CN203459328U - Automatic cleaning and wiping holder for electric coagulation forceps - Google Patents

Abstract

The utility model discloses an automatic cleaning and wiping holder for electric coagulation forceps. The holder comprises a base, wherein the base is provided with two through holes, and an accommodating chamber is formed below the through holes. The holder is characterized in that a separation plate is arranged at the middle part of the accommodating chamber, and is also provided with two through holes; opening/closing devices are respectively arranged on the through holes of the separation plate, and a fixing buckle is connected to the sidewall, corresponding to each opening/closing device, of the accommodating chamber through a spring; a motor is fixedly arranged at the top of the accommodating chamber, and an output end of the motor is vertically downward and is connected with a rotary shaft; an ultrasonic cleaning instrument is further arranged at the bottom of the accommodating chamber, and a sensing device is arranged on the internal wall of the accommodating chamber; a bracket is arranged between the upper through holes of the base, and the two ends of the bracket are respectively connected with piston rods of two hydraulic cylinders which are fixedly arranged above the base; two wiping boxes are further arranged on the base, and winding shafts are mounted in the wiping boxes; a singlechip microcomputer is further arranged in the base. According to the automatic electric coagulation forceps cleaning and wiping holder, the structure is simple, the use is convenient, the cleaning and wiping effects are good, and the manufacturing cost is low, so that the practical value is stronger.

Description

A kind of diathermy forceps automated cleaning is dried bearing

Technical field

The utility model relates to a kind of diathermy forceps and cleans and wiping arrangement.

Background technology

Existing diathermy forceps comprises tweezer point, insulation tweezer bar and electrode tip holder successively, the plug at electrode tip holder rear portion is connected with outside main frame by wire, the tweezer point of diathermy forceps provides high-frequency electrical energy to lesion tissue, makes the protein between tweezer point two ends dewater and solidify, and reaches the object of hemostasis.Because its sphere of action is only limited between two tweezer points, therefore very little to the degree of injury of adjacent tissue and coverage, quite safe.

After diathermy forceps is finished using, be generally placed directly in pallet.Before reusing, must carry out cleaning-sterilizing to two tweezer nose parts.Common way is that the artificial cotton balls, the hospital gauze that soaked alcohol or distilled water of using carries out wiping to tweezer point, or use the methods such as radiation sterilization, high-temperature steam sterilization or medicining liquid dipping sterilization, but this kind of method needs manually to do specially, loses time, and efficiency is lower.

Utility model content

The purpose of this utility model is to provide a kind of diathermy forceps automated cleaning and dries bearing.

To achieve these goals, by the following technical solutions, a kind of diathermy forceps automated cleaning is dried bearing, comprise base, have two through holes on base, there is cavity volume through hole below, it is characterized in that: described cavity volume middle part is provided with a dividing plate, also has two through holes on dividing plate; On the through hole of dividing plate, be provided with closing device, described closing device comprises two ring-like folding pieces of semicircle that arrange in opposite directions, one of them folding piece is fixed on dividing plate, and another folding piece is stuck in the sliding tray of dividing plate by the sliding pin of bottom, and is connected with cavity volume sidewall by spring; The free end of two folding pieces of described closing device also correspondence is provided with sheet metal and electromagnet sheet; Cavity volume sidewall and closing device corresponding position are connected with a clip by spring respectively; Cavity volume top is fixed with motor, and motor output end connects a rotating shaft vertically downward; Cavity volume bottom is also provided with supersonic cleaning instrument, and cavity volume inwall is provided with induction installation; Between the through hole of described base top, position is provided with a support, and support two ends are connected with the piston rod that is fixed on two hydraulic cylinders of base top respectively; On described base, be also provided with two wiping boxes, spool is installed in wiping box; In base, be also provided with single-chip microcomputer.

Two folding pieces of described closing device inner side is in opposite directions provided with banking stop.

On spool in described base wiping box, be wound with two flexible wiper cords, its outer peripheral end is drawn in cavity volume inside, and successively by the clip of cavity volume sidewall and the banking stop on closing device, is finally fixed in rotating shaft.

