CN219517593U - A roast lamp device for surgical nursing - Google Patents

Abstract

The utility model relates to a baking lamp device for surgical nursing, which comprises a clamping unit, a rotating unit, a height adjusting unit, a telescopic unit, a baking lamp unit and a lampshade unit. The baking lamp device has the advantages that the baking lamp device can be effectively fixed on the protective railing of the sickbed by the aid of the clamping unit, and falling is avoided; the baking lamp units are all positioned right above the affected part of the patient under the condition that the baking lamp device is placed at any position by utilizing the matching of the rotating unit, the height adjusting unit and the telescopic unit; utilize the lamp shade unit to focus to roast lamp unit radiating heat, improve the nursing effect.

Description

A roast lamp device for surgical nursing

Technical Field

The utility model relates to the technical field of nursing rehabilitation instruments, in particular to a baking lamp device for surgical nursing.

Background

In patients after bone surgery, especially in patients with bone surgery on feet, it is often necessary to illuminate the affected area with a baking lamp, so as to increase the recovery rate and shorten the recovery time.

However, the existing baking lamps are generally desk type baking lamps or clamp type baking lamps. For the desk type baking lamp, the desk type baking lamp needs to be placed at the edge of a sickbed and occupies a certain space, so that the desk type baking lamp is inconvenient to pass. For the clamping baking lamp, the baking lamp is generally clamped on the protective railing of a sickbed through a clamp, and the baking lamp is clamped by adopting a conventional clamp shape, so that the baking lamp is easy to shift and slip.

In addition, due to the structural limitation of the roast lamp, the roast lamp needs to be placed in the vicinity of the affected part. However, when ward rounds and nurses are carried out, the baking lamp needs to be transferred, so that the operation steps are complicated.

In addition, when using roast lamp, because roast lamp and affected part exist certain distance, the difference in temperature between the temperature that leads to roast lamp department and the temperature at affected part is great for the temperature at affected part can't reach suitable temperature, and needs medical personnel to adjust repeatedly, leads to extravagant manpower.

At present, the problems that the space occupied by the desk type baking lamp in the related technology is inconvenient to pass, the clamping baking lamp is easy to shift and slip, the baking lamp needs to be repeatedly moved, and a large temperature difference exists between the temperature of the baking lamp and the temperature of an affected part are solved, and an effective solution is not proposed.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art, and provides a baking lamp device for surgical nursing, so as to solve the problems that the table type baking lamp occupies space in the related art, the passing is inconvenient, the baking lamp is clamped to easily shift and slip, the baking lamp needs to be repeatedly moved, and a large temperature difference exists between the temperature of the baking lamp and the temperature of an affected part.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

A baking lamp device for surgical care, comprising:

the clamping unit is arranged on the protective railing of the sickbed;

a rotation unit provided at an upper portion of the clamping unit;

the height adjusting unit is arranged at the upper part of the rotating unit and is used for rotating along the horizontal direction under the action of the rotating unit;

the first end of the telescopic unit is connected with the upper part of the height adjusting unit and is used for moving along the vertical direction under the action of the height adjusting unit;

the baking lamp unit is arranged at the second end of the telescopic unit and used for moving along the horizontal direction under the action of the telescopic unit;

the lamp shade unit is covered by the lamp shade unit and is used for focusing and reflecting heat generated during the working of the lamp baking unit.

In some of these embodiments, the clamping unit comprises:

the clamping element is detachably connected with the protective railing of the sickbed;

a first mounting member provided at an upper portion of the clamping member and connected to the rotation unit;

The first limiting element is arranged on the side wall of the clamping element;

the second limiting element is connected with the first limiting element, and the end part of the second limiting element is abutted to the protective railing of the sickbed.

In some of these embodiments, the rotation unit includes:

a rotating member rotatably provided at an upper portion of the clamping unit;

and a second mounting member disposed at an upper portion of the rotating member and connected with the height adjusting unit.

In some of these embodiments, the height adjustment unit comprises:

a first adjusting element provided at an upper portion of the rotating unit;

a second adjustment element slidably coupled to the first adjustment element;

the third mounting element is arranged at the end part of the second adjusting element, which is far away from the first adjusting element, and is connected with the telescopic unit;

the third limiting element is arranged on the side wall of the first adjusting element;

and the fourth limiting element is arranged on the side wall of the second adjusting element and is connected with the third limiting element.

In some of these embodiments, the height adjustment unit further comprises:

and the eighth installation element is arranged on the first adjusting element or the second adjusting element and is connected with the telescopic unit.

In some of these embodiments, the telescoping unit comprises:

the first end of the first telescopic element is connected with the height adjusting unit, and the second end of the telescopic unit is connected with the baking lamp unit;

the fourth mounting element is arranged at the first end of the first telescopic element and is connected with the height adjusting unit;

and the fifth mounting element is arranged at the second end of the first telescopic element and is connected with the baking lamp unit.

In some of these embodiments, the telescoping unit further comprises:

the first end of the second telescopic element is connected with the height adjusting unit, the second end of the second telescopic element is connected with the baking lamp unit, and the second telescopic element, the first telescopic element and the height adjusting unit form a right triangle;

a ninth mounting element provided at a first end of the second telescopic element and connected to the height adjusting unit;

And the tenth mounting element is arranged at the second end of the second telescopic element and is connected with the baking lamp unit.

In some of these embodiments, the roast lamp unit comprises:

the baking lamp element is arranged at the second end of the telescopic unit;

the sixth installation element is arranged at the top end of the baking lamp element and is connected with the telescopic unit;

the first connecting element is arranged at the outer edge of the baking lamp element and is detachably connected with the lampshade unit.

In some of these embodiments, the baking lamp unit further comprises:

and an eleventh mounting element provided at a side portion of the roast lamp element and connected with the telescopic unit.

