阅读说明：本技术 一种宠物绝育自动麻醉设备 (Automatic anesthesia equipment of pet sterilization ) 是由 华琳琳 于 2020-12-03 设计创作，主要内容包括：本产品公开一种宠物绝育自动麻醉设备,包括麻醉系统,捆绑系统,升降系统,其升降系统是整个装置的底座,可通过底部的齿轮组,带动连接杆,连接杆带动履带进行下降,也可通过中间的滑竿装置进行升降,两侧设置有大弹簧,可在升降的时候进行一个减震的作用,捆绑系统上的机械臂可调节角度,进行拉伸,机械臂的头部设置有绳子,可在绝育的时候捆绑住宠物,麻醉系统上方设置有轮子和履带,可带动下方的麻醉机械臂进行前后移动,麻醉系统的架子上设置有齿轮和齿条,可以让机械臂进行左右移动,机械臂上设置有不同的臂,中间设置有电缸,可以进行伸缩,机械臂头部设置有针管和针头,可进行注射,针管上方设置有小弹簧,可在注射的时候起到减震的作用。(The product discloses an automatic anesthesia device for pet sterilization, which comprises an anesthesia system, a binding system and a lifting system, wherein the lifting system is a base of the whole device and can drive a connecting rod through a gear set at the bottom to drive a crawler belt to descend or can lift through a slide rod device in the middle, large springs are arranged at two sides of the lifting system and can perform a damping function when lifting, a mechanical arm on the binding system can adjust the angle and stretch, the head part of the mechanical arm is provided with a rope which can bind a pet during sterilization, wheels and the crawler belt are arranged above the anesthesia system and can drive the anesthesia mechanical arm below the anesthesia system to move back and forth, a rack and a gear are arranged on a frame of the anesthesia system, the mechanical arm can move left and right, different arms are arranged on the mechanical arm, an electric cylinder is arranged in the middle of the mechanical arm and can stretch, and the head, the injection can be carried out, and the small spring is arranged above the needle tube, so that the shock absorption effect can be achieved during injection.)

1. The utility model provides an automatic anesthesia equipment of pet sterilization, includes anesthesia system (1), binding system (2), operating system (3), its characterized in that: the lifting system (3) is a base, the lifting system (3) is an installation platform of the binding system (2), and the binding system (2) is an installation platform of the anesthesia system (1);