Described cavity volume bottom also has feed pathway and liquid outlet channel, is provided with and is subject to monolithic processor controlled valve in described liquid outlet channel and feed pathway.

On described spool, have and be subject to monolithic processor controlled gripping mechanism.

The utility model is simple in structure, easy to use, clean good with wiping effect, and can automatically change clean flexible wiper cord, cheap for manufacturing cost, has stronger practical value.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model embodiment;

Fig. 2 is along the cutaway view of I-I line in Fig. 1;

Fig. 3 is the local enlarged diagram of A in Fig. 1;

Fig. 4 is the structural representation of closing device in Fig. 1;

Fig. 5 is the top view of Fig. 1;

Fig. 6 is the structural representation of Fig. 1 median septum.

The specific embodiment

Below in conjunction with the drawings and specific embodiments, the utility model is described further.

As shown in Figures 1 to 6, a kind of diathermy forceps automated cleaning is dried bearing, comprises base 1, has two through holes 15 on base 1, and cavity volume 2 is arranged at through hole 15 bottoms; Cavity volume 2 middle parts are fixed with a dividing plate 3, also have two through hole 3-2 on dividing plate 3; On the through hole 3-2 of dividing plate 3, be provided with closing device 8; Described closing device 8 comprises two the ring-like folding piece of semicircle 8-2 that arrange in opposite directions, one of them folding piece 8-2 is fixed on dividing plate 3, another folding piece 8-2 is stuck in the sliding tray 3-1 of dividing plate 3 by the sliding pin 8-1 of bottom, and is connected with cavity volume 2 sidewalls by spring 14; The free end of two folding piece 8-2 of described closing device 8 also correspondence is provided with sheet metal 8-3 and electromagnet sheet 8-4; Cavity volume 2 sidewalls and closing device 8 corresponding positions are all connected with clip 10 by spring 9; Cavity volume 2 tops are fixed with motor 5, and motor 5 outputs connect a rotating shaft 4 vertically downward; Cavity volume 2 bottoms are also provided with supersonic cleaning instrument 16, and cavity volume 2 inwalls are provided with induction installation 11; Between the through hole 15 of described base 1 top, position is provided with a support 20, and support 20 two ends are connected with the piston rod 19 that is fixed on two hydraulic cylinders 18 of base 1 top respectively; On described base 1, be also provided with two wiping boxes 21, spool 22 is installed in wiping box 21; In base 1, be also provided with single-chip microcomputer 12.

Two folding piece 8-2 of described closing device 8 side is in opposite directions provided with banking stop 8-5.

On spool 22 in the wiping box 21 of described base 1, be wound with two flexible wiper cords 13, its outer peripheral end is drawn in cavity volume 2 inside, and successively by the clip 10 of cavity volume 2 sidewalls and the banking stop 8-5 of closing device 8, is finally fixed in rotating shaft 4.

Described cavity volume 2 bottoms also have feed pathway 6 and liquid outlet channel 7, are provided with the valve 17 that controlled by single-chip microcomputer 12 on described feed pathway 6 and liquid outlet channel 7.

On described spool 22, there is the gripping mechanism that controlled by single-chip microcomputer 12.

Before use, first two clean flexible wiper cords are wrapped on the spool in wiping box, then its outer peripheral end are pulled into cavity volume inside, and successively by clip and banking stop, finally be fixed on rotating shaft, and by spool clamping, the flexible wiper cord losing no time can not pulled out easily.

During use, tweezers are inserted by the through hole on base and the through hole on dividing plate, ride on the support of base top on tweezer bar top, and bottom is put between the folding piece of two closing devices, and tweezer point is positioned at dividing plate below cavity volume.

When induction installation has sensed tweezers, insert, be about to signal and pass to single-chip microcomputer.First single-chip microcomputer controls inlet valve open, after adding appropriate cleaning solution in cavity volume, closes this valve; Then supersonic cleaning instrument work, carries out the cleaning function to tweezer point; After having cleaned, Single-chip Controlling supersonic cleaning instrument quits work, and liquid outlet valve open is closed this valve after release residual cleaning liquid.