In some of these embodiments, the globe unit includes:

a cover member covering the roast lamp unit;

the second connecting element is arranged on the top of the outer cover element and is detachably connected with the baking lamp unit;

and the inner reflection element is arranged to cover the inner wall of the outer cover element and is used for focusing and reflecting heat generated during the operation of the baking lamp unit.

In some of these embodiments, further comprising:

the temperature monitoring unit is connected with the baking lamp unit, and is used for acquiring the temperature of an affected part of a patient and/or the internal temperature of the lampshade unit and transmitting the temperature to the baking lamp unit.

In some of these embodiments, the temperature monitoring unit comprises:

the first temperature monitoring element is arranged on the affected part of the patient and connected with the baking lamp, and is used for acquiring the temperature of the affected part of the patient and transmitting the temperature to the baking lamp unit.

In some of these embodiments, the temperature monitoring unit comprises:

the second temperature monitoring element is arranged in the lampshade unit and connected with the baking lamp unit, and is used for acquiring the internal temperature of the lampshade unit and transmitting the internal temperature to the baking lamp unit.

In some of these embodiments, the temperature monitoring unit further comprises:

and the display element is connected with the first temperature monitoring element and/or the second temperature monitoring element and is used for displaying the temperature.

Compared with the prior art, the utility model has the following technical effects:

According to the lamp baking device for surgical nursing, the lamp baking device can be effectively fixed on the protective railing of a sickbed by using the clamping unit, so that falling is avoided; the baking lamp units are all positioned right above the affected part of the patient under the condition that the baking lamp device is placed at any position by utilizing the matching of the rotating unit, the height adjusting unit and the telescopic unit; utilize the lamp shade unit to focus to roast lamp unit radiating heat, improve the nursing effect.

Drawings

FIG. 1 is a schematic view (one) of a baking lamp device according to an embodiment of the present utility model;

fig. 2 is an exploded view of a clamping unit according to an embodiment of the present utility model;

FIG. 3 is a schematic view of a rotary unit according to an embodiment of the utility model;

FIG. 4 is a schematic view (one) of a height adjustment unit according to an embodiment of the present utility model;

FIG. 5 is a schematic illustration (one) of a telescoping unit according to an embodiment of the present utility model;

FIG. 6 is a schematic view (one) of a baking lamp unit according to an embodiment of the present utility model;

fig. 7 is a schematic view (one) of a globe unit according to an embodiment of the present utility model;

FIG. 8 is a schematic view (II) of a baking lamp device according to an embodiment of the present utility model;

fig. 9 is a schematic view (two) of a globe unit according to an embodiment of the present utility model;

FIG. 10 is a circuit frame diagram of a temperature monitoring unit according to an embodiment of the present utility model;

FIG. 11 is a schematic view (III) of a baking lamp device according to an embodiment of the present utility model;

FIG. 12 is a schematic view of a height adjustment unit according to an embodiment of the present utility model (II);

FIG. 13 is a schematic diagram (II) of a telescoping unit according to an embodiment of the present utility model;

fig. 14 is a schematic view (two) of a roast lamp unit according to an embodiment of the present utility model.

Wherein the reference numerals are as follows: 100. a clamping unit; 110. a clamping element; 120. a first mounting element; 130. a first limiting element; 140. a second limiting element;

200. a rotating unit; 210. a rotating element; 220. a second mounting element;

300. a height adjusting unit; 310. a first adjustment element; 320. a second adjustment element; 330. a third mounting element; 340. a third limiting element; 350. a fourth limiting element; 360. eighth mounting element

400. A telescoping unit; 410. a first telescopic element; 420. a fourth mounting element; 430. a fifth mounting element; 440. a second telescopic element; 450. a ninth mounting element; 460. a tenth mounting element;

500. a roast lamp unit; 510. a roast lamp element; 520. a sixth mounting element; 530. a first connecting element; 540. an eleventh mounting element;

600. A lamp shade unit; 610. a cover member; 620. a second connecting element; 630. an internal reflection element; 640. a seventh mounting element;

700. a temperature monitoring unit; 710. a first temperature monitoring element; 720. a second temperature monitoring element; 730. a display element.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be combined with each other.

The utility model is further described below with reference to the drawings and specific examples, which are not intended to be limiting.

Example 1

An exemplary embodiment of the present utility model. As shown in fig. 1, a roast lamp device for surgical care includes a clamping unit 100, a rotating unit 200, a height adjusting unit 300, a telescopic unit 400, a roast lamp unit 500, and a lamp cover unit 600. Wherein the clamping unit 100 is arranged on a guard rail of a sickbed; the rotation unit 200 is provided at an upper portion of the clamping unit 100; the height adjusting unit 300 is provided at an upper portion of the rotating unit 200 to rotate in a horizontal direction by the rotating unit 200; the first end of the telescopic unit 400 is connected to the upper portion of the height adjusting unit 300 for movement in the vertical direction under the influence of the height adjusting unit 300; the baking lamp unit 500 is disposed at the second end of the telescopic unit 400, and is used for moving along the horizontal direction under the action of the telescopic unit 400; the lamp shade unit 600 houses the roast lamp unit 500 for focusing and reflecting heat generated when the roast lamp unit 500 operates.

Specifically, the roast lamp device is fixed to a side rail or a bottom rail of the hospital bed by the clamping unit 100; according to the relative positional relationship of the roast lamp unit 500 and the affected part (generally, the foot) of the patient, the rotation unit 200, the height-adjusting unit 300, and the telescopic unit 400 are adjusted such that the roast lamp unit 500 is located at a certain height position right above the affected part of the patient; after the lamp shade unit 600 is connected to the roast lamp unit 500, heat released from the roast lamp unit 500 can be focused on an affected part of a patient.

