CN112335434A - Bioengineering grafting device with cold-proof function - Google Patents

Abstract

The invention relates to a bioengineering grafting device, in particular to a bioengineering grafting device with a warm-keeping function. The bioengineering grafting device with the warm-keeping function can better fix two objects, does not damage the objects, and can heat and keep warm for the objects. A bioengineering grafting device with cold-proof function, including: a mounting frame; the vertical plate is arranged on the mounting frame; the special-shaped block is arranged on the mounting frame; the fixing component is arranged on the special-shaped block and is fixed in a rotating mode; and the heat-preservation assembly is arranged on the special-shaped block and is used for preserving heat in a heating mode. According to the invention, the object to be grafted can be fixed through the fixing component, grafting is convenient, the object to be grafted can be kept warm through the warm-keeping component, the size of the heat dissipation hole can be adjusted as required through the matching of the first inserted link and the clamping groove, the heating temperature is further adjusted, and the working quality of people is improved.

Description

Bioengineering grafting device with cold-proof function

Technical Field

The invention relates to a bioengineering grafting device, in particular to a bioengineering grafting device with a warm-keeping function.

Background

During grafting, two different objects need to be put together, and after the two different objects are put, the two objects are fixedly connected.

At present, when the grafting, need artifically fix two different objects through the instrument, this kind of manual work carries out the mode fixed with two different objects through the instrument, harms object itself easily, has reduced people's operating mass with rated load, and simultaneously, after the grafting was accomplished, can not heat and keep warm, inconvenient people used.

Therefore, it is necessary to develop a grafting device with thermal insulation function for fixing two objects better without damaging the objects themselves and heating and keeping the objects warm.

Disclosure of Invention

In order to overcome the defects that the object cannot be better fixed, the object is easy to damage and the heating and heat preservation cannot be carried out, the invention has the technical problems that: the bioengineering grafting device with the warm-keeping function can better fix two objects, does not damage the objects, and can heat and keep warm for the objects.

The technical implementation scheme of the invention is as follows: a bioengineering grafting device with cold-proof function, including: a mounting frame; the vertical plate is arranged on the mounting frame; the special-shaped block is arranged on the mounting frame; the fixing component is arranged on the special-shaped block and is fixed in a rotating mode; and the heat-preservation assembly is arranged on the special-shaped block and is used for preserving heat in a heating mode.

Further, the fixing assembly includes: two first guide rods are arranged on the vertical plate; two first sliding sleeves are arranged and are arranged on the first guide rod in a sliding manner; two first springs are arranged and are arranged between the first sliding sleeve and the first guide rod; two arc-shaped clamping plates are arranged on the special-shaped block; the connecting rod, the connecting rod is two at least, all installs on first sliding sleeve, first sliding sleeve.

Further, the warming component comprises: two first arc-shaped heating plates are arranged and are respectively arranged on the special-shaped block; first arc heating panel, first arc heating panel are two, all install on first arc hot plate, and it has two at least louvres to open on the first arc heating panel.

Further, the method also comprises the following steps: two second guide rods are arranged and are arranged on the first arc-shaped heat dissipation plate; two sliding blocks are arranged and are arranged on the second guide rod in a sliding manner; two second springs are arranged and are arranged between the sliding block and the second guide rod; the two arc plates are arranged on the sliding block and are provided with three arc holes; the two first inserting rods are arranged and are arranged on the sliding block in a sliding mode, at least two clamping grooves are formed in the outer side of the first arc-shaped heat dissipation plate, and the clamping grooves are matched with the first inserting rods; and the two third springs are arranged between the first inserted bar and the sliding block.

Further, the method also comprises the following steps: the two arc-shaped rods are arranged on the first arc-shaped heat dissipation plate; two second sliding sleeves are arranged and are arranged on the arc-shaped rod in a sliding manner; two fourth springs are arranged and are arranged between the second sliding sleeve and the arc-shaped rod, and the fourth springs are in a stretching state; two second arc-shaped heating plates are arranged on the second sliding sleeve; two second arc-shaped heat dissipation plates are arranged and are arranged on the second arc-shaped heating plate; two guide sleeves are arranged and are mounted on the second sliding sleeve; two second inserting rods are arranged and are arranged on the guide sleeve in a sliding manner; and the two fifth springs are arranged and are both arranged between the second inserted bar and the guide sleeve.

