CN213788040U - Correcting mirror with stable structure - Google Patents

Abstract

The utility model provides a stable in structure's inspection glass belongs to inspection glass technical field, include: correcting mirror, picture frame, disc, connecting axle, sleeve, rack, support frame, first pivot, first driven gear, drive shaft, first rotatory rudderstock, drive mechanism, brace table, second pivot, second driven gear, third pivot, driving gear and second rotate the rudderstock. The utility model provides a correcting mirror structure when rotating unstable and can't realize altitude mixture control's problem.

Description

Correcting mirror with stable structure

The technical field is as follows:

the utility model belongs to the technical field of the inspection glass, concretely relates to stable in structure's inspection glass.

Background art:

if a patient with abnormal neck or trunk posture is not corrected in time by a hospital, the patient is influenced not only in appearance but also in normal life function.

At present, the correction of patient's neck or trunk posture adopts the correcting mirror, but current correcting mirror adopts simple support to support, when the patient carries out the rehabilitation training, need to rotate correcting mirror on the horizontal direction, make this correcting mirror position department position can satisfy patient's rehabilitation training requirement conveniently, but medical personnel because correcting mirror overall structure is not stable enough when rotating the correcting mirror, the danger of empting takes place easily, and the highly fixed of correcting mirror, can't accomplish the patient that is applicable to different heights.

Therefore, it is necessary to develop a correcting mirror capable of maintaining a stable structure and being adjustable in height when horizontally rotated.

The utility model has the following contents:

the embodiment of the utility model provides a stable in structure's inspection glass has solved the inspection glass structure when rotating unstable and can't realize altitude mixture control's problem.

The embodiment of the utility model provides a stable in structure's inspection glass, include:

a correcting mirror;

a mirror frame clamped on both sides of the correcting mirror;

the center of the disc is provided with a rectangular hole, and the disc is positioned right below the mirror frame;

the upper end of the connecting shaft is fixedly connected with the mirror frame;

the sleeve is sleeved and fixed on the outer side wall of the connecting shaft, and the lower part of the sleeve is connected in a sliding manner in the rectangular hole of the disc in a matching manner;

the rack is vertically arranged on the outer side wall of the upper part of the sleeve;

the supporting frame is vertically fixed on the disc and is positioned on one side of the rack, and the height of the supporting frame extends to the waist of a human body;

the first rotating shaft is rotatably connected to the supporting frame;

the first driven gear is in key connection with the first rotating shaft and is meshed with the rack;

the driving shaft is rotatably connected to the upper end of the supporting frame;

a first rotary tiller sleeved and fixed on the driving shaft;

a transmission mechanism connecting the drive shaft and the first rotating shaft;

a support table located directly below the disc;

the upper end of the second rotating shaft is fixedly connected with the bottom of the disc, and the lower end of the second rotating shaft is rotatably connected with the top of the supporting platform;

a second driven gear which is connected to the second rotating shaft by a key;

the upper end of the third rotating shaft extends to a position higher than the waist of a human body, and the lower end of the third rotating shaft is rotatably connected to the top of the supporting table;

the driving gear is connected to the third rotating shaft in a key mode and meshed with the second driven gear; and

and the second rotary tiller is sleeved and fixed at the upper end of the third rotating shaft.

In some embodiments, the structurally stable corrector mirror further comprises two uprights and a handrail connected between the two uprights and held by a person, and lower ends of the two uprights are fixedly connected to the support table.

In some embodiments, the transmission mechanism includes a first gear, a second gear, a first chain, a third gear, a fourth gear, a transmission shaft, and a second chain, the first gear is connected to the first rotating shaft in a key manner, the transmission shaft is rotatably connected to the supporting frame, both the second gear and the third gear are connected to the transmission shaft in a key manner, the first gear is connected to the second gear through the first chain, the fourth gear is connected to the driving shaft in a key manner, and the fourth gear is connected to the third gear through the second chain.

In some embodiments, the first rotary tiller comprises a first annular plate and a first grip arranged evenly along an edge of the first annular plate, the first annular plate being fitted over the drive shaft.

In some embodiments, the second rotary tiller comprises a second annular plate and second grips uniformly arranged along an edge of the second annular plate, the second annular plate being sleeved on the third shaft.

