CN112535462A - Outpatient department uses blood pressure check sleeve - Google Patents

Abstract

The invention provides a blood pressure detection sleeve for an outpatient department, and belongs to the technical field of medical appliances. The blood pressure monitoring system solves the problems that most of existing blood pressure detection is carried out when a doctor asks for a patient, because the outpatient department registers and lines up more patients, if the doctor carries out blood pressure measurement for each patient during the inquiry, a large amount of time can be wasted, and in the blood pressure measurement process, the blood pressure value measurement is unstable due to the tension of the patient, and the inquiry result of the doctor is influenced to a certain extent. This outpatient department uses blood pressure check sleeve, including opening U type sleeve down, the telescopic lower extreme opening part of U type rotates and is connected with two connecting rods, two the connecting rod is bilateral symmetry distribution, two about the telescopic central line of U type the rotation is connected with the display between the connecting rod. The blood pressure detection sleeve for the outpatient department is more convenient and time-saving to use, and the blood pressure value is more accurately measured.

Description

Outpatient department uses blood pressure check sleeve

Technical Field

The invention belongs to the technical field of medical appliances, and relates to a blood pressure detection sleeve for an outpatient department.

Background

The department of outpatient service is as the important functional department of hospital, can receive a large amount of patients every day and come to carry out medical treatment or consultation, the patient is when the department of outpatient service carries out medical treatment, the conventional medical detection like blood pressure detection class has also become wherein indispensable step, current blood pressure detection mostly can be gone on when the doctor is for patient's inquiry, because department of outpatient service register, it is more to queue up the patient, if the doctor carries out blood pressure measurement for every patient when the inquiry, can waste a large amount of time, and in the blood pressure measurement process, because patient's self tension, the phenomenon of arm buckling often takes place, lead to blood pressure value measuring unstability, cause certain influence to doctor's inquiry result.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a blood pressure detection sleeve for an outpatient department, which is more convenient and time-saving to use and more accurate in blood pressure value measurement.

The purpose of the invention can be realized by the following technical scheme: the utility model provides an outpatient department uses blood pressure check sleeve, includes opening U type sleeve down, the telescopic lower extreme opening part of U type rotates and is connected with two connecting rods, two the connecting rod is bilateral symmetry distribution, two about the telescopic central line of U type the rotation is connected with display, its characterized in that between the connecting rod: the multifunctional massage device is characterized in that a power mechanism is arranged in the U-shaped sleeve, a massage mechanism driven by the power mechanism is arranged above the power mechanism in the U-shaped sleeve, an air guide mechanism driven by the power mechanism is arranged above the massage mechanism in the U-shaped sleeve, two detection mechanisms driven by the air guide mechanism are arranged at an opening at the lower end of the U-shaped sleeve, and the two detection mechanisms are distributed in a bilateral symmetry mode about the center line of the U-shaped sleeve.

Before a patient enters a consulting room to line up, the blood pressure detection sleeve can be used for detecting blood pressure, the power mechanism is held by hands and pushed to the inside of the U-shaped sleeve, the massage mechanism is driven by the power mechanism to squeeze and massage the arm of the patient so as to relax the patient, the detection result of the blood pressure value is prevented from being influenced by the tension, after the massage is finished, the power mechanism is used for triggering the air guide mechanism again, the detection mechanism is controlled to operate by the air guide mechanism, the arm can be supported to keep the arm in a straight state while the detection mechanism is inflated and expanded, the condition that the arm of the patient is bent due to the tension in the heart is avoided, and the accuracy of the blood pressure detection is also improved by supporting the arm;

after the blood pressure detection is finished, the detection result can be checked on the display at the lower end, when the doctor enters the diagnosis, the doctor can be directly told of the blood pressure detection result, the inquiry time is saved, meanwhile, the tension of the patient is relieved through the supporting effect of the massage mechanism and the detection mechanism, and the accuracy of the blood pressure detection is improved.

Preferably, the power mechanism comprises slideways which are respectively arranged in the left and right side end walls of the U-shaped sleeve, the two slideways are bilaterally symmetrically distributed about the central line of the U-shaped sleeve, each slideway is internally and slidably connected with a sliding block, a first compression spring is fixedly connected between the upper end surface of each sliding block and the upper side inner wall of each slideway, a rotating shaft is rotatably connected between the two sliding blocks, two first gears are sleeved on the rotating shaft, racks which are meshed with the first gears are fixedly connected above the first gears respectively, two stirring assemblies are sleeved on the rotating shaft, the two stirring assemblies are bilaterally symmetrically distributed about the central line of the U-shaped sleeve, the stirring assemblies are located on one side of the central line of the rotating shaft, and two first sleeves are sleeved between the stirring assemblies in the rotating shaft, the lower end of each first shaft sleeve is fixedly connected with a handle rod, a handle is fixedly connected between the two handle rods, and the upper end of each first shaft sleeve is fixedly connected with a push rod.

