CN203779581U - Medical biological membrane shearing device - Google Patents

Abstract

A medical biological membrane shearing device is characterized by comprising an X-direction cutting device and a Y-direction cutting device. The cutting direction of the Y-direction cutting device is perpendicular to the cutting direction of the X-direction cutting device. Each cutting device comprises a cutter assembly and a cutting driving device. Each cutter assembly comprises a cutter shaft, a plurality of cutters arranged on the cutter shaft and cutter grooves corresponding to the cutters. The cutting grooves of the X-direction cutting device are formed in a bottom plate, and the cutter grooves of the Y-direction cutting device are formed in a top plate. A biological membrane is pressed between the bottom plate of the X-direction cutting device and the top plate of the Y-direction cutting device, and the cutters can cut the biological membrane along the cutter grooves. The medical biological membrane shearing device can replace manual shearing and is high in efficiency and shearing quality. In addition, the production requirements are met, and the production cost is reduced. The medical biological membrane shearing device can also be applied to leather cutting production, so that the application ranges is expanded. Furthermore, the medical biological membrane shearing device achieves a foundation structure for automatic cutting.

Description

Medical biomembrane shear

Technical field

The utility model relates to a kind of device of shearing medical biomembrane.

Background technology

Medical biomembrane be clinical in for covering the articles for use of the four limbs soft tissue surface of a wound of different parts; The method of obtaining at present refined biometric film is all artificial tailoring technique, and efficiency is lower, and technical requirement is higher, its technical requirement: the first, in size, and the square that the length of side is 1.5-10cm; The second, in effect, edge has not allowed burr.Artificial tailoring technique level is had to very high requirement, and artificial cutting easily causes biomembrane cutting failure, thereby causes waste.

Utility model content

The shortcoming existing in order to overcome above-mentioned prior art, the purpose of this utility model is to provide a kind of medical biomembrane shear, replaces artificial cutting, and efficiency is high and cutting quality is also high.

In order to address the above problem, the utility model by the following technical solutions: medical biomembrane shear, it is characterized in that, comprising:

X is to cutter sweep, comprises that base plate, X are to cutter assembly and X to cutting driving device;

Described X comprises X cutter shaft and is equidistantly arranged on several the circular X cutting knifes on X cutter shaft to cutter assembly; The two ends of X cutter shaft are provided with X cutter shaft driven wheel; The bottom surface of described base plate is plane, on base plate along X to being provided with many cutter grooves that be parallel to each other and equally spaced; Described X cutting knife bottom blade is through cutter groove; The both sides, front and back of described base plate arrange respectively a downward spur rack of X, and what described X cutter shaft driven wheel engaged respectively operates on the downward spur rack of described X;

Described X comprises that to cutting driving device X is to motor; X is packed on a motor cabinet to motor, and the X being provided with on motor cabinet in described plate upper surface walking is to road wheel; Described X is to the motor output end power transmission shaft that is in transmission connection, power transmission shaft is parallel with described X cutter shaft, the two ends of power transmission shaft all arrange the first travelling gear, the downward spur rack of the first travelling gear bottom described X of engagement, between the first travelling gear and X cutter shaft driven wheel, be engaged with the second travelling gear, the axle center of the second travelling gear is positioned at the top in the axle center of axle center, the X cutter shaft driven wheel of the first travelling gear; Be engaged with upwards spur rack of X at the second travelling gear top; X is upwards relative fixing between spur rack and the downward spur rack of X;

Y-direction cutter sweep, cut direction is vertical to the cut direction of cutter sweep with X; Described Y-direction cutter sweep comprises top board, Y-direction cutter assembly and Y-direction cutting driving device, base plate;

Described Y-direction cutter assembly comprises Y cutter shaft and is equidistantly arranged on several the circular Y cutting knifes on Y cutter shaft; The two ends of Y cutter shaft are provided with Y cutter shaft driven wheel; The upper surface of described top board is plane, on top board, is provided with many cutter grooves that be parallel to each other and equally spaced along Y-direction; Described Y cutting knife bottom blade is through cutter groove; The left and right sides of described top board arranges respectively spur rack in a Y-direction, and what described Y cutter shaft driven wheel engaged respectively operate in described Y-direction on spur rack;

