CN113258943B

CN113258943B - Millimeter wave generating device

Info

Publication number: CN113258943B
Application number: CN202110754275.4A
Authority: CN
Inventors: 张雪艳
Original assignee: Beijing Zhongcheng Kangfu Technology Co ltd
Current assignee: Beijing Zhongcheng Kangfu Technology Co ltd
Priority date: 2021-07-05
Filing date: 2021-07-05
Publication date: 2021-09-21
Anticipated expiration: 2041-07-05
Also published as: CN113258943A

Abstract

The invention discloses a millimeter wave generating device, which comprises a telescopic shell and a millimeter wave transmitting head arranged at the upper end of the telescopic shell, wherein the telescopic shell comprises an upper generating shell and a lower moving shell, the upper generating shell is internally used for integrally mounting a millimeter wave transmitter, the lower moving shell is used for providing a universal pushing function, the upper generating shell and the lower moving shell are connected through a folding plate, and the inner part of the upper generation shell is provided with supporting handles at four corners, the inner part of the lower movement shell is provided with a trapezoidal hollow plate for the sliding of the supporting handles at four corners, the upper end of the lower movement shell is provided with cutting surfaces at four corners corresponding to the trapezoidal hollow plate, the cutting surfaces are provided with bolts through threads, the support handle is provided with a plurality of threaded holes which are uniformly distributed, and the bolts are fixed with the threaded holes at different positions so as to adjust the total height of the telescopic shell; the invention is suitable for positions with different heights, and the millimeter wave transmitting head can be used in any position of a human body.

Description

Millimeter wave generating device

Technical Field

The invention relates to the technical field of millimeter wave therapeutic instruments, in particular to a millimeter wave generating device.

Background

The millimeter wave is an extremely high frequency electromagnetic wave having a frequency of 30 to 300 GHz (1 GHz = 109 Hz) and a wavelength of 1 to 10 mm. Millimeter waves act on a human body, and cause non-thermal effect through the resonance theory of 'electromagnetic coherent oscillation'. Namely: when a biological system absorbs a small amount of millimeter wave electromagnetic energy, due to the resonance absorption of millimeter wave radiation by cells and molecular polymers, biological change which does not belong to temperature change, namely non-thermal effect, is generated. The low-intensity millimeter waves can accelerate the active migration of ions; a change in cell membrane permeability; oxidation of lipid compounds peroxides in the body of fat is accelerated; the ion permeability of the bilayer lipid membrane is increased. Thereby expanding local blood vessels of patients, accelerating blood flow, increasing nutrition metabolism of tissue cells, improving tissue function and regeneration capacity, and accelerating absorption and excretion of pathological products and metabolic products. Therefore, the product has the effects of diminishing inflammation, killing bacteria, relieving swelling and pain. Clinical practices for more than twenty years prove that the millimeter wave therapeutic apparatus can improve local blood circulation, and has the main treatment ranges of diminishing inflammation, diminishing swelling, relieving pain, promoting blood circulation, recovering tissue growth and healing wounds.

Present domestic millimeter wave generator has two kinds of using-way, and one of them is hand-held type, and another is rotating assembly's folding rod formula, and hand-held type is inconvenient to the use of some waists, neck and back, can't liberate both hands, and the use height of folding rod is a little higher than the height of box, and application scope is than lower, and is too high when the box, then area is big, is unfavorable for the family to accomodate, and the box is low excessively, then inconvenient use place work in the difference. It is inconvenient to use in some occasions, such as a high bed or a high chair.

Disclosure of Invention

The invention aims to provide a millimeter wave generating device, which solves the technical problem that the portable household millimeter wave generating device in the prior art is inconvenient to use in certain occasions such as a high bed or a high seat due to fixed height.

In order to solve the technical problems, the invention specifically provides the following technical scheme:

a millimeter wave generating device comprises a telescopic shell and a millimeter wave transmitting head arranged at the upper end of the telescopic shell, wherein the telescopic shell comprises an upper generating shell and a lower moving shell, the upper generating shell is internally used for integrally mounting a millimeter wave transmitter, and the lower moving shell is used for realizing transfer through a universal wheel;

go up take place the casing with move down and connect through the folded sheet between the casing, just the inside of going up the casing is equipped with the support handle at four angular position fixings, the inside of moving the casing down is equipped with the confession at four angular position the trapezoidal coreless board is spacing gliding from top to bottom trapezoidal coreless board, the upper end of moving the casing down corresponds four angular position of trapezoidal coreless board is equipped with the cutting plane, install the bolt through the screw thread on the cutting plane, just be equipped with a plurality of evenly distributed's screw hole on the support handle, the bolt through with different positions the screw hole is fixed in order to realize the adjustment the total height of flexible casing.

