CN108714256B - Bidirectional pressurizing gastric lavage device for digestive system department - Google Patents

Abstract

The invention discloses a bidirectional pressurizing gastric lavage device for gastroenterology, which structurally comprises a pressurizing device, a wiring port, a controller, a pressure gauge, a connecting pipe, an external liquid placing bottle, a machine body and moving wheels, wherein the pressurizing device is arranged in the machine body, the moving wheels are sequentially connected into a rectangular structure and are arranged at the bottom of the machine body, the wiring port is arranged at the right side of the upper half end of the machine body, the back of the controller is fixedly connected with the front side of the top end of the machine body, the side surface of the pressure gauge is embedded in the left half end of the top of the machine body, the bottom of the external liquid placing bottle is vertically connected with the top of the lower half end of the machine body, one end of the connecting pipe is connected to the inside of the external liquid placing bottle, and the other end of the connecting pipe is connected to the inside of the machine body. The flexibility of the use of the device is increased.

Description

Bidirectional pressurizing gastric lavage device for digestive system department

Technical Field

The invention discloses a bidirectional pressurizing gastric lavage device for the department of gastroenterology, and belongs to the field of bidirectional pressurizing gastric lavage devices for the department of gastroenterology.

Background

Gastroenterology patient is treating when recovering, generally need carry out the gastrolavage to the patient and handle, increase self stomach metabolism function, and the gastric lavage device in the past adopts one-way gastrolavage method more, can not adjust the use according to patient self condition, influences treatment travelling comfort and recovery effect, influences the pressurization effect, and in the long run, greatly increased medical staff's the work degree of difficulty.

The existing bidirectional pressurizing gastric lavage device for the digestive system department cannot ensure the pace of bidirectional pressurization of the device to be consistent when in use, reduces the use quality and greatly increases the work difficulty of medical staff.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a bidirectional pressurizing gastric lavage device for the department of gastroenterology, which solves the problems that the prior art is imperfect, the pace of bidirectional pressurization of the device cannot be ensured to be consistent when the prior bidirectional pressurizing gastric lavage device for the department of gastroenterology is used, the use quality is reduced, and the work difficulty of medical staff is greatly increased.

In order to achieve the purpose, the invention is realized by the following technical scheme: a bidirectional pressurizing gastric lavage device for gastroenterology is structurally composed of a pressurizing device, a wiring port, a controller, a pressure gauge, a connecting pipe, an external liquid containing bottle, a machine body and moving wheels, wherein the pressurizing device is installed inside the machine body; the pressurizing device consists of an adjusting device, a driving device, a pressurizing device, a synchronous pressurizing device, a single-side stopping device and a control device; the bottom end of the pressure applying device is movably connected with the inside of the middle end of the adjusting device, the top end of the pressure applying device is in transmission connection with the right end of the top of the driving device, the top side of the driving device is meshed with the left end side face of the top of the synchronous pressure applying device, the bottom end of the synchronous pressure applying device is movably connected with the inside of the left end of the bottom of the control device, and the left end bottom of the single stopping device is fixedly connected with the top of the right end of the synchronous pressure applying device.

Furthermore, the adjusting device is composed of a rack, a connecting gear, a manual control frame, a tension rope, an adjusting rod, a translation rod and a bottom moving track, wherein the top side of the manual control frame is meshed with the bottom side of the connecting gear, the top side of the connecting gear is meshed with the bottom side of the rack, the top end of the manual control frame is in transmission connection with the lower half end of the translation rod through the tension rope, the top of the translation rod is vertically connected with the bottom of the left end of the adjusting rod, and the side face of the bottom end of the translation rod is movably connected with the inside of the bottom moving track.

Furthermore, the driving device consists of a positioning transmission rod, a buffering base, a driving motor, a first transmission rod, a second transmission belt, an intermediate connecting rod, a gear disc, a first gear, a transmission belt, a driving wheel and a second transmission rod.

