CN112896859A - Be used for surgery operation refuse treatment equipment - Google Patents

Abstract

For solving above-mentioned technical problem, a be used for surgery operation refuse handling installation, including the installation shell, promote extrusion device, control feeder, cooperation discharge device, control separator, through installing other device of shell installation, promote extrusion device and extrude rubbish and control feeder to the position condition that installation shell added rubbish and control separator, control separator pushes up the inside device of movable fit discharge device and makes functions such as promotion extrusion device and cooperation discharge device, its characterized in that: the pushing extrusion device is fixedly installed on the installation shell, the control feeding device is fixedly installed on the installation shell, the matching discharging device is fixedly installed on the installation shell, and the control separation device is fixedly installed on the installation shell.

Description

Be used for surgery operation refuse treatment equipment

Technical Field

The invention relates to a surgical operation garbage disposal device, in particular to a surgical operation garbage disposal device.

Background

A certain amount of operation waste is generated in the process of the surgical operation, if the operation waste is not treated, not only resources are wasted, but also medical pollution is possibly caused, so the invention provides the surgical operation waste treatment equipment.

Disclosure of Invention

The invention relates to a device for treating surgical operation garbage, in particular to a device for treating surgical operation garbage.

For solving above-mentioned technical problem, a be used for surgery operation refuse handling installation, including the installation shell, promote extrusion device, control feeder, cooperation discharge device, control separator, through installing other device of shell installation, promote extrusion device and extrude rubbish and control feeder to the position condition that installation shell added rubbish and control separator, control separator pushes up the inside device of movable fit discharge device and makes functions such as promotion extrusion device and cooperation discharge device, its characterized in that: the pushing extrusion device is fixedly installed on the installation shell, the control feeding device is fixedly installed on the installation shell, the matching discharging device is fixedly installed on the installation shell, and the control separation device is fixedly installed on the installation shell.

As a further optimization of the technical scheme, the installation shell comprises a shell, a feeding hole and a discharging hole, wherein the feeding hole is formed in the shell, and the discharging hole is formed in the shell.

As a further optimization of the technical scheme, the pushing and extruding device comprises a supporting rod, a sliding groove, a moving bolt, a rotating and moving sleeve, an installation seat plate and a driving shaft, wherein the rotating connecting rod, a pushing bent rod, a clamping plate and a limiting connection pulling head are arranged on the supporting rod, the supporting rod is fixedly arranged on a shell, the sliding rod is slidably arranged on the supporting rod, the sliding groove is formed in the sliding rod, the moving bolt is slidably arranged in the sliding groove, the rotating and moving sleeve is rotatably arranged on the moving bolt, the installation seat plate is fixedly arranged on the shell, the driving shaft is rotatably arranged on the installation seat plate, the rotating connecting rod is fixedly arranged on the driving shaft, the pushing bent rod is fixedly arranged on the sliding rod, the clamping plate is fixedly arranged on the pushing bent rod, and the limiting connection pulling head is fixedly arranged on the clamping plate.

As a further optimization of the technical scheme, the control feeding device comprises a connection pushing rod, a connection control bolt, a spring, a second connecting plate, a control feeding plate, a limiting installation rod and a sliding installation plate, wherein the connection pushing rod is fixedly installed on a clamping plate, the connection control bolt is fixedly installed on the second connecting plate, the connection control bolt is slidably installed on the connection pushing rod, the spring is sleeved on the connection control bolt, the second connecting plate is fixedly installed on the control feeding plate, the control feeding plate is slidably installed inside a shell, the limiting installation rod is fixedly installed inside the shell, the sliding installation plate is fixedly installed on the limiting installation rod, the control feeding plate is slidably installed inside the sliding installation plate, and the control spring is sleeved on the limiting installation rod.

As a further optimization of the technical scheme, the invention discloses a waste treatment device for surgical operation, which comprises a movable mounting frame, a sliding mounting pore plate, a third mounting and fixing column, a second spring, a connecting rotating shaft, a liquid discharge control extrusion plate, a spring pushing plate, an arc-shaped spring, a matching groove, a movable threaded hole bolt, a matching head, a rotating lead screw, a third spring, a matching gear, a pushing tooth frame, a pushing tooth plate, a connecting transmission shaft, a receiving gear, a pushing control gear, a control tooth column, a reset spring, a pushing bolt and a material discharge control plate, wherein the movable mounting frame is fixedly mounted on the sliding mounting pore plate, the sliding mounting pore plate is slidably mounted on the third mounting and fixing column, the third mounting and fixing column is fixedly mounted inside a shell, the second spring is mounted on the third mounting and fixing column, the connecting rotating shaft is rotatably mounted, the control liquid discharge extrusion plate is fixedly arranged on the connecting rotating shaft, the spring pushing plate is fixedly arranged on the connecting rotating shaft, the arc-shaped spring is fixedly arranged on the spring pushing plate, the matching groove is arranged on the sliding mounting pore plate, the moving threaded hole bolt is fixedly arranged on the matching head, the matching head is slidably arranged inside the control liquid discharge extrusion plate, the rotating lead screw is rotatably arranged inside the control liquid discharge extrusion plate, the rotating lead screw is in threaded matching with the moving threaded hole bolt, the spring is sleeved on the rotating lead screw, the matching gear is fixedly arranged on the rotating lead screw, the pushing rack is slidably arranged inside the control liquid discharge extrusion plate, the pushing rack is meshed with the matching gear, the pushing toothed plate is fixedly arranged on the pushing rack, the connecting transmission shaft is rotatably arranged inside the control liquid discharge extrusion plate, the receiving gear is fixedly arranged on the connecting transmission shaft, the receiving gear is meshed with the pushing toothed plate, and the, the control tooth post is slidably mounted inside the control liquid discharge extrusion plate, the reset spring is fixedly mounted on the control tooth post, the push-out spring is fixedly mounted on the push bolt, the push bolt is fixedly mounted on the control liquid discharge extrusion plate, the discharge control plate is slidably mounted on the push bolt, and the discharge control plate is slidably mounted inside the control liquid discharge extrusion plate.