the anesthesia system 1 comprises: an anesthesia fixing chassis (101), a fixing base (102), an anesthesia driving wheel (103), an anesthesia driving wheel motor (104), an anesthesia crawler (105), an anesthesia driven wheel (106), an anesthesia large connecting rod (107), an anesthesia small connecting rod (108), an anesthesia fixing block (109), an anesthesia sliding wheel (110), an anesthesia sliding carriage (111), an anesthesia sliding gear (112), an anesthesia sliding motor (113), a sliding motor base (114), an anesthesia spring large arm (115), an anesthesia horizontal bar large arm (116), an anesthesia horizontal bar small arm (117), an anesthesia spring small arm (118), a large arm base connecting block (119), an anesthesia parallel bar large arm (120), an anesthesia parallel bar small arm (121), an anesthesia base (122), an anesthesia electric cylinder (123), an anesthesia base spring (124), an anesthesia needle tube (125), an anesthesia needle head (126) and an anesthesia mechanical arm electric cylinder (127), wherein the fixing base (10) is fixedly arranged on the side face of the anesthesia fixing chassis (101), an anesthesia driving wheel (103) is fixedly arranged on a motor shaft of an anesthesia driving wheel motor (104), the anesthesia driving wheel motor (104) is fixedly arranged on the bottom surface of a fixed base (102), an anesthesia crawler belt (105) is slidably arranged in an anesthesia fixed base plate (101), the anesthesia crawler belt (105) is wound on an anesthesia driven wheel (106) and the anesthesia driving wheel (103), the anesthesia driven wheel (106) is rotatably arranged on the anesthesia fixed base plate (101), the head of an anesthesia large connecting rod (107) is rotatably arranged on the anesthesia driven wheel (106), the tail of the anesthesia large connecting rod (107) is rotatably arranged on the anesthesia driving wheel (103), the head of an anesthesia small connecting rod (108) is rotatably arranged on the anesthesia fixed base plate (101), the tail of the anesthesia small connecting rod (108) is rotatably arranged on the anesthesia large connecting rod (107), an anesthesia fixed block (109) is fixedly arranged in the anesthesia crawler belt (105), and an anesthesia sliding wheel (110) is slidably arranged, an anesthesia sliding frame (111) is slidably mounted below an anesthesia chassis (201) through an anesthesia sliding wheel (110), an anesthesia sliding gear (112) is fixedly mounted on a motor shaft of an anesthesia sliding motor (113), the anesthesia sliding motor (113) is fixedly mounted on a sliding motor base (114), the sliding motor base (114) is fixedly mounted on a connecting block (128), an anesthesia spring large arm (115) is rotatably mounted on a large arm base connecting block (119), an anesthesia horizontal bar large arm (116) is rotatably mounted on the large arm base connecting block (119), an anesthesia horizontal bar small arm (117) is rotatably mounted on the anesthesia horizontal bar large arm (116), an anesthesia spring small arm (118) is rotatably mounted on the anesthesia spring large arm (115), the large arm base connecting block (119) is rotatably mounted on the connecting block (128), and an anesthesia parallel bar large arm (120) is rotatably mounted on the large arm base connecting block (119), an anesthesia parallel bar small arm (121) is rotatably arranged on an anesthesia parallel bar big arm (120), an anesthesia electric cylinder (123) is fixedly arranged on an anesthesia base (122), an anesthesia base spring (124) is fixedly arranged on the anesthesia base (122), an anesthesia needle tube (125) is fixedly arranged on the anesthesia electric cylinder (123), an anesthesia needle head (126) is fixedly arranged on the anesthesia needle tube (125), the anesthesia mechanical arm electric cylinders (127) are fixedly arranged on the anesthesia base (122) end to end, and an anesthesia fixing chassis (101) is fixedly arranged on an anesthesia chassis (201);

the binding system (2) comprises: the anesthesia apparatus comprises an anesthesia chassis (201), a fixed chassis (202), a lifting fixed connection (203), a binding base (204), a binding gear motor (205), a binding track motor (206), a binding driving gear (207), a binding track wheel (208), a binding track (209), a binding driven gear (210), a binding mechanical arm base (211), a binding driving arm (212), a binding driven arm (213), a binding electric cylinder (214), an electric cylinder sliding head (215), a binding telescopic rod (216) and a binding rope (217), wherein the tail part of the anesthesia chassis (201) is fixedly arranged on the fixed chassis (202), the lifting fixed connection (203) is fixedly arranged at the bottom of the fixed chassis (202), the fixed chassis (202) is fixedly arranged on a lifting spring (303), the bottom part of the binding base (204) is fixedly arranged on the fixed chassis (202), the binding gear motor (205) is fixedly arranged on the side surface of the binding base (204), a binding track motor (206) is fixedly arranged on a binding base (204), a binding driving gear (207) is fixedly arranged on a motor shaft of a binding gear motor (205), a binding track wheel (208) is fixedly arranged on the motor shaft of the binding track motor (206), a binding track (209) is wound on a binding driving arm (212) and the binding track wheel (208), a binding driven gear (210) and the binding driving gear (207) generate a meshing relation, a binding mechanical arm base (211) is fixedly arranged on the binding driven gear (210), the binding driving arm (212) is rotatably arranged on the binding mechanical arm base (211), the head of a binding driven arm (213) is rotatably arranged on the binding driving arm (212), the bottom of the binding driven arm (213) is rotatably arranged on a binding telescopic rod (216), and the head of a binding electric cylinder (214) is rotatably arranged on an electric cylinder sliding head (215), the bottom of a binding electric cylinder (214) is rotatably arranged on a binding driving arm (212), an electric cylinder sliding head (215) is slidably arranged on a binding driven arm (213), a binding telescopic rod (216) is fixedly arranged on a binding base (204), and a binding rope (217) is slidably arranged in the binding telescopic rod (216);