When using this blood pressure test sleeve to carry out blood pressure test, handheld handle promotes the handle to the telescopic inside of U type, the handle drives the telescopic inside slip of commentaries on classics axle to U type through two handle poles and primary shaft cover, drive two sliders respectively and slide in two slides when the pivot slides on the one hand, when the slider slides, hold power with the first compression spring compression between slider and slide, on the other hand pivot drives two first gears and meshes with two racks respectively, make first gear rotate below the rack, drive the pivot and rotate between two sliders during first gear revolve, provide power for the operation of stirring the subassembly.

Preferably, the toggle assembly comprises a second shaft sleeve sleeved on the rotating shaft, at least two U-shaped grooves are fixedly connected to the second shaft sleeve, the U-shaped grooves are uniformly distributed on the outer peripheral side of the second shaft sleeve along the circumferential direction of the second shaft sleeve, each U-shaped groove is internally and slidably connected with a sliding rod, and each sliding rod is fixedly connected with a first extension spring between the bottom ends of the U-shaped grooves.

The rotating shaft drives the U-shaped groove to rotate through the second shaft sleeve in the rotating process, centrifugal force is generated in the rotating process of the U-shaped groove, the sliding rod slides towards the outside of the U-shaped groove under the action of the centrifugal force, the first stretching spring is stretched to store force, and power is provided for the operation of the massage mechanism through the sliding rod.

Preferably, the massage mechanism comprises four supporting rods and four massage components, the four supporting rods are fixedly arranged on the inner wall of the upper side of the U-shaped sleeve, the four massage components are arranged on the supporting rods from top to bottom in sequence, and the massage components are located below the power mechanism relative to the U-shaped sleeve.

Preferably, the massage assembly comprises a sliding groove fixedly arranged on each supporting rod, a convex block is connected to the sliding groove in the sliding groove, an arc groove is formed in the upper end of the convex block, a rolling ball is connected to the inner side of the arc groove in a rotating mode, a second compression spring is fixedly connected between the lower end face of the convex block and the bottom end of the sliding groove, an optical axis is rotatably connected to the inner walls of the left side and the right side of each U-shaped sleeve, the optical axis is located below the sliding groove relative to the U-shaped sleeves, two third shaft sleeves are sleeved on the optical axis, each first shifting rod is fixedly connected to the outer peripheral side of each third shaft sleeve, each first shifting rod is rotatably connected with a second shifting rod matched with a sliding rod of the shifting assembly, each winding wheel is arranged on the optical axis and corresponds to a rope is connected between the convex blocks in a transmission.

When the sliding rod of the toggle assembly rotates, the sliding rod is in contact with the second toggle rod, the second toggle rod drives the first toggle rod to toggle the optical axis through the third shaft sleeve to deflect at a certain angle between the inner walls of the left side and the right side of the U-shaped sleeve, the optical axis winds a thread rope through the winding wheel when rotating, a lug slides towards the inside of the chute under the pulling of the thread rope, and compresses a second compression spring to store force, because the second toggle rod is rotatably arranged on the first toggle rod, when the sliding rod is disconnected from the second toggle rod, downward external force borne by the lug disappears, at the moment, the compressed second compression spring resets to push the lug to slide towards the outside of the chute, the lug drives the rolling ball to impact the arm through the arc-shaped groove in the sliding process, the arm of a patient is loosened, the blood pressure detection result of the patient is prevented from being inaccurate due to the fact that the rolling ball is rotatably arranged in the arc-shaped groove, the rolling ball, so that the rolling ball can perform certain rolling massage on the arms while impacting the arms.

Preferably, the air guide mechanism comprises an air box arranged in the upper end wall of the U-shaped sleeve, a piston rod is connected in the air box in a sliding mode, a partition plate matched with a push rod of the power mechanism is fixedly connected to the lower end face of the piston rod, two third compression springs are fixedly connected between the upper end face of the partition plate and the upper inner wall of the U-shaped sleeve, a first vent valve communicated with the external space is arranged on the upper end wall of the air box, second vent valves are respectively arranged on the left end wall and the right end wall of the air box, and an air pipe extending in the U-shaped sleeve is communicated with each second vent valve.