In some embodiments, the mirror frame comprises a right vertical rod, a left vertical rod, an upper right horizontal rod, an upper left horizontal rod and a lower horizontal rod, wherein two ends of the lower horizontal rod are respectively connected with the lower ends of the right vertical rod and the left vertical rod, one end of the upper right horizontal rod is connected with the right end of the correcting mirror, the other end of the upper right horizontal rod is connected with the upper end of the right vertical rod, one end of the upper left horizontal rod is connected with the left end of the correcting mirror, and the other end of the upper left horizontal rod is connected with the upper end of the left vertical rod.

The embodiment of the utility model provides an adopt the mode that drives first driven gear and drive the rack by it and reciprocate to realize the reciprocating of sleeve and connecting axle, and finally reach the height control of correcting mirror; the driving gear drives the second driven gear to rotate horizontally, so that the horizontal rotation of the disc and the correcting mirror is realized, the purpose of adjusting the horizontal angle of the correcting mirror is achieved, and the whole utility model has a stable integral structure in the horizontal rotation process of the correcting mirror; the utility model provides a correcting mirror structure when rotating unstable and can't realize altitude mixture control's problem.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the invention. The objectives and other advantages of the invention may be realized and attained by the structure particularly pointed out in the written description and drawings.

Description of the drawings:

the accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic structural view of the present invention;

reference numerals: 10. a correcting mirror; 20. a mirror frame; 201. a right side vertical bar; 202. a left side vertical bar; 203. an upper right horizontal rod; 204. an upper left horizontal bar; 205. a lower horizontal bar; 30. a disc; 301. a rectangular hole; 40. a connecting shaft; 50. a sleeve; 60. a rack; 70. a support frame; 80. a first rotating shaft; 90. a first driven gear; 100. a drive shaft; 110. a first rotary tiller; 1101. a first annular plate; 1102. a first handle bar; 120. a transmission mechanism; 1201. A first gear; 1202. a second gear; 1203. a first chain; 1204. a third gear; 1205. a fourth gear; 1206. a drive shaft; 1207. a second chain; 130. a support table; 140. a second rotating shaft; 150. a second driven gear; 160. a third rotating shaft; 170. a driving gear; 180. a second rotary tiller; 1801. a second annular plate; 1802. a second handle bar; 190. erecting a rod; 200. a handrail.

The specific implementation mode is as follows:

in order to make the technical solution of the present invention's purpose, technical solution and advantages clearer, the following description will be combined with the drawings of the specific embodiments of the present invention, to carry out clear and complete description on the technical solution of the embodiments of the present invention. Like reference symbols in the various drawings indicate like elements. It should be noted that the described embodiments are only some embodiments of the present invention, and not all embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive work based on the described embodiments of the present invention, belong to the protection scope of the present invention.

As shown in fig. 1, an embodiment of the present invention provides a correcting mirror with stable structure, including: the correcting mirror 10, the mirror frame 20, the disc 30, the connecting shaft 40, the sleeve 50, the rack 60, the support bracket 70, the first rotating shaft 80, the first driven gear 90, the driving shaft 100, the first rotary tiller 110, the transmission mechanism 120, the support table 130, the second rotating shaft 140, the second driven gear 150, the third rotating shaft 160, the driving gear 170 and the second rotary tiller 180.

The alignment scope 10 is marked with uniform marks to facilitate knowing that the patient is correctly aligned.

The lens frame 20 is held between both sides of the correcting mirror 10 and fixes the correcting mirror 10.

The disc 30 has a rectangular hole 301 in the center thereof, and the disc 30 is positioned directly below the rim 20.

The upper end of the connecting shaft 40 is fixedly connected with the spectacle frame 20;

the sleeve 50 is sleeved and fixed on the outer side wall of the connecting shaft 40, the lower portion of the sleeve 50 is also rectangular and is connected in the rectangular hole 301 of the disc 30 in a sliding mode in a matched mode, the rectangular hole 301 is arranged, when the disc 30 rotates horizontally, the sleeve 50 also rotates horizontally, and the up-and-down movement of the sleeve 50 is not affected.

The rack 60 is vertically provided on the upper outer sidewall of the sleeve 50.

The supporting frame 70 is vertically fixed on the disc 30 and is positioned at one side of the rack 60, and the height of the supporting frame 70 extends to the waist of the human body.

First pivot 80 rotates to be connected on support frame 70, first driven gear 90 key-type connect on first pivot 80 and mesh mutually with rack 60, drive shaft 100 rotates to be connected in the upper end of support frame 70, first rotatory rudder hand 110 suit is fixed on drive shaft 100, drive mechanism 120 connects drive shaft 100 and first pivot 80, drive mechanism 120 not only can the transmission torque, also can reach the distance of regulation and control first rotatory rudder hand 110 for first rotatory rudder hand 110 is in the position of being convenient for people to operate.