the lifting system (3) comprises: a lifting base (301), a lifting spring electric cylinder (302), a lifting spring (303), a lifting crawler (304), a lifting connecting rod (305), a lifting support (306), a lifting slide rod (307), a lifting screw rod (308), a screw rod motor (309), a screw rod driving wheel (310), a screw rod driven wheel (311), a lifting crawler wheel (312), a lifting linkage rod (313), a lifting driving gear (314), a lifting motor (315), a lifting driven gear (316), a lifting small round wheel (317), a lifting small crawler (318), a lifting driving bevel gear (319) and a lifting driven bevel gear (320), wherein the lifting base (301) is a base, the bottom of the lifting spring electric cylinder (302) is fixedly arranged on the lifting base (301), the head of the lifting spring electric cylinder (302) is fixedly arranged on the lifting spring (303), the lifting crawler (304) is wound on the upper lifting crawler wheel and the lower crawler wheel (312), two ends of a lifting connecting rod (305) are rotatably arranged on a lifting fixed connection (203), a lifting support (306) is slidably arranged on a lifting sliding rod (307), the lifting support (306) and a lifting screw rod (308) generate thread transmission, the lifting sliding rod (307) is fixedly arranged on a lifting base (301), the lifting screw rod (308) is fixedly arranged on a screw rod driven wheel (311), a screw rod motor (309) is fixedly arranged on the lifting base (301), a screw rod driving wheel (310) and the screw rod driven wheel (311) generate a meshing relation, the screw rod driving wheel (310) is fixedly arranged on a motor shaft of the screw rod motor (309), the lifting crawler wheels (312) are fixedly arranged on two sides of the lifting connecting rod (305), a lifting linkage rod (313) is rotatably arranged in the lifting driven gear (316), and a lifting driving gear (314) is fixedly arranged on the motor shaft of the lifting motor (315), the lifting driving gear (314) is meshed with the lifting driven gear (316), the lifting motor (315) is fixedly installed on the side of the lifting base (301), the lifting driven gear (316) is rotatably installed on the lifting small round wheel (317), the lifting small round wheel (317) is fixedly installed on the lifting base (301), the lifting spiral rod (308) is wound on the two lifting small round wheels (317), the lifting driving bevel gear (319) is fixedly installed on the lifting small round wheel (317), the lifting driving bevel gear (319) is meshed with the lifting driven bevel gear (320), and the lifting driven bevel gear (320) is fixedly installed on the lifting connecting rod (305).

2. The automatic anesthesia apparatus for pet sterilization as claimed in claim 1, wherein: the anesthesia caterpillar band (105) is in sliding fit with the anesthesia fixing chassis (101), the anesthesia driven wheel (106) is in rotating fit with the anesthesia fixing chassis (101), the anesthesia large connecting rod (107) is in rotating fit with the anesthesia driven wheel (106), the anesthesia large connecting rod (107) is in rotating fit with the anesthesia driving wheel (103), the anesthesia small connecting rod (108) is in rotating fit with the anesthesia fixing chassis (101), the anesthesia small connecting rod (108) is in rotating fit with the anesthesia large connecting rod (107), the anesthesia sliding wheel (110) is in sliding fit with the anesthesia chassis (201), the anesthesia spring large arm (115) is in rotating fit with the large arm base connecting block (119), the anesthesia horizontal bar large arm (116) is in rotating fit with the large arm base connecting block (119), the anesthesia horizontal bar small arm (117) is in rotating fit with the anesthesia horizontal bar large arm (116), and the anesthesia spring small arm (118) is in rotating fit with the anesthesia spring large arm (115), the large arm base connecting block (119) and the connecting block (128) form a rotating fit, the large arm (120) of the anesthesia parallel bar and the large arm base connecting block (119) form a rotating fit, and the small arm (121) of the anesthesia parallel bar and the large arm (120) of the anesthesia parallel bar form a rotating fit.

3. The automatic anesthesia apparatus for pet sterilization as claimed in claim 1, wherein: the binding driving arm (212) and the binding mechanical arm base (211) form rotating fit, the binding driven arm (213) and the binding driving arm (212) form rotating fit, the binding driven arm (213) and the binding telescopic rod (216) form rotating fit, the binding electric cylinder (214) and the electric cylinder sliding head (215) form rotating fit, the binding electric cylinder (214) and the binding driving arm (212) form rotating fit, the electric cylinder sliding head (215) and the binding driven arm (213) form sliding fit, and the binding rope (217) and the binding telescopic rod (216) form sliding fit.

