阅读说明：本技术 一种血压仪中袖带佩戴松紧的分析处理仪 (Analysis processor for wearing tightness of cuff in sphygmomanometer ) 是由 张龙华 于 2021-01-26 设计创作，主要内容包括：本发明公开了一种血压仪中袖带佩戴松紧的分析处理仪,包括工作箱,所述工作箱上端面设有处理腔,所述处理腔上固定安装袖带,所述处理腔中设有检测室,所述检测室内腔前后壁面上设有上层滑槽,所述上层滑槽之间滑动安装上层凹板,所述检测室内腔前后壁面上设有下层滑槽,所述下层滑槽之间滑动安装下层挤压板,所述检测室内腔右壁面上转动安装高度轴,所述高度轴左端面固定安装检测空心盘,本发明即可适应不同胳膊大小的使用者进行使用,通过检测袖带与使用者胳膊之间的距离感知松紧程度,由于每个人胳膊粗细不同,而在使用血压计的时候,袖带与胳膊之间的松紧程度对测得数据有着很大的影响。(The invention discloses an analysis processor for the wearing tightness of a cuff in a sphygmomanometer, which comprises a work box, the upper end surface of the working box is provided with a processing cavity, a cuff is fixedly arranged on the processing cavity, a detection chamber is arranged in the processing cavity, the front wall and the rear wall of the inner cavity of the detection chamber are provided with upper layer sliding grooves, an upper layer concave plate is arranged between the upper layer sliding grooves in a sliding way, the front wall and the rear wall of the inner cavity of the detection chamber are provided with lower layer chutes, a lower layer extrusion plate is arranged between the lower layer chutes in a sliding way, the detection chamber is provided with a height shaft on the right wall surface of the inner cavity of the detection chamber in a rotating way, and a detection hollow disc is fixedly arranged on the left end surface of the height shaft, so that the detection chamber can be suitable for users with different arm sizes to use, the tightness degree is sensed by detecting the distance between the cuff and the arm of the user, since each person has different arm thickness, the tightness between the cuff and the arm has a great influence on the measured data when the sphygmomanometer is used.)

1. The utility model provides an elastic analysis processing appearance is worn to sphygmomanometer middle sleeve, includes the work box, its characterized in that: the detection device is characterized in that a processing cavity is arranged on the upper end face of the working box, a cuff is fixedly installed on the processing cavity, a detection chamber is arranged in the processing cavity, upper sliding grooves are formed in the front wall and the rear wall of the inner cavity of the detection chamber, an upper concave plate is installed between the upper sliding grooves in a sliding manner, lower sliding grooves are formed in the front wall and the rear wall of the inner cavity of the detection chamber, a lower extruding plate is installed between the lower sliding grooves in a sliding manner, a height shaft is rotatably installed on the right wall of the inner cavity of the detection chamber, a detection hollow disc is fixedly installed on the left end face of the height shaft, a reset torsion spring is fixedly installed between the right end face of the detection chamber and the detection hollow disc, the detection hollow disc is hinged and connected with the upper concave plate and the lower extruding plate through symmetrical rods, a detection slide way is arranged on the wall face of the inner cavity of the, a pressure spring is fixedly installed between the pressure block and the pressure sensor, a penetrating shaft is rotatably installed on the left wall surface of an inner cavity of the detection chamber, a detection disc is fixedly installed on the right end surface of the penetrating shaft, a force storage plate is fixedly installed on the penetrating shaft, a force storage spring is fixedly installed between the force storage plate and the left wall surface of the inner cavity of the detection chamber, a linkage cavity is arranged on the left side of the detection chamber, the penetrating shaft extends to the linkage cavity, a clamping hollow disc is fixedly installed on the right wall surface of the inner cavity of the linkage cavity, a groove disc is fixedly installed on the penetrating shaft, a sliding block is slidably installed in the inner cavity of the groove disc, a telescopic spring is fixedly installed between the sliding block and the wall surface of the inner cavity of the groove disc, a clamping groove sliding block is slidably installed in the wall surface of the clamping hollow disc, a driving disc is fixedly installed on the left end surface of the penetrating shaft, a convex block is fixedly installed on the wall surface of, the support frame is internally provided with an inserting shaft in a penetrating and rotating way, the left end surface and the right end surface of the inserting shaft are respectively and fixedly provided with a driven bevel gear and a shifting plate, the rear wall surface of the inner cavity of the working box is provided with a left sliding groove and a right sliding groove, a left sliding block and a right sliding block are arranged in the left sliding groove and the right sliding groove in a sliding way, a left spring and a right spring are fixedly arranged between the left sliding block and the right sliding groove and the inner cavity wall surface of the left sliding groove and the right sliding groove, the front end surface of the left sliding block and the right sliding block is rotatably provided with a rotating shaft, a clamping gear, a shifting rack and a rotating gear are fixedly arranged on the rotating shaft from back to front, a shifting gear, a rotating gear and a rotating wire wheel are fixedly arranged on the rotating shaft from back to front, a torsion spring is fixedly arranged between the shifting gear and the, the rotary gear is meshed with the rotary gear, a movement chute is arranged on the upper end face of the working box, a movement block is slidably mounted in the movement chute, the right end face of the movement chute is connected with the movement block through an extension spring, a middle rotary plate is rotatably mounted on the rear wall face of an inner cavity of the linkage cavity in a hinged mode, the middle rotary plate is hinged to the clamping groove sliding blocks through a pulling rod, right-angled racks are fixedly mounted on the upper end faces of the left sliding block and the right sliding block, and the right-angled racks extend into the linkage cavity and are meshed with the middle rotary plate.