As shown in fig. 2, the clamping unit 100 includes a clamping member 110, a first mounting member 120, a first limiting member 130, and a second limiting member 140. Wherein the clamping element 110 is detachably connected with the guard rail of the sickbed; the first mounting member 120 is disposed at an upper portion of the clamping member 110 and connected to the rotating unit 200; the first limiting element 130 is disposed on a side wall of the clamping element 110; the second limiting element 140 is connected with the first limiting element 130, and the end part of the second limiting element 140 is abutted with the protective rail of the sickbed.

The clamping element 110 has a U-shape. Specifically, the clamping element 110 comprises a transverse plate and two lateral plates. Wherein, both side plates are symmetrically arranged at both sides of the transverse plate.

In some of these embodiments, the side panels are disposed perpendicular to the cross panel.

Wherein, the distance between the two transverse plates is larger than the radial dimension (i.e. the outer diameter) of the protective railing.

In some of these embodiments, the ratio of the distance between the two cross plates to the radial dimension of the guard rail is 3/2 or more.

Wherein the height of the cross plate is greater than the radial dimension (i.e., outer diameter) of the guard rail.

In some of these embodiments, the clamping element 110 is a retaining clip.

The first mounting element 120 is arranged on top of the clamping element 110, i.e. on top of the cross plate.

In some of these embodiments, the first mounting element 120 includes a first mounting slot and a first swivel. The first mounting groove is arranged at the top of the transverse plate; the first rotating member is disposed at the middle of the first mounting groove and/or the first rotating member is disposed around the first mounting groove and is rotatably connected with the rotating unit 200.

The cross section of the first mounting groove is circular, and the first mounting groove is arranged to penetrate or not penetrate through the transverse plate.

In the case that the first rotating member is disposed in the middle of the first mounting groove, the first rotating member is a rotating shaft or a rotating groove.

In the case where the first rotating member is disposed around the first mounting groove, the first rotating member is disposed on an inner peripheral surface of the first mounting groove. Wherein the first rotating member is a damping providing rotating member including, but not limited to, a tooth pattern.

The first limiting element 130 penetrates through a side plate, and the first limiting element 130 is located at the central axis of the side plate. Typically, the first limiting element 130 is disposed at 1/3 to 1/2 of the height of the side plate.

In some of these embodiments, the first stop element 130 is disposed in the center of the side plate.

In some embodiments, the first limiting element 130 is a limiting screw hole.

The second limiting element 140 has an i-shape. Specifically, the second limiting element 140 includes a limiting screw, a first limiting end, and a second limiting end. The limiting screw is in threaded connection with the first limiting element 130 and is used for reciprocating along the axial direction of the first limiting element 130; the first limiting end is arranged at the first end of the limiting screw and positioned in the clamping element 110, and the radial dimension of the first limiting end is larger than that of the first limiting element 130; the second limiting end is disposed at the second end of the limiting screw and located outside the clamping element 110, and the radial dimension of the second limiting end is greater than that of the first limiting element 130.

In some of these embodiments, the first stop element 130 and the second stop element 140 are two. Specifically, the first limiting element 130 is disposed on the corresponding side plate; the second limiting element 140 is screwed with the corresponding first limiting element 130. The positions of the second limiting elements 140 can be adjusted from both sides of the guard rail, respectively.

The second limiting element 140 is in threaded engagement with the first limiting element 130, so that the clamping element 110 can be applied to guard rails of different sizes.

As shown in fig. 3, the rotation unit 200 includes a rotation member 210 and a second mounting member 220. Wherein the rotating member 210 rotatably provides an upper portion of the clamping unit 100; the second mounting member 220 is disposed at an upper portion of the rotating member 210 and is connected to the height adjusting unit 300.

Specifically, the rotating element 210 is disposed inside the first mounting element 120 and is rotatably connected to the first mounting element 120.

In some of these embodiments, the rotating element 210 includes a rotating body and a second rotating member. Wherein the rotating body is arranged in the first mounting groove; the second rotating piece is arranged in the middle of the rotating body and/or the second rotating piece is arranged around the rotating body and is rotationally connected with the first rotating piece.

The cross section of the rotating body is circular, and the radial dimension of the rotating body is matched with the radial dimension of the first mounting groove.

Wherein the upper surface of the rotating body is coplanar with the upper surface of the transverse plate, or the upper surface of the rotating body protrudes from the upper surface of the transverse plate.

In some of these embodiments, the rotating body is a rotating disk.

In the case where the second rotating member is provided at the middle of the rotating body, the second rotating member is a rotating shaft or a rotating groove.

In the case where the second rotating member is disposed around the rotating body, the second rotating member is disposed on an outer peripheral surface of the rotating body. Wherein the second rotating member is a damping providing rotating member including, but not limited to, a tooth pattern.

The second mounting member 220 is disposed at the top of the rotating body and is fixedly or detachably coupled to the bottom of the height adjusting unit 300.

In some of these embodiments, the second mounting element 220 includes a second mounting groove and a number of first threaded grooves. Wherein the second installation groove is provided at the center of the top of the rotating body and is connected with the bottom of the height adjusting unit 300; a plurality of first screw grooves are provided around the second mounting groove and screw-coupled with the bottom of the height adjusting unit 300.

In some of these embodiments, the second mounting element 220 includes a first plug and a first thread groove. The first plug connector is arranged at the top of the rotating main body and is connected with the bottom of the height adjusting unit 300 in a plug connection mode; the first screw groove is provided at one side of the first socket and is screw-coupled with the bottom of the height adjusting unit 300.

Typically, the first connector is a plug block, and the first connector protrudes from the top of the rotating body.

In some of these embodiments, the first connectors are 1-2.

In some embodiments, the number of the first connectors is 1, the first connectors are concave, and the first threaded grooves are formed in the groove positions of the first connectors.

Wherein the number of the first thread grooves is matched with the number of the first connectors.

In some of these embodiments, the number of first thread grooves is equal to the number of first connectors.