4. The automatic anesthesia apparatus for pet sterilization as claimed in claim 1, wherein: the lifting connecting rod (305) and the lifting fixed connection (203) form rotating fit, the lifting support (306) and the lifting sliding rod (307) form sliding fit, the lifting support (306) and the lifting spiral rod (308) form sliding fit, the lifting linkage rod (313) and the lifting driven gear (316) form rotating fit, and the lifting driven gear (316) and the lifting small round wheel (317) form rotating fit.

5. The automatic anesthesia apparatus for pet sterilization as claimed in claim 1, wherein: the anesthetic needle tube (125) and the anesthetic needle (126) can be replaced.

6. The automatic anesthesia apparatus for pet sterilization as claimed in claim 1, wherein: the binding rope (217) can be stretched.

7. The automatic anesthesia apparatus for pet sterilization as claimed in claim 1, wherein: the angle between the binding driven arm (213) and the binding driving arm (22) can be adjusted.

Technical Field

The invention relates to the field of anesthesia, in particular to automatic anesthesia equipment for pet sterilization.

Background

When doing the sterilization for the pet, the pet is more lively, hardly carries out the operation, for the anesthesia greatly increased the degree of difficulty before the operation, for solving this problem, designs a pet sterilization automatic anesthesia equipment now, current for example patent number: CN201810811526.6 discloses a pet anesthesia machine, which can perform anesthesia, but has no way to control the pet's actions by inhalation method.

Disclosure of Invention

Aiming at the technical problem, the invention provides automatic anesthesia equipment for pet sterilization, which comprises an anesthesia system, a binding system and a lifting system, wherein the lifting system is a base, the lifting system is an installation platform of the binding system, and the binding system is an installation platform of the anesthesia system.

The anesthesia system comprises: an anesthesia fixing chassis, a fixing base, an anesthesia driving wheel motor, an anesthesia crawler, an anesthesia driven wheel, an anesthesia large connecting rod, an anesthesia small connecting rod, an anesthesia fixing square block, an anesthesia sliding wheel, an anesthesia sliding rack, an anesthesia sliding gear, an anesthesia sliding motor, a sliding motor base, an anesthesia spring large arm, an anesthesia horizontal bar small arm, an anesthesia spring small arm, a large arm base connecting block, an anesthesia parallel bar large arm, an anesthesia parallel bar small arm, an anesthesia base, an anesthesia electric cylinder, an anesthesia base spring, an anesthesia needle tube, an anesthesia needle head and an anesthesia mechanical arm electric cylinder, wherein the fixing base is fixedly arranged on the side face of the anesthesia fixing chassis, the anesthesia driving wheel motor is fixedly arranged on the motor shaft of the anesthesia driving wheel motor, the anesthesia driving wheel motor is fixedly arranged on the bottom face of the fixing chassis, the anesthesia crawler is slidably arranged in the anesthesia fixing chassis, an anesthesia driven wheel is rotatably arranged on an anesthesia fixing chassis, the head of an anesthesia big connecting rod is rotatably arranged on the anesthesia driven wheel, the tail of the anesthesia big connecting rod is rotatably arranged on an anesthesia driving wheel, the head of an anesthesia small connecting rod is rotatably arranged on the anesthesia fixing chassis, the tail of the anesthesia small connecting rod is rotatably arranged on the anesthesia big connecting rod, an anesthesia fixing block is fixedly arranged in an anesthesia track, an anesthesia sliding wheel is slidably arranged on the anesthesia chassis, an anesthesia sliding frame is slidably arranged under the anesthesia chassis through the anesthesia sliding wheel, an anesthesia sliding gear is fixedly arranged on a motor shaft of the anesthesia sliding motor, the anesthesia sliding motor is fixedly arranged on a sliding motor base, the sliding motor base is fixedly arranged on a connecting block, an anesthesia spring big arm is rotatably arranged on a big arm base connecting block, an anesthesia horizontal bar small arm is rotatably arranged on an anesthesia horizontal bar big arm, the anesthesia spring forearm rotates and installs on the big arm of anesthesia spring, big arm base connecting block rotates and installs on the connecting block, the big arm of anesthesia parallel bars base connecting block rotates and installs on big arm base connecting block, the little arm of anesthesia parallel bars rotates and installs on the big arm of anesthesia parallel bars, anesthesia electricity jar fixed mounting is on the anesthesia base, anesthesia base spring fixed mounting is on the anesthesia base, anesthesia needle tubing fixed mounting is on the anesthesia electricity jar, anesthesia syringe needle fixed mounting is on anesthesia needle tubing, the electricity jar of anesthesia arm all fixed mounting is on the anesthesia base head and the tail, the fixed chassis fixed mounting of anesthesia is on the anesthesia chassis.