As a further optimization of the technical scheme, the invention relates to a surgical operation garbage disposal device, wherein the control separation device comprises a mounting fixed cylinder, a sliding pushing plate, a jacking control bent rod, a spring five, a movement control rack, a connecting shaft I, a gear I, a bevel gear I, a connecting shaft II, a bevel gear II, a belt wheel, a transmission belt, a connecting shaft III, a receiving belt wheel and a gear III, the mounting fixed cylinder is mounted and fixed on a shell, the sliding pushing plate is slidably mounted inside the mounting fixed cylinder, the jacking control bent rod is mounted and fixed on the sliding pushing plate, the jacking control bent rod is slidably mounted on the shell, the spring five is mounted and fixed on the sliding pushing plate, the movement control rack is mounted and fixed on a clamping plate, the movement control rack is meshed with the gear I, the connecting shaft I is rotatably mounted inside the shell, the gear I is mounted and fixed on the connecting shaft I, the bevel gear I is mounted, the first bevel gear is meshed with the second bevel gear, the second connecting shaft is rotatably installed inside the shell, the second bevel gear is fixedly installed on the second connecting shaft, the belt wheel is fixedly installed on the second connecting shaft, the transmission belt is installed on the belt wheel and the receiving belt wheel, the third connecting shaft is rotatably installed inside the shell, the receiving belt wheel is fixedly installed on the third connecting shaft, the third gear is fixedly installed on the third connecting shaft, and the third gear is meshed with the jacking control bent rod.

As a further optimization of the technical scheme, the driving shaft of the pushing and extruding device is provided with a matched motor.

The garbage treatment equipment for the surgical operation has the beneficial effects that:

the invention relates to a surgical operation garbage disposal device, in particular to a surgical operation garbage disposal device which realizes the functions of arranging other devices through an installation shell, pushing an extrusion device to extrude garbage, controlling a feeding device to feed the garbage into the installation shell and controlling the position condition of a separation device, controlling the separation device to push and match with a device in a discharging device so as to push the extrusion device and match with the discharging device and the like.

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 third schematic view of the overall structure of the present invention.

Fig. 4 is a first schematic structural diagram of the mounting housing of the present invention.

Fig. 5 is a second schematic structural diagram of the mounting housing of the present invention.

Fig. 6 is a third schematic structural diagram of the mounting housing of the present invention.

FIG. 7 is a first schematic structural diagram of a push extrusion device according to the present invention.

FIG. 8 is a schematic structural diagram of a push extrusion device of the present invention.

FIG. 9 is a schematic view of a push extrusion device of the present invention

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

Fig. 11 is a structural schematic diagram of a second controlled feeding device of the invention.

FIG. 12 is a schematic view of a structure of a material discharging device

FIG. 13 is a schematic structural diagram of a second embodiment of the discharge device of the present invention.

FIG. 14 is a third schematic structural view of the discharge device of the present invention.

FIG. 15 is a fourth schematic structural view of the discharge device of the present invention.

FIG. 16 is a fifth schematic structural view of the matched discharging device of the present invention.

Fig. 17 is a sixth schematic structural view of the matched discharging device of the present invention.

FIG. 18 is a seventh schematic structural view of the matched discharging device of the present invention.

FIG. 19 is a first schematic structural diagram of a separation control device according to the present invention.

FIG. 20 is a second schematic structural diagram of a separation control device according to the present invention.

