阅读说明：本技术 一种呼吸内科用可调节阻力的肺功能康复设备 (Breathe internal medicine with adjustable resistance's recovered equipment of pulmonary function ) 是由 郭林娣 于 2021-08-12 设计创作，主要内容包括：本发明涉及一种肺功能康复设备,尤其涉及一种呼吸内科用可调节阻力的肺功能康复设备。提供一种能够调节通气孔大小,同时,能够训练吸气的呼吸内科用可调节阻力的肺功能康复设备。一种呼吸内科用可调节阻力的肺功能康复设备,包括有：机架；方形块,安装在机架上；圆柱体,安装在机架内,圆柱体与方形块连通；软管,安装在方形块上；呼吸罩,安装在软管上。本发明通过吸气组件能够检测使用者的肺功能,通过遮挡组件能够在使用者吸气时将外部的空气吸入,确保空气流通进行检测,通过定位组件能够在检测吸气时固定第一挡板的位置,同时,能够自动打开进气口,通过呈现组件能够将检测结果更直观的呈现出来,更方便工作人员观察。(The invention relates to a lung function rehabilitation device, in particular to a resistance-adjustable lung function rehabilitation device for respiratory medicine. The lung function rehabilitation equipment capable of adjusting the size of the air vent and training inspiration and adjusting resistance for the respiratory medicine is provided. A lung function rehabilitation device with adjustable resistance for respiratory medicine comprises: a frame; the square block is arranged on the rack; the cylinder is arranged in the rack and is communicated with the square block; the hose is arranged on the square block; the respiratory mask is installed on the hose. According to the invention, the lung function of a user can be detected through the air suction assembly, external air can be sucked in through the shielding assembly when the user inhales air, so that the air circulation is ensured to be detected, the position of the first baffle plate can be fixed through the positioning assembly when the user inhales air, meanwhile, the air inlet can be automatically opened, the detection result can be more visually presented through the presentation assembly, and the observation of a worker is more convenient.)

1. The utility model provides a breathe internal medicine with adjustable resistance's recovered equipment of pulmonary function, characterized by, including: a frame (1); the square block (2) is arranged on the rack (1); the cylinder (3) is arranged in the rack (1), and the cylinder (3) is communicated with the square block (2); the hose (4) is arranged on the square block (2); a breathing mask (5) mounted on the hose (4); at least two hollow pipes (6) are arranged on the cylinder (3); at least two spheres (7) are arranged in the hollow pipe (6); at least two air outlet pipes (8) are arranged on the hollow pipe (6); two connecting pipes (9) are arranged between the two hollow pipes (6); the air suction assembly (10) is arranged on the rack (1); the shielding component (11) is arranged on the cylinder (3).

2. A resistance-adjustable lung function rehabilitation apparatus for department of respiratory medicine according to claim 1, wherein the inhalation module (10) comprises: the first baffle (101) is slidably arranged on the square block (2); the second baffle (102) is slidably arranged on the square block (2); the connecting rod (103) is rotatably arranged between the second baffle (102) and the first baffle (101); the gas collection box (104) is arranged on the square block (2); at least two air suction pipes (105) are arranged on the air collection box (104), and the air suction pipes (105) are connected with the hollow pipe (6); the number of the covering cylinders (106) is at least two, and the covering cylinders (106) are all installed on the air outlet pipe (8) in a sliding mode.

3. A resistance-adjustable lung function rehabilitation apparatus for department of respiratory medicine according to claim 2, wherein the shielding member (11) comprises: a guide rod (111) mounted on the cylinder (3); at least two arc plates (112) are arranged, and are respectively arranged on the guide rod (111) and the connecting pipe (9) in a sliding manner, and the arc plates (112) are matched with the hollow pipe (6); and the connecting plates (113) are arranged between the arc plates (112).

4. A resistance-adjustable lung function rehabilitation apparatus for department of respiratory medicine according to claim 3, further comprising a positioning member (12), the positioning member (12) comprising: a fixing plate (121) mounted on the first baffle plate (101); the sliding rod (122) is arranged on the fixing plate (121) in a sliding manner, and the sliding rod (122) is connected with the connecting plate (113); a first spring (123) installed between the sliding rod (122) and the fixing plate (121); a right-angle block (124) mounted on the slide bar (122); the two clamping blocks (125) are respectively arranged on the rack (1) and the sliding rod (122), and the two clamping blocks (125) are mutually matched.