The binding system comprises: the anesthesia base plate is fixedly arranged on the fixed base plate, the lifting fixed connection is fixedly arranged at the bottom of the fixed base plate, the fixed base plate is fixedly arranged on a lifting spring, the bottom of the binding base plate is fixedly arranged on the fixed base plate, the binding gear motor is fixedly arranged on the side surface of the binding base plate, the binding crawler motor is fixedly arranged on the binding base plate, the binding driving gear is fixedly arranged on a motor shaft of the binding gear motor, the binding crawler wheel is fixedly arranged on a motor shaft of the binding crawler motor, and the binding crawler is wound on the binding driving arm and the binding crawler wheel, binding driven gear and binding driving gear produce the meshing relation, binding arm base fixed mounting is on binding driven gear, binding the initiative arm and rotating and installing on binding arm base, binding the driven arm head and rotating and installing on binding the initiative arm, binding the driven arm bottom and rotating and installing on binding the telescopic link, binding electric jar head and rotating and installing on electric jar sliding head, binding electric jar bottom and rotating and installing on binding the initiative arm, electric jar sliding head slidable mounting is on binding the driven arm, binding telescopic link fixed mounting is on binding the base, bind rope slidable mounting in binding the telescopic link.

The lifting system comprises: the lifting device comprises a lifting base, a lifting spring electric cylinder, a lifting spring, a lifting crawler belt, a lifting connecting rod, a lifting support, a lifting slide rod, a lifting screw rod, a screw rod motor, a screw rod driving wheel, a screw rod driven wheel, a lifting crawler wheel, a lifting linkage rod, a lifting driving gear, a lifting motor, a lifting driven gear, a lifting small round wheel, a lifting small crawler belt, a lifting driving bevel gear and a lifting driven bevel gear, wherein the lifting base is a base, the bottom of the lifting spring electric cylinder is fixedly arranged on the lifting base, the head of the lifting spring electric cylinder is fixedly arranged on the lifting spring, the lifting crawler belt is wound on the upper lifting crawler belt wheel and the lower lifting crawler belt wheel, two ends of the lifting connecting rod are rotatably arranged on a lifting fixed connection part, the lifting support is slidably arranged on the lifting slide rod, the lifting support and the lifting spiral rod generate thread transmission, the lifting slide rod, the screw rod motor is fixedly installed on the lifting base, a screw rod driving wheel and a screw rod driven wheel generate a meshing relation, the screw rod driving wheel is fixedly installed on a motor shaft of the screw rod motor, the lifting crawler wheels are fixedly installed on two sides of the lifting connecting rod, the lifting linkage rod is rotatably installed in the lifting driven gear, the lifting driving gear is fixedly installed on the motor shaft of the lifting motor, the lifting driving gear and the lifting driven gear generate a meshing relation, the lifting motor is fixedly installed on the lifting base side, the lifting driven gear is rotatably installed on the lifting small round wheel, the lifting small round wheel is fixedly installed on the lifting base, the lifting screw rod is wound on the two lifting small round wheels, the lifting driving bevel gear is fixedly installed on the lifting small round wheel, the lifting driving bevel gear and the lifting driven bevel gear generate a meshing relation, and the lifting.