Further, the method also comprises the following steps: two first rotating shafts are arranged on the vertical plate; two guide cylinders are arranged and are mounted on the first rotating shaft; two small gears are arranged and are mounted on the first rotating shaft; the second rotating shaft is arranged on the vertical plate; the large gear is arranged on the second rotating shaft, and the small gears are all meshed with the large gear; and two contact rods are arranged and are arranged on the first sliding sleeve, and the contact rods are matched with the guide cylinder.

Further, the method also comprises the following steps: the third sliding sleeve is slidably arranged on the second rotating shaft; the sixth spring is arranged between the third sliding sleeve and the second rotating shaft; the handle is arranged on the third sliding sleeve; the special-shaped rods are two and are all installed on the third sliding sleeve, a circle of through holes are formed in the installation frame, and the special-shaped rods are matched with the through holes.

Furthermore, the guide cylinder 21 is provided with a guide groove on the guide cylinder 21.

The invention has the beneficial effects that: according to the invention, an object to be grafted can be fixed through the fixing component, grafting is convenient, the object to be grafted can be kept warm through the warm-keeping component, the size of the heat dissipation hole can be adjusted according to needs through the matching of the first inserting rod and the clamping groove, the heating temperature is further adjusted, the working quality of people is improved, and the device is more convenient to use by people.

Drawings

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

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

Figure 3 is a schematic perspective view of a thermal module of the present invention.

FIG. 4 is a schematic view of a first partial body structure according to the present invention.

FIG. 5 is a schematic view of a second partial body structure according to the present invention.

Fig. 6 is an enlarged perspective view of part a of the present invention.

Fig. 7 is a perspective view of a third embodiment of the present invention.

Fig. 8 is a perspective view of a fourth embodiment of the present invention.

Reference numerals: 1_ mounting bracket, 2_ riser, 3_ profile block, 4_ fixing component, 41_ first guide rod, 42_ first sliding sleeve, 43_ first spring, 44_ arc splint, 45_ connecting rod, 5_ warm component, 51_ first arc heating plate, 52_ first arc heating plate, 53_ heat dissipation hole, 6_ second guide rod, 7_ slider, 8_ second spring, 9_ arc plate, 10_ arc hole, 11_ first insertion rod, 12_ third spring, 13_ card slot, 14_ arc rod, 15_ second sliding sleeve, 16_ fourth spring, 17_ second arc heating plate, 18_ second arc heating plate, 19_ guide sleeve, 191_ second insertion rod, 192_ fifth spring, 20_ first rotating shaft, 21_ guide cylinder, 22_ pinion, 23_ second rotating shaft, 24_ big gear, 241_ contact rod, 25_ third sliding sleeve, 26_ sixth spring, 27_ handle, 28_ profile bar, 29_ through hole.

Detailed Description

The invention is further described below with reference to the figures and examples.

Example 1

A bioengineering grafting device with cold-proof function, as shown in fig. 1-8, including mounting bracket 1, riser 2, dysmorphism piece 3, fixed subassembly 4 and cold-proof subassembly 5, the mounting bracket 1 right side is equipped with riser 2, and the mounting bracket 1 left side is equipped with dysmorphism piece 3, is equipped with fixed subassembly 4 that fixes through the pivoted mode on the dysmorphism piece 3, is equipped with on the dysmorphism piece 3 and carries out cold-proof subassembly 5 that keeps warm through the mode of heating.

When the device is used, a worker fixes an object to be grafted through the fixing component 4, and after the fixation is completed, the object to be grafted is heated and kept warm through the warm keeping component 5.

As shown in fig. 1 and 2, the fixing assembly 4 includes a first guide rod 41, a first sliding sleeve 42, a first spring 43, an arc-shaped clamping plate 44 and a connecting rod 45, the upper and lower portions of the vertical plate 2 are respectively provided with the first guide rod 41, the first guide rod 41 is provided with the first sliding sleeve 42 in a sliding manner, the first spring 43 is connected between the first sliding sleeve 42 and the first guide rod 41 in a winding manner, the upper and lower portions of the irregular block 3 are respectively provided with the arc-shaped clamping plate 44, the front and rear portions of the first sliding sleeve 42 are respectively provided with the connecting rod 45 in a rotating manner, and the connecting rod 45 is respectively connected with the arc-shaped clamping plate.