As shown in fig. 4, the height adjusting unit 300 includes a first adjusting member 310, a second adjusting member 320, a third mounting member 330, a third spacing member 340, and a fourth spacing member 350. Wherein the first adjusting element 310 is disposed at an upper portion of the rotating unit 200; the second adjustment element 320 is slidably connected to the first adjustment element 310; the third mounting element 330 is disposed at an end of the second adjusting element 320 remote from the first adjusting element 310 and is connected with the telescopic unit 400; the third limiting element 340 is disposed on a side wall of the first adjusting element 310; the fourth limiting element 350 is disposed on a side wall of the second adjusting element 320 and is connected to the third limiting element 340.

Specifically, the first adjustment element 310 is connected with the second mounting element 220.

In some of these embodiments, the first adjustment element 310 includes a first adjustment member, a first mount, and a number of second threaded grooves. Wherein, the first mounting seat is arranged at the bottom of the first adjusting piece and is mounted in the second mounting groove of the second mounting element 220; a plurality of second thread grooves are disposed around the first mount and correspond to the first thread grooves of the second mount element 220.

In some of these embodiments, the first adjustment element 310 includes a first adjustment member, a first mount, a second plug member, and a second threaded slot. The first mounting seat is arranged at the bottom of the first adjusting piece; the second plug connector is arranged at the bottom of the first mounting seat and is in plug connection with the first plug connector of the second mounting element 220; the second screw groove is provided at the first adjusting member and corresponds to the first screw groove of the second mounting member 220.

In some embodiments, the first adjusting member is a first adjusting rod, which may be a hollow structure or a solid structure.

In some of these embodiments, the first adjustment member is circular, rectangular, regular polygonal in cross-section.

The shape and the size of the first mounting seat are matched with those of the first adjusting piece.

Typically, the second plug is a socket.

The number of the second connectors is matched with the number of the first connectors. Typically, the number of second connectors is equal to the number of first connectors.

The number of second thread grooves matches the number of first thread grooves. Generally, the number of second thread grooves is equal to the number of first thread grooves.

The second adjustment element 320 includes a second adjustment member and a second mount. The second adjusting piece is connected with the first adjusting piece in a sliding way; the second mounting seat is disposed on top of the second adjusting member for disposing the third mounting element 330.

In some embodiments, the second adjusting member is a second adjusting rod, which may be a hollow structure or a solid structure.

Wherein at least one of the first adjusting member and the second adjusting member is a hollow structure.

The radial dimension of the second adjustment member matches the radial dimension of the first adjustment member. Typically, the outer diameter of the second adjustment member is equal to the inner diameter of the first adjustment member, or alternatively, the inner diameter of the second adjustment member is equal to the outer diameter of the first adjustment member.

The shape and the size of the second mounting seat are matched with those of the second adjusting piece.

The third mounting element 330 is disposed on the side of the end of the second adjustment element 320. Specifically, the third mounting element 330 is disposed on a side of the second mount.

In some of these embodiments, the third mounting element 330 includes a third mounting groove and a number of third thread grooves. Wherein the third mounting groove is arranged at the side part of the top of the second mounting seat and is connected with the end part of the telescopic unit 400; a plurality of third screw grooves are provided around the third mounting groove and screw-coupled with the end of the telescopic unit 400.

In some of these embodiments, the third mounting element 330 includes a third plug and a third thread groove. The third plug connector is arranged on the side part of the top of the second mounting seat and is connected with the end part of the telescopic unit 400 in a plug connection mode; the third screw groove is provided at one side of the third socket and is screw-coupled with the end of the telescopic unit 400.

Typically, the third plug connector is a plug block, and the third plug connector protrudes out of a side portion of the top of the second mounting seat.

In some of these embodiments, the third plug is 1-2.

In some embodiments, the number of the third connectors is 1, the third connectors are concave, and a third thread groove is formed in the groove position of the third connectors.

Wherein the number of the third thread grooves is matched with the number of the third plug connectors.

In some of these embodiments, the number of third thread grooves is equal to the number of third connectors.

The third limiting element 340 is disposed at an outer edge of the first adjusting element 310 along an axial direction of the first adjusting element 310. Specifically, the third limiting element 340 is disposed at an outer edge of the first adjusting member along an axial direction of the first adjusting member.

In some of these embodiments, the third spacing element 340 is one.

In some embodiments, the third limiting element 340 is a plurality. The third limiting members 340 are disposed at intervals along the axial direction of the first adjusting member 310.

In some embodiments, the third limiting element 340 is a limiting groove, a limiting button.

The fourth limiting element 350 is disposed on the outer edge of the second adjusting element 320 along the axial direction of the second adjusting element 320. Specifically, the fourth limiting element 350 is disposed at an outer edge of the second adjusting member along an axial direction of the second adjusting member.

In some of these embodiments, the fourth spacing element 350 is one.

In some embodiments, the fourth limiting element 350 is a plurality. A plurality of fourth spacing elements 350 are disposed at intervals along the axial direction of the second adjustment element 320.

In some embodiments, the fourth stop element 350 is a stop recess, stop button.

In some embodiments, the third limiting element 340 is one and is a limiting button; the fourth limiting elements 350 are several and limit the limiting grooves. The third limiting element 340 is connected to any one of the fourth limiting elements 350, so as to define the relative positions of the second adjusting element 320 and the first adjusting element 310.

In some embodiments, the third limiting elements 340 are a plurality of limiting grooves; the fourth spacing element 350 is one and is a spacing button. The fourth limiting element 350 is connected to any one of the third limiting elements 340, so as to define the relative positions of the second adjusting element 320 and the first adjusting element 310.

In some embodiments, the third spacing elements 340 are provided in number, and/or the fourth spacing elements 350 are provided in number. The third limiting element 340 and the fourth limiting element 350 are limiting grooves. Any one of the third limiting elements 340 is in limiting connection with any one of the fourth limiting elements 350 through limiting bolts.