5. A resistance-adjustable lung function rehabilitation apparatus for department of respiratory medicine according to claim 4, further comprising a presenting member (13), the presenting member (13) comprising: the number of the support plates (131) is at least two, and the support plates (131) are all arranged on the cylinder (3); at least two shielding frames (132), wherein the at least two shielding frames (132) are arranged on the support plate (131); at least two presentation blocks (133), wherein the two presentation blocks (133) are arranged in the shielding frame (132); the number of the special-shaped rods (134) is at least two, the special-shaped rods (134) are all slidably mounted on the shielding frame (132), the special-shaped rods (134) are all matched with the ball body (7), and the special-shaped rods (134) are all connected with the presenting block (133); the number of the blocking plates (135) is at least two, the blocking plates (135) are arranged on the special-shaped rod (134), and the blocking plates (135) are matched with the hollow pipe (6).

6. A resistance-adjustable lung function rehabilitation apparatus for respiratory medicine according to claim 5, further comprising a closure member (14), the closure member (14) comprising: the cross rod (141) is slidably mounted on the support plate (131); the second spring (142) is arranged between the cross rod (141) and the support plate (131); at least two connecting plates (143), wherein the connecting plates (143) are arranged on the cross rod (141), and the connecting plates (143) are connected with the covering cylinder (106); the contact rod (144) is slidably mounted on the rack (1), the contact rod (144) is connected with one connecting plate (143), and the contact rod (144) is matched with the sliding rod (122).

7. A resistance-adjustable lung function rehabilitation apparatus for department of respiratory medicine according to claim 6, further comprising an adjustment assembly (15), the adjustment assembly (15) comprising: the fixed block (151) is arranged on the breathing mask (5); the pull rod (152) is slidably mounted on the fixed block (151); and the resistance ball (153) is arranged on the pull rod (152), and the resistance ball (153) is matched with the breathing mask (5).

8. The resistance-adjustable lung function rehabilitation device for the respiratory medicine as claimed in claim 7, wherein the respiratory mask (5) is made of silica gel.

Technical Field

The invention relates to a lung function rehabilitation device, in particular to a resistance-adjustable lung function rehabilitation device for respiratory medicine.

Background

The lung function rehabilitation device is generally referred to as a breathing trainer, and the breathing trainer utilizes air blowing to float the trainer in the trainer so as to achieve the training effect.

Traditional breathing training ware can only blow, can not train and breathe in, because the inside cavity of training ware makes fixed size unchangeable, leads to the patient to blow at every turn and can only blow with the maximum strength, can not adjust the dynamics of blowing size step by step and adjust training intensity, makes training effect can not reach better effect.

Therefore, it is necessary to provide a lung function rehabilitation device for respiratory medicine capable of adjusting the size of the ventilation hole and training inspiration to solve the above problems.

Disclosure of Invention

In order to overcome the defects that the existing breathing training equipment can only blow air and can not adjust the resistance of the air blowing, the invention has the technical problems that: the lung function rehabilitation equipment capable of adjusting the size of the air vent and training inspiration and adjusting resistance for the respiratory medicine is provided.

The technical implementation scheme of the invention is as follows: a lung function rehabilitation device with adjustable resistance for respiratory medicine comprises: a frame; the square block is arranged on the rack; the cylinder is arranged in the rack and is communicated with the square block; the hose is arranged on the square block; a respiratory mask mounted on the hose; at least two hollow pipes are arranged on the cylinder; at least two spheres are arranged in the hollow pipe; at least two air outlet pipes are arranged on the hollow pipe; two connecting pipes are arranged and are respectively arranged between the two hollow pipes; the air suction assembly is arranged on the rack; and the shielding assembly is arranged on the cylinder.

More preferably, the suction module includes: the first baffle is slidably mounted on the square block; the second baffle is slidably mounted on the square block; the connecting rod is rotatably arranged between the second baffle and the first baffle; the gas collection box is arranged on the square block; at least two air suction pipes are arranged on the air collection box and are connected with the hollow pipe; the cover section of thick bamboo covers a section of thick bamboo and is two at least, and all slidingtype install on the outlet duct.

More preferably, the shielding assembly comprises: the guide rod is arranged on the cylinder; at least two arc plates are arranged on the guide rod and the connecting pipe in a sliding manner respectively, and the arc plates are matched with the hollow pipe; and the connecting plates are arranged between the arc plates.

More preferably, the positioning device further comprises a positioning component, wherein the positioning component comprises: the fixing plate is arranged on the first baffle plate; the sliding rod is arranged on the fixed plate in a sliding manner and is connected with the connecting plate; the first spring is arranged between the sliding rod and the fixed plate; the right-angle block is arranged on the sliding rod; the two clamping blocks are respectively arranged on the rack and the sliding rod and are mutually matched.