When the device is used, a worker pulls the first sliding sleeve 42 to slide rightwards on the first guide rod 41, the first spring 43 is compressed, the first sliding sleeve 42 slides rightwards to drive the arc-shaped clamping plate 44 to be outwards opened through the connecting rod 45, then an object to be grafted is placed in the middle of the arc-shaped clamping plate 44, after the object to be grafted is placed, the first sliding sleeve 42 is loosened, under the reset effect of the first spring 43, the first sliding sleeve 42 slides leftwards to reset, drives the arc-shaped clamping plate 44 to be inwards folded through the connecting rod 45, and the object to be grafted is fixed, so that the object to be grafted can be fixed.

As shown in fig. 1, 3, 4 and 5, the warming component 5 includes a first arc-shaped heating plate 51 and a first arc-shaped heating panel 52, the front and rear sides of the special-shaped block 3 are respectively provided with the arc-shaped heating plate, the inner side of the first arc-shaped heating plate 51 is respectively provided with the first arc-shaped heating panel 52, and the first arc-shaped heating panel 52 is respectively provided with three heat dissipation holes 53.

When keeping warm to the object that needs the grafting, the staff heats through first arc hot plate 51, and at this moment, the steam of first arc hot plate 51 gets into and discharges through louvre 53 in first arc heating panel 52 to it is cold-proof to heat the object that needs the grafting, so, can heat cold-proof to the object that needs the grafting.

Example 2

On the basis of embodiment 1, as shown in fig. 1 and 4, the heat sink further includes a second guide rod 6, a slider 7, a second spring 8, an arc-shaped plate 9, a first insert rod 11 and a third spring 12, the second guide rod 6 is disposed on the outer side of the first arc-shaped heat sink 52, the slider 7 is disposed on the second guide rod 6 in a sliding manner, the second spring 8 is wound between the slider 7 and the second guide rod 6, the arc-shaped plate 9 is disposed on the slider 7, three arc-shaped holes 10 are formed in the arc-shaped plate 9, the first insert rod 11 is disposed on the slider 7 in a sliding manner, the third spring 12 is wound on the first insert rod 11 and the slider 7, a row of clamp grooves 13 is disposed on the outer side of the first arc-shaped heat sink 52, and the clamp grooves 13 are matched with the first insert rod 11.

When using the device, the staff outwards stimulates first inserted bar 11 and no longer blocks in the draw-in groove 13, third spring 12 is stretched, promote slider 7 upwards sliding on second guide arm 6 afterwards, second spring 8 is compressed, arc 9 rebound thereupon, when arc 9 rebound to suitable position, loosen first inserted bar 11, under the effect that third spring 12 resets, first inserted bar 11 resets in draw-in groove 13 along with it, so, can adjust the size of louvre 53 as required, and then adjust heating temperature, people's operating mass has been improved, make things convenient for people to use more.

On the basis of embodiment 1, as shown in fig. 1, 5, and 6, the heat sink further includes an arc rod 14, a second sliding sleeve 15, a fourth spring 16, a second arc heating plate 17, a second arc heat dissipation plate 18, a guide sleeve 19, a second insert rod 191, and a fifth spring 192, the arc rods 14 are disposed on the first arc heat dissipation plate 52, the second sliding sleeves 15 are disposed on the arc rods 14 in a sliding manner, the fourth springs 16 are wound between the second sliding sleeve 15 and the arc rods 14, the fourth springs 16 are in a stretching state, the second arc heating plates 17 are connected to the second sliding sleeve 15, the second arc heat dissipation plates 18 are disposed on inner sides of the second arc heating plates 17, the guide sleeves 19 are disposed on the second sliding sleeve 15, the second insert rods 191 are disposed in the guide sleeve 19 in a sliding manner, and the fifth springs 192 are wound between the second insert rods 191 and the guide sleeve 19.