Described Y-direction cutting driving device comprises Y-direction motor; Y-direction motor is packed on a motor cabinet, and the Y-direction road wheel in described plate upper surface walking is installed on motor cabinet; Described Y-direction motor-driven connects a power transmission shaft, this power transmission shaft is parallel with described Y cutter shaft, the two ends of this power transmission shaft all arrange the 3rd travelling gear, and spur rack in described Y-direction is engaged at the 3rd travelling gear top, between this power transmission shaft and described Y cutter shaft, link together by connecting shaft support; Two of the bottoms supporting leg of each connecting shaft support connects respectively a Support Gear, the operating under Y-direction on spur rack of described Support Gear engagement; Under Y-direction, spur rack is relative with spur rack in Y-direction fixing.

Further: described X also includes upper cover to cutter sweep; Described upper cover is installed in the upwards top of spur rack of two X, and covers X to cutter assembly, X to cutting driving device.

Further: X is in cutter sweep, and described the second travelling gear is arranged on a bracing frame, two supporting legs of bracing frame bottom are connected with X cutter shaft, power transmission shaft respectively.

Further: X is in cutter sweep, and described X is in transmission connection by band between motor and power transmission shaft.

Further: X is in cutter sweep, and the left and right sides of upper cover arranges respectively a handles.

The beneficial effects of the utility model are: it replaces artificial cutting, and efficiency is high and cutting quality is also high; When this external satisfaction production requirement, reduce production costs, also as the foundation structure that realizes automation cutting.

Brief description of the drawings

Below in conjunction with drawings and Examples, the utility model is described further:

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

Fig. 2 is the top view of Fig. 1;

Fig. 3 is the left view of Fig. 1;

Fig. 4 is that in the utility model embodiment, X removes the front view of X after to cutter assembly and X to cutting driving device to cutter sweep;

Fig. 5 is the top view of Fig. 4;

Fig. 6 is the left view of Fig. 4;

Fig. 7 is the front view of X to X in cutter sweep to cutting driving device in the utility model embodiment;

Fig. 8 is the top view of Fig. 7;

Fig. 9 is the left view of Fig. 7;

Figure 10 be in the utility model embodiment X to the front view of cutter sweep;

Figure 11 is the top view of Figure 10;

Figure 12 is the left view of Figure 10;

Figure 13 is the front view of Y-direction cutter sweep in the utility model embodiment (removing top board 21);

Figure 14 is the top view of Figure 13;

Figure 15 is the left view (removing spur rack in top board and Y-direction) of Figure 13;

In figure: 1X is to cutter sweep, 101 base plates, 102X cutter shaft, 103X cutting knife, 104X cutter shaft driven wheel, 105 cutter grooves, the downward spur rack of 106X, 107X is to motor, 108 motor cabinets, 109X is to road wheel, 110 power transmission shafts, 111 first travelling gears, 112 second travelling gears, 113X is spur rack upwards, 114 upper covers, 115 bracing frames, 116 handles

2Y is to cutter sweep, 21 top boards, 22 base plates, 23Y cutter shaft, 24Y cutting knife, 25Y cutter shaft driven wheel, 26 cutter grooves, 27Y is spur rack upwards, and 28Y is to motor, 29 motor cabinets, 210Y is to road wheel, 211 power transmission shafts, 212 the 3rd travelling gears, 213 connecting shaft supports, 214 Support Gears, the downward spur rack of 215Y.

Detailed description of the invention

As shown in Figure 1, this medical biomembrane shear, comprises that X is to cutter sweep 1, Y-direction cutter sweep 2.

Shown in Fig. 2-12, X is to cutter sweep 1, comprises that base plate 101, X are to cutter assembly and X to cutting driving device.

X comprises X cutter shaft 102 and is equidistantly arranged on several the circular X cutting knifes 103 on X cutter shaft to cutter assembly; The two ends of X cutter shaft 102 are provided with X cutter shaft driven wheel 104; The bottom surface of described base plate 101 is plane, on base plate 101 along X to being provided with many cutter grooves 105 that be parallel to each other and equally spaced; X cutting knife 103 bottom blades are through cutter groove 105; The both sides, front and back of described base plate 101 arrange respectively a downward spur rack 106 of X, and what X cutter shaft driven wheel 104 engaged respectively operates on the downward spur rack 106 of X.