More preferably, the system further comprises a presentation component, and the presentation component comprises: the number of the support plates is at least two, and the support plates are arranged on the cylinder; at least two shielding frames are arranged on the support plate; at least two presentation blocks are arranged in the shielding frame; the special-shaped rods are arranged on the shielding frame in a sliding mode, matched with the ball body and connected with the presenting block; the baffle, the baffle is two at least, all installs on the special-shaped pole, and the baffle all cooperates with the hollow tube.

More preferably, the device further comprises a closing component, wherein the closing component comprises: the cross rod is slidably arranged on the support plate; the second spring is arranged between the cross rod and the support plate; at least two connecting plates are arranged on the cross rod and are connected with the covering cylinder; and the contact rod is arranged on the rack in a sliding manner, is connected with one of the connecting plates and is matched with the sliding rod.

More preferably, the device further comprises an adjusting component, wherein the adjusting component comprises: the fixed block is arranged on the breathing mask; the pull rod is slidably mounted on the fixed block; and the resistance ball is arranged on the pull rod and is matched with the breathing mask.

More preferably, the method further comprises the following steps: the respiratory mask is made of silica gel.

The invention has the beneficial effects that: according to the invention, the lung function of a user can be detected through the air suction assembly, external air can be sucked in through the shielding assembly when the user inhales air, so that the air circulation is ensured to be detected, the position of the first baffle plate can be fixed through the positioning assembly when the user inhales air, meanwhile, the air inlet can be automatically opened, the detection result can be more visually presented through the presentation assembly, the observation of a worker is more convenient, the air outlet pipe and the cylinder can be simultaneously blocked through the closing assembly when the user inhales air, and the size of the air hole of the breathing mask can be adjusted through the adjusting assembly.

Drawings

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

Fig. 2 is a schematic perspective view of the present invention.

Fig. 3 is a schematic perspective view of the getter module of the present invention.

FIG. 4 is a schematic perspective view of the shielding assembly of the present invention.

Fig. 5 is a schematic perspective view of the positioning assembly of the present invention.

FIG. 6 is a schematic perspective view of a display module according to the present invention.

Fig. 7 is a perspective view of a closure assembly of the present invention.

Fig. 8 is a perspective view of the adjustment assembly of the present invention.

Fig. 9 is a perspective view of the adjustment assembly of the present invention.

Wherein the figures include the following reference numerals: 1: a frame, 2: square block, 3: cylinder, 4: hose, 5: respiratory mask, 6: hollow tube, 7: sphere, 8: outlet duct, 9: connecting pipe, 10: getter assembly, 101: first baffle, 102: second baffle, 103: a connecting rod, 104: gas collection box, 105: an air intake duct, 106: covering cylinder, 11: shading component, 111: guide bar, 112: arc plate, 113: connecting plate, 12: positioning assembly, 121: fixing plate, 122: slide bar, 123: first spring, 124: right-angle block, 125: a latch, 13: presentation component, 131: a support plate, 132: shielding frame, 133: presentation Block, 134: profile bar, 135: barrier plate, 14: closing component, 141: cross bar, 142: second spring, 143: link plate, 144: contact stem, 15: adjustment assembly, 151: fixed block, 152: pull rod, 153: a resistance ball.

Detailed Description

Embodiments of the present invention will be described below with reference to the drawings.

Example 1

The utility model provides a breathe internal medicine with adjustable resistance's pulmonary function rehabilitation equipment, as shown in fig. 1-9, including frame 1, square piece 2, cylinder 3, hose 4, respiratory mask 5, hollow tube 6, spheroid 7, outlet duct 8, connecting pipe 9, breathe in subassembly 10 and shelter from subassembly 11, 1 left part in frame is equipped with square piece 2, be equipped with cylinder 3 in the frame 1, cylinder 3 and 2 intercommunications of square piece, 2 left sides in square piece are equipped with hose 4, 4 tail ends in the hose are equipped with respiratory mask 5, be equipped with one row of hollow tube 6 on the cylinder 3, spheroid 7 has all been placed in the hollow tube 6, 6 upper portions in hollow tube are equipped with outlet duct 8, all be connected with connecting pipe 9 between two adjacent hollow tube 6, be equipped with the subassembly 10 of breathing in the frame 1, be equipped with on the cylinder 3 and shelter from subassembly 11.