In the figure: installing the shell 1; a housing 1-1; a feed port 1-2; 1-3 of a discharge port; pushing the extrusion device 2; a support rod 2-1; a slide bar 2-2; 2-3 of a sliding groove; 2-4 parts of a movable bolt; rotating the movable sleeve 2-5; mounting seat plates 2-6; a driving shaft 2-7, a rotating connecting rod 2-8; pushing the bent rod 2-9; 2-10 parts of a clamping plate; the limit is connected with a pulling head 2-11; controlling the feeding device 3; connecting a push rod 3-1; connecting a control bolt 3-2; 3-3 of a spring; 3-4 of a second connecting plate; controlling the feeding plate to be 3-5; 3-6 of a limiting mounting rod; a sliding mounting plate 3-7 and a control spring 3-8; matching with a discharging device 4; a mobile mounting frame 4-1; installing the pore plate 4-2 in a sliding manner; mounting a third fixing column 4-3; 4-4 parts of a second spring; connecting a rotating shaft 4-5; controlling a liquid discharge extrusion plate 4-6; 4-7 of a spring pushing plate; 4-8 parts of arc-shaped spring; 4-9 of a matching groove; 4-10 of moving the threaded hole bolt; 4-11 of a matching head; rotating the lead screw 4-12; 4-13 parts of a spring; mating gears 4-14; 4-15 of a pushing rack; 4-16 of a pushing toothed plate; connecting transmission shafts 4-17; receiving gears 4-18; 4-19 of a push control gear; 4-20 of a control tooth column; a return spring 4-21; 4-22 parts of push-out spring; 4-23 of a pushing bolt; 4-24 parts of a discharge control plate; controlling the separation device 5; mounting a fixed cylinder 5-1; a sliding push plate 5-2; 5-3 of a control bent rod is pushed; 5-4 parts of a spring; 5-5 of a mobile control rack; connecting shafts I5-6; 5-7 parts of a first gear; 5-8 parts of a first bevel gear; connecting shafts II 5-9; 5-10 parts of a second bevel gear; 5-11 of belt wheels; 5-12 parts of a transmission belt; connecting shafts III 5-13; receiving pulleys 5-14; gear three 5-15.

Detailed Description

The first embodiment is as follows:

in order to solve the above technical problems, a waste disposal apparatus for surgical operation includes an installation housing 1, a pushing and squeezing device 2, a control feeding device 3, a matching and discharging device 4, and a control separating device 5, wherein other devices are installed through the installation housing, the pushing and squeezing device squeezes waste and controls the position of the control feeding device to add the waste into the installation housing and the control separating device, and the control separating device pushes against a device inside the matching and discharging device to push the pushing and discharging device and the matching and discharging device, and is characterized in that: the pushing extrusion device 2 is fixedly installed on the installation shell 1, the control feeding device 3 is fixedly installed on the installation shell 1, the matching discharging device 4 is fixedly installed on the installation shell 1, and the control separating device 5 is fixedly installed on the installation shell 1.

The second embodiment is as follows:

the following describes the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, and 20, and the present embodiment further describes the first embodiment, in which the installation housing 1 includes a housing 1-1, a feed port 1-2, and a discharge port 1-3, the feed port 1-2 is disposed on the housing 1-1, and the discharge port 1-3 is disposed on the housing 1-1.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20. the embodiment further describes the embodiment, the pushing and squeezing device 2 includes a support rod 2-1, a sliding rod 2-2, a sliding groove 2-3, a moving bolt 2-4, a rotating and moving sleeve 2-5, an installation seat plate 2-6, a driving shaft 2-7, a rotating connecting rod 2-8, a pushing and bending rod 2-9, a clamping plate 2-10, a limit connection pulling head 2-11, firstly, the cleaned and sterilized garbage is added into the casing 1-1 through a feeding port 1-2 of the installation casing 1 and falls on a control liquid discharge squeezing plate 4-6 of the matching discharge device 4, then the driving shaft 2-7 of the extrusion device 2 is pushed to rotate under the action of a matched motor, the driving shaft 2-7 drives the rotating connecting rod 2-8 to rotate, the rotating connecting rod 2-8 drives the rotating moving sleeve 2-5 to rotate around the driving shaft 2-7 and slide on the rotating connecting rod 2-8, the rotating moving sleeve 2-5 which rotates and moves can enable the moving bolt 2-4 to slide in the sliding groove 2-3 and enable the sliding rod 2-2 to slide on the supporting rod 2-1 and have pause for a certain time at two ends, then the sliding rod 2-2 can push the clamping plate 2-10 to move by pushing the bent rod 2-9, the clamping plate 2-10 continues to move downwards and is matched with the liquid discharge and extrusion plate 4-6 of the discharge device 4 to extrude redundant liquid in the garbage, meanwhile, the limit connection pull-up head 2-11 enters the matching groove 4-9, when the clamping plate 2-10 drives the limit connection pull-up head 2-11 to move back, the supporting rod 2-1 is installed and fixed on the shell 1-1, the sliding rod 2-2 is installed on the supporting rod 2-1 in a sliding way, the sliding groove 2-3 is arranged on the sliding rod 2-2, the moving bolt 2-4 is installed in the sliding groove 2-3 in a sliding way, the rotating moving sleeve 2-5 is installed on the moving bolt 2-4 in a rotating way, the installation seat plate 2-6 is installed and fixed on the shell 1-1, the driving shaft 2-7 is installed and fixed on the installation seat plate 2-6 in a rotating way, the rotating connecting rod 2-8 is installed and fixed on the driving shaft 2-7, the pushing bent rod 2-9 is installed and fixed on the sliding rod 2-2, the clamping plates 2-10 are fixedly arranged on the pushing bent rods 2-9, and the limiting connecting pull-up heads 2-11 are fixedly arranged on the clamping plates 2-10.