As shown in fig. 5, the telescopic unit 400 includes a first telescopic element 410, a fourth mounting element 420, and a fifth mounting element 430. Wherein a first end of the first telescopic member 410 is connected to the height adjusting unit 300, and a second end of the telescopic unit 400 is connected to the roast lamp unit 500; the fourth mounting member 420 is disposed at a first end of the first telescoping member 410 and connected to the height adjusting unit 300; the fifth mounting member 430 is disposed at the second end of the first telescoping member 410 and is coupled to the roast lamp unit 500.

Specifically, the fourth mounting member 420 is coupled to the third mounting member 330.

In some of these embodiments, the first telescoping member 410 comprises a first telescoping member. Wherein a first end of the first telescoping member is coupled to the fourth mounting member 420 and a second end of the first telescoping member is coupled to the fifth mounting member 430.

In some of these embodiments, the first telescoping member is a hinge bracket structure with damping.

In some of these embodiments, the first telescoping member 410 further comprises an elastic sleeve. Wherein, the elastic sleeve is sleeved outside the hinge frame structure. The elastic sleeve can stretch and shrink along with the stretching and shrinking of the hinge bracket structure.

In some of these embodiments, the fourth mounting element 420 includes a third mount and a number of fourth thread grooves. The third mounting seat is arranged at the first end of the first telescopic piece and is connected with a third mounting groove of the third mounting element 330; a plurality of fourth thread grooves are disposed around the third mount and correspond to the third thread grooves of the third mount element 330.

In some of these embodiments, the fourth mounting element 420 includes a third mount, a fourth plug, and a fourth thread groove. The third mounting seat is arranged at the first end of the first telescopic piece and is connected with a third mounting groove of the third mounting element 330; the fourth plug connector is arranged at the side part of the third mounting seat and is connected with the third plug connector of the third mounting element 330; the fourth thread groove is disposed on the fourth plug member and corresponds to the third thread groove of the third mounting element 330.

In some of these embodiments, the radial dimension of the third mount is greater than the radial dimension of the telescoping member.

Typically, the fourth plug is a socket.

The number of the fourth connectors is matched with the number of the third connectors. Typically, the number of fourth connectors is equal to the number of third connectors.

The number of fourth thread grooves matches the number of third thread grooves. Generally, the number of fourth thread grooves is equal to the number of third thread grooves.

In some of these embodiments, the fifth mounting element 430 includes a fourth mount and a number of fifth thread grooves. The fourth mounting seat is arranged at the second end of the first telescopic piece and is connected with the baking lamp unit 500; the fifth screw grooves are provided around the fourth mount and screw-coupled with the roast lamp unit 500.

In some of these embodiments, the fifth mounting element 430 includes a fourth mount, a fifth plug, and a fifth thread groove. The fourth mounting seat is arranged at the second end of the first telescopic piece and is connected with the baking lamp unit 500; the fifth plug connector is arranged at the side part of the fourth mounting seat and is connected with the baking lamp unit 500; the fifth thread groove is disposed on the fifth plug connector and is in threaded connection with the roast lamp unit 500.

In some of these embodiments, the radial dimension of the fourth mount is greater than the radial dimension of the telescoping member.

Generally, the fifth plug connector is a plug connector, and the fifth plug connector protrudes out of the side portion of the fourth mounting seat.

In some of these embodiments, the fifth connectors are 1-2.

In some of these embodiments, the number of fifth connectors is 1, the fifth connectors are concave, and a fifth thread groove is formed in the groove position of the fifth connectors.

Wherein the number of the fifth thread grooves is matched with the number of the fifth plug connectors.

In some of these embodiments, the number of fifth thread grooves is equal to the number of fifth connectors.

As shown in fig. 6, the roast lamp unit 500 includes a roast lamp element 510, a sixth mounting element 520, and a first connection element 530. Wherein, the baking lamp element 510 is disposed at the second end of the telescopic unit 400; the sixth mounting member 520 is disposed at the top end of the roast lamp member 510 and connected to the telescopic unit 400; the first connecting member 530 is disposed at an outer edge of the lamp member 510 and detachably connected to the lamp housing unit 600.

Specifically, the sixth mounting member 520 is connected to the fifth mounting member 430.

The roast lamp element 510 includes a lamp shade member and a roast lamp. Wherein, the top end of the lamp shade piece is provided with a sixth mounting element 520, and the bottom edge of the lamp shade piece is provided with a first connecting element 530; the baking lamp is arranged in the lampshade piece.

In some of these embodiments, the canopy pieces are funnel-shaped.

In some of these embodiments, the sixth mounting element 520 includes a fourth mounting groove and a number of sixth threaded grooves. Wherein the fourth mounting groove is disposed at a side portion of the top of the lamp shade member and is connected with the fourth mounting seat of the fifth mounting element 430; a number of sixth thread grooves are provided around the fourth mounting groove and correspond to the fifth thread grooves of the fifth mounting element 430.

In some of these embodiments, the sixth mounting element 520 includes a sixth plug and a sixth thread groove. The sixth plug connector is arranged on the side part of the top of the lampshade and is connected with the fifth plug connector of the fifth mounting element 430; the sixth thread groove is provided in the fifth socket and corresponds to the fifth thread groove of the fifth mounting element 430.

Typically, the sixth plug is a socket.

The number of the sixth connectors is matched with that of the fifth connectors. Typically, the number of sixth connectors is equal to the number of fifth connectors.

The number of sixth thread grooves matches the number of fifth thread grooves. Generally, the number of sixth thread grooves is equal to the number of fifth thread grooves.

In some of these embodiments, the first connecting element 530 is one. The first connecting member 530 is disposed around the bottom of the canopy piece.

In some embodiments, the first connecting element 530 is a plurality. A plurality of first connecting elements 530 are disposed around the bottom of the canopy pieces.