Further, the anesthesia track and the anesthesia fixed chassis form a sliding fit, the anesthesia driven wheel and the anesthesia fixed chassis form a rotating fit, the anesthesia large connecting rod and the anesthesia driven wheel form a rotating fit, the anesthesia large connecting rod and the anesthesia driving wheel form a rotating fit, the anesthesia small connecting rod and the anesthesia fixed chassis form a rotating fit, the anesthesia small connecting rod and the anesthesia large connecting rod form a rotating fit, the anesthesia sliding wheel and the anesthesia chassis form a sliding fit, the anesthesia spring large arm and the large arm base connecting block form a rotating fit, the anesthesia horizontal bar small arm and the anesthesia horizontal bar large arm form a rotating fit, the anesthesia spring small arm and the anesthesia spring large arm form a rotating fit, the large arm base connecting block and the connecting block form a rotating fit, the anesthesia parallel bar large arm and the large arm base connecting block form a rotating fit, and the anesthesia parallel bar small arm and the anesthesia parallel bar large arm form a rotating fit.

Furthermore, the binding driving arm and the binding mechanical arm base form a rotating fit, the binding driven arm and the binding driving arm form a rotating fit, the binding driven arm and the binding telescopic rod form a rotating fit, the binding electric cylinder and the electric cylinder sliding head form a rotating fit, the binding electric cylinder and the binding driving arm form a rotating fit, the electric cylinder sliding head and the binding driven arm form a sliding fit, and the binding rope and the binding telescopic rod form a sliding fit.

Furthermore, the lifting connecting rod and the lifting fixed connection form a rotating fit, the lifting support and the lifting sliding rod form a sliding fit, the lifting support and the lifting screw rod form a sliding fit, the lifting linkage rod and the lifting driven gear form a rotating fit, and the lifting driven gear and the lifting small circular wheel form a rotating fit.

Furthermore, the anesthetic needle tube and the anesthetic needle head can be replaced.

Further, the binding rope may be stretched.

Furthermore, the angle between the binding driven arm and the binding driving arm can be adjusted.

Due to the adoption of the technical scheme, the invention has the following advantages: (1) the invention is provided with a lifting system, so that the height can be conveniently adjusted during sterilization; (2) the pet sterilization pet binding device is provided with the binding system, so that a pet can be bound during sterilization, and the pet can be prevented from being disturbed; (3) the anesthesia system can move back and forth, left and right, and any position is convenient to operate.

Drawings

FIG. 1 is an overall schematic view of the present invention.

Fig. 2 is a schematic view of the upper half of the anesthesia system of the present invention.

FIG. 3 is a schematic diagram of the lower half of the anesthesia system of the present invention.

FIG. 4 is a schematic view of a gear assembly of the lift system of the present invention.

FIG. 5 is a schematic view of the binding system of the present invention.

FIG. 6 is a schematic view of a portion of the binding system of the present invention.

Fig. 7 is an overall schematic view of the lift system of the present invention.

Reference numerals: 1-an anesthesia system; 2-binding the system; 3-a lifting system; 101-anesthesia fixing chassis; 102-a stationary base; 103-an anesthesia driving wheel; 104-anesthesia driving wheel motor; 105-an anesthesia track; 106-anesthesia slave wheel; 107-anesthesia big connecting rod; 108-anesthesia small connecting rod; 109-anesthesia fixing block; 110-anesthetic sliding wheel; 111-anesthesia carriage; 112-anesthetic sliding gear; 113-anesthesia slide motor; 114-a sliding motor base; 115-anesthesia spring big arm; 116-anesthesia horizontal bar big arm; 117-anesthesia horizontal bar forearm; 118-anesthesia spring forearm; 119-a large arm base connecting block; 120-anesthesia parallel bar big arm; 121-anesthesia parallel bar forearm; 122-anesthesia base; 123-anesthesia electric cylinder; 124-anesthesia base spring; 125-anesthetic needle tubing; 126-anesthetic needle; 127-anesthesia mechanical arm electric cylinder; 128-connecting block; 201-anesthesia chassis; 202-fixing the chassis; 203-lifting fixed connection; 204-binding the base; 205-bundled gear motor; 206-a caterpillar-band binding motor; 207-binding the driving gear; 208-binding the crawler wheels; 209-binding the crawler; 210-binding the driven gear; 211-binding the robot arm base; 212-binding the master arm; 213-binding the follower arm; 214-binding electric cylinder; 215-electric cylinder sliding head; 216-binding the telescopic rod; 217-binding ropes; 301-a lifting base; 302-lifting spring electric cylinder; 303-a lifting spring; 304-a lifting track; 305-a lifting link; 306-lifting support; 307-lifting slide bar; 308-lifting screw rod; 309-screw rod motor; 310-screw driving wheel; 311-screw driven wheel; 312-lifting crawler wheels; 313-a lifting linkage rod; 314-a lift drive gear; 315-a lift motor; 316-lifting driven gear; 317-lifting small round wheels; 318-lifting small caterpillar band; 319-lifting drive bevel gear; 320-lifting the driven bevel gear.