The fourth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20. the present embodiment further describes the first embodiment, in which the controlled feeding device 3 includes a connecting push rod 3-1, a connecting control bolt 3-2, a spring 3-3, a connecting plate 3-4, a controlled feeding plate 3-5, a limit mounting rod 3-6, a sliding mounting plate 3-7, a control spring 3-8, a clamping plate 2-10 driving a limit connecting pull-up head 2-11, a connecting push rod 3-1 and a movement control rack 5-5 to move, the connecting push rod 3-1 will push the connecting control bolt 3-2 downwards through the spring 3-3, and the connecting control bolt 3-2 driving the controlled feeding plate 3-5 to move downwards on the limit mounting rod 3-6 and move downwards to the limit mounting rod 3-6 The control spring 3-8 is compressed, when the clamping plate 2-10 moves continuously, the spring 3-3 on the connection control bolt 3-2 is compressed due to the limitation of the length of the limiting installation rod 3-6, so that the feed inlet 1-2 cannot be blocked by the control feed plate 3-5 only when the clamping plate 2-10 is positioned at the upper end of the feed inlet 1-2, the connection push rod 3-1 is fixedly arranged on the clamping plate 2-10, the connection control bolt 3-2 is fixedly arranged on the connecting plate two 3-4, the connection control bolt 3-2 is slidably arranged on the connection push rod 3-1, the spring 3-3 is sleeved on the connection control bolt 3-2, the connecting plate two 3-4 is fixedly arranged on the control feed plate 3-5, and the control feed plate 3-5 is slidably arranged in the shell 1-1, the limiting installation rod 3-6 is fixedly installed inside the shell 1-1, the sliding installation plate 3-7 is fixedly installed on the limiting installation rod 3-6, the control feeding plate 3-5 is slidably installed inside the sliding installation plate 3-7, and the control spring 3-8 is sleeved on the limiting installation rod 3-6.

The fifth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, and 20, and the present embodiment further describes the first embodiment, where the matching discharging device 4 includes a mobile mounting frame 4-1, a sliding mounting hole plate 4-2, a mounting and fixing column three 4-3, a spring two 4-4, a connecting rotating shaft 4-5, a control liquid discharge pressing plate 4-6, a spring pushing plate 4-7, an arc spring 4-8, a matching groove 4-9, a mobile threaded hole bolt 4-10, a matching head 4-11, a rotating lead screw 4-12, a spring three 4-13, a matching gear 4-14, a pushing rack 4-15, a pushing toothed plate 4-16, a connecting transmission shaft 4-17, a connecting transmission shaft 4-11, a connecting head 4-11, a rotating lead screw 4-12, the receiving gear 4-18, the pushing control gear 4-19, the control tooth column 4-20, the reset spring 4-21, the pushing spring 4-22, the pushing bolt 4-23, the discharging control panel 4-24, the limiting connection pull-up head 2-11, the liquid discharge extrusion plate 4-6 is controlled to move upwards by being matched with the matching head 4-11, the liquid discharge extrusion plate 4-6 is controlled to drive the movable installation frame 4-1 to move, the movable installation frame 4-1 slides on the installation fixed column III 4-3 through the sliding installation pore plate 4-2 and then compresses the spring II 4-4, when the matching discharging device 4 moves a certain position, the control tooth column 4-20 and the control tooth column 4-6 are relatively moved due to the fact that the control bent rod 5-3 is pushed to be contacted with the control tooth column 4-20, the control gear column 4-20 drives the push control gear 4-19 to rotate, the push control gear 4-19 drives the receiving gear 4-18 to rotate through a connecting transmission shaft 4-17, the receiving gear 4-18 pulls the push toothed plate 4-16 to move outwards, the push toothed plate 4-16 drives the matching gear 4-14 to rotate through a push toothed rack 4-15, the matching gear 4-14 drives the moving threaded hole bolt 4-10 to rotate, the moving threaded hole bolt 4-10 pulls the matching head 4-11 to move through a rotating lead screw 4-12, then the matching head 4-11 cannot be connected with the pull-up head 2-11 at a limiting limit, the spring II 4-4 pushes the moving mounting rack 4-1 to move downwards, and the arc spring 4-8 pushes the spring push plate 4-7 to rotate, the spring pushing plate 4-7 pushes the control liquid discharge extrusion plate 4-6 to rotate downwards by connecting the rotating shaft 4-5, so that the control liquid discharge extrusion plate 4-6 and the movable mounting frame 4-1 form a moving angle, the pushing spring 4-22 pushes the discharge control plate 4-24 outwards on the pushing bolt 4-23 and then controls the garbage extruded on the liquid discharge extrusion plate 4-6 to slide along the control liquid discharge extrusion plate 4-6 and then discharge from the discharge port 1-3, the movable mounting frame 4-1 is fixedly arranged on the sliding mounting pore plate 4-2, the sliding mounting pore plate 4-2 is slidably arranged on the mounting fixing column III 4-3, the mounting fixing column III 4-3 is fixedly arranged in the shell 1-1, and the spring II 4-4 is sleeved on the mounting fixing column III 4-3, a connecting rotating shaft 4-5 is rotatably arranged on a movable mounting frame 4-1, a control liquid discharge extrusion plate 4-6 is fixedly arranged on the connecting rotating shaft 4-5, a spring pushing plate 4-7 is fixedly arranged on the connecting rotating shaft 4-5, an arc spring 4-8 is fixedly arranged on the spring pushing plate 4-7, a matching groove 4-9 is arranged on a sliding mounting pore plate 4-2, a movable threaded hole bolt 4-10 is fixedly arranged on a matching head 4-11, the matching head 4-11 is slidably arranged in the control liquid discharge extrusion plate 4-6, a rotating screw rod 4-12 is rotatably arranged in the control liquid discharge extrusion plate 4-6, the rotating screw rod 4-12 is in threaded matching with the movable threaded hole bolt 4-10, and a spring three 4-13 is sleeved on the rotating screw rod 4-12, the matching gears 4-14 are fixedly arranged on the rotating lead screws 4-12, the pushing tooth racks 4-15 are slidably arranged inside the control liquid discharge extrusion plates 4-6, the pushing tooth racks 4-15 are meshed with the matching gears 4-14, the pushing tooth plates 4-16 are fixedly arranged on the pushing tooth racks 4-15, the connecting transmission shafts 4-17 are rotatably arranged inside the control liquid discharge extrusion plates 4-6, the receiving gears 4-18 are fixedly arranged on the connecting transmission shafts 4-17, the receiving gears 4-18 are meshed with the pushing tooth plates 4-16, the pushing control gears 4-19 are fixedly arranged on the connecting transmission shafts 4-17, the control tooth columns 4-20 are slidably arranged inside the control liquid discharge extrusion plates 4-6, and the reset springs 4-21 are fixedly arranged on the control tooth columns 4-20, the pushing springs 4-22 are fixedly arranged on the pushing bolts 4-23, the pushing bolts 4-23 are fixedly arranged on the liquid discharge control extrusion plate 4-6, the discharging control plates 4-24 are slidably arranged on the pushing bolts 4-23, and the discharging control plates 4-24 are slidably arranged inside the liquid discharge control extrusion plate 4-6.

