arranged on the cross connecting shaft (4-3), and the matching pushing spring (4-5) is sleeved on the cross connecting shaft (4-3), the transmission inclined plane caterpillar band (4-6) is arranged on the transmission cross hole grooved pulley (4-4), and the mounting hole (4-7) is arranged on the transmission inclined plane caterpillar band (4-6).

6. An automatic sterilization apparatus for digestive system inspection test tubes according to claim 2, characterized in that: the device comprises supporting columns (1-2) for installing and clamping the pushing device (1), sliding channels (1-3), installing and fixing bent rods (1-7), sliding sleeves (1-10), fixing sleeves (1-11), hinge rods (1-12), clamping rods (1-13), hinge rods (1-14), clamping fit columns (1-15), springs (1-16), sliding plates (1-17), connecting pushing columns (1-18) and clamping claws (1-19), wherein the number of the springs (1-5) is six, the number of the friction blocks (1-6) is four, and reciprocating pushing devices are arranged on section transmission racks (1-8).

7. An automatic sterilization apparatus for digestive system inspection test tubes according to claim 4, wherein: and a disinfectant feeding device is arranged at a feed port (3-9) of the test tube feeding device (3).

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