2. The blood pressure monitor according to claim 1, wherein the blood pressure monitor comprises: and a bevel gear shaft is rotatably arranged on the back wall surface of the inner cavity of the linkage cavity, a wire wheel and a driving bevel gear are fixedly arranged on the bevel gear shaft from front to back in sequence, and the driving bevel gear is meshed with the driven bevel gear.

3. The blood pressure monitor according to claim 1, wherein the blood pressure monitor comprises: and an air pump is fixedly arranged on the upper end face of the working box and is communicated with the cuff.

4. The blood pressure monitor according to claim 1, wherein the blood pressure monitor comprises: the fixed block of fixed mounting on the left wall of work box inner chamber, the fixed block right-hand member symmetry is equipped with the symmetry spout from top to bottom, slidable mounting slide bar in the symmetry spout, be equipped with the centre gripping slider on the slide bar, slidable mounting grip block in the centre gripping slider, the grip block with fixed mounting centre gripping spring between the centre gripping slider inner chamber wall, be equipped with the spring groove in the fixed block, slidable mounting spring block in the spring groove, the spring block with fixed mounting inside spring between the spring groove inner chamber left wall, the spring block with articulate through the splice bar respectively between the slide bar and be connected.

5. The blood pressure monitor according to claim 1, wherein the blood pressure monitor comprises: the rear wall surface of the inner cavity of the moving block is rotatably provided with a grab handle, the rear wall surface of the inner cavity of the moving block is fixedly provided with an auxiliary shaft, the grab handle is connected with the shifting rack through a stretching wire, and the right end surface of the moving block is connected with the wire wheel and the rotating wire wheel through a spring wire.

Technical Field

The invention relates to an analysis processor for the wearing tightness of a cuff in a sphygmomanometer, and mainly relates to the technical field of water pressure detection.

Background

The sphygmomanometer is an instrument for measuring blood pressure, and is also called as a sphygmomanometer, the sphygmomanometer mainly comprises an auscultation sphygmomanometer and an oscillography sphygmomanometer, the main principle of the sphygmomanometer is that air is pressurized to press a local artery, the pulsation of the local artery is stopped by applying pressure, and the blood flow pressure in the period is measured.

