阅读说明：本技术 一种乳腺外科医疗用品回收用塑料用品压缩装置 (Plastic product compression device for recycling medical products in breast surgery ) 是由 黄国彬 于 2021-08-19 设计创作，主要内容包括：本发明涉及一种压缩装置,尤其涉及一种乳腺外科医疗用品回收用塑料用品压缩装置。需要设计一种方便人们对塑料医疗用品进行回收,不影响周围环境,工作效率高,且不易引起火灾的乳腺外科医疗用品回收用塑料用品压缩装置。一种乳腺外科医疗用品回收用塑料用品压缩装置,包括有：密封柜体,密封柜体上间隔设有缓冲底座；隔离挡板,隔离挡板安装在密封柜体上；升降推杆,升降推杆安装在密封柜体上。本发明通过打开密封机构,然后将适量的塑料用品放入塑料用品密封柜体内,启动气缸伸缩,气缸伸缩也就通过压缩机构对塑料医疗用品进行压缩,如此,可方便人们对塑料医疗用品进行回收,不影响周围环境,工作效率高。(The invention relates to a compression device, in particular to a plastic product compression device for recycling medical products in breast surgery. The plastic product compression device for recycling the medical products in the breast surgery is convenient for people to recycle the plastic medical products, does not affect the surrounding environment, has high working efficiency and is not easy to cause fire. A plastic product compression device for recycling medical products in breast surgery comprises: the sealing cabinet body is provided with buffer bases at intervals; the isolation baffle is arranged on the sealed cabinet body; the lifting push rod is arranged on the sealing cabinet body. According to the plastic medical article compression device, the sealing mechanism is opened, then a proper amount of plastic articles are placed in the plastic article sealing cabinet body, the cylinder is started to stretch, and the plastic medical articles are compressed by the compression mechanism due to stretching of the cylinder, so that the plastic medical articles can be conveniently recycled by people, the surrounding environment is not influenced, and the working efficiency is high.)

1. The utility model provides a mammary gland surgery medical supplies retrieves uses plastic products compressor arrangement which characterized by, including:

the sealing cabinet body (1), the sealing cabinet body (1) is provided with buffer bases (2) at intervals;

the isolation baffle (3), the isolation baffle (3) is installed on the sealed cabinet body (1);

the lifting push rod (5), the lifting push rod (5) is installed on the sealed cabinet body (1);

the compression button (51), the compression button (51) is installed on the sealed cabinet body (1);

the release button (52), the release button (52) is installed on the sealed cabinet body (1);

the sealing mechanism (6) is arranged on the sealing cabinet body (1) and used for limiting the sealing cabinet body (1);

and the compression mechanism (7) is arranged between the sealed cabinet body (1) and the lifting push rod (5) and is used for compressing.

2. The recycling plastic compression device for medical supplies for mammary gland surgery according to claim 1, wherein the sealing mechanism (6) comprises:

the sealing cabinet door (61), the sealing cabinet door (61) is hinged on the sealing cabinet body (1);

the fixed marbles (62), the fixed marbles (62) are installed in the sealed cabinet body (1) in a sliding mode at intervals;

the stressed holding rod (63), the stressed holding rod (63) is arranged on the sealing cabinet door (61);

the hinge rod (64), the hinge rod (64) is installed between the sealed cabinet door (61) and the sealed cabinet body (1) in a hinge mode.

3. The plastic compression device for recycling medical supplies for breast surgery as claimed in claim 2, wherein the compression mechanism (7) comprises:

the arched plate (72), the arched plate (72) is installed on the lifting push rod (5);

the positioning guide rails (73), the positioning guide rails (73) are arranged on the sealed cabinet body (1) at intervals;

the auxiliary guide rails (76), the auxiliary guide rails (76) are symmetrically arranged on the sealed cabinet body (1);

the hollow compression plates (71), the hollow compression plates (71) are slidably mounted between the four positioning guide rails (73) and the auxiliary guide rails (76) on the two sides, and the hollow compression plates (71) are fixedly connected with the cambered plates (72);

the first travel switch (74), the first travel switch (74) is installed on the sealed cabinet body (1), and the hollow compression plate (71) is matched with the first travel switch (74);

the second travel switch (75), the second travel switch (75) is installed on the sealed cabinet body (1), and the hollow compression plate (71) is matched with the first travel switch (74).