As a preferable scheme of the present invention, the center positions of the two inclined surfaces of the trapezoidal hollow core plate are provided with elastic protruding blocks at positions corresponding to the bolts, the two inclined surfaces of the support handle are provided with locking protrusions at the position of each threaded hole, the length of the combination of the locking protrusions and the support handle is the same as the center length of the trapezoidal hollow core plate, and the vertical width of the support handle is the same as the width of the trapezoidal hollow core plate;

each clamping lug and each elastic protruding block are mutually limited so as to realize the temporary fixation of the upper generation shell to wait for the fastening of the bolt, and when each clamping lug and each elastic protruding block are mutually limited, the threaded hole corresponding to the clamping lug coincides with the position of the bolt.

As a preferable scheme of the present invention, mounting holes matched with the positions of the trapezoidal hollow core plates one by one are formed in the center positions of the two inclined surfaces of the trapezoidal hollow core plate, a cushion block is arranged in the center position of the mounting hole, the elastic protruding block is mounted on the cushion block through a slot hole in the center position of the elastic protruding block, a compression spring connected with the cushion block is arranged in the slot hole, the outer surface of the elastic protruding block is an arc surface, an extension plate clamped with the mounting hole for limiting is arranged at the edge of the elastic protruding block, the clamping protruding block is opposite to the elastic protruding block, the clamping protruding block is mounted perpendicular to the inclined surface of the support handle, and the clamping protruding block is clamped with the elastic protruding block for temporarily fixing the upper generation shell.

As a preferred scheme of the invention, the tail end of the cushion block is provided with a guide claw rod, the elastic bulge block is provided with a cylindrical hole groove in the circumferential direction of the slotted hole, and the guide claw rod moves linearly in the cylindrical hole groove to realize the limiting expansion of the elastic bulge block;

the length of the guide pawl rod at the lower end is smaller than that of the guide pawl rod at the upper end, the length of the upper surface of the elastic convex block is larger than that of the lower surface of the elastic convex block, and the upper surface of the elastic convex block is provided with a turning lower sliding surface close to the outer end.

As a preferable aspect of the present invention, the side surface of the elastic protrusion block is provided with the smooth facing for reducing the frictional force with the locking protrusion, the upper surface of the elastic protrusion block is provided with a rough facing for increasing the frictional force with the locking protrusion, and the area of the upper surface of the elastic protrusion block without being pressed by the locking protrusion is smaller than the area of the locking protrusion of the support lever.

As a preferable aspect of the present invention, two sets of auxiliary support structures are respectively disposed on two parallel surfaces of the telescopic housing, each of the auxiliary support structures includes a linear rail disposed on a bottom surface of the upper generation housing and a top surface of the lower movement housing, and a scissor-type support rod mounted on the linear rail, a center of gravity of the scissor-type support rod is connected by a circular bearing, two end surfaces of the circular bearing are connected to the support handles on two sides by a reinforcing rod, and upper and lower ends of the scissor-type support rod are respectively provided with a sliding caster, the sliding caster moves relatively close to each other when the upper generation housing moves up, and the sliding caster moves relatively back away from each other when the upper generation housing moves down.

As a preferable scheme of the present invention, the sliding caster includes a Y-shaped sole mounted at each end of the scissor-shaped support rod, and rollers mounted on two branches of the Y-shaped sole, each of the linear rails is provided with an i-shaped slideway, and the rollers roll along rails on two sides of the i-shaped slideway, respectively.

In a preferred embodiment of the present invention, the maximum extension height of the upper generation housing and the lower movement housing is half of the length of the scissor-type strut, the minimum extension height of the upper generation housing and the lower movement housing is the diameter of the circular bearing, and the length of the extension housing is equal to or greater than the length of the scissor-type strut.

Compared with the prior art, the invention has the following beneficial effects:

the invention improves the practicability by designing the telescopic shell, is suitable for being used at different height positions, and therefore, the millimeter wave transmitting head can be conveniently used at any position of a human body, such as a low-position tatami or a high-mattress bed.