Disclosure of Invention

The invention aims to solve the technical problem of providing an analysis processor for the wearing tightness of a cuff in a sphygmomanometer, and overcomes the problems.

The invention is realized by the following technical scheme.

The invention relates to an analysis processor for the wearing tightness of a cuff of a sphygmomanometer, which comprises a working box, wherein the upper end surface of the working box is provided with a processing cavity, a cuff is fixedly arranged on the processing cavity, a detection chamber is arranged in the processing cavity, the front wall surface and the rear wall surface of the inner cavity of the detection chamber are provided with upper layer sliding grooves, an upper layer concave plate is arranged between the upper layer sliding grooves in a sliding manner, the front wall surface and the rear wall surface of the inner cavity of the detection chamber are provided with lower layer sliding grooves, a lower layer extrusion plate is arranged between the lower layer sliding grooves in a sliding manner, a height shaft is rotatably arranged on the right wall surface of the inner cavity of the detection chamber, a detection hollow disc is fixedly arranged on the left end surface of the height shaft, a reset torsion spring is fixedly arranged between the right end surface of the detection chamber and the detection hollow disc, the detection hollow disc is hinged with the upper, a pressure sensor is fixedly installed on the wall surface of the inner cavity of the detection slide way, a pressure block is installed in the detection slide way in a sliding mode, a pressure spring is fixedly installed between the pressure block and the pressure sensor, a penetrating shaft is rotatably installed on the left wall surface of the inner cavity of the detection chamber, a detection disc is fixedly installed on the right end surface of the penetrating shaft, a force storage plate is fixedly installed on the penetrating shaft, a force storage spring is fixedly installed between the force storage plate and the left wall surface of the inner cavity of the detection chamber, a linkage cavity is arranged on the left side of the detection chamber, the penetrating shaft extends to the linkage cavity, a clamping hollow disc is fixedly installed on the right wall surface of the inner cavity of the linkage cavity, a groove disc is fixedly installed on the penetrating shaft, a sliding block is installed in the inner cavity of the groove disc in a sliding mode, a telescopic spring is fixedly installed between the sliding block and the inner cavity wall surface of, the driving disc is fixedly installed on the left end face of the penetrating shaft, the protruding blocks are fixedly installed on the wall face of the inner cavity of the driving disc, the support frame is fixedly installed on the rear wall face of the inner cavity of the linkage cavity, the penetrating shaft is installed in the support frame in a penetrating and rotating mode, the driven bevel gears and the shifting disc are fixedly installed on the left end face and the right end face of the penetrating shaft respectively, a left sliding groove and a right sliding groove are formed in the rear wall face of the inner cavity of the working box, a left sliding block and a right sliding block are installed in the left sliding groove and the right sliding groove in a sliding mode, a left spring and a right spring are fixedly installed between the left sliding block and the inner cavity wall face of the left sliding groove and the right sliding groove, a rotating shaft is installed on the front end face of the left sliding block and the right sliding block in a rotating mode, a shifting gear, a shifting rack, The rotary gear, the line wheel rotates, stir the gear with fixed mounting torsional spring between the wall behind the work box inner chamber, control the slider right-hand member face through articulated rotation installation stirring rack, rotary gear with the rotary gear meshing, the work box up end is equipped with the motion spout, slidable mounting motion piece in the motion spout, motion spout right-hand member face with connect through extension spring between the motion piece, carousel in the installation is rotated through articulated to the wall behind the interlock chamber inner chamber, well carousel with connect through the pulling rod is articulated between the draw-in groove slider, control slider up end fixed mounting right angle rack, right angle rack extend to in the interlock chamber and with well carousel meshing.

Furthermore, a bevel gear shaft is rotatably mounted on the rear wall surface of the inner cavity of the linkage cavity, a wire wheel and a driving bevel gear are fixedly mounted on the bevel gear shaft from front to back in sequence, and the driving bevel gear is meshed with the driven bevel gear.

Further, an air pump is fixedly installed on the upper end face of the working box and communicated with the cuff.