4. The recycling plastic compression device for medical supplies in breast surgery as claimed in claim 3, further comprising a sealing auxiliary mechanism (8), wherein the sealing auxiliary mechanism (8) comprises:

the positioning gear (81), the positioning gear (81) is symmetrically and rotatably arranged on the isolation baffle (3);

the fixing columns (83) are arranged on the sealed cabinet body (1) at intervals, and the two fixing columns (83) form a group;

the safety cover (82), the safety cover (82) is installed between the two fixing columns (83) and the isolation baffle (3);

the telescopic rack (87) is symmetrically and slidably mounted on the isolation baffle (3), and the telescopic rack (87) is meshed with the positioning gear (81);

the mounting seat (86) is hinged to one of the telescopic racks (87), and the mounting seat (86) is fixedly connected with the sealing cabinet door (61);

the top block (812), the top block (812) is hinged on the other telescopic rack (87);

the positioning rotating shaft (88), the positioning rotating shaft (88) is symmetrically and rotatably arranged on the safety cover (82);

the first transmission assembly (84), the first transmission assembly (84) is installed between one of the positioning rotating shafts (88) and the positioning gear (81);

the second transmission assembly (85), the second transmission assembly (85) is installed between the positioning rotating shafts (88) on the two sides;

the driving gear (89), the driving gear (89) is installed on one of the positioning rotating shafts (88);

the fixed guide cover (810), the fixed guide cover (810) is symmetrically installed on the sealed cabinet body (1);

drive pinion rack (811), drive pinion rack (811) slidable type is installed on fixed guide cover (810), drive pinion rack (811) and cavity compression board (71) fixed connection, drive gear (89) and drive pinion rack (811) meshing.

5. The plastic product compressing device for recycling medical products in breast surgery as claimed in claim 4, further comprising a compressing and discharging mechanism (9), wherein the compressing and discharging mechanism (9) comprises:

the blanking top plate (91), the blanking top plate (91) is arranged on the hollow compression plate (71) in a sliding manner;

the magnetic positioning plates (92), the magnetic positioning plates (92) are symmetrically arranged on the blanking top plate (91);

the buffer column (93), the buffer column (93) is installed between the magnetic positioning plate (92) and the sealed cabinet body (1);

the fixed magnetic strips (94), the fixed magnetic strips (94) are arranged on the sealed cabinet body (1) at intervals, and the fixed magnetic strips (94) are matched with the magnetic positioning plate (92);

the cooling water pipe (95), the cooling water pipe (95) is installed on the blanking top plate (91);

the water diversion pipe (96), the water diversion pipe (96) is installed on the sealed cabinet body (1), the water diversion pipe (96) is fixedly connected and communicated with the cooling water pipe (95);

the ejection spring (97), the ejection spring (97) is installed between the hollow compression plate (71) and the blanking top plate (91);

the heating module (98), the heating module (98) is installed on the hollow compression plate (71);

the cooling water tank (99), the cooling water tank (99) is installed on the sealed cabinet body (1), and the cooling water tank (99) is fixedly connected and communicated with the diversion water pipe (96);

the water pump (910), the water pump (910) is installed on the diversion water pipe (96);

the temperature sensor (911), the temperature sensor (911) is installed on the sealed cabinet body (1);

the liquid outlet pipe (912) is arranged on the sealed cabinet body (1) and communicated with the sealed cabinet body (912);

the waste water tank (913), the waste water tank (913) is installed on the sealed cabinet body (1), and the waste water tank (913) is fixedly connected and communicated with the liquid outlet pipe (912);

and the buffer bottom plate (914), and the buffer bottom plate (914) is installed on the waste water tank (913) and the cooling water tank (99) respectively.

6. The recycling plastic product compressing device for medical products for breast surgery as recited in claim 5, further comprising a locking mechanism (10), wherein the locking mechanism (10) comprises:

the electromagnetic lock (101), the electromagnetic lock (101) is installed on the sealed cabinet door (61);

the lifting slide block (102), the lifting slide block (102) is installed on the auxiliary guide rail (76) in a sliding way;

and the supporting spring (104), wherein the supporting spring (104) is wound between the lifting slide block (102) and the auxiliary guide rail (76).

7. The recycling plastic compression device for medical supplies in breast surgery as claimed in claim 6, further comprising an anti-overflow mechanism (11), wherein the anti-overflow mechanism (11) comprises:

the telescopic plates (112), the telescopic plates (112) are symmetrically arranged on the sealed cabinet body (1);

the synchronous positioning block (113), the synchronous positioning block (113) is installed between the two expansion plates (112), and the synchronous positioning block (113) is sleeved on the hollow compression plate (71) and matched with the hollow compression plate;

and the compression springs (114), and the compression springs (114) are arranged on the telescopic plate (112) at intervals.