Furthermore, the bottom of the driving motor is fixedly connected with the top of the buffering base, the bottom side of the right end of the driving motor is meshed with the left side of the top end of the positioning transmission rod, the right side of the top end of the positioning transmission rod is meshed with the bottom side of the left end of the first transmission rod, two ends of the second transmission belt are respectively connected to the side faces of the middle ends of the first transmission rod and the second transmission rod, the left end of the second transmission rod is in transmission connection with the bottom end of the middle connecting rod, the rear side face of the top end of the middle connecting rod is meshed with the front side face of the outer ring of the gear disc, and the gear.

Further, the pressing device is composed of a middle transmission block, an external thread connecting rod, an internal thread connecting cylinder, a bottom plate, a bottom connecting pipe and a first pressing chamber, the bottom end of the middle transmission block is in transmission connection with the front end of the top of the external thread connecting rod, the side face of the bottom end of the external thread connecting rod is connected with the inside of the internal thread connecting cylinder through threads, the bottom of the internal thread connecting cylinder is welded with the top of the bottom plate, the side faces of the two ends of the bottom plate are excessively matched with the inside of the first pressing chamber, the top of the bottom connecting pipe is perpendicularly connected with the bottom of the first pressing chamber, the right end of the adjusting rod, the left end of the rack and the upper half inner movable connection of the bottom connecting pipe are movably connected, and.

Furthermore, the synchronous pressing device consists of a guide gear, a second transmission belt, a tension wheel, a tension rod, a linkage wheel, a tension belt, an arc-shaped connecting block, a transmission frame, a pressing wheel, a transmission rack and a second pressing chamber.

Furthermore, the side face of the guide gear is meshed with the side face of the first gear, the guide gear is in transmission connection with the side face of the tension wheel through a second transmission belt, one end of the tension rod is connected to the front side of the outer ring of the tension wheel, the other end of the tension rod is connected to the front side of the outer ring of the linkage wheel, two ends of the tension belt are respectively connected to the side faces of the rear end of the linkage wheel and the rear end of the force application wheel, the inside of the transmission frame is movably connected with the front end of the outer ring of the force application wheel, the right end of the transmission frame is welded with the left end of the arc-shaped connecting block, the side face of the right end of the arc-shaped connecting.

Further, the folk prescription stop device comprises fixed pulley, location directive wheel, wire rope, second fixed pulley, bottom control frame, handspike, rod cover, locating lever, the fixed pulley bottom is connected with the transmission rack top is perpendicular, inside wire rope one end was connected to the fixed pulley, inside the other end was walked around the location directive wheel and was connected to the second fixed pulley, second fixed pulley bottom was connected with bottom control frame top is perpendicular, the inside clearance fit that adopts with the locating lever side in bottom control frame bottom, the inside swing joint of handspike left end and bottom control frame second end, the inside sliding connection in handspike middle-end side and rod cover top.

Furthermore, the control device comprises a manual frame, a gear rod, a linkage gear, a linkage belt, a middle linkage gear and a translation control frame, wherein the bottom side of the left end of the manual frame is meshed with the right side of the top end of the gear rod, the bottom side of the gear rod is meshed with the top side of the linkage gear, two ends of the linkage belt are respectively connected to the front end side of the linkage gear and the front end side of the middle linkage gear, the side of the middle linkage gear is movably connected with the inside of the right half end of the translation control frame, and the left end of the translation control frame is vertically connected with the inside of the lower half end of the second pressure application chamber.

Further, the drive motor is capable of generating a drive torque as a power source.