In some embodiments, the first connecting element 530 is a connecting groove or a connecting protrusion, and is used for clamping with the lampshade unit 600.

As shown in fig. 7, the globe unit 600 includes a cover member 610, a second connection member 620, and an internal reflection member 630. Wherein the cover member 610 covers the roast lamp unit 500; the second connection element 620 is disposed on top of the outer cover element 610 and is detachably connected with the roast lamp unit 500; the inner reflection member 630 is disposed to cover the inner wall of the outer cover member 610 for focusing and reflecting heat generated when the roast lamp unit 500 is operated.

Specifically, the cover member 610 is provided to cover the roast lamp member 510; the second connecting element 620 is mechanically detachably connected to the first connecting element 530.

The cover member 610 is cylindrical and includes the following:

1) The inner diameter of the cover member 610 remains constant from its top end to its bottom end;

2) The inner diameter of the cover member 610 decreases from its top end to its bottom end;

3) The inner diameter of the cover member 610 increases from its top end to its bottom end.

Wherein the inner diameter of the cover member 610 decreases or increases from its top end to its bottom end, either gradually decreasing or gradually increasing, or gradually decreasing or gradually increasing.

Specifically, the longitudinal section of the cover member 610 is rectangular, trapezoidal, stepped.

Wherein the outer diameter and inner diameter of the top end of the cover member 610 matches the outer diameter and inner diameter of the bottom end of the canopy member of the roast lamp member 510.

The cover member 610 is made of a material having supporting properties and is lightweight so that the roast lamp element 510 does not "sink down".

In some of these embodiments, the cover member 610 is a disposable cover.

The second connecting element 620 mates with the first connecting element 530. Specifically, the number of the second connection elements 620 matches the number of the first connection elements 530, and the shape of the second connection elements 620 matches the shape of the first connection elements 530.

Preferably, the second connection elements 620 are in one-to-one correspondence with the first connection elements 530.

In some of these embodiments, the second connecting element 620 is one. The second connecting element 620 is disposed around the top of the cover element 610.

In some of these embodiments, the second connection elements 620 are several. A plurality of second connecting elements 620 are disposed around the top of the cover element 610.

In some embodiments, the second connecting element 620 is a connecting groove or a connecting protrusion, and is used for clamping with the first connecting element 530.

The internal reflective element 630 is a reflective film including, but not limited to, an aluminum foil film.

The application method of the utility model is as follows:

use (one) of

A guard rail securing the clamping element 110 to the side of the hospital bed;

rotating the second limiting element 140 to enable the end part of the second limiting element 140 to prop against the guard rail;

adjusting the rotary member 210 such that the roast lamp element 510 is directed toward the affected part (i.e., the foot) of the patient;

sliding the second adjustment member 320 relative to the first adjustment member 310 such that the distance between the heat lamp member 510 and the affected part of the patient is satisfactory;

the relative positions of the second adjusting element 320 and the first adjusting element 310 are fixed through the cooperation of the fourth limiting element 350 and the third limiting element 340;

adjusting the first telescoping member 410 such that the light-curing member 510 is positioned directly above the patient's affected area;

the second connecting element 620 is engaged with the first connecting element 530, so that the outer cover element 610 covers the lower portion of the baking lamp element 510, and covers the baking lamp;

sliding the second adjustment member 320 relative to the first adjustment member 310 again such that the cover member 610 covers the affected area of the patient;

the relative positions of the second adjusting element 320 and the first adjusting element 310 are fixed through the cooperation of the fourth limiting element 350 and the third limiting element 340;

The roast lamp element 510 is turned on to irradiate.

(II) recovery

After the use, the baking lamp element 510 is turned off;

sliding the second adjustment member 320 upwardly relative to the first adjustment member 310, moving the cover member 610 away from the patient's lesion;

adjusting the first telescoping member 410 to reset the light-curing member 510;

sliding the second adjustment member 320 downward relative to the first adjustment member 310;

the relative positions of the second adjusting element 320 and the first adjusting element 310 are fixed through the cooperation of the fourth limiting element 350 and the third limiting element 340;

rotating the second limiting element 140 so that the end of the second limiting element 140 is far away from the guard rail;

removing the clamping element 110;

the cover member 610 is removed.

The utility model has the advantages that the baking lamp device can be effectively fixed on the protective railing of the sickbed by the clamping unit, so that falling is avoided; the baking lamp units are all positioned right above the affected part of the patient under the condition that the baking lamp device is placed at any position by utilizing the matching of the rotating unit, the height adjusting unit and the telescopic unit; utilize the lamp shade unit to focus to roast lamp unit radiating heat, improve the nursing effect.

Example 2

This embodiment is a modified embodiment of embodiment 1.

As shown in fig. 8, the roast lamp device further includes a temperature monitoring unit 700. The temperature monitoring unit 700 is connected to the roast lamp unit 500, and is used to obtain the temperature of the affected part of the patient and/or the internal temperature of the lamp shade unit 600, and transmit it to the roast lamp unit 500.

In some of these embodiments, as shown in fig. 9, the globe unit 600 further includes a seventh mounting member 640. The seventh mounting member 640 is disposed inside the lamp shade unit 600 and connected to the temperature monitoring unit 700.

Specifically, the seventh mounting member 640 is disposed inside the cover member 610 and is embedded in the inner reflective member 630.

The seventh mounting element 640 comprises a fifth mounting groove and several snap-in parts. Wherein the fifth mounting groove is provided on the inner side of the cover member 610; the plurality of clamping pieces are arranged around the fifth mounting groove and are connected with the temperature monitoring unit 700.

As shown in fig. 10, the temperature monitoring unit 700 includes a first temperature monitoring element 710 and/or a second temperature monitoring element 720. The first temperature monitoring element 710 is disposed at an affected part of the patient, connected to the roast lamp, and used for acquiring the temperature of the affected part of the patient and transmitting the temperature to the roast lamp unit 500; the second temperature monitoring element 720 is disposed inside the lamp shade unit 600 and connected to the roast lamp unit 500, and is used for obtaining the internal temperature of the lamp shade unit 600 and transmitting to the roast lamp unit 500.