Detailed Description

The present invention will be further described with reference to specific examples, which are illustrative of the invention and are not to be construed as limiting the invention.

Example (b): as shown in fig. 1, 2, 3, 4, 5, 6 and 7, the pet sterilization automatic anesthesia apparatus comprises a base provided with a lifting system 3, a mounting platform provided with a binding system 2 provided with the lifting system 3, and a mounting platform provided with the binding system 1 provided with the binding system 2.

The specific structure of the anesthesia system 1 is shown in fig. 2 and 3, wherein a fixed base 102 is fixedly installed on the side of an anesthesia fixed chassis 101, an anesthesia driving wheel 103 is fixedly installed on a motor shaft of an anesthesia driving wheel motor 104, the anesthesia driving wheel motor 104 is fixedly installed on the bottom surface of the fixed base 102, an anesthesia crawler 105 is slidably installed in the anesthesia fixed chassis 101, the anesthesia crawler 105 is wound on an anesthesia driven wheel 106 and the anesthesia driving wheel 103, the anesthesia driven wheel 106 is rotatably installed on the anesthesia fixed chassis 101, the head of an anesthesia large connecting rod 107 is rotatably installed on the anesthesia driven wheel 106, the tail of the anesthesia large connecting rod 107 is rotatably installed on the anesthesia driving wheel 103, the head of an anesthesia small connecting rod 108 is rotatably installed on the anesthesia fixed chassis 101, the tail of the anesthesia small connecting rod 108 is rotatably installed on the anesthesia large connecting rod 107, an anesthesia fixed block 109 is fixedly installed in, an anesthesia sliding frame 111 is slidably mounted under an anesthesia chassis 201 through an anesthesia sliding wheel 110, an anesthesia sliding gear 112 is fixedly mounted on a motor shaft of an anesthesia sliding motor 113, the anesthesia sliding motor 113 is fixedly mounted on a sliding motor base 114, the sliding motor base 114 is fixedly mounted on a connecting block 128, an anesthesia spring large arm 115 is rotatably mounted on a large arm base connecting block 119, an anesthesia horizontal bar large arm 116 is rotatably mounted on a large arm base connecting block 119, an anesthesia horizontal bar small arm 117 is rotatably mounted on the anesthesia horizontal bar large arm 116, an anesthesia spring small arm 118 is rotatably mounted on the anesthesia spring large arm 115, a large arm base connecting block 119 is rotatably mounted on the connecting block 128, an anesthesia parallel bar large arm 120 is rotatably mounted on the large arm base connecting block 119, an anesthesia parallel bar small arm 121 is rotatably mounted on the anesthesia parallel bar large arm 120, an anesthesia electric cylinder 123 is fixedly mounted on the anesthesia base 122, an anesthesia base spring 124 is fixedly mounted on the anesthesia base 122, the anesthesia needle tube 125 is fixedly installed on the anesthesia electric cylinder 123, the anesthesia needle 126 is fixedly installed on the anesthesia needle tube 125, the anesthesia mechanical arm electric cylinder 127 is fixedly installed at the anesthesia base 122 end to end, the anesthesia fixing base plate 101 is fixedly installed on the anesthesia base plate 201, the anesthesia sliding wheel 110 and the anesthesia sliding gear 112 are matched with each other, the position needing anesthesia is found accurately, and then the anesthesia operation is carried out by stretching the anesthesia mechanical arm electric cylinder.