Advantageous effects

The invention relates to a bidirectional pressurizing gastric lavage device for digestive system department, which needs to generate driving torque as a power source through a driving motor, the driving motor drives a first transmission rod to rotate through a positioning transmission rod, a second transmission rod is pulled to rotate through a second transmission belt, the second transmission rod drives a first gear and a driving wheel to rotate through an intermediate connecting rod, a gear disc and the transmission belt, the driving wheel drives an external thread connecting rod to rotate through an intermediate transmission block, the internal thread connecting cylinder and a bottom plate are pressed downwards through the force of interaction between threads by the external thread connecting rod and the internal thread connecting cylinder, pressure is generated in a first pressure application chamber, the first gear can drive a guide gear to rotate, the guide gear drives a force application wheel to rotate through the transmission belt among the second transmission belt, a tension wheel, a tension rod, a linkage wheel and a tension belt, and the force application wheel drives the force application wheel, The transmission rack is controlled by the transmission frame to lift, pressure can be generated in the second pressure application chamber, so that under the condition of no other external force, the pressure applied by the second pressure application chamber and the pressure applied by the first pressure application chamber can be kept consistent, the quality of the device is improved, if bidirectional pressurization is not needed, the bottom control frame can be clamped by a hand push rod, the transmission rack is pulled by the bottom control frame through a steel wire rope to prevent the transmission rack from lifting, meanwhile, the manual control frame can be rotated, the rack is pushed leftwards through a connecting gear, the manual control frame pulls an adjusting rod and a translation rod rightwards through a pull rope, the circulation of a bottom connecting pipe can be changed, when the manual control frame is rotated by hands, the left and right movement of the translation control frame is controlled through transmission among a gear rod, a linkage gear, a linkage belt and a middle linkage gear, so that the circulation of the second pressure application chamber is changed, the flexibility of the use of the device is increased.

The bidirectional pressurizing gastric lavage device for the digestive system department can ensure the bidirectional pressurizing pace of the device to be consistent when bidirectional pressurizing is carried out, so that the using quality of the device can be improved, and meanwhile, the device can stop pressurizing according to the requirements of actual conditions, so that the using flexibility of equipment is improved.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural view of a bidirectional pressure gastric lavage device for digestive system department of the invention.

Fig. 2 is a schematic structural diagram of the pressurizing device of the present invention.

Fig. 3 is a detailed structural diagram of the pressurizing device of the present invention.

Fig. 4 is a schematic structural view of the pressurizing device in the working state.