When the massage mechanism is slipped by the power mechanism, a push rod of the power mechanism is in contact with the partition plate, the partition plate is pushed to slide towards the inside of the U-shaped sleeve, two third compression springs are compressed to store force in the sliding process of the partition plate, the partition plate pushes the piston rod to slide towards the inside of the air box, and when the piston rod slides, air in the air box is discharged into an air pipe through the two second vent valves to trigger the detection mechanism.

Preferably, the detection mechanism comprises a telescopic cylinder fixedly arranged on the inner wall of the side end of the U-shaped sleeve, the telescopic cylinder is communicated with an air pipe of the air guide mechanism, a telescopic rod is connected in the telescopic cylinder in a sliding manner, an air vent is formed in the telescopic rod in a communicating manner, one side, close to the central line of the U-shaped sleeve, of the telescopic rod is fixedly connected with a semicircular frame, an air storage cavity communicated with the air vent is formed in the semicircular frame, an elastic bag communicated with the air storage cavity is fixedly connected to the inner end face of the semicircular frame, a third air valve is arranged on the semicircular frame, a sliding rail communicated with the third air valve is fixedly connected to the inner end face of the semicircular frame, a trigger rod is connected in the sliding rail in a sliding manner, a second stretching spring is fixedly connected between the trigger rod and the bottom end of the sliding rail, and a.

The gas in the trachea enters the telescopic cylinder, on one hand, the telescopic rod is pushed to slide towards the outside of the telescopic cylinder, so that the two semicircular frames are close to the arms of a patient, on the other hand, the gas enters the gas storage cavity along the vent hole, part of the gas entering the gas storage cavity enters the elastic bag, the elastic bag is expanded in volume to clamp the arms of the patient, the other part of the gas enters the slide rail under the control of the third vent valve, the trigger rod is pushed to slide towards the arms of the patient, the second stretching spring is stretched to store force, and the support assembly is triggered while the trigger rod slides.

Preferably, the supporting assembly comprises a guide plate arranged between the two semicircular frames, a mounting cavity is defined in the lower end wall of the guide plate, two guide assemblies are arranged in the upper end wall of the guide plate and the mounting cavity, each guide assembly comprises a moving block slidably arranged in the guide plate, a fourth compression spring is fixedly connected between the moving blocks of the two guide assemblies, a first shift lever extending into the mounting cavity is fixedly connected to the lower end face of the moving block, a second shift lever is fixedly connected to the lower end of the first shift lever, a positioning rod is fixedly connected to the inner wall of the upper side of the mounting cavity, a first polish rod is rotatably connected between the positioning rod and the inner wall of the mounting cavity on the side far away from the center line of the guide plate, a roller matched with the second shift lever is sleeved on the first polish rod, and a second gear is sleeved on the first polish rod on the side of the roller close to the center line of the guide plate, the lower end face of the guide plate is fixedly connected with two positioning blocks, a second polished rod is rotatably connected between the two positioning blocks, two third gears are sleeved on the second polished rod and are meshed with the two second gears of the guide assembly in a one-to-one correspondence mode, and a supporting plate for supporting arms is sleeved on the second polished rod.

When the trigger rod slides, the two moving blocks are respectively pushed to slide towards the center of the guide plate, when the two moving blocks slide, on one hand, a fourth compression spring between the two moving blocks is compressed to store force, on the other hand, the first deflector rod is respectively driven to slide, the roller is driven by the second deflector rod in the sliding process of the first deflector rod to drive the first polished rod to rotate in the accommodating cavity, the first polished rod drives the second gear to be meshed with the third gear when rotating, the second polished rod is driven to rotate between the two positioning blocks by the third gear, the second polished rod drives the supporting plate to rotate to support the arm when rotating, as doctors suggest to extend the arm during blood pressure detection, but the arm bending condition can occur to the patient due to the tension of the inner center, the detection effect of blood pressure is influenced, and the supporting plate is controlled to rise while the detection mechanism is inflated and expanded at a constant speed, the arms are supported to keep the arms in a stretched state, and the accuracy of blood pressure detection is improved.

Compared with the prior art, the blood pressure detection sleeve for the outpatient department has the following advantages:

1. due to the design of the massage mechanism, the rolling ball is driven to intermittently impact the arm through the arc-shaped groove by the reciprocating sliding of the convex block, so that the arm of the patient is relaxed, and the condition that the blood pressure detection result of the patient is inaccurate due to tension is avoided.

2. Because the upper end wall of the gas tank is internally provided with the first vent valve, the gas tank ensures a certain amount of gas in the gas tank when the gas guide mechanism is reset.