Specifically, as shown in fig. 5 and fig. 6, a specific structural schematic diagram of the binding system 2 is shown, wherein the tail of the anesthesia chassis 201 is fixedly installed on the fixed chassis 202, the lifting fixed connection 203 is fixedly installed at the bottom of the fixed chassis 202, the fixed chassis 202 is fixedly installed on the lifting spring 303, the bottom of the binding base 204 is fixedly installed on the fixed chassis 202, the binding gear motor 205 is fixedly installed at the side of the binding base 204, the binding track motor 206 is fixedly installed on the binding base 204, the binding driving gear 207 is fixedly installed on the motor shaft of the binding gear motor 205, the binding track wheel 208 is fixedly installed on the motor shaft of the binding track motor 206, the binding track 209 is wound on the binding driving arm 212 and the binding track wheel 208, the binding driven gear 210 and the binding driving gear 207 are engaged, the binding mechanical arm base 211 is fixedly installed on the binding driven gear 210, the binding driving arm, the head of the binding driven arm 213 is rotatably mounted on the binding driving arm 212, the bottom of the binding driven arm 213 is rotatably mounted on the binding telescopic rod 216, the head of the binding electric cylinder 214 is rotatably mounted on the electric cylinder sliding head 215, the bottom of the binding electric cylinder 214 is rotatably mounted on the binding driving arm 212, the electric cylinder sliding head 215 is slidably mounted on the binding driven arm 213, the binding telescopic rod 216 is fixedly mounted on the binding base 204, the binding rope 217 is slidably mounted in the binding telescopic rod 216, the binding driving arm 212 and the binding driven arm 213 are adjusted in angle through stretching of the binding electric cylinder 214, the binding telescopic rod 216 is stretched, and the binding rope 217 is stretched and bound.

Specifically, as shown in fig. 4 and fig. 7, a specific structural schematic diagram of the lifting system 3 is shown, wherein the lifting base 301 is a base, the bottom of the lifting spring cylinder 302 is fixedly installed on the lifting base 301, the head of the lifting spring cylinder 302 is fixedly installed on the lifting spring 303, the lifting crawler 304 is wound on the upper and lower lifting crawler wheels 312, the two ends of the lifting link 305 are rotatably installed on the lifting fixed connection 203, the lifting support 306 is slidably installed on the lifting rod 307, the lifting support 306 and the lifting screw 308 generate a screw transmission, the lifting rod 307 is fixedly installed on the lifting base 301, the lifting screw 308 is fixedly installed on the screw driven wheel 311, the screw motor 309 is fixedly installed on the lifting base 301, the screw driving wheel 310 and the screw driven wheel 311 generate a meshing relationship, the screw driving wheel 310 is fixedly installed on the shaft of the screw motor 309, the lifting crawler wheels 312 are fixedly installed on the two sides of the lifting link 305, the lifting linkage rod 313 is rotatably installed in a lifting driven gear 316, a lifting driving gear 314 is fixedly installed on a motor shaft of a lifting motor 315, the lifting driving gear 314 and the lifting driven gear 316 generate a meshing relationship, the lifting motor 315 is fixedly installed on the lifting base 301 side, the lifting driven gear 316 is rotatably installed on a lifting small circular wheel 317, the lifting small circular wheel 317 is fixedly installed on the lifting base 301, a lifting spiral rod 308 is wound on the two lifting small circular wheels 317, a lifting driving bevel gear 319 is fixedly installed on the lifting small circular wheel 317, the lifting driving bevel gear 319 and the lifting driven bevel gear 320 generate a meshing relationship, the lifting driven bevel gear 320 is fixedly installed on a lifting connecting rod 305, the fixed chassis 202 is driven to lift through the lifting of a lifting support 306, the lifting connecting rod 305 rotates, and the lifting crawler 304 is driven to lift.

When the pet sterilization device is used for sterilizing pets, the lifting support 306 and the lifting wheel rotary rod 308 are in threaded transmission to lift the lifting support, when the pet sterilization device is used, the binding telescopic rod 216 needs to be stretched to adjust the length, when the pet sterilization device is used, the binding rope 217 needs to be used for binding, when the pet sterilization device is used, the position needing anesthesia needs to be adjusted through the mutual matching of the anesthesia sliding wheel 110 and the anesthesia sliding gear 112, when the pet sterilization device is used, the anesthesia needle tube 125 filled with anesthetic needs to be replaced in advance, when the pet sterilization device is used, an unused anesthesia needle head 126 needs to be installed in advance, and when the pet sterilization device is used, the anesthesia mechanical arm electric cylinder 127 needs to be adjusted to control the length of the mechanical arm.