8. The compression device for the plastic products for recycling the medical products in the breast surgery as claimed in claim 7, further comprising an electric cabinet (4), wherein the electric cabinet (4) is embedded in one side of the isolation baffle (3), the electric cabinet (4) comprises a switching power supply, a power supply module and a control module, the switching power supply supplies power to the whole device, the power supply module is connected with a main power switch through a circuit, the control module is electrically connected with the power supply module, and the control module is connected with a DS1302 clock circuit and a 24C02 circuit; the compression button (51), the release button (52), the contact switch (103), the first travel switch (74), the temperature sensor (911) and the second travel switch (75) are electrically connected with the control module, and the lifting push rod (5), the water pump (910), the heating module (98) and the electromagnetic lock (101) are connected with the control module through a peripheral circuit.

Technical Field

The invention relates to a compression device, in particular to a plastic product compression device for recycling medical products in breast surgery.

Background

When the plastic medical supplies are used up, the plastic medical supplies are recycled. At present, most all retrieve plastics medical supplies through the manual work, at first people put into collection container with plastics medical supplies in, then will concentrate to burn and carry out recovery processing, plastics medical supplies can produce a large amount of toxic gases in burning the in-process, causes the pollution to the surrounding environment, and work efficiency is still low, and plastics medical supplies are too long in the process time of burning, arouse the conflagration easily.

Therefore, the plastic product compression device for recycling the medical products for the breast surgery, which is convenient for people to recycle the plastic medical products, does not influence the surrounding environment, has high working efficiency and is not easy to cause fire, is needed to be designed so as to solve the problems in the prior art.

Disclosure of Invention

In order to overcome the problem that plastic medical supplies can produce a large amount of toxic gas in the burning process and pollute the surrounding environment, the working efficiency is low, the burning process is too long, and the fire disaster is easily caused, the technical problem to be solved is that: the plastic product compression device for recycling the medical products for the breast surgery is convenient for people to recycle the plastic medical products, does not affect the surrounding environment, has high working efficiency and is not easy to cause fire.

The technical scheme of the invention is as follows: a plastic product compression device for recycling medical products in breast surgery comprises: the sealing cabinet body is provided with buffer bases at intervals; the isolation baffle is arranged on the sealed cabinet body; the lifting push rod is arranged on the sealed cabinet body; the compression button is arranged on the sealed cabinet body; the release button is arranged on the sealed cabinet body; the sealing mechanism is arranged on the sealing cabinet body and used for limiting the sealing cabinet body; and the compression mechanism is arranged between the sealed cabinet body and the lifting push rod and is used for compressing.

As an improvement of the above aspect, the sealing mechanism includes: the sealed cabinet door is hinged on the sealed cabinet body; the fixed marbles are arranged in the sealed cabinet body in a sliding mode at intervals; the stressed holding rod is arranged on the sealing cabinet door; the hinge rod is installed between the sealing cabinet door and the sealing cabinet body in a hinge mode.

As an improvement of the above, the compression mechanism includes: the arched plate is arranged on the lifting push rod; the positioning guide rails are arranged on the sealed cabinet body at intervals; the auxiliary guide rails are symmetrically arranged on the sealed cabinet body; the hollow compression plates are slidably mounted between the four positioning guide rails and the auxiliary guide rails on the two sides and are fixedly connected with the arched plates; the first travel switch is arranged on the sealed cabinet body, and the hollow compression plate is matched with the first travel switch; and the second travel switch is installed on the sealing cabinet body, and the hollow compression plate is matched with the first travel switch.

As an improvement of the above scheme, the sealing device further comprises a sealing auxiliary mechanism, wherein the sealing auxiliary mechanism comprises: the positioning gears are symmetrically and rotatably arranged on the isolation baffle; the fixing columns are arranged on the sealed cabinet body at intervals, and the two fixing columns form a group; the safety cover is arranged between the two fixing columns and the isolation baffle; the telescopic racks are symmetrically and slidably arranged on the isolation baffle, and are meshed with the positioning gear; the mounting seat is hinged to one of the telescopic racks and is fixedly connected with the sealing cabinet door; the jacking block is hinged to the other telescopic rack; the positioning rotating shaft is symmetrically and rotatably arranged on the safety cover; the first transmission assembly is arranged between one of the positioning rotating shafts and the positioning gear; the second transmission assembly is arranged between the positioning rotating shafts on the two sides; the driving gear is arranged on one positioning rotating shaft; the fixed guide covers are symmetrically arranged on the sealed cabinet body; the driving toothed plate is slidably mounted on the fixed guide cover, the driving toothed plate is fixedly connected with the hollow compression plate, and the driving gear is meshed with the driving toothed plate.