3. The doctor suggests to extend the arm during the blood pressure detection, but the patient may have arm bending due to the tension of the heart, thereby affecting the blood pressure detection effect.

Drawings

Fig. 1 is a schematic perspective view of the blood pressure measuring sleeve for use in the outpatient department.

Fig. 2 is a partially enlarged schematic view of the invention at a in fig. 1.

Fig. 3 is a partially enlarged schematic view of the invention at B in fig. 1.

Fig. 4 is an enlarged partial schematic view of the invention at C in fig. 1.

Fig. 5 is a cross-sectional view taken along line D-D of fig. 1 in accordance with the present invention.

Fig. 6 is a cross-sectional view taken in the direction E-E of fig. 5 in accordance with the present invention.

Fig. 7 is a sectional view in the direction F-F of fig. 1 of the present invention.

Fig. 8 is an enlarged partial schematic view of the invention at G in fig. 7.

Fig. 9 is a sectional view taken in the direction H-H of fig. 8 in accordance with the present invention.

In the figure, a U-shaped sleeve 10, a slide way 11, a slide block 12, a first compression spring 13, a rotating shaft 14, a first shaft sleeve 15, a handle rod 16, a handle 17, a push rod 18, a partition plate 19, a third compression spring 20, an air box 21, a piston rod 22, a first vent valve 23, a second vent valve 24, an air pipe 25, a second shaft sleeve 26, a U-shaped groove 27, a slide rod 28, a first extension spring 29, a first gear 30, a rack 31, an optical axis 32, a reel 33, a chute 34, a convex block 35, an arc-shaped groove 36, a rolling ball 37, a second compression spring 38, a cord 39, a third shaft sleeve 40, a first shift lever 41, a second shift lever 42, a telescopic cylinder 44, a telescopic lever 45, a vent hole 46, a semicircular frame 47, an air storage cavity 48, an elastic bag 49, a third vent valve 50, a slide rail 51, a trigger rod 52, a second extension spring 53, a guide plate 54, a moving block 55, a fourth compression spring 56, a, The device comprises a setting cavity 60, a positioning rod 61, a first polished rod 62, a roller 63, a second gear 64, a positioning block 65, a second polished rod 66, a third gear 67, a supporting plate 68, a connecting rod 70, a display 71 and a supporting rod 73.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1, a blood pressure detecting sleeve for an outpatient department, which comprises a U-shaped sleeve 10 with a downward opening, two connecting rods 70 are rotatably connected to the opening at the lower end of the U-shaped sleeve 10, the two connecting rods 70 are symmetrically distributed around the center line of the U-shaped sleeve 10, and a display 71 is rotatably connected between the two connecting rods 70, and is characterized in that: a power mechanism is arranged in the U-shaped sleeve 10, a massage mechanism driven by the power mechanism is arranged above the power mechanism in the U-shaped sleeve 10, an air guide mechanism driven by the power mechanism is arranged above the massage mechanism in the U-shaped sleeve 10, two detection mechanisms driven by the air guide mechanism are arranged at an opening at the lower end of the U-shaped sleeve 10, and the two detection mechanisms are distributed in bilateral symmetry about the central line of the U-shaped sleeve 10.

Before a patient enters a consulting room to line up, the blood pressure detection sleeve can be used for detecting blood pressure, the power mechanism is held by hands and pushed to the inside of the U-shaped sleeve 10, the massage mechanism is driven by the power mechanism to squeeze and massage the arm of the patient so as to relax the patient, the detection result of the blood pressure value is prevented from being influenced by the tension, after the massage is finished, the power mechanism is used for triggering the air guide mechanism again, the detection mechanism is controlled to operate through the air guide mechanism, the arm can be supported to keep the arm in a straight state while the detection mechanism is inflated and expanded, the condition that the arm of the patient is bent due to the tension in the heart is avoided, and the accuracy of the blood pressure detection is also improved through the support of the arm;

after the blood pressure detection is finished, the detection result can be checked on the display 71 at the lower end of the display 10, when a doctor enters a diagnosis, the doctor can be directly informed of the blood pressure detection result, the inquiry time is saved, meanwhile, the tension of the patient is relieved through the supporting effect of the massage mechanism and the detection mechanism, and the accuracy of the blood pressure detection is improved.