Drawings

In order to more clearly illustrate the embodiments of the present 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. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

Fig. 1 is a schematic overall structural diagram of a millimeter wave generating device according to an embodiment of the present invention;

fig. 2 is a schematic top view of the lower movable housing according to the embodiment of the present invention;

FIG. 3 is a schematic diagram of a contracted configuration of an elastic bump according to an embodiment of the present invention;

FIG. 4 is a schematic view of an extended structure of an elastic bump according to an embodiment of the present invention;

FIG. 5 is a schematic view of an overall structure of an auxiliary supporting structure according to an embodiment of the present invention;

fig. 6 is a schematic view of a sliding structure of an i-shaped slideway according to an embodiment of the invention;

the reference numerals in the drawings denote the following, respectively:

1-a telescopic shell; 2-millimeter wave transmitting head; 3-a rubber storage bag; 4-a trapezoidal hollow plate; 5-a support handle; 6-cutting surface; 7-bolt; 8-a threaded hole; 9-elastic bumps; 10-a locking bump; 11-mounting holes; 12-cushion blocks; 13-a slot; 14-a compression spring; 15-extension board; 16-an auxiliary support structure; 19-turning the lower sliding surface; 20-guiding claw rods; 21-cylindrical bore slots; 22-smooth facing; 23-rough veneering;

101-upper generation housing; 102-a lower mobile housing; 103-folding plate;

1601-linear track; 1602-scissor type struts; 1603-circular bearing; 1604-sliding caster; 1605-Y shaped sole; 1606-a roller; 1607-an i-shaped slide; 1608-reinforcing rods.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 and 2, the present invention provides a millimeter wave generating device, the existing household millimeter wave generator has two usage modes, one is a handheld type, and the other is a folding rod type of a rotating assembly, the handheld type is inconvenient for using some waist, neck and back, hands cannot be liberated, the usage height of the folding rod is slightly higher than that of a box body, the application range is low, when the box body is too high, the occupied area is large, the storage in a family is not facilitated, and when the box body is too low, the operation in different usage places is inconvenient.

In order to solve the above problems, the present embodiment provides the case in a telescopic manner, so that the case can be compressed to a low height when not in use and can be stretched to a high level when in use, thereby facilitating storage and use at different heights.

Specifically including flexible casing 1 and the millimeter wave transmitting head 2 of setting in flexible casing 1 upper end, the lower extreme of flexible casing 1 is equipped with the rubber that is used for collecting millimeter wave transmitting head 2 and accomodates bag 3, and millimeter wave transmitting head 2 is retrieved after buckling many times and is accomodate inside bag 3 at rubber, realizes the protection to millimeter wave transmitting head 2 when accomodating, avoids because the family collision arouses the damage of millimeter wave transmitting head 2 when accomodating.

The upper end of the upper generation shell 101 is provided with a horizontal 180-degree rotating assembly, the rotating assembly is provided with a first rotating assembly, the first rotating assembly is connected with a second rotating assembly through a first long shaft, the second rotating assembly is connected with a third rotating assembly through a second long shaft, and the millimeter wave transmitting head 2 is movably arranged on the third rotating assembly, so that the millimeter wave transmitting head 2 is large in moving range and high in use flexibility.

The telescopic shell 1 comprises an upper generation shell 101 and a lower generation shell 102, the upper generation shell 101 is internally used for integrally installing a millimeter wave transmitter, the lower generation shell 102 is used for providing a universal pushing function, the upper generation shell 101 is connected with the lower generation shell 102 through a folding plate 103, the upper generation shell 101 is internally provided with a trapezoidal hollow plate 4 at four corners, the lower generation shell 102 is internally provided with a support handle 5 sliding inside the trapezoidal hollow plate 4 at four corners, the lower end of the upper generation shell 101 is provided with cutting surfaces 6 at four corners corresponding to the trapezoidal hollow plate 4, the cutting surfaces 6 are provided with bolts 7 through threads, the support handle 5 is provided with a plurality of uniformly distributed threaded holes 8, and the bolts 7 are fixed through the threaded holes 8 at different positions to realize the total height of the telescopic shell 1.