In the figure: a pressurizing device-1, a wiring port-2, a controller-3, a pressure gauge-4, a connecting pipe-5, an external liquid placing bottle-6, a machine body-7, a moving wheel-8, an adjusting device-11, a driving device-12, a pressurizing device-13, a synchronous pressurizing device-14, a single-direction stopping device-15, a control device-16, a rack-111, a connecting gear-112, a manual control frame-113, a tension rope-114, an adjusting rod-115, a translation rod-116, a bottom moving track-117, a positioning transmission rod-121, a buffer base-122, a driving motor-123, a first transmission rod-124, a second transmission belt-125, a middle connecting rod-126, a gear disc-127, a first gear-128, a pressure gauge-128, a connecting pipe-5, a rack-111, a connecting, A transmission belt-129, a driving wheel-1210, a second transmission rod-1211, an intermediate transmission block-131, an external thread connecting rod-132, an internal thread connecting cylinder-133, a bottom plate-134, a bottom connecting pipe-135, a first pressure applying chamber-136, a guide gear-141, a second transmission belt-142, a tension wheel-143, a tension rod-144, a linkage wheel-145, a tension belt-146, an arc connecting block-147, a transmission frame-148, a force applying wheel-149, a transmission rack-1410, a second pressure applying chamber-1411, a fixed pulley-151, a positioning steering wheel-152, a steel wire rope-153, a second fixed pulley-154, a bottom control frame-155, a hand push rod-156, a rod sleeve-157, a positioning rod-158, a hand drive frame-161, Gear rod-162, linkage gear-163, linkage belt-164, intermediate linkage gear-165 and translation control frame-166.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1-4, the present invention provides a technical solution of a bidirectional pressure gastric lavage device for digestive system department: the structure of the device comprises a pressurizing device 1, a wiring port 2, a controller 3, a pressure gauge 4, a connecting pipe 5, an external liquid containing bottle 6, a machine body 7 and a moving wheel 8, wherein the pressurizing device 1 is installed inside the machine body 7, the moving wheel 8 is sequentially connected into a rectangular structure and is arranged at the bottom of the machine body 7, the wiring port 2 is arranged on the right side of the upper half end of the machine body 7, the back of the controller 3 is fixedly connected with the front side of the top end of the machine body 7, the side surface of the pressure gauge 4 is embedded inside the left half end of the top of the machine body 7, the bottom of the external liquid containing bottle 6 is vertically connected with the top of the lower half end of the machine body 7, one end of the connecting pipe 5 is connected into the; the pressurizing device 1 consists of an adjusting device 11, a driving device 12, a pressurizing device 13, a synchronous pressurizing device 14, a single-side stopping device 15 and a control device 16; the bottom end of the pressure applying device 13 is movably connected with the inside of the middle end of the adjusting device 11, the top end of the pressure applying device 13 is in transmission connection with the right end of the top of the driving device 12, the top side of the driving device 12 is engaged with the left end side surface of the top of the synchronous pressure applying device 14, the bottom end of the synchronous pressure applying device 14 is movably connected with the inside of the left end of the bottom of the control device 16, the bottom of the left end of the single-side stopping device 15 is fixedly connected with the top of the right end of the synchronous pressure applying device 14, the adjusting device 11 is composed of a rack 111, a connecting gear 112, a manual control frame 113, a tension rope 114, an adjusting rod 115, a translation rod 116 and a bottom moving track 117, the top side of the manual control frame 113 is engaged with the bottom side of the connecting gear 112, the top side of the connecting gear 112 is engaged with the bottom side, the top of the translation rod 116 is vertically connected with the bottom of the left end of the adjusting rod 115, the side surface of the bottom end of the translation rod 116 is movably connected with the inside of the bottom moving track 117, the driving device 12 is composed of a positioning transmission rod 121, a buffer base 122, a driving motor 123, a first transmission rod 124, a second transmission belt 125, a middle connecting rod 126, a gear disc 127, a first gear 128, a transmission belt 129, a driving wheel 1210 and a second transmission rod 1211, the bottom of the driving motor 123 is fixedly connected with the top of the buffer base 122, the bottom side of the right end of the driving motor 123 is engaged with the left side of the top end of the positioning transmission rod 121, the right side of the top end of the positioning transmission rod 121 is engaged with the bottom side of the left end of the first transmission rod 124, two ends of the second transmission belt 125 are respectively connected to the side surfaces of the middle ends of the first transmission rod, the rear side surface of the top end of the middle connecting rod 126 is engaged with the front side surface of the outer ring of the gear disc 127, the gear disc 127 is in transmission connection with the first gear 128 and the driving wheel 1210 through a transmission belt 129, the pressing device 13 is composed of a middle transmission block 131, an external thread connecting rod 132, an internal thread connecting cylinder 133, a bottom plate 134, a bottom connecting pipe 135 and a first pressing chamber 136, the bottom end of the middle transmission block 131 is in transmission connection with the front end of the top of the external thread connecting rod 132, the side surface of the bottom end of the external thread connecting rod 132 is in threaded connection with the inside of the internal thread connecting cylinder 133, the bottom of the internal thread connecting cylinder 133 is welded with the top of the bottom plate 134, the side surfaces of both ends of the bottom plate 134 are in over-fit with the inside of the first pressing chamber 136, the top of the bottom connecting pipe 135 is vertically connected with the, the left end of the middle transmission block 131 is in transmission connection with the front end of the bottom of the driving wheel 1210, the synchronous pressing device 14 is composed of a guide gear 141, a second transmission belt 142, a tension wheel 143, a tension rod 144, a linkage wheel 145, a tension belt 146, an arc-shaped connection block 147, a transmission frame 148, a force application wheel 149, a transmission rack 1410 and a second pressing chamber 1411, the side surface of the guide gear 141 is meshed with the side surface of the first gear 128, the guide gear 141 is in transmission connection with the side surface of the tension wheel 143 through the second transmission belt 142, one end of the tension rod 144 is connected to the front side of the outer ring of the tension wheel 143, the other end is connected to the front side of the outer ring of the linkage wheel 145, the two ends of the tension belt 146 are respectively connected to the rear end side surfaces of the linkage wheel 145 and the force application wheel 149, the inside of the transmission frame 148 is movably connected with the front end of the outer ring of the force application wheel 149, the right end of the, the inside swing joint in transmission rack 1410 bottom and the first half of pressure chamber 1411, unilateral stop device 15 comprises fixed pulley 151, location directive wheel 152, wire rope 153, second fixed pulley 154, bottom control frame 155, handspike 156, rod cover 157, locating lever 158, fixed pulley 151 bottom is connected with transmission rack 1410 top is perpendicular, wire rope 153 one end is connected to inside the fixed pulley 151, and the other end is walked around location directive wheel 152 and is connected to inside the second fixed pulley 154, second fixed pulley 154 bottom is connected with bottom control frame 155 top is perpendicular, bottom control frame 155 bottom inside adopts clearance fit with locating lever 158 side, handspike 156 left end and bottom control frame 155 second half of end inside swing joint, handspike 156 middle end side and the inside sliding connection in rod cover 157 top, controlling means 16 is by manual frame 161, gear bar 162, The left end of the manual frame 161 is meshed with the right side of the top end of the gear rod 162, the bottom side of the gear rod 162 is meshed with the top side of the linkage gear 163, two ends of the linkage belt 164 are respectively connected to the side faces of the front ends of the linkage gear 163 and the middle linkage gear 165, the side face of the middle linkage gear 165 is movably connected with the inside of the right half end of the translation control frame 166, the left end of the translation control frame 166 is vertically connected with the inside of the lower half end of the second pressure application chamber 1411, and the driving motor 123 can generate driving torque as a power source.