As the improvement of the above scheme, the device also comprises a compression discharging mechanism, and the compression discharging mechanism comprises: the blanking top plate is arranged on the hollow compression plate in a sliding manner; the magnetic positioning plates are symmetrically arranged on the blanking top plate; the buffer column is arranged between the magnetic positioning plate and the sealed cabinet body; the fixed magnetic stripes are arranged on the sealed cabinet body at intervals and matched with the magnetic positioning plate; the cooling water pipe is arranged on the blanking top plate; the guide water pipe is arranged on the sealed cabinet body and is fixedly connected and communicated with the cooling water pipe; the ejection spring is arranged between the hollow compression plate and the blanking top plate; the heating module is arranged on the hollow compression plate; the cooling water tank is arranged on the sealed cabinet body and is fixedly connected and communicated with the diversion water pipe; the water pump is arranged on the diversion water pipe; the temperature sensor is arranged on the sealed cabinet body; the liquid outlet pipe is arranged on the sealed cabinet body and communicated with the sealed cabinet body; the waste water tank is arranged on the sealed cabinet body and is fixedly connected and communicated with the liquid outlet pipe; and the buffer bottom plate is arranged on the waste water tank and the cooling water tank respectively.

As an improvement of the above scheme, the locking device further comprises a locking mechanism, wherein the locking mechanism comprises: the electromagnetic lock is arranged on the sealed cabinet door; the lifting slide block is arranged on the auxiliary guide rail in a sliding manner; and the supporting spring is wound and connected between the lifting slide block and the auxiliary guide rail.

As the improvement of the scheme, the anti-overflow device also comprises an anti-overflow mechanism, and the anti-overflow mechanism comprises: the telescopic plates are symmetrically arranged on the sealed cabinet body; the synchronous positioning block is arranged between the two expansion plates and sleeved on the hollow compression plate to be matched with the hollow compression plate; and the compression springs are arranged on the telescopic plate at intervals.

As an improvement of the scheme, the electric cabinet is further included, the electric cabinet is embedded and installed on one side of the isolation baffle, a switching power supply, a power supply module and a control module are included in the electric cabinet, the switching power supply supplies power to the whole equipment, the power supply module is connected with a power supply main switch through a circuit, the control module is electrically connected with the power supply module, and the control module is connected with a DS1302 clock circuit and a 24C02 circuit; compression button, release button, contact switch, first travel switch, temperature sensor and second travel switch all pass through electric connection with control module, and lifting push rod, water pump, module and the electromagnetic lock that generates heat all pass through peripheral circuit with control module and are connected.

The invention has the beneficial effects that:

1. according to the plastic medical article compression device, the sealing mechanism is opened, then a proper amount of plastic articles are placed in the plastic article sealing cabinet body, the cylinder is started to stretch, and the plastic medical articles are compressed by the compression mechanism due to stretching of the cylinder, so that the plastic medical articles can be conveniently recycled by people, the surrounding environment is not influenced, and the working efficiency is high.

2. The invention can heat and mould the compressed plastic medical supplies through the action of the compression discharging mechanism, thus heating and moulding the compressed plastic medical supplies.

3. The invention can limit the sealed cabinet door through the action of the locking mechanism, thus avoiding the sealed cabinet door from moving when compressed.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a partial perspective view of the sealing mechanism of the present invention.

Fig. 3 is a schematic view of a first partially separated body structure of the compression mechanism of the present invention.

Fig. 4 is a second partial body structure diagram of the compression mechanism of the present invention.

Fig. 5 is a schematic view of a first partially assembled body structure of the seal assist mechanism of the present invention.

Fig. 6 is a schematic view of a second partial body structure of the seal assist mechanism of the present invention.

Fig. 7 is a schematic view of a first partially-separated body structure of the compression discharge mechanism of the present invention.

Fig. 8 is an enlarged schematic view of part a of the present invention.

Fig. 9 is a schematic diagram of a second partial body structure of the compression discharge mechanism of the present invention.

Fig. 10 is an enlarged view of part B of the present invention.

Fig. 11 is a schematic view of a first partial body structure of the locking mechanism of the present invention.

Fig. 12 is a schematic view of a second partial body structure of the locking mechanism of the present invention.

Fig. 13 is an enlarged view of part C of the present invention.

Fig. 14 is a perspective view of the anti-overflow mechanism of the present invention.

FIG. 15 is a circuit block diagram of the present invention.

Fig. 16 is a schematic circuit diagram of the present invention.