The sixth specific implementation mode:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, and 20. the embodiment further describes the embodiment, where the controlled separation device 5 includes a fixed installation cylinder 5-1, a sliding push plate 5-2, a push control curved rod 5-3, a spring five 5-4, a movement control rack 5-5, a connecting shaft one 5-6, a gear one 5-7, a bevel gear one 5-8, a connecting shaft two 5-9, a bevel gear two 5-10, a pulley 5-11, a transmission belt 5-12, a connecting shaft three 5-13, a receiving pulley 5-14, and a gear three 5-15, where the downward movement control rack 5-5 drives the gear one 5-7 to rotate, the first gear 5-7 drives the first bevel gear 5-8 to rotate through the first connecting shaft 5-6, the first bevel gear 5-8 drives the second connecting shaft 5-9 to rotate through the second bevel gear 5-10, the second connecting shaft 5-9 drives the belt pulley 5-11 to rotate, the belt pulley 5-11 drives the receiving belt pulley 5-14 to rotate through the transmission belt 5-12, the receiving belt pulley 5-14 drives the third gear 5-15 to rotate through the third connecting shaft 5-13, the rotating gear three 5-15 pushes the jacking control bent rod 5-3 to move towards the mounting fixed cylinder 5-1, when the moving control rack 5-5 moves to a certain distance, the moving control rack 5-5 is separated from the first gear 5-7, then the jacking control bent rod 5-3 is retracted into the mounting fixed cylinder 5-1 under the action of the fifth spring 5-4, then when the clamping plate 2-10 moves upwards, the control rack 5-5 is moved to be meshed with the first gear 5-7 to drive the ejection control bent rod 5-3 to slide out after exceeding the position of the ejection control bent rod 5-3, the mounting fixing cylinder 5-1 is fixedly mounted on the shell 1-1, the sliding push plate 5-2 is slidably mounted inside the mounting fixing cylinder 5-1, the ejection control bent rod 5-3 is fixedly mounted on the sliding push plate 5-2, the ejection control bent rod 5-3 is slidably mounted on the shell 1-1, the spring five 5-4 is fixedly mounted on the sliding push plate 5-2, the movement control rack 5-5 is fixedly mounted on the clamping plate 2-10, the movement control rack 5-5 is meshed with the first gear 5-7, the connecting shaft one 5-6 is rotatably mounted inside the shell 1-1, the first gear 5-7 is fixedly arranged on the first connecting shaft 5-6, the first bevel gear 5-8 is meshed with the second bevel gear 5-10, the second connecting shaft 5-9 is rotatably arranged in the shell 1-1, the second bevel gear 5-10 is fixedly arranged on the second connecting shaft 5-9, the belt wheel 5-11 is fixedly arranged on the second connecting shaft 5-9, the transmission belt 5-12 is arranged on the belt wheel 5-11 and the receiving belt wheel 5-14, the third connecting shaft 5-13 is rotatably arranged in the shell 1-1, the receiving belt wheel 5-14 is fixedly arranged on the third connecting shaft 5-13, the third gear 5-15 is fixedly arranged on the third connecting shaft 5-13, and the third gear 5-15 is meshed with the jacking control bent rod 5-3.