When using the device, the user overlaps respiratory mask 5 on the mouth, then blow, it is gaseous to get into in the hose 4 through respiratory mask 5, the gas in the hose 4 gets into cylinder 3 through square piece 2, gas in the cylinder 3 gets into in the hollow tube 6 on the leftmost, spheroid 7 in the hollow tube 6 upwards floats thereupon, the user continuously blows, gas in the hollow tube 6 gets into connecting pipe 9, and then get into next hollow tube 6, when blowing, outlet duct 8 can be with original air escape in the equipment, ensure that the air can circulate, when needs are breathed in, the staff opens and shelters from subassembly 11, then block up outlet duct 8 through subassembly 10 of breathing in, the user breathes in and comes with spheroid 7 in the hollow tube 6, the staff judges user's lung function through the spheroid 7 condition of floating in observing the hollow tube 6.

As shown in fig. 1, 2, 3, 5 and 7, the air suction assembly 10 includes a first baffle 101, a second baffle 102, a connecting rod 103, a gas collection box 104, an air suction pipe 105 and a covering cylinder 106, the first baffle 101 is slidably disposed at the lower part of the square block 2, the second baffle 102 is slidably disposed at the left part of the square block 2, the connecting rod 103 is rotatably disposed between the second baffle 102 and the first baffle 101, the gas collection box 104 is disposed at the top of the square block 2, a row of air suction pipes 105 are disposed on the gas collection box 104, the air suction pipes 105 are all connected with the hollow pipe 6, and the covering cylinder 106 is slidably disposed on the air outlet pipe 8.

When the device is used, a worker pushes the first baffle plate 101 to slide upwards to block the cylinder 3, the first baffle plate 101 slides upwards while sliding upwards to open the second baffle plate 102 through the connecting rod 103 and no longer blocks the gas collecting box 104, then the worker pushes the covering cylinder 106 to slide rightwards to block the gas outlet pipe 8, at the moment, the user inhales gas, the sphere 7 in the hollow pipe 6 is sucked up through the gas suction pipe 105, the worker judges the lung function of the user by observing the floating condition of the sphere 7 in the hollow pipe 6, after the use is completed, the worker loosens the first baffle plate 101, under the action of gravity, the first baffle plate 101 slides downwards to open, the first baffle plate 101 slides downwards to close through the connecting rod 103 to drive the second baffle plate 102 to slide rightwards, and therefore the lung function of the user can be detected.

As shown in fig. 2 and 4, the shielding assembly 11 includes a guide rod 111, an arc plate 112 and a connecting plate 113, the guide rod 111 is disposed at the right portion of the cylinder 3, the arc plate 112 is slidably disposed on the guide rod 111, the same arc plates 112 are slidably disposed on the connecting pipes 9, the arc plates 112 are all matched with the hollow pipe 6, and the connecting plate 113 is disposed between the arc plates 112.

When the device is used, when a test inhales, a worker pushes the connecting plate 113 to move upwards, the connecting plate 113 moves upwards to drive the arc-shaped plate 112 to slide upwards to stop the air inlet at the lower part of the hollow tube 6, when the test blows, the worker pulls the connecting plate 113 to move downwards to drive the arc-shaped plate 112 to slide downwards to stop the air inlet, and therefore, the external air can be inhaled when the user inhales, and the air circulation is ensured to be detected.

Example 2

On the basis of embodiment 1, as shown in fig. 2 and 5, the positioning device further includes a positioning assembly 12, the positioning assembly 12 includes a fixing plate 121, a sliding rod 122, a first spring 123, a right-angle block 124 and a clamping block 125, the fixing plate 121 is disposed on the right side of the first baffle 101, the sliding rod 122 is slidably disposed on the fixing plate 121, the sliding rod 122 is connected to the connecting plate 113, the first spring 123 is connected between the sliding rod 122 and the fixing plate 121 in a winding manner, the right-angle block 124 is disposed at the front end of the sliding rod 122, the clamping block 125 is disposed at the left portion of the rack 1, the same clamping block 125 is disposed on the sliding rod 122, and the two clamping blocks 125 are mutually matched.