When the device is used, a driving motor 123 is required to be capable of generating driving torque as a power source, the driving motor 123 drives the first transmission rod 124 to rotate through the positioning transmission rod 121, the second transmission rod 1211 is pulled to rotate through the second transmission belt 125, the second transmission rod 1211 drives the first gear 128 and the driving wheel 1210 to rotate through the intermediate connecting rod 126, the gear disc 127 and the transmission belt 129, the driving wheel 1210 drives the external threaded connecting rod 132 to rotate through the intermediate transmission block 131, the internal threaded connecting cylinder 133 and the bottom plate 134 are pressed downwards through the interaction force between the threads by the external threaded connecting rod 132 and the internal threaded connecting cylinder 133, pressure is generated inside the first pressure application chamber 136, the first gear 128 can drive the guide gear 141 to rotate, the guide gear 141 is driven to rotate through the transmission belt power application wheel 149 between the second transmission belt 142, the tension wheel 143, the tension rod 144, the linkage wheel 145 and the tension belt 146, the force application wheel 149 controls the lifting of the transmission rack 1410 through the arc-shaped connecting block 147 and the transmission frame 148, the inside of the second pressure application chamber 1411 can generate pressure, so that under the condition of no other external force, the pressure applied by the second pressure application chamber 1411 and the first pressure application chamber 136 can be ensured to be in step, the quality of the use of the device is improved, if the bidirectional pressurization is not needed, only the bottom control frame 155 is clamped by the hand push rod 156, the bottom control frame 155 can pull the transmission rack 1410 through the steel wire rope 153 to prevent the transmission rack from lifting, meanwhile, the manual control frame 113 can be rotated, the rack 111 is pushed leftwards through the connecting gear 112, the manual control frame 113 pulls the adjusting rod 115 and the translation rod 116 rightwards through the tension rope 114, the flow rate of the bottom connecting pipe 135 can be changed, the manual frame 161 is rotated by hand, the gear rod 162, the linkage gear 163 and the linkage belt 164 are rotated through the gear rod 162, The transmission between the intermediate linkage gears 165 controls the translation control frame 166 to move left and right to change the flow rate of the second pressure application chamber 1411, increasing the flexibility of the device.