The seventh embodiment:

the following describes the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, and 20, and the present embodiment further describes the third embodiment, in which the driving shafts 2-7 of the push extrusion device 2 are provided with a matching motor, the working principle of the present invention is as follows:

a working principle of a surgical operation garbage disposal device is that before use, whether the connection condition between devices meets requirements is checked, firstly, cleaned and disinfected garbage is added into a shell 1-1 through a feed port 1-2 of an installation shell 1 and falls on a control liquid drainage squeezing plate 4-6 matched with a discharging device 4, then a driving shaft 2-7 of a squeezing device 2 is pushed to rotate under the action of a matched motor, the driving shaft 2-7 drives a rotating connecting rod 2-8 to rotate, the rotating connecting rod 2-8 drives a rotating moving sleeve 2-5 to rotate around the driving shaft 2-7 and slide on the rotating connecting rod 2-8, and the rotating and moving sleeve 2-5 can enable a moving bolt 2-4 to slide in a sliding groove 2-3 and enable a sliding rod 2-2 to slide on a supporting rod 2-1 and can have two ends with each other After a certain time of pause, the sliding rod 2-2 pushes the clamping plate 2-10 to move by pushing the bent rod 2-9, the clamping plate 2-10 drives the limit connecting pull-up head 2-11, the connecting push rod 3-1 and the movement control rack 5-5 to move, the connecting push rod 3-1 pushes the connecting control bolt 3-2 downwards by the spring 3-3, the connecting control bolt 3-2 drives the control feeding plate 3-5 to move downwards on the limit mounting rod 3-6 and compress the control spring 3-8, when the clamping plate 2-10 moves continuously, the spring 3-3 on the connecting control bolt 3-2 is compressed due to the limit of the length of the limit mounting rod 3-6, so that the feeding plate 3-5 is controlled not to block the feeding port 1-2 only when the clamping plate 2-10 is positioned at the upper end of the feeding port 1-2 Dead, the downward moving movement control rack 5-5 drives the first gear 5-7 to rotate, the first gear 5-7 drives the first bevel gear 5-8 to rotate through the first connecting shaft 5-6, the first bevel gear 5-8 drives the second connecting shaft 5-9 to rotate through the second bevel gear 5-10, the second connecting shaft 5-9 drives the belt pulley 5-11 to rotate, the belt pulley 5-11 drives the receiving belt pulley 5-14 to rotate through the transmission belt 5-12, the receiving belt pulley 5-14 drives the third gear 5-15 to rotate through the third connecting shaft 5-13, the rotating third gear 5-15 pushes the jacking control bent rod 5-3 to move towards the mounting fixed cylinder 5-1, when the movement control rack 5-5 moves to a certain distance, the movement control rack 5-5 is separated from the first gear 5-7, then the jacking control bent rod 5-3 is retracted into the mounting fixed cylinder 5-1 under the action of the spring five 5-4, then when the clamping plate 2-10 moves upwards, the control rack 5-5 is moved to be meshed with the gear one 5-7 after exceeding the position of the jacking control bent rod 5-3 to drive the jacking control bent rod 5-3 to slide out, the clamping plate 2-10 continues to move downwards and is matched with the control liquid discharge extrusion plate 4-6 of the discharge device 4 to extrude redundant liquid in the garbage, meanwhile, the limit connection pull-up head 2-11 enters the matching groove 4-9, when the clamping plate 2-10 drives the limit connection pull-up head 2-11 to move backwards, the limit connection pull-up head 2-11 is matched with the matching head 4-11 to pull the control liquid discharge extrusion plate 4-6 to move upwards, the control liquid discharge extrusion plate 4-6 drives the movable mounting frame 4-1 to move, the movable mounting frame 4-1 slides on the mounting and fixing column III 4-3 through the sliding mounting hole plate 4-2 and then compresses the spring II 4-4, when the matched discharging device 4 moves to a certain position, the control tooth column 4-20 and the control liquid discharge extrusion plate 4-6 move relatively due to the contact of the jacking control bent rod 5-3 and the control tooth column 4-20, the control tooth column 4-20 drives the pushing control gear 4-19 to rotate, the pushing control gear 4-19 drives the receiving gear 4-18 to rotate through the connecting transmission shaft 4-17, the receiving gear 4-18 pulls the pushing tooth plate 4-16 to move outwards, the pushing tooth plate 4-16 drives the matched gear 4-14 to rotate through the pushing tooth frame 4-15, the movable threaded hole bolt 4-10 is driven to rotate by the matching gear 4-14, the movable threaded hole bolt 4-10 pulls the matching head 4-11 to move through the rotating lead screw 4-12, then the matching head 4-11 cannot be connected with the pull-up head 2-11 at the limiting limit, the spring II 4-4 pushes the movable mounting rack 4-1 to move downwards, the arc spring 4-8 pushes the spring push plate 4-7 to rotate, the spring push plate 4-7 pushes the control liquid discharge extrusion plate 4-6 to rotate downwards through the connecting rotating shaft 4-5, so that the control liquid discharge extrusion plate 4-6 and the movable mounting rack 4-1 form a moving angle, and the push spring 4-22 pushes the discharge control plate 4-24 outwards through the push bolt 4-23 and then controls the garbage extruded on the liquid discharge extrusion plate 4-6 to slide along the control liquid discharge extrusion plate 4-6 and then slide along the control liquid discharge extrusion plate 4-6 Discharging from a discharge port 1-3.