When the device is used, a worker pulls the second inserting rod 191 to slide upwards in the guide sleeve 19, the second inserting rod 191 slides upwards to avoid clamping the arc-shaped rod 14, the fifth spring 192 is stretched, at the moment, under the action of resetting of the fourth spring 16, the second sliding sleeve 15 drives the second arc-shaped heating plate 17 to slide leftwards to reset on the arc-shaped rod 14, the second arc-shaped heating plate 18 moves leftwards to heat and keep warm for the grafted object, then the second inserting rod 191 is loosened, and under the action of resetting of the fifth spring 192, the second inserting rod 191 slides downwards to reset, so that the heating area of the device is increased, and the object needing to be grafted can be heated and kept warm better.

On the basis of embodiment 1, as shown in fig. 1, fig. 2, fig. 7 and fig. 8, the vertical plate 2 further comprises a first rotating shaft 20, a guide cylinder 21, a pinion 22, a second rotating shaft 23, a gearwheel 24 and a contact rod 241, wherein the first rotating shaft 20 is rotatably arranged on the upper side and the lower side of the vertical plate 2, the guide cylinder 21 is arranged on the left side of the first rotating shaft 20, the pinion 22 is connected to the right side of the first rotating shaft 20 in a key manner, the second rotating shaft 23 is arranged on the vertical plate 2, the gearwheel 24 is connected to the right side of the second rotating shaft 23 in a key manner, the pinion 22 is engaged with the gearwheel 24, the contact rod 241 is arranged on the inner side of the first sliding sleeve 42, and.

When using the device, the staff rotates second pivot 23, second pivot 23 rotates and drives pinion 22 through gear wheel 24 and rotates, pinion 22 rotates and drives guide cylinder 21 through first pivot 20 and rotates, guide cylinder 21 rotates and drives first sliding sleeve 42 through contact lever 241 and slides right, afterwards, fix the object of grafting, accomplish the back, first sliding sleeve 42 slides left and resets, guide cylinder 21 rotates thereupon and resets, so, no longer need stimulate first sliding sleeve 42 one by one through the manual work, make things convenient for people's use more.

On the basis of the embodiment 1, as shown in fig. 1, 7 and 8, the sliding type wind power generator further comprises a third sliding sleeve 25, a sixth spring 26, a handle 27 and a special-shaped rod 28, the third sliding sleeve 25 is slidably arranged on the right side of the second rotating shaft 23, the sixth spring 26 is connected between the third sliding sleeve 25 and the second rotating shaft 23, the handle 27 is arranged on the third sliding sleeve 25, the third sliding sleeve 25 is symmetrically provided with two special-shaped rods 28, a circle of through holes 29 is formed in the mounting frame 1, and the special-shaped rods 28 are matched with the through holes 29.

When the device is used, a worker pulls the handle 27 rightwards, the third sliding sleeve 25 slides rightwards on the second rotating shaft 23, the sixth spring 26 is stretched, the special-shaped rod 28 moves rightwards without clamping the through hole 29, then the worker rotates the third sliding sleeve 25, the second rotating shaft 23 rotates along with the third sliding sleeve, the arc-shaped clamping plate 44 is driven to be opened, after the arc-shaped clamping plate 44 is opened to a proper position, the handle 27 is loosened, a grafted object is fixed, then the third sliding sleeve 25 drives the special-shaped rod 28 to slide downwards to be reset and clamped into the through hole 29 under the reset effect of the sixth spring 26, and therefore the object to be grafted can be clamped more firmly, and meanwhile objects of different sizes can be fixed.

Although the present invention has been described in detail with reference to the above embodiments, it will be apparent to those skilled in the art from this disclosure that various changes or modifications can be made herein without departing from the principles and spirit of the invention as defined by the appended claims. Therefore, the detailed description of the embodiments of the present disclosure is to be construed as merely illustrative, and not limitative of the remainder of the disclosure, but rather to limit the scope of the disclosure to the full extent set forth in the appended claims.

Claims (8)

1. The utility model provides a bioengineering grafting device with cold-proof function, characterized by, including:

a mounting frame (1);

the vertical plate (2) is arranged on the mounting frame (1);

the special-shaped block (3) is arranged on the mounting frame (1);

the fixing component (4) is arranged on the special-shaped block (3) and is fixed in a rotating mode;

and the heat-preservation component (5) is arranged on the special-shaped block (3) and is used for preserving heat in a heating mode.