In the reference symbols: 1-a sealed cabinet body, 2-a buffer base, 3-an isolation baffle, 4-an electric cabinet, 5-a lifting push rod, 51-a compression button, 52-a release button, 6-a sealing mechanism, 61-a sealed cabinet door, 62-a fixed marble, 63-a stressed holding rod, 64-a hinged rod, 7-a compression mechanism, 71-a hollow compression plate, 72-an arched plate, 73-a positioning guide rail, 74-a first travel switch, 75-a second travel switch, 76-an auxiliary guide rail, 8-a sealing auxiliary mechanism, 81-a positioning gear, 82-a safety shield, 83-a fixed column, 84-a first transmission assembly, 85-a second transmission assembly, 86-a mounting seat, 87-a telescopic rack and 88-a positioning rotating shaft, 89-a driving gear, 810-a fixed guide cover, 811-a driving toothed plate, 812-a top block, 9-a compression discharging mechanism, 91-a blanking top plate, 92-a magnetic positioning plate, 93-a buffer column, 94-a fixed magnetic strip, 95-a cooling water pipe, 96-a diversion water pipe, 97-a material ejecting spring, 98-a heating module, 99-a cooling water tank, 910-a water pump, 911-a temperature sensor, 912-a liquid outlet pipe, 913-a waste water tank, 914-a buffer bottom plate, 10-a locking mechanism, 101-an electromagnetic lock, 102-a lifting slide block, 103-a contact switch, 104-a supporting spring, 11-an anti-overflow mechanism, 112-a telescopic plate, 113-a synchronous positioning block and 114-a compression spring.

Detailed Description

The invention is described in detail below with reference to the figures and the embodiments.

Example 1

The utility model provides a mammary gland surgery medical supplies retrieves uses plastics articles for use compressor arrangement, as shown in fig. 1-3, including the sealed cabinet body 1, buffer base 2, isolation baffle 3, lifting push rod 5, compression button 51, release button 52, sealing mechanism 6 and compressing mechanism 7, the interval is equipped with buffer base 2 in the sealed cabinet body 1 outer bottom, 1 upper portion of the sealed cabinet body is equipped with isolation baffle 3, 1 upper portion of the sealed cabinet body is equipped with lifting push rod 5, 1 left surface upper portion front side of the sealed cabinet body is equipped with compression button 51, 1 left surface upper portion front side of the sealed cabinet body is equipped with release button 52, be equipped with sealing mechanism 6 on the sealed cabinet body 1, be equipped with compressing mechanism 7 between the sealed cabinet body 1 and lifting push rod 5.

The sealing mechanism 6 comprises a sealing cabinet door 61, fixed marbles 62, a stress holding rod 63 and a hinge rod 64, the sealing cabinet door 61 is hinged on the front side of the right part of the sealing cabinet body 1, the fixed marbles 62 are arranged on the front side of the left part of the sealing cabinet body 1 at intervals in a sliding manner, the stress holding rod 63 is fixedly connected to the left part of the front side of the sealing cabinet door 61, and the hinge rod 64 is hinged between the right side of the lower part of the sealing cabinet door 61 and the front part of the right side of the lower part of the sealing cabinet body 1.

The compression mechanism 7 comprises a hollow compression plate 71, an arch plate 72, a positioning guide rail 73, a first travel switch 74, a second travel switch 75 and an auxiliary guide rail 76, the arch plate 72 is fixedly connected to the lifting push rod 5, the positioning guide rails 73 are symmetrically and fixedly connected to the left side and the right side of the inside of the sealed cabinet body 1, the auxiliary guide rails 76 are symmetrically and leftwards arranged on the outer rear side of the sealed cabinet body 1, the hollow compression plate 71 is slidably arranged between the four positioning guide rails 73 and the auxiliary guide rails 76 on the left side and the right side, the hollow compression plate 71 is fixedly connected with the arch plate 72, the first travel switch 74 is fixedly connected to the middle of the outer rear side of the sealed cabinet body 1, the hollow compression plate 71 is matched with the first travel switch 74, the second travel switch 75 is fixedly connected to the lower side of the middle of the outer rear side of the sealed cabinet body 1, and the hollow compression plate 71 is matched with the second travel switch 75.