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. A waste treatment equipment for surgical operation comprises an installation shell (1), a pushing extrusion device (2), a control feeding device (3), a matching discharging device (4) and a control separating device (5), and is characterized in that: the pushing extrusion device (2) is fixedly installed on the installation shell (1), the control feeding device (3) is fixedly installed on the installation shell (1), the matching discharging device (4) is fixedly installed on the installation shell (1), and the control separation device (5) is fixedly installed on the installation shell (1).

2. An apparatus for surgical waste disposal according to claim 1, wherein: the mounting shell (1) comprises a shell (1-1), a feeding hole (1-2) and a discharging hole (1-3), wherein the feeding hole (1-2) is formed in the shell (1-1), and the discharging hole (1-3) is formed in the shell (1-1).

3. An apparatus for surgical waste disposal according to claim 1, wherein: the pushing extrusion device (2) comprises a supporting rod (2-1), a sliding rod (2-2), a sliding groove (2-3), a moving bolt (2-4), a rotating moving sleeve (2-5), an installation seat plate (2-6), a driving shaft (2-7), a rotating connecting rod (2-8), a pushing bent rod (2-9), a clamping plate (2-10) and a limiting connection pull-up head (2-11), wherein the supporting rod (2-1) is installed and fixed on a shell (1-1), the sliding rod (2-2) is installed on the supporting rod (2-1) in a sliding mode, the sliding groove (2-3) is arranged on the sliding rod (2-2), the moving bolt (2-4) is installed inside the sliding groove (2-3) in a sliding mode, the rotating moving sleeve (2-5) is installed on the moving bolt (2-4) in a rotating mode, the mounting seat plate (2-6) is fixedly arranged on the shell (1-1), the driving shaft (2-7) is rotatably arranged on the mounting seat plate (2-6), the rotating connecting rod (2-8) is fixedly arranged on the driving shaft (2-7), the pushing bent rod (2-9) is fixedly arranged on the sliding rod (2-2), the clamping plate (2-10) is fixedly arranged on the pushing bent rod (2-9), and the limiting connection pull-up head (2-11) is fixedly arranged on the clamping plate (2-10).

4. An apparatus for surgical waste disposal according to claim 1, wherein: the control feeding device (3) comprises a connecting push rod (3-1), a connecting control bolt (3-2), a spring (3-3), a connecting plate II (3-4), a control feeding plate (3-5), a limiting installation rod (3-6), a sliding installation plate (3-7), a control spring (3-8), wherein the connecting push rod (3-1) is fixedly installed on a clamping plate (2-10), the connecting control bolt (3-2) is fixedly installed on the connecting plate II (3-4), the connecting control bolt (3-2) is slidably installed on the connecting push rod (3-1), the spring (3-3) is sleeved on the connecting control bolt (3-2), the connecting plate II (3-4) is fixedly installed on the control feeding plate (3-5), the control feeding plate (3-5) is slidably mounted inside the shell (1-1), the limiting mounting rod (3-6) is fixedly mounted inside the shell (1-1), the sliding mounting plate (3-7) is fixedly mounted on the limiting mounting rod (3-6), the control feeding plate (3-5) is slidably mounted inside the sliding mounting plate (3-7), and the control spring (3-8) is sleeved on the limiting mounting rod (3-6).