As shown in fig. 1, 2, 5 and 6, the power mechanism includes two slide ways 11 respectively arranged in the left and right side end walls of the U-shaped sleeve 10, the two slide ways 11 are bilaterally symmetrically distributed about the center line of the U-shaped sleeve 10, a slide block 12 is slidably connected in each slide way 11, a first compression spring 13 is fixedly connected between the upper end surface of each slide block 12 and the upper inner wall of the slide way 11, a rotating shaft 14 is rotatably connected between the two slide blocks 12, two first gears 30 are sleeved on the rotating shaft 14, racks 31 engaged with the first gears 30 are respectively fixedly connected above the first gears 30 on the left and right side inner walls of the U-shaped sleeve 10, two toggle assemblies are sleeved on the rotating shaft 14, the two toggle assemblies are bilaterally symmetrically distributed about the center line of the U-shaped sleeve 10, the toggle assemblies are located on one side of the first gear 30 close to the center line of the rotating shaft 14, two first shaft sleeves 15 are sleeved on the rotating shaft, the lower end of each first shaft sleeve 15 is fixedly connected with a handle rod 16, a handle 17 is fixedly connected between the two handle rods 16, and the upper end of each first shaft sleeve is fixedly connected with a push rod 18.

When the blood pressure detection sleeve is used for blood pressure detection, the handle 17 is held in hand and pushes the handle 17 towards the inside of the U-shaped sleeve 10, the handle 17 drives the rotating shaft 14 to slide towards the inside of the U-shaped sleeve 10 through the two handle rods 16 and the first shaft sleeve 15, the rotating shaft 14 drives the two sliders 12 to respectively slide in the two slide ways 11 when sliding, the first compression springs 13 between the sliders 12 and the slide ways 11 are compressed to store force when the sliders 12 slide, the rotating shaft 14 drives the two first gears 30 to be respectively meshed with the two racks 31, the first gears 30 are enabled to rotate below the racks 31, the rotating shaft 14 is driven to rotate between the two sliders 12 when the first gears 30 rotate, and power is provided for operation of the shifting assembly.

As shown in fig. 2 and 5, the toggle assembly includes a second shaft sleeve 26 sleeved on the rotating shaft 14, at least two U-shaped grooves 27 are fixedly connected to the second shaft sleeve 26, the U-shaped grooves 27 are uniformly distributed on the outer peripheral side of the second shaft sleeve 26 along the circumferential direction of the second shaft sleeve 26, a sliding rod 28 is slidably connected to each U-shaped groove 27, and a first extension spring 29 is fixedly connected between each sliding rod 28 and the bottom end of the U-shaped groove 27.

The U-shaped groove 27 is driven to rotate by the second shaft sleeve 26 in the rotation process of the rotating shaft 14, centrifugal force is generated in the rotation process of the U-shaped groove 27, the sliding rod 28 slides towards the outside of the U-shaped groove 27 under the action of the centrifugal force, the first extension spring 29 is stretched to store force, and power is provided for the operation of the massage mechanism through the sliding rod 28.

As shown in fig. 1 and 4, the massage mechanism includes four support rods 73 fixedly disposed on the inner wall of the upper side of the U-shaped sleeve 10, four massage assemblies are disposed on the four support rods 73, the four massage assemblies are sequentially arranged on the support rods 73 from top to bottom, and the massage assemblies are located below the power mechanism relative to the U-shaped sleeve 10.

As shown in fig. 4 and 5, the massage assembly includes a sliding groove 34 fixedly disposed on each support rod 73, a protruding block 35 is slidably connected in the sliding groove 34, an arc groove 36 is formed in the upper end of the protruding block 35, a rolling ball 37 is rotatably connected in the arc groove 36, a second compression spring 38 is fixedly connected between the lower end face of the protruding block 35 and the bottom end of the sliding groove 34, an optical axis 32 is rotatably connected between the inner walls of the left side and the right side of the U-shaped sleeve 10, the optical axis 32 is located below the sliding groove 34 relative to the U-shaped sleeve 10, two third sleeves 40 are sleeved on the optical axis 32, a first shift lever 41 is fixedly connected to the outer peripheral side of each third sleeve 40, a second shift lever 42 matched with the shift assembly sliding rod 28 is rotatably connected to each first shift lever 41, a reel 33 is sleeved below each sliding groove 34 on the optical axis 32, and a string 39 is drivingly connected.