Further, a fixed block is fixedly installed on the left wall face of the inner cavity of the working box, symmetrical sliding grooves are symmetrically formed in the right end face of the fixed block in the up-and-down mode, sliding rods are installed in the symmetrical sliding grooves in a sliding mode, clamping sliders are arranged on the sliding rods, clamping plates are installed in the clamping sliders in a sliding mode, clamping springs are fixedly installed between the clamping plates and the inner cavity wall faces of the clamping sliders, spring grooves are formed in the fixed block, spring blocks are installed in the spring grooves in a sliding mode, internal springs are fixedly installed between the spring blocks and the left wall face of the inner cavity of the spring groove, and the spring blocks are connected with the sliding rods in a hinged mode through splicing rods.

Furthermore, a grab handle is rotatably installed on the rear wall surface of the inner cavity of the moving block, an auxiliary shaft is fixedly installed on the rear wall surface of the inner cavity of the moving block, the grab handle is connected with the shifting rack through a stretching wire, and the right end surface of the moving block is connected with the wire wheel and the rotating wire wheel through a spring wire.

The invention has the beneficial effects that: after the sphygmomanometer is used according to the specified requirements, the sphygmomanometer can be suitable for users with different arm sizes, the tightness degree is sensed by detecting the distance between the cuff and the arm of the user, and the tightness degree between the cuff and the arm has great influence on the measured data when the sphygmomanometer is used because the arm size of each person is different.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the structure a-a in fig. 1.

FIG. 3 is a schematic diagram of B-B in FIG. 1.

Fig. 4 is a schematic view of the structure of C-C in fig. 1.

Fig. 5 is a schematic diagram of the structure of D-D in fig. 1.

Fig. 6 is a schematic diagram of the structure of E-E in fig. 5.

Detailed Description

The invention will now be described in detail with reference to fig. 1-6, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