People press a power supply main switch to electrify the compression device, if plastic medical supplies need to be compressed, then the sealed cabinet door 61 is pulled to swing forwards through the stressed holding rod 63, the fixed marble 62 stops limiting the sealed cabinet door 61, the release button 52 is pressed once, the release button 52 sends a signal, the control module receives the signal and then controls the lifting push rod 5 to contract, the lifting push rod 5 drives the arched plate 72 to move upwards, the arched plate 72 moves upwards to drive the hollow compression plate 71 to move upwards, the positioning guide rail 73 and the auxiliary guide rail 76 play a role in guiding, the hollow compression plate 71 moves upwards to the maximum stroke to be contacted with the first stroke switch 74, the first stroke switch 74 sends a signal, the control module receives the signal and then controls the lifting push rod 5 to stop, then a proper amount of plastic medical supplies are placed in the sealed cabinet body 1, and then the sealed cabinet door 61 is pulled to swing backwards to reset, fixed marble 62 is spacing to sealed cabinet door 61, press compression button 51 once, compression button 51 signals, control lifting push rod 5 extension behind the control module received signal, lifting push rod 5 just also drives cavity compression board 71 downstream through bow-shaped board 72, cavity compression board 71 downstream compresses plastics medical supplies, and cavity compression board 71 downstream contacts to maximum stroke and second travel switch 75, second travel switch 75 signals, control lifting push rod 5 stops behind the control module received signal, the plastics medical supplies that the pulling sealed cabinet door 61 swung forward will be compressed take out and carry out subsequent processing, and then the pulling sealed cabinet door 61 swings backward and resets can.

Example 2

On the basis of embodiment 1, as shown in fig. 5 to 10, the sealing auxiliary mechanism 8 is further included, the sealing auxiliary mechanism 8 includes a positioning gear 81, a safety cover 82, fixing columns 83, a first transmission assembly 84, a second transmission assembly 85, a mounting seat 86, telescopic racks 87, a positioning rotating shaft 88, a driving gear 89, a fixed guide cover 810, a driving toothed plate 811 and a top block 812, the positioning gear 81 is rotatably arranged on the front side of the inner bottom of the isolation barrier 3 in a left-right symmetric manner, the fixing columns 83 are arranged on the upper portion of the outer rear side of the sealing cabinet body 1 at intervals, the two fixing columns 83 are a group, the safety cover 82 is arranged between the two fixing columns 83 and the inner bottom of the isolation barrier 3, the telescopic racks 87 are slidably arranged on the inner left and right sides of the isolation barrier 3, the telescopic racks 87 are engaged with the positioning gear 81, the mounting seat 86 is hinged on the front portion of the right telescopic rack 87, the mounting seat 86 is fixedly connected with the sealing cabinet door 61, the front hinged type of the left telescopic rack 87 is provided with a top block 812, the rear vertical symmetrical rotating type of the safety cover 82 is provided with a positioning rotating shaft 88, a first transmission assembly 84 is connected between the inner side circumference of the upper positioning rotating shaft 88 and the outer side circumference of the positioning gear 81, a second transmission assembly 85 is connected between the inner side circumferences of the upper and lower positioning rotating shafts 88, the outer rear side surface of the sealing cabinet body 1 is provided with a fixed guide cover 810 in a horizontal symmetrical mode, a driving toothed plate 811 is arranged in the fixed guide cover 810 in a sliding mode, the driving toothed plate 811 is fixedly connected with the hollow compression plate 71, a driving gear 89 is fixedly connected to the inner end of the lower positioning rotating shaft 88, and the driving gear 89 is meshed with the driving toothed plate 811.

The device also comprises a compression discharging mechanism 9, the compression discharging mechanism 9 comprises a blanking top plate 91, a magnetic positioning plate 92, a buffer column 93, a fixed magnetic stripe 94, a cooling water pipe 95, a flow guide water pipe 96, an ejection spring 97, a heating module 98, a cooling water tank 99, a water pump 910, a temperature sensor 911, a liquid outlet pipe 912, a waste water tank 913 and a buffer bottom plate 914, the blanking top plate 91 is arranged on the hollow compression plate 71 in a sliding mode, the magnetic positioning plate 92 is fixedly connected to the middle parts of the left side and the right side of the blanking top plate 91, the buffer column 93 is arranged between the outer side of the bottom of the magnetic positioning plate 92 and the inside of the sealed cabinet body 1, the fixed magnetic stripes 94 are symmetrically arranged on the upper parts of the left side and the right side in the sealed cabinet body 1 from front to back, the fixed magnetic stripes 94 are matched with the magnetic positioning plate 92, the cooling water pipe 95 is arranged inside the blanking top plate 91, the flow guide water pipe 96 is arranged on the upper side of the right part of the sealed cabinet body 1, and the flow guide water pipe 96 is fixedly connected and communicated with the cooling water pipe 95, even interval wraparound liftout spring 97 between cavity compression plate 71 top and the unloading roof 91, cavity compression plate 71 is inside to be equipped with module 98 that generates heat, the outer right side lower part rigid coupling of sealed cabinet body 1 has cooling water tank 99, cooling water tank 99 and water conservancy diversion water pipe 96 fixed connection and intercommunication, water conservancy diversion water pipe 96 lower part is equipped with water pump 910, rigid coupling has temperature sensor 911 in the middle of the inside trailing flank lower part of sealed cabinet body 1, sealed cabinet body 1 lower part is equipped with drain pipe 912 and communicates, sealed cabinet body 1 outer left surface lower part is equipped with waste water tank 913, waste water tank 913 and drain pipe 912 fixed connection and communicate, waste water tank 913 bottom and cooling water tank 99 bottom all rigid coupling have buffer bottom plate 914.