The support table 130 is located directly below the puck 30.

The upper end of the second shaft 140 is fixedly connected to the bottom of the disc 30 and the lower end is rotatably connected to the top of the supporting platform 130.

The second driven gear 150 is keyed on the second rotating shaft 140, the third rotating shaft 160 is vertically disposed, the upper end of the third rotating shaft 160 extends to the height of the waist of the human body, and the lower end is rotatably connected to the top of the supporting table 130.

The driving gear 170 is keyed on the third shaft 160 and engaged with the second driven gear 150.

The second rotary tiller 180 is fixed to the upper end of the third rotary shaft 160 in a sleeved manner.

When the medical correcting mirror 10 works, the correcting mirror 10 is carried in front of a patient, a medical worker operates the first rotary tiller 110 to vertically rotate, the driving shaft 100 vertically rotates and drives the first rotating shaft 80 to vertically rotate through the transmission mechanism 120, the first rotating shaft 80 drives the first driven gear 90 to vertically rotate, the first driven gear 90 drives the rack 60 to vertically move, the sleeve 50 and the connecting shaft 40 to vertically move, and therefore the mirror frame 20 vertically moves and finally the height of the correcting mirror 10 is adjusted; the medical staff operates the first rotary tiller 110 to rotate horizontally, the third rotary shaft 160 drives the driving gear 170 to rotate horizontally, and then drives the second driven gear 150, so that the second rotary shaft 140 and the disc 30 rotate horizontally, the sleeve 50 and the connecting shaft 40 rotate horizontally, the mirror frame 20 and the correcting mirror 10 rotate horizontally, and the correcting mirror 10 rotates in-process stable in structure.

Preferably, the correcting mirror with stable structure further comprises two vertical rods 190 and a handrail 200 connected between the two vertical rods 190 and used for holding by a person, wherein the lower ends of the two vertical rods 190 are fixedly connected to the support table 130, and the handrail 200 is used for resting and supporting by a patient.

Preferably, the transmission mechanism 120 includes a first gear 1201, a second gear 1202, a first chain 1203, a third gear 1204, a fourth gear 1205, a transmission shaft 1206 and a second chain 1207, the first gear 1201 is keyed on the first rotating shaft 80, the transmission shaft 1206 is rotatably connected on the supporting frame 70, both the second gear 1202 and the third gear 1204 are keyed on the transmission shaft 1206, the first gear 1201 is connected with the second gear 1202 through the first chain 1203, the fourth gear 1205 is keyed on the driving shaft 100, the fourth gear 1205 is connected with the third gear 1204 through the second chain 1207, and the transmission mechanism 120 is simple and practical in structure.

Preferably, the first rotary tiller 110 includes a first annular plate 1101 and first grips 1102 uniformly arranged along the edge of the first annular plate 1101, the first annular plate 1101 is fitted over the drive shaft 100, and the first rotary tiller 110 is simple in structure.

Preferably, the second rotary tiller 180 includes a second annular plate 1801 and second grips 1802 evenly arranged along the edge of the second annular plate 1801, the second annular plate 1801 is fitted around the third rotary shaft 160, and the second rotary tiller 180 has a simple structure.

Preferably, the frame 20 comprises a right vertical rod 201, a left vertical rod 202, an upper right horizontal rod 203, an upper left horizontal rod 204 and a lower horizontal rod 205, two ends of the lower horizontal rod 205 are respectively connected with the lower ends of the right vertical rod 201 and the left vertical rod 202, one end of the upper right horizontal rod 203 is connected with the right end of the correcting mirror 10 while the other end is connected with the upper end of the right vertical rod 201, one end of the upper left horizontal rod 204 is connected with the left end of the correcting mirror 10 while the other end is connected with the upper end of the left vertical rod 202, and the frame 20 is simple in structure.

In the embodiment of the present invention, the first driven gear 90 is driven and the rack 60 is driven by the first driven gear to move up and down, so as to realize the up-and-down movement of the sleeve 50 and the connecting shaft 40, and finally achieve the height adjustment of the correcting mirror 10; the driving gear 170 drives the second driven gear 150 to horizontally rotate, so that the disc 30 and the correcting mirror 10 horizontally rotate, the purpose of adjusting the horizontal angle of the correcting mirror 10 is achieved, and the whole structure of the whole utility model is stable in the process of horizontally rotating the correcting mirror 10; the utility model provides a correcting mirror 10 when rotating the problem that the structure is not stable enough and can't realize altitude mixture control.