As shown in fig. 3, the inner walls of the two inclined surfaces of the trapezoidal hollow core plate 4 are provided with elastic protrusions 9 at positions corresponding to the bolts 7, the two inclined surfaces of the support handle 5 are provided with locking projections 10 at positions corresponding to the screw holes 8, each locking projection 10 and the elastic protrusion 9 are mutually limited to realize temporary fixation of the upper generation housing 101 for further fastening of the bolts 7, and the screw holes 8 corresponding to the locking projections 10 and the bolts 7 are overlapped at positions when each locking projection 10 and the elastic protrusion 9 are mutually limited.

In the embodiment, the height of the telescopic shell 1 is adjusted by lifting and pushing down, when the telescopic shell is lifted, the bolt 7 is rotated outwards, the support handle 5 slides inside the trapezoidal hollow core plate 4 to adjust the overall height of the telescopic shell 1, when the telescopic shell is lifted to a certain height, the height of the telescopic shell 1 is determined temporarily by limiting the clamping convex block 10 and the elastic convex block 9 mutually, and then the bolt 7 and the threaded hole 8 penetrating through the support handle 5 are used for fixing the height of the telescopic shell 1.

In addition, because the locking lugs 10 on the two inclined surfaces of the support handle 5 correspond to the positions of each threaded hole 8 on the front surface of the support handle one by one, when the support handle 5 is lifted upwards, the threaded holes 8 on the support handle 5 can be ensured to be opposite to the bolts 7 by locking the locking lugs 10 and the elastic lugs 9 each time, and the fixing work of the bolts 7 is facilitated.

The inner walls of the two inclined planes of the trapezoidal hollow board 4 are provided with mounting holes 11 vertical to the trapezoidal hollow board 4, the central position of each mounting hole 11 is provided with a cushion block 12, each elastic protruding block 9 is mounted on the cushion block 12 through a slotted hole 13 at the central position of the elastic protruding block 9, a compression spring 14 connected with the cushion block 12 is arranged in each slotted hole 13, the outer surface of each elastic protruding block 9 is an arc-shaped surface, the edge of each elastic protruding block 9 is provided with an extension plate 15 mutually clamped and limited with the mounting hole 11, each clamping protruding block 10 is just opposite to the corresponding elastic protruding block 9, each clamping protruding block 10 is mounted on the inclined plane of the support handle 5, and each clamping protruding block 10 is clamped with the corresponding elastic protruding block 9 to temporarily fix the shell 101.

In order to improve the stability of the telescopic operation of the elastic protrusion 9, in the present embodiment, the end of the cushion block 12 is provided with the guiding claw rod 20, the elastic protrusion 9 is provided with the cylindrical hole groove 21 in the circumferential direction of the slot hole 13, the guiding claw rod 20 moves linearly in the cylindrical hole groove 21 to realize the limited telescopic operation of the elastic protrusion 9, the length of the upper surface of the elastic protrusion 9 is greater than the length of the lower surface of the elastic protrusion 9, and the upper surface of the elastic protrusion 9 is provided with the turning lower sliding surface 19, so that the length of the cylindrical hole groove 21 matched with the guiding claw rod 20 at the upper end is greater than the length of the cylindrical hole groove 21 matched with the guiding claw rod 20 at the lower end.

The outer surface of the elastic bulge 9 is close to the inclined plane, and the inclined direction is upward, therefore, the length of the guide claw rod 20 positioned at the lower end of the cushion block 12 is smaller than the length of the guide claw rod 20 positioned at the upper end of the cushion block 12, which facilitates the operation of the elastic bulge 9 in the retraction mounting hole 11, and the length of the upper surface of the elastic bulge 9 is larger than the length of the lower surface of the elastic bulge 9, the lower surface of the elastic bulge 9 facilitates the fixing work of the locking lug 10, and the turning lower sliding surface 19 facilitates the downward pushing movement of the upper generation shell 101.

Therefore, as shown in fig. 3 and 4, when the support lever 5 is used in a high-height state from a compressed state, and the support lever 5 moves up to a position directly above the elastic projection 9, the elastic projection 9 is pushed out from the mounting hole 11 by the elastic force of the compression spring 14 without being pressed by the support lever 5, and the lower surface of the support lever 5 is temporarily fixed by the elastic projection 9 which is pushed out.

When supporting handle 5 and using to change into the compression state of accomodating by increasing, support handle 5 and promote along elasticity protruding piece 9 directly over the surface downwards, because the lower surface of card lug 10 is greater than the upper surface area that exceeds the elasticity protruding piece 9 of mounting hole 11, elasticity protruding piece 9 is under the extruded condition of supporting handle 5, in the indentation mounting hole 11, analogizes in proper order, realizes the altitude mixture control to telescopic shell 1.