In some of these embodiments, the second temperature monitoring element 720 is bonded to a surface of the internal reflection element 630.

In some of these embodiments, the second temperature monitoring element 720 is disposed on the seventh mounting element 640 and is detachably connected to the seventh mounting element 640. More specifically, the second temperature monitoring element 720 is disposed in the fifth mounting groove and is engaged with the plurality of engaging members.

The first temperature monitoring element 710 and the second temperature monitoring element 720 may be connected to the roast lamp element 510 by a cable, or may be connected wirelessly, such as a bluetooth connection.

In some of these embodiments, the first temperature monitoring element 710 and the second temperature monitoring element 720 are temperature sensors.

Further, the temperature monitoring unit 700 further comprises a display element 730. Wherein the display element 730 is connected to the first temperature monitoring element 710 and/or the second temperature monitoring element 720 for displaying the temperature.

In the case where the display element 730 is connected to the first temperature monitoring element 710, the display element 730 is disposed at one side of the first temperature monitoring element 710.

In the case where the display element 730 is connected to the second temperature monitoring element 720, the display element 730 is disposed outside the cover element 610.

In some of these embodiments, display element 730 is a display screen.

The application method of the embodiment is as follows:

first temperature monitoring element 710 is placed

Placing a first temperature monitoring element 710 (including adhesive) on the patient's affected area and connecting the first temperature monitoring element 710 to the heat lamp element 510;

turning on the heat lamp unit 510, and observing the temperature data of the first temperature monitoring unit 710 after the heat lamp unit is operated for a period of time at a set temperature;

if the temperature data of the first temperature monitoring element 710 does not reach the preset temperature, the irradiation temperature of the heat lamp element 510 is increased;

if the temperature data of the first temperature monitoring element 710 reaches the preset temperature, maintaining the irradiation temperature of the heat lamp element 510;

if the temperature data of the first temperature monitoring element 710 exceeds the preset temperature, the irradiation temperature of the heat lamp element 510 is reduced.

(II) placing a second temperature monitoring element 720

Placing a second temperature monitoring element 720 inside the cover element 610 and connecting the second temperature monitoring element 720 with the roast lamp element 510;

turning on the heat lamp unit 510, and observing the temperature data of the second temperature monitoring unit 720 after the heat lamp unit is operated for a period of time at the set temperature;

if the temperature data of the second temperature monitoring element 720 does not reach the preset temperature, the irradiation temperature of the baking lamp element 510 is increased;

If the temperature data of the second temperature monitoring element 720 reaches the preset temperature, the irradiation temperature of the heat lamp element 510 is maintained;

if the temperature data of the second temperature monitoring element 720 exceeds the preset temperature, the irradiation temperature of the heat lamp element 510 is reduced.

The advantage of this embodiment lies in, through temperature monitoring unit real-time feedback irradiation temperature, the temperature of roast lamp unit is accurately adjusted to the medical personnel of being convenient for, reduces the number of times of operation, improves work efficiency.

Example 3

This embodiment is a modified embodiment of embodiments 1 to 2.

As shown in fig. 11, a roast lamp device for surgical care includes a clamping unit 100, a rotating unit 200, a height adjusting unit 300, a telescopic unit 400, a roast lamp unit 500, and a lamp cover unit 600. Wherein the clamping unit 100 is arranged on a guard rail of a sickbed; the rotation unit 200 is provided at an upper portion of the clamping unit 100; the height adjusting unit 300 is provided at an upper portion of the rotating unit 200 to rotate in a horizontal direction by the rotating unit 200; the first end of the telescopic unit 400 is connected to the upper portion of the height adjusting unit 300 for movement in the vertical direction under the influence of the height adjusting unit 300; the baking lamp unit 500 is disposed at the second end of the telescopic unit 400, and is used for moving along the horizontal direction under the action of the telescopic unit 400; the lamp shade unit 600 houses the roast lamp unit 500 for focusing and reflecting heat generated when the roast lamp unit 500 operates.

The structure and connection relationship of the clamping unit 100, the rotating unit 200 and the lampshade unit 600 are substantially the same as those of embodiment 1, and will not be described here again.

As shown in fig. 12, the height adjustment unit 300 further includes an eighth mounting element 360. The eighth mounting element 360 is disposed on the first adjusting element 310 or the second adjusting element 320, and is connected to the telescopic unit 400.

Generally, the eighth mounting element 360 is disposed on a side of the first adjustment element 310, or on a side of the second adjustment element 320, or on an end of the first adjustment element 310 remote from the second adjustment element 320.

Specifically, the eighth mounting element 360 is disposed on a side of the first adjustment member, or on a side of the second adjustment member, or on a side of the first mount.

In some of these embodiments, the eighth mounting element 360 includes a sixth mounting groove and a number of seventh thread grooves. Wherein, the sixth mounting groove is disposed at the side of the first adjusting element 310 and is connected with the end of the telescopic unit 400; a plurality of seventh screw grooves are provided around the sixth mounting groove and screw-coupled with the end of the telescopic unit 400.

In some of these embodiments, the third mounting element 330 includes a seventh plug and a seventh thread groove. The seventh plug connector is arranged at the side part of the first adjusting element 310 and is connected with the end part of the telescopic unit 400 in a plug connection manner; the seventh screw groove is provided at one side of the seventh socket and screw-coupled with the end of the telescopic unit 400.

Typically, the seventh plug is a plug block, and the seventh plug protrudes from a side portion of the first adjusting element 310.

In some of these embodiments, the seventh plug is 1-2.

In some embodiments, the number of the seventh connectors is 1, the seventh connectors are concave, and a seventh thread groove is formed in the groove position of the seventh connectors.