5. An apparatus for surgical waste disposal according to claim 1, wherein: the matched discharging device (4) comprises a movable mounting frame (4-1), a sliding mounting pore plate (4-2), a mounting and fixing column III (4-3), a spring II (4-4), a connecting rotating shaft (4-5), a liquid discharge control extrusion plate (4-6), a spring pushing plate (4-7), an arc-shaped spring (4-8), a matching groove (4-9), a movable threaded hole bolt (4-10), a matching head (4-11), a rotating lead screw (4-12), a spring III (4-13), a matching gear (4-14), a pushing rack (4-15), a pushing toothed plate (4-16), a connecting transmission shaft (4-17), a receiving gear (4-18), a pushing control gear (4-19), a control toothed column (4-20), A reset spring (4-21), a push-out spring (4-22), a push bolt (4-23) and a discharge control board (4-24), wherein a movable mounting frame (4-1) is fixedly installed on a sliding mounting pore plate (4-2), the sliding mounting pore plate (4-2) is slidably installed on a mounting fixed column III (4-3), the mounting fixed column III (4-3) is fixedly installed inside a shell (1-1), a spring II (4-4) is sleeved on the mounting fixed column III (4-3), a connecting rotating shaft (4-5) is rotatably installed on the movable mounting frame (4-1), a control liquid discharge extrusion plate (4-6) is fixedly installed on the connecting rotating shaft (4-5), and a spring push plate (4-7) is fixedly installed on the connecting rotating shaft (4-5), an arc spring (4-8) is fixedly installed on a spring pushing plate (4-7), a matching groove (4-9) is arranged on a sliding installation pore plate (4-2), a moving threaded hole bolt (4-10) is fixedly installed on a matching head (4-11), the matching head (4-11) is slidably installed inside a control liquid discharge extrusion plate (4-6), a rotating lead screw (4-12) is rotatably installed inside the control liquid discharge extrusion plate (4-6), the rotating lead screw (4-12) is in threaded matching with the moving threaded hole bolt (4-10), a spring III (4-13) is sleeved on the rotating lead screw (4-12), a matching gear (4-14) is fixedly installed on the rotating lead screw (4-12), a pushing rack (4-15) is slidably installed inside the control liquid discharge extrusion plate (4-6), the pushing tooth rack (4-15) is meshed with the matching gear (4-14), the pushing tooth plate (4-16) is fixedly arranged on the pushing tooth rack (4-15), the connecting transmission shaft (4-17) is rotatably arranged in the control liquid discharge extrusion plate (4-6), the receiving gear (4-18) is fixedly arranged on the connecting transmission shaft (4-17), the receiving gear (4-18) is meshed with the pushing tooth plate (4-16), the pushing control gear (4-19) is fixedly arranged on the connecting transmission shaft (4-17), the control tooth column (4-20) is slidably arranged in the control liquid discharge extrusion plate (4-6), the reset spring (4-21) is fixedly arranged on the control tooth column (4-20), the pushing spring (4-22) is fixedly arranged on the pushing bolt (4-23), the pushing bolt (4-23) is fixedly arranged on the liquid discharge control extrusion plate (4-6), the discharge control plate (4-24) is slidably arranged on the pushing bolt (4-23), and the discharge control plate (4-24) is slidably arranged inside the liquid discharge control extrusion plate (4-6).

6. An apparatus for surgical waste disposal according to claim 1, wherein: the control separation device (5) comprises a mounting fixed cylinder (5-1), a sliding push plate (5-2), a jacking control bent rod (5-3), a spring five (5-4), a movement control rack (5-5), a connecting shaft I (5-6), a gear I (5-7), a bevel gear I (5-8), a connecting shaft II (5-9), a bevel gear II (5-10), a belt wheel (5-11), a transmission belt (5-12), a connecting shaft III (5-13), a receiving belt wheel (5-14) and a gear III (5-15), the mounting fixed cylinder (5-1) is mounted and fixed on the shell (1-1), the sliding push plate (5-2) is mounted inside the mounting fixed cylinder (5-1) in a sliding manner, the jacking control bent rod (5-3) is mounted and fixed on the sliding push plate (5-2), a jacking control bent rod (5-3) is slidably arranged on a shell (1-1), a spring five (5-4) is fixedly arranged on a sliding push plate (5-2), a movement control rack (5-5) is fixedly arranged on a clamping plate (2-10), the movement control rack (5-5) is meshed with a gear I (5-7), a connecting shaft I (5-6) is rotatably arranged in the shell (1-1), the gear I (5-7) is fixedly arranged on the connecting shaft I (5-6), a bevel gear I (5-8) is fixedly arranged on the connecting shaft I (5-6), the bevel gear I (5-8) is meshed with a bevel gear II (5-10), a connecting shaft II (5-9) is rotatably arranged in the shell (1-1), the bevel gear II (5-10) is fixedly arranged on the connecting shaft II (5-9), the belt wheel (5-11) is fixedly arranged on the connecting shaft II (5-9), the transmission belt (5-12) is arranged on the belt wheel (5-11) and the receiving belt wheel (5-14), the connecting shaft III (5-13) is rotatably arranged in the shell (1-1), the receiving belt wheel (5-14) is fixedly arranged on the connecting shaft III (5-13), the gear III (5-15) is fixedly arranged on the connecting shaft III (5-13), and the gear III (5-15) is meshed with the jacking control bent rod (5-3).

7. A device for surgical waste disposal according to claim 3, wherein: the driving shaft (2-7) of the pushing extrusion device (2) is provided with a matched motor.

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