When the sliding rod 28 of the toggle assembly rotates, the sliding rod 28 contacts with the second toggle lever 42, the second toggle lever 42 drives the first toggle lever 41 to toggle the optical axis 32 to deflect at a certain angle between the left and right inner walls of the U-shaped sleeve 10 through the third sleeve 40, the optical axis 32 rotates, the cord 39 is wound through the reel 33, the lug 35 slides towards the inside of the chute 34 under the pulling of the cord 39, and the second compression spring 38 compresses the stored force, because the second toggle lever 42 is rotatably arranged on the first toggle lever 41, when the sliding rod 28 is disconnected from the second toggle lever 42, the downward external force applied to the lug 35 disappears, at the moment, the compressed second compression spring 38 resets and pushes the lug 35 to slide towards the outside of the chute 34, the lug 35 drives the arc-shaped groove 36 to impact on the arm during the sliding process, the arm of the patient is loosened, and the blood pressure detection result of the patient is prevented from being inaccurate due to tension, because the rolling ball 37 is rotatably arranged in the arc-shaped groove 36, the rolling ball 37 can also rotate below the arm when impacting the arm, so that the rolling ball 37 can complete certain rolling massage on the arm while impacting the arm.

As shown in fig. 1 and 3, the air guide mechanism includes an air box 21 disposed in the upper end wall of the U-shaped sleeve 10, a piston rod 22 is slidably connected in the air box 21, a partition plate 19 matched with the power mechanism push rod 18 is fixedly connected to the lower end surface of the piston rod 22, two third compression springs 20 are fixedly connected between the upper end surface of the partition plate 19 and the upper side inner wall of the U-shaped sleeve 10, a first vent valve 23 communicated with the external space is disposed on the upper end wall of the air box 21, second vent valves 24 are respectively disposed on the left and right side end walls of the air box 21, and an air pipe 25 extending in the U-shaped sleeve 10 is communicated with each second vent valve 24.

When the power mechanism slides through the massage mechanism, the push rod 18 of the power mechanism contacts with the partition plate 19 and pushes the partition plate 19 to slide towards the inside of the U-shaped sleeve 10, the partition plate 19 compresses the two third compression springs 20 to store force in the sliding process, the partition plate 19 pushes the piston rod 22 to slide towards the inside of the air box 21, the piston rod 22 discharges the air in the air box 21 into the air pipe 25 through the two second vent valves 24 when sliding, so as to trigger the detection mechanism, and the first vent valve 23 is arranged in the upper end wall of the air box 21, so that certain amount of the air in the air box 21 is ensured when the air guide mechanism is reset.

As shown in fig. 1 and 7, the detection mechanism includes a telescopic cylinder 44 fixedly disposed on the inner wall of the side end of the U-shaped sleeve 10, the telescopic cylinder 44 is communicated with an air pipe 25 of the air guide mechanism, a telescopic rod 45 is slidably connected in the telescopic cylinder 44, an air vent 46 is formed in the telescopic rod 45, a semicircular frame 47 is fixedly connected to one side of the telescopic rod 45 close to the central line of the U-shaped sleeve 10, an air storage cavity 48 communicated with the air vent 46 is formed in the semicircular frame 47, an elastic bag 49 communicated with the air storage cavity 48 is fixedly connected to the inner end surface of the semicircular frame 47, a third air vent valve 50 is arranged on the semicircular frame 47, a slide rail 51 communicated with the third air vent valve 50 is fixedly connected to the inner end surface of the semicircular frame 47, a trigger rod 52 is slidably connected in the slide rail 51, a second extension spring 53 is fixedly connected between the trigger rod 52.

The air in the air pipe 25 enters the telescopic cylinder 44, on one hand, the telescopic rod 45 is pushed to slide towards the outside of the telescopic cylinder 44, so that the two semicircular racks 47 are close to the arms of the patient, on the other hand, the air enters the air storage cavity 48 along the air vent 46, part of the air entering the air storage cavity 48 enters the elastic bag 49, the elastic bag 49 expands in volume to clamp the arms of the patient, the other part of the air enters the slide rail 51 under the control of the third air vent 50, the trigger rod 52 is pushed to slide towards the arms of the patient, the second tension spring 53 is stretched to store force, and the support component is triggered while the trigger rod 52 slides.

As shown in fig. 8 and 9, the supporting assembly includes a guiding plate 54 disposed between the two semicircular frames 47, a housing cavity 60 is defined in a lower end wall of the guiding plate 54, two guiding assemblies are disposed in an upper end wall of the guiding plate 54 and the housing cavity 60, the guiding assemblies include moving blocks 55 slidably disposed in the guiding plate 54, a fourth compression spring 56 is fixedly connected between the moving blocks 55 of the two guiding assemblies, a first driving lever 57 extending into the housing cavity 60 is fixedly connected to a lower end surface of the moving block 55, a second driving lever 58 is fixedly connected to a lower end of the first driving lever 57, a positioning rod 61 is fixedly connected to an upper inner wall of the housing cavity 60, a first smooth rod 62 is rotatably connected between the positioning rod 61 and an inner wall of the housing cavity 60 far away from a center line of the guiding plate 54, a roller 63 engaged with the second driving lever 58 is sleeved on the first smooth rod 62, a second gear 64 is sleeved on a side of the first smooth rod 62 located on the roller 63 near the, the lower end face of the guide plate 54 is fixedly connected with two positioning blocks 65, a second polish rod 66 is rotatably connected between the two positioning blocks 65, two third gears 67 are sleeved on the second polish rod 66, the two third gears 67 are correspondingly meshed with the two second gears 64 of the guide assembly one by one, and a support plate 68 for supporting the arm is sleeved on the second polish rod 66.