With reference to the attached drawings 1-6, the sphygmomanometer middle sleeve belt wearing tightness analysis processor comprises a working box 10, wherein a processing cavity 11 is arranged on the upper end face of the working box 10, a cuff 77 is fixedly installed on the processing cavity 11, a detection chamber 12 is arranged in the processing cavity 11, upper sliding grooves 14 are formed in the front wall and the rear wall of an inner cavity of the detection chamber 12, an upper concave plate 13 is installed between the upper sliding grooves 14 in a sliding mode, lower sliding grooves 15 are formed in the front wall and the rear wall of the inner cavity of the detection chamber 12, a lower extruding plate 16 is installed between the lower sliding grooves 15 in a sliding mode, a height shaft 17 is installed on the right wall of the inner cavity of the detection chamber 12 in a rotating mode, a detection hollow disc 18 is fixedly installed on the left end face of the height shaft 17, a reset torsion spring 19 is fixedly installed between the right end face of the detection chamber 12 and the detection hollow disc 18, the detection hollow disc 18 is connected with the upper concave plate 13 and the lower, a detection slide way 50 is arranged on the wall surface of the inner cavity of the detection hollow disc 18, a pressure sensor 51 is fixedly arranged on the wall surface of the inner cavity of the detection slide way 50, a pressure block 53 is slidably arranged in the detection slide way 50, a pressure spring 52 is fixedly arranged between the pressure block 53 and the pressure sensor 51, a penetrating shaft 20 is rotatably arranged on the left wall surface of the inner cavity of the detection chamber 12, a detection disc 49 is fixedly arranged on the right end surface of the penetrating shaft 20, an accumulation plate 21 is fixedly arranged on the penetrating shaft 20, an accumulation spring 22 is fixedly arranged between the accumulation plate 21 and the left wall surface of the inner cavity of the detection chamber 12, a linkage cavity 76 is arranged on the left side of the detection chamber 12, the penetrating shaft 20 extends to the linkage cavity 76, a hollow disc 23 is fixedly arranged on the right wall surface of the inner cavity of the linkage cavity 76, a groove disc 54 is fixedly arranged on the penetrating shaft 20, and a slide block 55 is slidably arranged in the, an expansion spring 56 is fixedly installed between the sliding block 55 and the wall surface of the inner cavity of the groove disc 54, a clamping groove sliding block 57 is slidably installed in the wall surface of the clamping hollow disc 23, a driving disc 24 is fixedly installed on the left end surface of the penetrating shaft 20, a protruding block 72 is fixedly installed on the wall surface of the inner cavity of the driving disc 24, a supporting frame 25 is fixedly installed on the rear wall surface of the inner cavity of the linkage cavity 76, a penetrating shaft 26 is rotatably installed in the supporting frame 25, driven bevel gears 27 and a shifting disc 71 are fixedly installed on the left and right end surfaces of the penetrating shaft 26 respectively, a left sliding groove 34 and a right sliding groove 34 are arranged on the rear wall surface of the inner cavity of the working box 10, a left sliding block 58 and a right sliding block are slidably installed in the left sliding groove 34, a left spring 59, a right spring 35, a rotating shaft 35 are rotatably installed on the front, A toggle rack 62 and a rotary gear 36, a toggle gear 61 is fixedly installed between the clamping gear 60 and the front end face of the left and right sliding blocks 58, a rotary shaft 38 is rotatably installed on the rear wall face of the inner cavity of the working box 10, a toggle gear 61, a rotary gear 39 and a rotary wire wheel 64 are fixedly installed on the rotary shaft 38 from back to front in sequence, a torsion spring 63 is fixedly installed between the toggle gear 61 and the rear wall face of the inner cavity of the working box 10, a toggle rack 62 is rotatably installed on the right end face of the left and right sliding blocks 58 through a hinge, the rotary gear 36 is engaged with the rotary gear 39, a moving chute 40 is arranged on the upper end face of the working box 10, a moving block 41 is slidably installed in the moving chute 40, the right end face of the moving chute 40 is connected with the moving block 41 through a tension spring 42, a middle rotary disc 31 is rotatably installed on the rear wall face of the inner cavity of the linkage cavity 76 through a hinge, the right-angle rack 33 is fixedly arranged on the upper end face of the left and right sliding blocks 58, and the right-angle rack 33 extends into the linkage cavity 76 and is meshed with the middle rotary disc 31.

Beneficially, a bevel gear shaft 28 is rotatably mounted on the rear wall surface of the inner cavity of the linkage cavity 76, the bevel gear shaft 28 is fixedly mounted with the pulley 30 and the driving bevel gear 29 from front to back, and the driving bevel gear 29 is meshed with the driven bevel gear 27.

Advantageously, an air pump 47 is fixedly mounted on the upper end face of the work box 10, and the air pump 47 is communicated with the cuff 77.

Beneficially, a fixed block 78 is fixedly mounted on the left wall surface of the inner cavity of the work box 10, symmetrical sliding grooves 65 are symmetrically formed in the upper and lower end surfaces of the right end surface of the fixed block 78, sliding rods 66 are slidably mounted in the symmetrical sliding grooves 65, clamping sliders 74 are arranged on the sliding rods 66, clamping plates 73 are slidably mounted in the clamping sliders 74, clamping springs 75 are fixedly mounted between the clamping plates 73 and the wall surfaces of the inner cavity of the clamping sliders 74, spring grooves 67 are formed in the fixed block 78, spring blocks 68 are slidably mounted in the spring grooves 67, internal springs 70 are fixedly mounted between the spring blocks 68 and the left wall surface of the inner cavity of the spring grooves 67, and the spring blocks 68 are hinged to the sliding rods 66 through splicing rods 69.

Advantageously, a grab handle 43 is rotatably mounted on the rear wall surface of the inner cavity of the moving block 41, an auxiliary shaft 45 is fixedly mounted on the rear wall surface of the inner cavity of the moving block 41, the grab handle 43 is connected with the toggle rack 62 through a tension wire 44, and the right end surface of the moving block 41 is connected with the reel 30 and the rotating reel 64 through a spring wire 46.