Described X comprises that to cutting driving device X is to motor 107; X is packed on a motor cabinet 108 to motor 107, and the X being provided with on motor cabinet 108 in base plate 101 upper surface walkings is to road wheel 109.X connects a power transmission shaft 110 to motor 107 outputs by belt transmission, power transmission shaft 110 is parallel with X cutter shaft 102, the two ends of power transmission shaft 110 all arrange the first travelling gear 111, the downward spur rack 106 of the first travelling gear 111 bottom engagement X, the axle center that is engaged with the second travelling gear 112, the second travelling gears 112 between the first travelling gear 111 and X cutter shaft driven wheel 104 is positioned at the top in the axle center of the axle center of the first travelling gear 111, X cutter shaft driven wheel 104; Be engaged with upwards spur rack 113 of X at the second travelling gear 112 tops; X is upwards relative fixing between spur rack 113 and the downward spur rack 106 of X.

Further: described X also includes upper cover 114 to cutter sweep; Described upper cover 114 is installed in the upwards top of spur rack 113 of two X, and covers X to cutter assembly, X to cutting driving device.

Further: X is in cutter sweep, and described the second travelling gear 112 is arranged on a bracing frame 115, and two supporting legs of bracing frame 115 bottoms are connected with X cutter shaft 102, power transmission shaft 110 respectively.This junction is the connection that does not hinder X cutter shaft 102, power transmission shaft 110 to rotate, for example, connect by bearing or axle sleeve connection.

Further: X is in cutter sweep, and the left and right sides of upper cover 114 arranges respectively a handles 116.

The cut direction of described Y-direction cutter sweep 2 is vertical to the cut direction of cutter sweep 1 with X.

Shown in Figure 13-15, described Y-direction cutter sweep 2 comprises top board 21, Y-direction cutter assembly and Y-direction cutting driving device, base plate 22.

Described Y-direction cutter assembly comprises Y cutter shaft 23 and is equidistantly arranged on several the circular Y cutting knifes 24 on Y cutter shaft 23; The two ends of Y cutter shaft 23 are provided with Y cutter shaft driven wheel 25; The upper surface of described top board 21 is plane, on top board 21, is provided with many cutter grooves 26 that be parallel to each other and equally spaced along Y-direction; Y cutting knife 24 bottom blades are through cutter groove 26.The left and right sides of top board 21 arranges respectively spur rack 27 in a Y-direction, and what described Y cutter shaft driven wheel 25 engaged respectively operate in described Y-direction on spur rack 27.

Described Y-direction cutting driving device 2 comprises Y-direction motor 28; Y-direction motor 28 is packed on a motor cabinet 29, and the Y-direction road wheel 210 in described base plate 22 upper surface walkings is installed on motor cabinet 29; Described Y-direction motor 28 power transmission shaft 211 that is in transmission connection, this power transmission shaft 211 is parallel with described Y cutter shaft 23, the two ends of this power transmission shaft 211 all arrange the 3rd travelling gear 212, spur rack 27 in described Y-direction is engaged at the 3rd travelling gear 212 tops, between this power transmission shaft 211 and described Y cutter shaft 23, links together by connecting shaft support 213; Two of the bottoms supporting leg of each connecting shaft support 213 connects respectively a Support Gear 214, and what described Support Gear 214 engaged operate under Y-direction on spur rack 215; Under Y-direction, spur rack 215 is relative with spur rack in Y-direction 27 fixing.

Device running:

1. place: first X is taken off to cutter sweep 1, biomembrane is lain against on the center of top board 21 in Y-direction cutter sweep, and then X is placed on Y-direction cutter sweep to cutter sweep 1, X is fitted with the top board 21 of Y-direction cutter sweep to the base plate 101 of cutter sweep, and X just can be fixed biomembrane to the gravity of cutter sweep.

2. cutting process: according to cutting biomembranous specification, carrying out cutter adjusting (is 1.5cm biomembrane such as wanting production specification, upper and lower cutter knife spacing is adjusted to 1.5cm, the cutter at this place regulates by changing whole cutter shaft and cutting knife and realizes), start X to motor 107, drive X cutting knife 103 to realize X to cutting.Cutter and cutter groove coordinate guarantee cutting accurately, when X completes to cutting, can stop cutting by travel switch.Start Y-direction motor 28, Y-direction cutting starts simultaneously, and cutting step is identical to incision principle with X.By X after the cutting of, Y-direction, the biomembrane finished product moulding of this specification.