2. The bioengineering grafting device with warming function according to claim 1, characterized in that the fixation component (4) comprises:

two first guide rods (41) are arranged on the vertical plate (2);

the first sliding sleeve (42), the first sliding sleeve (42) is two and is slidably mounted on the first sliding sleeve (42);

two first springs (43) are arranged, and are respectively arranged between the first sliding sleeve (42) and the first guide rod (41);

two arc-shaped clamping plates (44) are arranged, and are mounted on the special-shaped block (3);

connecting rod (45), connecting rod (45) are two at least, all install on first sliding sleeve (42), first sliding sleeve (42).

3. The bioengineering grafting device with warming function according to claim 2, characterized in that the warming component (5) comprises:

two first arc-shaped heating plates (51) are arranged, and are respectively arranged on the special-shaped block (3);

the first arc heating panel (52), first arc heating panel (52) are two, all install on first arc hot plate (51), and it has two at least louvres (53) to open on first arc heating panel (52).

4. The bioengineering grafting device with heat preservation function of claim 3, further comprising:

two second guide rods (6) are arranged, and the two second guide rods (6) are arranged on the first arc-shaped heat dissipation plate (52);

two sliding blocks (7) are arranged, and are arranged on the second guide rod (6) in a sliding manner;

two second springs (8) are arranged, and are respectively arranged between the sliding block (7) and the second guide rod (6);

the two arc plates (9) are arranged on the sliding block (7), and three arc holes (10) are formed in the arc plates (9);

the two first inserting rods (11) are arranged on the sliding block (7) in a sliding mode, at least two clamping grooves (13) are formed in the outer side of the first arc-shaped heat dissipation plate (52), and the clamping grooves (13) are matched with the first inserting rods (11);

and two third springs (12) are arranged, and are respectively arranged between the first inserted bar (11) and the sliding block (7).

5. The bioengineering grafting device with heat preservation function of claim 4, further comprising:

the number of the arc-shaped rods (14) is two, and the two arc-shaped rods (14) are arranged on the first arc-shaped heat dissipation plate (52);

two second sliding sleeves (15) are arranged, and the two second sliding sleeves (15) are both arranged on the arc-shaped rod (14) in a sliding manner;

two fourth springs (16) are arranged and are respectively installed between the second sliding sleeve (15) and the arc-shaped rod (14), and the fourth springs (16) are in a stretching state;

two second arc-shaped heating plates (17) are arranged on the second sliding sleeve (15);

two second arc-shaped heat dissipation plates (18) are arranged and are mounted on the second arc-shaped heating plate (17);

two guide sleeves (19), wherein the two guide sleeves (19) are arranged on the second sliding sleeve (15);

two second inserting rods (191), wherein the two second inserting rods (191) are arranged on the guide sleeve (19) in a sliding manner;

and two fifth springs (192) are arranged between the second inserting rod (191) and the guide sleeve (19).

6. The bioengineering grafting device with heat preservation function of claim 5, further comprising:

two first rotating shafts (20), wherein the two first rotating shafts (20) are arranged on the vertical plate (2);

two guide cylinders (21) are arranged, and are mounted on the first rotating shaft (20);

two pinions (22), wherein the two pinions (22) are arranged on the first rotating shaft (20);

the second rotating shaft (23) is arranged on the vertical plate (2);

the large gear (24) is arranged on the second rotating shaft (23), and the small gears (22) are all meshed with the large gear (24);

the number of the contact rods (241) is two, the contact rods (241) are all installed on the first sliding sleeve (42), and the contact rods (241) are all matched with the guide cylinder (21).

7. The bioengineering grafting device with heat preservation function of claim 6, further comprising:

the third sliding sleeve (25) is slidably mounted on the second rotating shaft (23);

the sixth spring (26) is arranged between the third sliding sleeve (25) and the second rotating shaft (23);

a handle (27) mounted on the third runner (25);

the special-shaped rods (28) are two, the special-shaped rods (28) are all installed on the third sliding sleeve (25), a circle of through holes (29) are formed in the installation frame (1), and the special-shaped rods (28) are matched with the through holes (29).

8. The bioengineering grafting device with warming function according to claim 6, wherein the guide cylinder (21), the guide cylinder (21) is provided with a guide groove.

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