When the air suction test is performed, the worker pushes the right-angle block 124 to move upwards, the right-angle block 124 moves upwards to drive the sliding rod 122 to move upwards, the sliding rod 122 moves upwards to drive the first baffle 101 to slide upwards through the fixing plate 121, while the sliding rod 122 moves upwards, the worker pushes the sliding rod 122 to slide backwards on the fixing plate 121, so that the two clamping blocks 125 are dislocated, the first spring 123 deforms, after the sliding rod 122 drives the clamping blocks 125 to move upwards to a proper position, the worker loosens the right-angle block 124, under the action of the reset of the first spring 123, the sliding rod 122 drives the clamping blocks 125 to move forwards along with the sliding rod 122, so as to clamp another clamping block 125, the sliding rod 122 drives the connecting plate 113 to move upwards while moving upwards, so as to drive the arc plate 112 to slide upwards without blocking the air inlet at the lower part of the hollow tube 6, after the detection is completed, the worker loosens the clamping blocks 125, then, under the action of gravity, the sliding rod 122 moves downwards along with the sliding rod to reset, the sliding rod 122 moves downwards to drive the arc-shaped plate 112 to slide downwards through the connecting plate 113 to block the air inlet, and the sliding rod 122 moves downwards to drive the first baffle 101 to slide downwards through the fixing plate 121 to open, so that the position of the first baffle 101 can be fixed during air suction detection, and meanwhile, the air inlet can be automatically opened.

On the basis of embodiment 1, as shown in fig. 1, 2, 6 and 7, the device further comprises a presenting assembly 13, the presenting assembly 13 includes a support plate 131, a shielding frame 132, a presenting block 133, a special-shaped rod 134 and a blocking plate 135, a row of support plates 131 is arranged at the rear side of the cylinder 3, two shielding frames 132 are arranged at the lower parts of the support plates 131, the presenting block 133 is placed in the shielding frames 132 at the lower parts, the special-shaped rods 134 are arranged on the shielding frames 132 at the lower parts in a sliding manner, the special-shaped rods 134 are matched with the sphere 7, the special-shaped rods 134 are connected with the presenting block 133, the blocking plate 135 is arranged at the upper parts of the special-shaped rods 134, and the blocking plate 135 is matched with the hollow tube 6.

When using the device, spheroid 7 in the hollow tube 6 upwards moves to when contacting with heterotypic pole 134, spheroid 7 promotes heterotypic pole 134 rebound, heterotypic pole 134 rebound drives baffler 135 rebound, avoid hollow tube 6 gas leakage, heterotypic pole 134 rebound drives and presents piece 133 rebound, at this moment, the staff presents the condition that piece 133 rises through the observation and judges user's lung function, so, can show the more audio-visual of testing result, more make things convenient for the staff to observe.

On the basis of embodiment 1, as shown in fig. 1, 2 and 7, the foldable electronic device further includes a closing assembly 14, the closing assembly 14 includes a cross bar 141, a second spring 142, connecting plates 143 and a contact rod 144, the left support plate 131 is slidably provided with the cross bar 141, the second spring 142 is wound between the cross bar 141 and the support plate 131, the cross bar 141 is provided with a row of connecting plates 143, the connecting plates 143 are all connected with the covering cylinder 106, the left portion of the rack 1 is slidably provided with the contact rod 144, the contact rod 144 is connected with one of the connecting plates 143, and the contact rod 144 is matched with the sliding rod 122.

When the device is used, when the sliding rod 122 moves upwards to be in contact with the contact rod 144, the sliding rod 122 pushes the contact rod 144 to slide rightwards, the contact rod 144 slides rightwards to drive the connecting plate 143 in the middle to move rightwards, the connecting plate 143 moves rightwards to drive the covering cylinder 106 to move rightwards to block the air outlet pipe 8, the connecting plate 143 in the middle moves rightwards to drive the cross rod 141 to slide rightwards, the second spring 142 deforms, the cross rod 141 slides rightwards to drive the connecting plates 143 on the two sides to move rightwards, and further drive the covering cylinder 106 to move rightwards to block the air outlet pipe 8, after the sliding rod 122 moves downwards to be separated from the contact rod 144, under the reset action of the second spring 142, the cross rod 141 slides leftwards to reset, the connecting plate 143 drives the covering cylinder 106 to slide leftwards to open, and therefore, the air outlet pipe 8 and the cylinder 3 can be blocked simultaneously when air suction is detected.

Based on the embodiment 1, as shown in fig. 1, fig. 2, fig. 8 and fig. 9, the breathing mask further comprises an adjusting assembly 15, the adjusting assembly 15 comprises a fixing block 151, a pull rod 152 and a resistance ball 153, the fixing block 151 is arranged at the right part of the breathing mask 5, the pull rod 152 is slidably arranged on the fixing block 151, the resistance ball 153 is arranged at the bottom end of the pull rod 152, and the resistance ball 153 is matched with the breathing mask 5.

When using the device, the staff pulls the pull rod 152 as required and slides from top to bottom in the fixed block 151, moves the pull rod 152 and slides from top to bottom to drive the resistance ball 153 to move up and down to a suitable position, so, can adjust the bleeder vent size of the respiratory mask 5.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.