Since the support lever 5 is smoothly slid under a desired operation condition when the height of the telescopic housing 1 is increased by pulling it upward, and the support lever 5 is moved downward to decrease the height of the telescopic housing 1 under a desired operation condition in which a certain stability is maintained, the present embodiment is provided with the smooth facing surface 22 for decreasing the frictional force with the locking protrusion 10 on the side surface of the elastic protrusion 9, and the rough facing surface 23 for increasing the frictional force with the locking protrusion 10 on the upper surface of the elastic protrusion 9.

As shown in fig. 5 and 6, two sets of auxiliary supporting structures 16 are respectively disposed on two parallel surfaces of the telescopic housing 1, each auxiliary supporting structure 16 includes a linear rail 1601 disposed on the bottom surface of the upper generation housing 101 and the top surface of the lower movement housing 102, and a scissors-type strut 1602 mounted on the linear rail 1601, the center of gravity of the scissors-type strut 1602 is connected by a circular bearing 1603, and both upper and lower ends of the scissors-type strut 1602 are respectively provided with a sliding caster 1604, the sliding caster 1604 moves relatively close to each other when the upper generation housing 101 moves upward, and the sliding caster 1604 moves relatively back away from each other when the upper generation housing 101 moves downward.

The sliding caster 1604 comprises a Y-shaped sole 1605 mounted on each end of the scissor-shaped support 1602, and rollers 1606 mounted on two branches of the Y-shaped sole 1605, wherein an i-shaped slideway 1607 is provided on each linear rail 1601, and the rollers 1606 roll along the rails on two sides of the i-shaped slideway 1607 respectively.

The maximum extension height of the upper generation housing 101 and the lower movement housing 102 is half of the length of the scissor type support 1602, and the minimum extension height of the upper generation housing 101 and the lower movement housing 102 is the diameter of the circular bearing 1603, and the length of the extension housing 1 is equal to or greater than the length of the scissor type support 1602.

In order to ensure the stability of the upper case 101 moving up and down, the present embodiment is provided with two sets of auxiliary supporting structures 16 on two parallel surfaces of the telescopic case 1, when the upper case 101 moving up and down occurs, the crossing angle of the scissor type struts 1602 of the auxiliary supporting structures 16 is changed continuously to increase the stability of the four surfaces of the telescopic case 1, and since the maximum rotation angle of the two struts of the scissor type struts 1602 is 0 to 180 °, in the present embodiment, the telescopic length of the telescopic case 1 is the same as the width of the side surface of the telescopic case 1 to which the auxiliary supporting structures 16 are attached, and the larger the width of the side surface of the telescopic case 1 to which the auxiliary supporting structures 16 are attached is, the larger the telescopic length of the telescopic case 1 is.

The above embodiments are only exemplary embodiments of the present application, and are not intended to limit the present application, and the protection scope of the present application is defined by the claims. Various modifications and equivalents may be made by those skilled in the art within the spirit and scope of the present application and such modifications and equivalents should also be considered to be within the scope of the present application.

Claims

1. The utility model provides a millimeter wave generating device, includes flexible casing (1), and sets up millimeter wave transmitting head (2) on flexible casing (1), its characterized in that: the telescopic shell (1) comprises an upper generation shell (101) and a lower moving shell (102), the upper generation shell (101) is internally used for integrally mounting a millimeter wave emitter, and the lower moving shell (102) is used for realizing transfer through a universal wheel;

the upper generation shell (101) and the lower generation shell (102) are connected through a folding plate (103), a support handle (5) is fixedly arranged at four corners of the interior of the upper generation shell (101), a trapezoidal hollow plate (4) for limiting and sliding the support handle (5) up and down is arranged at the four corners of the interior of the lower generation shell (102), a cutting surface (6) is arranged at the upper end of the lower generation shell (102) corresponding to the four corners of the trapezoidal hollow plate (4), a bolt (7) is installed on the cutting surface (6) through a thread, a plurality of threaded holes (8) are uniformly distributed in the support handle (5), and the bolt (7) is fixed with the threaded holes (8) at different positions to adjust the total height of the telescopic shell (1);

elastic convex blocks (9) are arranged at the center positions of the two inclined surfaces of the trapezoidal hollow plate (4) at positions corresponding to the bolts (7), and clamping convex blocks (10) are arranged at the positions of each threaded hole (8) on the two inclined surfaces of the support handle (5);