The invention solves the problems that the prior art is imperfect, the existing bidirectional pressurizing gastric lavage device for the gastroenterology cannot ensure the pace of bidirectional pressurization of the device to be consistent when in use, the use quality is reduced, and the working difficulty of medical personnel is greatly increased.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (1)

1. The utility model provides a two-way pressurization gastric lavage device of gastroenterology, its structure includes pressure device (1), wiring mouth (2), controller (3), manometer (4), connecting pipe (5), outside liquid placement bottle (6), organism (7), removal wheel (8), its characterized in that:

the pressurization device (1) is installed inside the machine body (7), the moving wheels (8) are sequentially connected into a rectangular structure and are arranged at the bottom of the machine body (7), the wiring port (2) is formed in the right side of the upper half end of the machine body (7), the back of the controller (3) is fixedly connected with the front side of the top end of the machine body (7), the side face of the pressure gauge (4) is embedded inside the left half end of the top of the machine body (7), the bottom of the external liquid containing bottle (6) is vertically connected with the top of the lower half end of the machine body (7), one end of the connecting pipe (5) is connected into the external liquid containing bottle (6), and the other end of the connecting pipe is connected into the machine body;

the pressurizing device (1) consists of an adjusting device (11), a driving device (12), a pressurizing device (13), a synchronous pressurizing device (14), a single-side stopping device (15) and a control device (16);

the bottom end of the pressure applying device (13) is movably connected with the inside of the middle end of the adjusting device (11), the top end of the pressure applying device (13) is in transmission connection with the right end of the top of the driving device (12), the top side of the driving device (12) is meshed with the side surface of the left end of the top of the synchronous pressure applying device (14), the bottom end of the synchronous pressure applying device (14) is movably connected with the inside of the left end of the bottom of the control device (16), and the bottom of the left end of the single-side stopping device (15) is fixedly connected with the top of the right end of the synchronous pressure applying device (; the adjusting device (11) is composed of a rack (111), a connecting gear (112), a manual control frame (113), a tension rope (114), an adjusting rod (115), a translation rod (116) and a bottom moving track (117), wherein the top side of the manual control frame (113) is meshed with the bottom side of the connecting gear (112), the top side of the connecting gear (112) is meshed with the bottom side of the rack (111), the top end of the manual control frame (113) is in transmission connection with the lower half end of the translation rod (116) through the tension rope (114), the top of the translation rod (116) is vertically connected with the bottom of the left end of the adjusting rod (115), and the side surface of the bottom end of the translation rod (116) is movably connected with the inside of the bottom moving track (117);

the driving device (12) consists of a positioning transmission rod (121), a buffering base (122), a driving motor (123), a first transmission rod (124), a second transmission belt (125), an intermediate connecting rod (126), a gear disc (127), a first gear (128), a transmission belt (129), a driving wheel (1210) and a second transmission rod (1211);

the bottom of the driving motor (123) is fixedly connected with the top of the buffering base (122), the bottom side of the right end of the driving motor (123) is meshed with the left side of the top end of the positioning transmission rod (121), the right side of the top end of the positioning transmission rod (121) is meshed with the bottom side of the left end of the first transmission rod (124), two ends of the second transmission belt (125) are respectively connected to the side surfaces of the middle ends of the first transmission rod (124) and the second transmission rod (1211), the left end of the second transmission rod (1211) is in transmission connection with the bottom end of the middle connecting rod (126), the rear side surface of the top end of the middle connecting rod (126) is meshed with the front side surface of the outer ring of the gear disc (127), and the gear disc (127) is in transmission connection with the first gear (128);