Sequence of mechanical actions of the whole device: an arm inserts a hand into a cuff 77 to hold a handle 43, drives a motion block 41 to move leftwards in a motion chute 40, starts an air pump 47, the air pump 47 inflates the cuff 77, the motion block 41 moves leftwards in the motion chute 40 and drives a wire wheel 30 and a rotary wire wheel 64 through a spring wire 46, the wire wheel 30 rotates to drive a driving bevel gear 29 to rotate through a bevel gear shaft 28, the driving bevel gear 29 drives a driven bevel gear 27 to rotate, the driven bevel gear 27 drives a shifting plate 71 to rotate through a penetrating shaft 26, the shifting plate 71 touches a protruding block 72 to drive a driving plate 24 to rotate, the driving plate 24 drives a penetrating shaft 20 to rotate, the penetrating shaft 20 drives a groove plate 54 and a detection plate 49 to rotate, the penetrating shaft 20 drives an energy storage plate 21 to rotate so as to store the force of an energy storage spring 22, when the groove plate 54 rotates to a certain corner, a slide block 55 extrudes a telescopic spring 56 to slide in an inner cavity of the groove plate 54 so as to enable the slide block 55 to be, because the arms of each person are different in length and the sliding distances of the moving blocks 41 are different, the bevel gear shaft 28 is driven to rotate for different times, the stored force can be stored to the same degree each time through the movement, the spring wire 46 drives the rotating wire wheel 64 to rotate, the rotating wire wheel 64 drives the toggle gear 61 and the rotating gear 39 to rotate through the rotating shaft 38, the toggle gear 61 rotates to be in contact with the toggle rack 62, the left and right sliding blocks 58 are driven to move rightwards in the left and right sliding grooves 34 through the toggle rack 62, the left and right springs 59 drive the left and right sliding blocks 58 to have a force leftwards all the time, the rotating gear 39 drives the rotating gear 36 to drive the toggle rack 62 to rotate through the rotating shaft 35, the stretching wire 44 on the toggle rack 62 is always paid off, the stretching wire 44 is always in a tight and just good state, when the moving blocks 41 stop moving in the moving sliding grooves 40, the left and right springs 59 drive the left, the left and right sliders 58 touch the spring block 68, the spring block 68 moves leftwards in the spring groove 67, the spring block 68 pulls the sliding rod 66 to move towards the middle in the symmetrical sliding groove 65 through the splicing rod 69, the upper and lower symmetrical clamping plates 73 contact with the clamping gear 60 to clamp the clamping gear 60 to prevent rotation, a user rotates the grab handle 43, the grab handle 43 pulls the stretching wire 44 through the auxiliary shaft 45 to further drive the left and right sliders 58 to move leftwards, at the moment, the clamping plate 73 clamps the clamping gear 60 to move leftwards in the clamping slider 74, the left and right sliders 58 move leftwards and simultaneously drive the middle rotary disc 31 leftwards through the right-angle rack 33, the middle rotary disc 31 drives the clamping groove slider 57 to be separated from the sliders 55 through the pulling rod 32, the power storage spring 22 is reset, the detection disc 49 is driven to move from the penetrating shaft 20, the detection disc 49 moves in the detection slide way 50 through the pressure block 53, the pressure, meanwhile, the detection hollow disc 18 is driven to rotate, the detection hollow disc 18 drives the upper-layer concave plate 13 and the lower-layer extrusion plate 16 to slide in the upper-layer chute 14 and the lower-layer chute 15 through the symmetrical rod 48, so that the upper-layer concave plate 13 and the arms are in contact with the lower-layer extrusion plate 16 and the air bag, the distance between the cuff and the partition wall can be sensed through the pressure sensor 51, data is transmitted to the air pump 47 to regulate and control the gas in the cuff 77, the tightness degree of the distance between the cuff and the arms is right, and the accuracy of measurement is guaranteed.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.