The technical means disclosed by the scheme of the utility model is not limited to the technical means disclosed by the technical means, but also comprises the technical scheme consisting of the equivalent replacement of the technical features. The present invention is not to be considered as the best thing, and belongs to the common general knowledge of the technicians in the field.

Claims (6)

1. A structurally stable corrector lens, comprising:

a corrector lens (10);

a lens frame (20) clamped on both sides of the correcting lens (10);

a disc (30) having a rectangular hole (301) at the center thereof, the disc (30) being positioned directly below the frame (20);

the upper end of the connecting shaft (40) is fixedly connected with the spectacle frame (20);

the sleeve (50) is sleeved and fixed on the outer side wall of the connecting shaft (40), and the lower part of the sleeve (50) is matched and slidably connected in the rectangular hole (301) of the disc (30);

a rack (60) vertically disposed on an upper outer sidewall of the sleeve (50);

the supporting frame (70) is vertically fixed on the disc (30) and is positioned at one side of the rack (60), and the height of the supporting frame (70) extends to the waist of a human body;

the first rotating shaft (80) is rotatably connected to the supporting frame (70);

a first driven gear (90) which is keyed on the first rotating shaft (80) and meshed with the rack (60);

a driving shaft (100) rotatably connected to an upper end of the support frame (70);

a first rotary tiller (110) which is fixed on the driving shaft (100) in a sleeved mode;

a transmission mechanism (120) connecting the drive shaft (100) and the first rotating shaft (80);

a support table (130) located directly below the disc (30);

the upper end of the second rotating shaft (140) is fixedly connected with the bottom of the disc (30), and the lower end of the second rotating shaft is rotatably connected with the top of the supporting platform (130);

a second driven gear (150) which is keyed on the second rotating shaft (140);

the third rotating shaft (160) is vertically arranged, the upper end of the third rotating shaft (160) extends to the waist of a human body, and the lower end of the third rotating shaft is rotatably connected to the top of the supporting table (130);

a drive gear (170) which is keyed on the third rotating shaft (160) and is meshed with the second driven gear (150); and

and the second rotary tiller (180) is sleeved and fixed at the upper end of the third rotating shaft (160).

2. The structurally stabilized corrector mirror as claimed in claim 1, wherein: the correcting mirror with the stable structure further comprises two vertical rods (190) and a hand rod (200) which is connected between the two vertical rods (190) and is used for holding by a person, and the lower ends of the two vertical rods (190) are fixedly connected to the supporting platform (130).

3. The structurally stabilized corrector mirror as claimed in claim 1, wherein: the transmission mechanism (120) comprises a first gear (1201), a second gear (1202), a first chain (1203), a third gear (1204), a fourth gear (1205), a transmission shaft (1206) and a second chain (1207), wherein the first gear (1201) is connected to the first rotating shaft (80) in a key mode, the transmission shaft (1206) is connected to the supporting frame (70) in a rotating mode, the second gear (1202) and the third gear (1204) are connected to the transmission shaft (1206) in a key mode, the first gear (1201) is connected with the second gear (1202) through the first chain (1203), the fourth gear (1205) is connected to the driving shaft (100) in a key mode, and the fourth gear (1205) is connected with the third gear (1204) through the second chain (1207).

4. The structurally stabilized corrector mirror as claimed in claim 3, wherein: the first rotary tiller (110) comprises a first annular plate (1101) and a first grip lever (1102) evenly arranged along an edge of the first annular plate (1101), the first annular plate (1101) being fitted over the drive shaft (100).

5. The structurally stabilized corrector mirror as claimed in claim 1, wherein: the second rotary tiller (180) comprises a second annular plate (1801) and second hand grips (1802) uniformly arranged along the edge of the second annular plate (1801), and the second annular plate (1801) is sleeved on the third rotating shaft (160).

6. The structurally stabilized corrector mirror as claimed in claim 1, wherein: the picture frame (20) include right side montant (201), left side montant (202), go up right horizontal pole (203), go up left horizontal pole (204) and a lower horizontal pole (205), the both ends of lower horizontal pole (205) respectively with right side montant (201) with the lower extreme of left side montant (202) is connected, go up right horizontal pole (203) one end with the right-hand member of correcting mirror (10) is connected and the other end with the upper end of right side montant (201) is connected, go up left horizontal pole (204) one end with the left end of correcting mirror (10) is connected and the other end with the upper end of left side montant (202) is connected.

Images