When the trigger rod 52 slides, the two moving blocks 55 are respectively pushed to slide towards the center of the guide plate 54, when the two moving blocks 55 slide, on one hand, the fourth compression spring 56 between the two moving blocks 55 is compressed to store power, on the other hand, the first deflector rod 57 is respectively driven to slide, the first deflector rod 57 drives the roller 63 through the second deflector rod 58 in the sliding process, so that the roller 63 drives the first polish rod 62 to rotate in the accommodating cavity 60, the first polish rod 62 drives the second gear 64 to be meshed with the third gear 67 when rotating, the second polish rod 66 is driven to rotate between the two positioning blocks 65 through the third gear 67, the second polish rod 66 drives the supporting plate 68 to rotate to support the arms when rotating, since doctors recommend to extend the arms during blood pressure detection, but the patient can bend the arms due to the tension of the inner center, thereby affecting the blood pressure detection effect, therefore, when the detection mechanism is inflated and expanded, the supporting plate 68 is controlled to rise at a constant speed, the arm is supported to keep the arm in a stretched state, and the accuracy of blood pressure detection is improved.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides a department of outpatient service uses blood pressure check sleeve, includes U type sleeve (10) that the opening faces down, the lower extreme opening part of U type sleeve (10) rotates and is connected with two connecting rods (70), two connecting rod (70) are bilateral symmetry about the central line of U type sleeve (10) and distribute, two it is connected with display (71), its characterized in that to rotate between connecting rod (70): the multifunctional massage device is characterized in that a power mechanism is arranged in the U-shaped sleeve (10), a massage mechanism driven by the power mechanism is arranged above the power mechanism in the U-shaped sleeve (10), an air guide mechanism driven by the power mechanism is arranged above the massage mechanism in the U-shaped sleeve (10), two detection mechanisms driven by the air guide mechanism are arranged at an opening at the lower end of the U-shaped sleeve (10), and the two detection mechanisms are distributed in a bilateral symmetry mode about the central line of the U-shaped sleeve (10).

2. The outpatient blood pressure monitoring sleeve of claim 1, wherein: power unit is including seting up slide (11) respectively in the side end wall about U type sleeve (10) left and right sides, two slide (11) are bilateral symmetry distribution about the central line of U type sleeve (10), every slide (11) sliding connection has slider (12), every the up end of slider (12) with link firmly first compression spring (13) between the upside inner wall of slide (11), two slide (12) rotate between and are connected with pivot (14), the cover is equipped with two first gears (30) on pivot (14), the left and right sides inner wall of U type sleeve (10) is located every first gear (30) top link firmly respectively with rack (31) that first gear (30) engaged with, the cover is equipped with two in pivot (14) and stirs the subassembly, and two stir the subassembly and be bilateral symmetry distribution about the central line of U type sleeve (10), and it is located to stir the subassembly first gear (30) are close to one side of pivot (14) central line, lie in two on pivot (14) stir the subassembly and overlap between and be equipped with two first axle sleeves (15), every the lower extreme of first axle sleeve (15) has linked firmly handle pole (16), two handle pole (16) have linked firmly handle (17) between, every the upper end have linked firmly push rod (18).

3. The outpatient blood pressure monitor sleeve of claim 2, wherein: stir the subassembly and establish including the cover second shaft sleeve (26) on pivot (14), at least two U type groove (27) have been linked firmly on second shaft sleeve (26), and is a plurality of the circumferencial direction equipartition of second shaft sleeve (26) is followed in U type groove (27) is at the periphery side of second shaft sleeve (26), every sliding connection has slide bar (28) in U type groove (27), every slide bar (28) with first extension spring (29) have been linked firmly between the bottom in U type groove (27).

4. The outpatient blood pressure monitor sleeve of claim 2, wherein: massage mechanism is including fixed setting four bracing piece (73), four of U type sleeve (10) upside inner wall be equipped with four massage subassembly on bracing piece (73), four massage subassembly from top to bottom arranges in proper order on bracing piece (73), massage subassembly is located for U type sleeve (10) power unit's below.