When the compression device is powered on, the release button 52 is pressed once, the release button 52 sends a signal, the control module receives the signal and controls the lifting push rod 5 to contract, the hollow compression plate 71 also drives the driving toothed plate 811 to move upwards, the driving toothed plate 811 moves upwards to drive the driving gear 89 to rotate forwards, the driving gear 89 rotates forwards to drive the lower positioning rotating shaft 88 to rotate forwards, the lower positioning rotating shaft 88 rotates forwards to drive the second transmission assembly 85 to rotate forwards, the second transmission assembly 85 rotates forwards to drive the upper positioning rotating shaft 88 to rotate forwards, the upper positioning rotating shaft 88 rotates forwards to drive the first transmission assembly 84 to rotate forwards, the first transmission assembly 84 rotates forwards to drive the positioning gear 81 to rotate forwards, the positioning gear 81 rotates forwards to drive the telescopic rack 87 to move forwards, the right telescopic rack 87 moves forwards to drive the mounting seat 86 to move forwards, the mounting seat 86 moves forwards to drive the sealing cabinet door 61 to swing forwards, and the left telescopic rack 87 moves forwards to drive the top block 812 to move forwards, the top block 812 moves forward to enable the sealing cabinet door 61 to swing forward more smoothly, the hollow compression plate 71 moves upward to the maximum stroke to be in contact with the first stroke switch 74, the first stroke switch 74 sends a signal, the control module receives the signal and controls the lifting push rod 5 to stop, then a proper amount of plastic medical supplies are placed in the sealing cabinet body 1, the compression button 51 is pressed once, the compression button 51 sends a signal, the control module receives the signal and controls the lifting push rod 5 to extend, the hollow compression plate 71 moves downward to drive the driving toothed plate 811 to move downward and reset, the mounting seat 86 drives the sealing cabinet door 61 to swing backward and reset, meanwhile, the hollow compression plate 71 moves downward to compress the plastic medical supplies, the hollow compression plate 71 moves downward to the maximum stroke to be in contact with the second stroke switch 75, the second stroke switch 75 sends a signal, the control module receives the signal and controls the lifting push rod 5 to stop, thus, the sealed cabinet door 61 does not need to be pulled repeatedly.

Initially, a proper amount of clear water is filled in the cooling water tank 99, when the compression device is powered on, the temperature sensor 911 starts to work, a proper amount of plastic medical supplies are placed in the sealed cabinet body 1, the compression button 51 is pressed once, the compression button 51 sends a signal, the control module receives the signal and controls the lifting push rod 5 to extend, the hollow compression plate 71 moves downwards to compress the plastic medical supplies, meanwhile, the hollow compression plate 71 moves downwards and also drives the blanking top plate 91 to move downwards, the blanking top plate 91 moves downwards to drive the magnetic positioning plate 92 to move downwards, the magnetic positioning plate 92 moves downwards to be in contact with the buffer column 93, the buffer column 93 supports and buffers the magnetic positioning plate 92, the fixed magnetic strip 94 also adsorbs and fixes the magnetic positioning plate 92, the hollow compression plate 71 moves downwards to the maximum stroke to be in contact with the second stroke switch 75, and the second stroke switch 75 sends a signal, the control module receives a signal and then controls the lifting push rod 5 to stop, and after receiving the signal, the control module also controls the heating module 98 to work, the heating module 98 heats the compressed plastic medical supplies, when the temperature sensor 911 detects that the temperature is higher than a rated value in the control module, the temperature sensor 911 sends a signal, the control module receives the signal and then controls the heating module 98 to stop, and after receiving the signal, the control module also controls the water pump 910 to work, the water pump 910 operates to pump clean water into the cooling water pipe 95 through the diversion water pipe 96, and then the cooling water pipe 95 cools and molds the plastic blocks, the clean water also flows into the waste water tank 913 through the liquid outlet pipe 912, the release button 52 is pressed once, the release button 52 sends a signal, after receiving the signal, the control module controls the lifting push rod 5 to contract, the hollow compression plate 71 also moves upwards to reset, the jacking spring 97 is compressed, the plastic block is also ejected by the discharging top plate 91, the hollow compression plate 71 continues to move upwards to be in contact with the discharging top plate 91, the hollow compression plate 71 drives the discharging top plate 91 to move upwards, the discharging top plate 91 moves upwards to drive the magnetic positioning plate 92 to move upwards, the magnetic positioning plate 92 moves upwards to be separated from the fixed rack, due to the action of the ejecting spring 97, the discharging top plate 91 drives the magnetic positioning plate 92 to move and reset, the hollow compression plate 71 moves upwards to the maximum stroke to be in contact with the first stroke switch 74, the first stroke switch 74 sends out a signal, the control module controls the lifting push rod 5 to stop after receiving the signal, and the control module receives the signal and controls the water pump 910 to stop, and therefore the compressed plastic medical supplies can be heated and molded.