Next, two hydraulic cylinders of Single-chip Controlling base top are started working, and drive piston rod jack-up support upward, thereby tweezers are also synchronously raised.When tweezer point is lifted to position between two closing devices, hydraulic cylinder quits work and keeps piston rod motionless in current location.Now, single-chip microcomputer is the electromagnetism iron plate energising on closing device, produces absorption affinity, and two folding piece absorption are closed up, and flexible wiper cord is contacted with tweezer point position.

Then control the machine operation of cavity volume top, driven by motor rotating shaft is rotated, and rolls and pull one end of flexible wiper cord to move towards predetermined direction, and the clip and the spring that connect the flexible wiper cord other end can be pulled thereupon; After turning to certain position, motor stops operating, and clip can rebound under the pulling force effect of spring, thereby drives flexible wiper cord towards motion in the other direction; So move in circles, flexible wiper cord, under the alternating action of motor and spring, is realized left and right wiping motion repeatedly, thereby can be realized the wiping function to tweezer point.

After wiping completes, the electromagnet sheet power-off of Single-chip Controlling closing device, a side folding piece separates with opposite side folding piece under spring pulls.Now, user can take out tweezers, reuses.

After tweezers are pulled out, transmission of signal is to single-chip microcomputer again for induction installation, and the hydraulic cylinder works of Single-chip Controlling base top, drives piston rod to be returned to initial position; Then control the machine operation in cavity volume, and open the gripping mechanism on spool, driven by motor rotating shaft is rotated, can by just now used flexible wiper cord roll, and new clean flexible wiper cord can be drawn out by the spool in wiping box, again cover the inner side of closing device.Finally, Single-chip Controlling motor decommissions, and the gripping mechanism on the spool in wiping box clamps again, waits for that tweezers insert next time.

The utility model is simple in structure, easy to use, clean good with wiping effect, and can automatically change clean flexible wiper cord, cheap for manufacturing cost, has stronger practical value.

Claims (5)

1. diathermy forceps automated cleaning is dried a bearing, comprises base, has two through holes on base, and there is cavity volume through hole below, it is characterized in that: described cavity volume middle part is provided with a dividing plate, also has two through holes on dividing plate; On the through hole of dividing plate, be provided with closing device, described closing device comprises two ring-like folding pieces of semicircle that arrange in opposite directions, one of them folding piece is fixed on dividing plate, and another folding piece is stuck in the sliding tray of dividing plate by the sliding pin of bottom, and is connected with cavity volume sidewall by spring; The free end of two folding pieces of described closing device also correspondence is provided with sheet metal and electromagnet sheet; Cavity volume sidewall and closing device corresponding position are connected with a clip by spring respectively; Cavity volume top is fixed with motor, and motor output end connects a rotating shaft vertically downward; Cavity volume bottom is also provided with supersonic cleaning instrument, and cavity volume inwall is provided with induction installation; Between the through hole of described base top, position is provided with a support, and support two ends are connected with the piston rod that is fixed on two hydraulic cylinders of base top respectively; On described base, be also provided with two wiping boxes, spool is installed in wiping box; In base, be also provided with single-chip microcomputer.

2. diathermy forceps automated cleaning as claimed in claim 1 is dried bearing, it is characterized in that: two folding pieces of described closing device inner side is in opposite directions provided with banking stop.

3. diathermy forceps automated cleaning as claimed in claim 1 or 2 is dried bearing, it is characterized in that: on the spool in described base wiping box, be wound with two flexible wiper cords, its outer peripheral end is drawn in cavity volume inside, and successively by the clip of cavity volume sidewall and the banking stop on closing device, be finally fixed in rotating shaft.

4. diathermy forceps automated cleaning as claimed in claim 3 is dried bearing, it is characterized in that: described cavity volume bottom also has feed pathway and liquid outlet channel, is provided with and is subject to monolithic processor controlled valve in described liquid outlet channel and feed pathway.

5. diathermy forceps automated cleaning as claimed in claim 4 is dried bearing, it is characterized in that: on described spool, have and be subject to monolithic processor controlled gripping mechanism.

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