3 process collection process removes X to cutter sweep 1, now, what the biomembrane of well cutting was neat is emitted on top board 21 upper surfaces of Y-direction cutter sweep 2, manually with hairbrush cleaning, then refined biometric film is collected.The small opening that suitable size for example can be set at the bottom edge of Y-direction cutter sweep, is swept finished product in small opening with hairbrush, and small opening connects professional gathering-device.

4. later stage work cleaning and disinfection platform, prepare next biomembranous cutting, repeats above step.

Claims (5)

1. medical biomembrane shear, is characterized in that, comprising:

X is to cutter sweep, comprises that base plate, X are to cutter assembly and X to cutting driving device;

Described X comprises X cutter shaft and is equidistantly arranged on several the circular X cutting knifes on X cutter shaft to cutter assembly; The two ends of X cutter shaft are provided with X cutter shaft driven wheel; The bottom surface of described base plate is plane, on base plate along X to being provided with many cutter grooves that be parallel to each other and equally spaced; Described X cutting knife bottom blade is through cutter groove; The both sides, front and back of described base plate arrange respectively a downward spur rack of X, and what described X cutter shaft driven wheel engaged respectively operates on the downward spur rack of described X;

Described X comprises that to cutting driving device X is to motor; X is packed on a motor cabinet to motor, and the X being provided with on motor cabinet in described plate upper surface walking is to road wheel; Described X is to the motor output end power transmission shaft that is in transmission connection, power transmission shaft is parallel with described X cutter shaft, the two ends of power transmission shaft all arrange the first travelling gear, the downward spur rack of the first travelling gear bottom described X of engagement, between the first travelling gear and X cutter shaft driven wheel, be engaged with the second travelling gear, the axle center of the second travelling gear is positioned at the top in the axle center of axle center, the X cutter shaft driven wheel of the first travelling gear; Be engaged with upwards spur rack of X at the second travelling gear top; X is upwards relative fixing between spur rack and the downward spur rack of X;

Y-direction cutter sweep, cut direction is vertical to the cut direction of cutter sweep with X; Described Y-direction cutter sweep comprises top board, Y-direction cutter assembly and Y-direction cutting driving device, base plate;

Described Y-direction cutter assembly comprises Y cutter shaft and is equidistantly arranged on several the circular Y cutting knifes on Y cutter shaft; The two ends of Y cutter shaft are provided with Y cutter shaft driven wheel; The upper surface of described top board is plane, on top board, is provided with many cutter grooves that be parallel to each other and equally spaced along Y-direction; Described Y cutting knife bottom blade is through cutter groove; The left and right sides of described top board arranges respectively spur rack in a Y-direction, and what described Y cutter shaft driven wheel engaged respectively operate in described Y-direction on spur rack;

Described Y-direction cutting driving device comprises Y-direction motor; Y-direction motor is packed on a motor cabinet, and the Y-direction road wheel in described plate upper surface walking is installed on motor cabinet; Described Y-direction motor-driven connects a power transmission shaft, this power transmission shaft is parallel with described Y cutter shaft, the two ends of this power transmission shaft all arrange the 3rd travelling gear, and spur rack in described Y-direction is engaged at the 3rd travelling gear top, between this power transmission shaft and described Y cutter shaft, link together by connecting shaft support; Two of the bottoms supporting leg of each connecting shaft support connects respectively a Support Gear, the operating under Y-direction on spur rack of described Support Gear engagement; Under Y-direction, spur rack is relative with spur rack in Y-direction fixing.

2. medical biomembrane shear according to claim 1, is characterized in that: described X also includes upper cover to cutter sweep; Described upper cover is installed in the upwards top of spur rack of two X, and covers X to cutter assembly, X to cutting driving device.

3. medical biomembrane shear according to claim 1 and 2, is characterized in that: X is in cutter sweep, and described the second travelling gear is arranged on a bracing frame, and two supporting legs of bracing frame bottom are connected with X cutter shaft, power transmission shaft respectively.

4. medical biomembrane shear according to claim 1, is characterized in that: X is in cutter sweep, and described X is in transmission connection by band between motor and power transmission shaft.

5. medical biomembrane shear according to claim 1, is characterized in that: X is in cutter sweep, and the left and right sides of upper cover arranges respectively a handles.