the center positions of two inclined planes of the trapezoidal hollow board (4) are provided with mounting holes (11) which are matched with the positions of the trapezoidal hollow board (4) one by one, a cushion block (12) is arranged at the center of the mounting hole (11), the elastic bulge block (9) is mounted on the cushion block (12) through a slotted hole (13) at the center of the elastic bulge block, and a compression spring (14) connected with the cushion block (12) is arranged in the slotted hole (13), the outer surface of the elastic bulge block (9) is an arc-shaped surface, the edge of the elastic bulge block (9) is provided with an extension plate (15) which is mutually clamped and limited with the mounting hole (11), the clamping convex block (10) is over against the elastic bulge block (9), and the locking convex block (10) is installed perpendicular to the inclined surface of the support handle (5), the locking lug (10) is locked with the elastic bulge block (9) to realize the temporary fixation of the upper generation shell (101).

2. A millimeter wave generating apparatus according to claim 1, wherein: the length of the combination of the clamping convex block (10) and the support handle (5) is the same as the central length of the trapezoidal hollow board (4), and the upper and lower width of the support handle (5) is the same as the width of the trapezoidal hollow board (4);

each clamping lug (10) and the elastic bulge block (9) are mutually limited to temporarily fix the upper generation shell (101) to be fastened by the bolt (7), and when each clamping lug (10) and the elastic bulge block (9) are mutually limited, the threaded hole (8) corresponding to the clamping lug (10) coincides with the position of the bolt (7).

3. A millimeter wave generating apparatus according to claim 1, wherein: the tail end of the cushion block (12) is provided with a guide claw rod (20), the elastic bulge block (9) is provided with a cylindrical hole groove (21) in the circumferential direction of the slotted hole (13), and the guide claw rod (20) linearly moves in the cylindrical hole groove (21) to realize the limiting expansion of the elastic bulge block (9);

the length of the guide claw rod (20) at the lower end is smaller than that of the guide claw rod (20) at the upper end, the length of the upper surface of the elastic convex block (9) is larger than that of the lower surface of the elastic convex block (9), and the outer end of the upper surface of the elastic convex block (9) is provided with a turning lower sliding surface (19).

4. A millimeter wave generating apparatus according to claim 3, wherein: the side surface of the elastic protruding block (9) is provided with a smooth attaching surface (22) used for reducing the friction force between the clamping convex blocks (10), the upper surface of the elastic protruding block (9) is provided with a rough attaching surface (23) used for increasing the friction force between the clamping convex blocks (10), and the area of the upper surface of the elastic protruding block (9) without the extrusion of the clamping convex blocks (10) is smaller than that of the clamping convex blocks (10) of the support handle (5).

5. A millimeter wave generating apparatus according to claim 1, wherein: two groups of auxiliary supporting structures (16) are respectively arranged on two parallel surfaces of the telescopic shell (1), the auxiliary support structure (16) comprises a linear track (1601) arranged on the bottom surface of the upper generation housing (101) and on the top surface of the lower movement housing (102), and a scissor type strut (1602) mounted on the linear track (1601), the center of gravity positions of the scissor type strut (1602) are connected through a circular bearing (1603), two end faces of the circular bearing (1603) are connected to the support handles (5) on two sides through reinforcing rods (1608), and the upper and lower ends of the scissor type supporting rod (1602) are respectively provided with a sliding caster (1604), the sliding caster (1604) moves relatively closer together when the upper housing (101) moves upward, and the sliding caster (1604) moves relatively back away when the upper housing (101) moves down.

6. A millimeter wave generating apparatus according to claim 5, characterized in that: slip truckle (1604) are including installing Y shape sole (1605) of every tip of scissors type branch (1602), and install gyro wheel (1606) on two branches of Y shape sole (1605), every be equipped with I shape slide (1607) on linear track (1601), gyro wheel (1606) respectively along the track of I shape slide (1607) both sides rolls.

7. A millimeter wave generating apparatus according to claim 5, characterized in that: the maximum telescopic height of the upper generation shell (101) and the lower moving shell (102) is half of the length of the scissor-type support rod (1602), the minimum telescopic height of the upper generation shell (101) and the lower moving shell (102) is the diameter of the circular bearing (1603), and the length of the telescopic shell (1) is greater than or equal to the length of the scissor-type support rod (1602).