Example 3

On the basis of the embodiments 1 and 2, as shown in fig. 11 to 14, the sealing cabinet further comprises a locking mechanism 10, wherein the locking mechanism 10 comprises an electromagnetic lock 101, a lifting slider 102, a contact switch 103 and a support spring 104, the lifting slider 102 is slidably arranged at the lower part of the auxiliary guide rail 76, the contact switch 103 is arranged inside the lifting slider 102, the support spring 104 is wound between the bottom of the lifting slider 102 and the lower part of the auxiliary guide rail 76, and the electromagnetic lock 101 is arranged in the middle of the left part of the sealing cabinet door 61.

The anti-overflow device is characterized by further comprising an anti-overflow mechanism 11, wherein the anti-overflow mechanism 11 comprises a telescopic plate 112, synchronous positioning blocks 113 and compression springs 114, the telescopic plate 112 is symmetrically arranged on the left side and the right side of the inner rear portion of the sealed cabinet body 1 from top to bottom, the synchronous positioning blocks 113 are arranged between the telescopic plates 112 on the upper side and the lower side, the synchronous positioning blocks 113 are sleeved on the rear portion of the hollow compression plate 71 and are matched with the hollow compression plate, and the compression springs 114 are arranged inside the telescopic plate 112 at intervals.

When the compression device is powered on, the compression button 51 is pressed once, the compression button 51 sends a signal, the control module receives the signal and then controls the lifting push rod 5 to extend, the hollow compression plate 71 moves downwards to compress the plastic medical supplies, meanwhile, the hollow compression plate 71 moves downwards and also drives the lifting slide block 102 to move downwards, the supporting spring 104 is compressed, the lifting slide block 102 moves downwards to drive the contact switch 103 to move downwards, the contact switch 103 moves downwards to be in contact with the lower part of the auxiliary guide rail 76, the contact switch 103 sends the signal, the control module receives the signal and then controls the electromagnetic lock 101 to open, the electromagnetic lock 101 limits the sealing cabinet door 61, after the compression of the plastic medical supplies is completed, the release button 52 is pressed once, the release button 52 sends the signal, the control module receives the signal and then controls the lifting push rod 5 to contract, and the hollow compression plate 71 also drives the contact switch 103 to move upwards to reset, contact switch 103 breaks away from with supplementary guide rail 76 lower part, and contact switch 103 signals once more, and control electromagnetic lock 101 is closed after the control module received the signal, and electromagnetic lock 101 stops sealed cabinet door 61 and carries on spacingly, so, sealed cabinet door 61 produces the removal when can avoiding compressing.

When the plastic medical supplies are compressed, the hollow compression plate 71 moves up and down to drive the synchronous positioning block 113 to move up and down, the synchronous positioning block 113 moves up and down to enable the expansion plate 112 to expand and contract repeatedly, and the compression spring 114 plays a role in buffering, so that the plastic medical supplies can be prevented from flowing into the sealed cabinet body 1 carelessly.

As shown in fig. 1, 15 and 16, the electric cabinet is further provided with an electric cabinet 4, the electric cabinet 4 is embedded in the front of the isolation baffle 3, the electric cabinet 4 comprises a switching power supply, a power supply module and a control module, the switching power supply supplies power to the whole equipment, the power supply module is connected with a power main switch through a circuit, the control module is electrically connected with the power supply module, and the control module is connected with a DS1302 clock circuit and a 24C02 circuit; the compression button 51, the release button 52, the contact switch 103, the first travel switch 74, the temperature sensor 911 and the second travel switch 75 are all electrically connected with the control module, and the lifting push rod 5, the water pump 910, the heating module 98 and the electromagnetic lock 101 are all connected with the control module through peripheral circuits.

The present application is described in detail above, and the principles and embodiments of the present application are described herein by using specific examples, which are only used to help understand the method and the core idea of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.