the pressure device (13) consists of a middle transmission block (131), an external thread connecting rod (132), an internal thread connecting cylinder (133), a bottom plate (134), a bottom connecting pipe (135) and a first pressure chamber (136), the bottom end of the middle transmission block (131) is in transmission connection with the front end of the top part of the external thread connecting rod (132), the side surface of the bottom end of the external thread connecting rod (132) is connected with the inside of the internal thread connecting cylinder (133) through threads, the bottom of the internal thread connecting cylinder (133) is welded with the top of the bottom plate (134), the side surfaces of the two ends of the bottom plate (134) are in over fit with the inside of the first pressure chamber (136), the top of the bottom connecting pipe (135) is vertically connected with the bottom of the first pressure applying chamber (136), the right end of the adjusting rod (115) and the left end of the rack (111) are movably connected with the inside of the upper half end of the bottom connecting pipe (135), the left end of the middle transmission block (131) is in transmission connection with the front end of the bottom of the driving wheel (1210);

the synchronous pressing device (14) consists of a guide gear (141), a second transmission belt (142), a tension wheel (143), a tension rod (144), a linkage wheel (145), a tension belt (146), an arc-shaped connecting block (147), a transmission frame (148), a force application wheel (149), a transmission rack (1410) and a second pressing chamber (1411);

the side surface of the guide gear (141) is meshed with the side surface of the first gear (128), the guide gear (141) is in transmission connection with the side surface of the tension wheel (143) through a second transmission belt (142), one end of the tension rod (144) is connected to the front side of the outer ring of the tension wheel (143), the other end of the tension rod is connected to the front side of the outer ring of the linkage wheel (145), two ends of the tension belt (146) are respectively connected to the rear end side surfaces of the linkage wheel (145) and the force application wheel (149), the interior of the transmission frame (148) is movably connected with the front end of the outer ring of the force application wheel (149), the right end of the transmission frame (148) is welded with the left end of the arc-shaped connecting block (147), the side surface of the right end of the arc-shaped connecting block (147) is meshed with the left side of the transmission rack (1410), and the bottom end of the;

the unilateral stopping device (15) consists of a fixed pulley (151), a positioning steering wheel (152), a steel wire rope (153), a second fixed pulley (154), a bottom control frame (155), a hand push rod (156), a rod sleeve (157) and a positioning rod (158), the bottom of the fixed pulley (151) is vertically connected with the top of the transmission rack (1410), one end of the steel wire rope (153) is connected to the inside of the fixed pulley (151), the other end of the steel wire rope is connected to the inside of the second fixed pulley (154) by passing through the positioning steering wheel (152), the bottom of the second fixed pulley (154) is vertically connected with the top of the bottom control frame (155), the inner part of the bottom end of the bottom control frame (155) is in clearance fit with the side surface of the positioning rod (158), the left end of the hand push rod (156) is movably connected with the inner part of the lower half end of the bottom control frame (155), the side surface of the middle end of the hand push rod (156) is connected with the inside of the top end of the rod sleeve (157) in a sliding manner;

the control device (16) comprises a manual frame (161), a gear rod (162), a linkage gear (163), a linkage belt (164), a middle linkage gear (165) and a translation control frame (166), wherein the bottom side of the left end of the manual frame (161) is meshed with the right side of the top end of the gear rod (162), the bottom side of the gear rod (162) is meshed with the top side of the linkage gear (163), two ends of the linkage belt (164) are respectively connected to the front end side surfaces of the linkage gear (163) and the middle linkage gear (165), the side surface of the middle linkage gear (165) is movably connected with the inside of the right half end of the translation control frame (166), and the left end of the translation control frame (166) is vertically connected with the inside of the lower half end of a second pressurizing chamber (1411).

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