5. The outpatient blood pressure monitoring sleeve of claim 4, wherein: the massage assembly comprises a sliding groove (34) fixedly arranged on each support rod (73), a convex block (35) is connected in the sliding groove (34), an arc-shaped groove (36) is formed in the upper end of the convex block (35), a rolling ball (37) is connected in the arc-shaped groove (36) in a rotating mode, a second compression spring (38) is fixedly connected between the lower end face of the convex block (35) and the bottom end of the sliding groove (34), an optical axis (32) is connected between the inner walls of the left side and the right side of the U-shaped sleeve (10) in a rotating mode, the optical axis (32) is located below the sliding groove (34) relative to the U-shaped sleeve (10), two third shaft sleeves (40) are sleeved on the optical axis (32), each first shifting rod (41) is fixedly connected on the peripheral side of the third shaft sleeve (40), each first shifting rod (41) is rotatably connected with a second shifting rod (42) matched with the shifting assembly sliding, and reels (33) are sleeved below each sliding groove (34) on the optical axis (32), and a wire rope (39) is connected between each reel (33) and the corresponding bump (35) in a transmission manner.

6. The outpatient blood pressure monitor sleeve of claim 2, wherein: air guide mechanism is including setting up air tank (21) in U type sleeve (10) upper end wall, sliding connection has piston rod (22) in air tank (21), the terminal surface has linked firmly with power unit push rod (18) matched with baffle (19) under piston rod (22), the up end of baffle (19) with two third compression spring (20) have been linked firmly between the upside inner wall of U type sleeve (10), the upper end wall of air tank (21) is equipped with first breather valve (23) that are linked together with external space, the left and right sides end wall of air tank (21) is equipped with second breather valve (24) respectively, every on second breather valve (24) the intercommunication have trachea (25) that extend in U type sleeve (10).

7. The outpatient blood pressure monitoring sleeve of claim 6, wherein: the detection mechanism comprises a telescopic cylinder (44) fixedly arranged on the inner wall of the side end of the U-shaped sleeve (10), the telescopic cylinder (44) is communicated with an air pipe (25) of the air guide mechanism, a telescopic rod (45) is connected in the telescopic cylinder (44) in a sliding manner, a vent hole (46) is formed in the telescopic rod (45), one side, close to the central line of the U-shaped sleeve (10), of the telescopic rod (45) is fixedly connected with a semicircular frame (47), an air storage cavity (48) communicated with the vent hole (46) is arranged in the semicircular frame (47), an inner end face of the semicircular frame (47) is fixedly connected with an elastic bag (49) communicated with the air storage cavity (48), a third air valve (50) is arranged on the semicircular frame (47), a sliding rail (51) communicated with the third air valve (50) is fixedly connected with the inner end face of the semicircular frame (47), and a trigger rod (52) is connected in the sliding manner in the sliding rail (, the trigger bar (52) with be linked firmly second extension spring (53) between the bottom of slide rail (51), two be equipped with supporting component between trigger bar (52).

8. The outpatient blood pressure monitoring sleeve of claim 8, wherein: the supporting assembly comprises a guide plate (54) arranged between the two semicircular frames (47), a mounting cavity (60) is defined in the lower end wall of the guide plate (54), two guide assemblies are arranged in the upper end wall of the guide plate (54) and the mounting cavity (60), each guide assembly comprises a moving block (55) which is slidably arranged in the guide plate (54), a fourth compression spring (56) is fixedly connected between the moving blocks (55) of the two guide assemblies, the lower end face of each moving block (55) is fixedly connected with a first shifting rod (57) which extends into the mounting cavity (60), the lower end of each first shifting rod (57) is fixedly connected with a second shifting rod (58), the inner wall of the upper side of the mounting cavity (60) is fixedly connected with a positioning rod (61), and a first polished rod (62) is rotatably connected between the positioning rod (61) and the inner wall of the mounting cavity (60) on the side far away from the center line of the guide plate (54), the arm-supporting mechanism is characterized in that a roller (63) matched with the second shifting rod (58) is sleeved on the first polish rod (62), a second gear (64) is sleeved on one side, close to the central line of the guide plate (54), of the roller (63) on the first polish rod (62), two positioning blocks (65) are fixedly connected to the lower end face of the guide plate (54), the two positioning blocks (65) are rotatably connected with the second polish rod (66), two third gears (67) are sleeved on the second polish rod (66), the two third gears (67) are meshed with the two second gears (64) of the guide assembly in a one-to-one correspondence mode, and a supporting plate (68) for supporting arms is sleeved on the second polish rod (66).

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