Wherein the number of seventh thread grooves matches the number of seventh connectors.

In some of these embodiments, the number of seventh thread grooves is equal to the number of seventh connectors.

As shown in fig. 13, the telescopic unit 400 further includes a second telescopic element 440, a ninth mounting element 450 and a tenth mounting element 460. Wherein, the first end of the second telescopic element 440 is connected with the height adjusting unit 300, and the second end of the second telescopic element 440 is connected with the roast lamp unit 500; the ninth mounting member 450 is disposed at the first end of the second telescopic member 440 and is connected to the height adjusting unit 300; the tenth mounting member 460 is disposed at the second end of the second telescopic member 440 and is connected to the roast lamp unit 500.

Specifically, the ninth mounting element 450 is coupled to the eighth mounting element 360.

In some of these embodiments, the second telescoping member 440 comprises a second telescoping member. Wherein a first end of the second telescoping member is connected to the ninth mounting member 450 and a second end of the second telescoping member is connected to the tenth mounting member 460.

In some of these embodiments, the second telescoping member is a telescoping rod structure with damping.

In some of these embodiments, the ninth mounting element 450 includes a fifth mount and a number of eighth thread grooves. The fifth mounting seat is arranged at the first end of the second telescopic piece and is connected with the sixth mounting groove of the eighth mounting element 360; a plurality of eighth thread grooves are provided around the fifth mount and correspond to the seventh thread grooves of the eighth mount element 360.

In some of these embodiments, the ninth mounting element 450 includes a fifth mount, an eighth plug, and an eighth thread groove. The fifth mounting seat is arranged at the first end of the second telescopic piece and is connected with the sixth mounting groove of the eighth mounting element 360; the eighth plug connector is arranged at the side part of the fifth mounting seat and is connected with the seventh plug connector of the eighth mounting element 360; the eighth thread groove is provided at the eighth socket member and corresponds to the seventh thread groove of the eighth mounting member 360.

In some of these embodiments, the radial dimension of the fifth mount is greater than the radial dimension of the second telescoping member.

Typically, the eighth plug is a socket.

The number of the eighth plug connectors is matched with that of the seventh plug connectors. Typically, the number of eighth connectors is equal to the number of seventh connectors.

The number of eighth thread grooves matches the number of seventh thread grooves. Generally, the number of eighth thread grooves is equal to the number of seventh thread grooves.

In some of these embodiments, the tenth mounting element 460 includes a sixth mount and a number of ninth thread grooves. The sixth mounting seat is arranged at the second end of the telescopic piece and is connected with the baking lamp unit 500; a plurality of ninth screw grooves are provided around the sixth mounting seat and are screw-coupled with the roast lamp unit 500.

In some of these embodiments, the tenth mounting element 460 includes a sixth mount, a ninth plug, and a ninth thread groove. The sixth mounting seat is arranged at the second end of the second telescopic piece and is connected with the baking lamp unit 500; the ninth plug connector is arranged at the side part of the sixth mounting seat and is connected with the baking lamp unit 500; the ninth thread groove is disposed on the ninth plug connector and is in threaded connection with the roast lamp unit 500.

In some of these embodiments, the radial dimension of the sixth mount is greater than the radial dimension of the second telescoping member.

Generally, the ninth plug connector is a plug connector block, and the ninth plug connector protrudes out of the side portion of the sixth mounting seat.

In some of these embodiments, the ninth plug is 1-2.

In some of these embodiments, the ninth plug connector is 1, and the ninth plug connector is concave, and the recess position of the ninth plug connector is provided with the ninth thread groove.

Wherein the number of the ninth thread grooves is matched with the number of the ninth plug connectors.

In some of these embodiments, the number of ninth thread grooves is equal to the number of ninth connectors.

As shown in fig. 14, the roast lamp unit 500 further includes an eleventh mounting element 540. The eleventh mounting member 540 is disposed at a side of the roast lamp member 510 and connected to the telescopic unit 400.

Specifically, the eleventh mounting element 540 is connected to the tenth mounting element 460.

In some of these embodiments, the eleventh mounting element 540 includes a seventh mounting groove and a number of tenth thread grooves. The seventh mounting groove is arranged on the side part of the top of the lampshade piece and is connected with the fourth mounting seat of the tenth mounting element 460; a number of tenth thread grooves are provided around the seventh mounting groove and correspond to the ninth thread grooves of the tenth mounting element 460.

In some of these embodiments, the eleventh mounting element 540 includes a tenth plug and a tenth thread groove. Wherein the tenth plug connector is disposed at a side portion of the top of the canopy member and is connected with the ninth plug connector of the tenth mounting member 460; the tenth screw groove is provided to the ninth socket and corresponds to the ninth screw groove of the tenth mounting member 460.

Typically, the tenth plug is a socket.

The number of tenth connectors is matched with the number of ninth connectors. Typically, the number of tenth connectors is equal to the number of ninth connectors.

The number of tenth thread grooves matches the number of ninth thread grooves. Generally, the number of tenth thread grooves is equal to the number of ninth thread grooves.

The method of use of this embodiment is substantially the same as that of embodiment 1, and will not be described in detail here.

The advantage of this embodiment lies in, utilizes height adjusting unit, first telescopic member and second telescopic member to constitute right triangle, improves roast lamp unit's stability, avoids roast lamp unit to fall downwards.

The foregoing description is only illustrative of the preferred embodiments of the present utility model and is not to be construed as limiting the scope of the utility model, and it will be appreciated by those skilled in the art that equivalent substitutions and obvious variations may be made using the description and illustrations of the present utility model, and are intended to be included within the scope of the present utility model.

Claims (10)

1. A baking lamp device for surgical care, comprising:

the clamping unit is arranged on the protective railing of the sickbed;

A rotation unit provided at an upper portion of the clamping unit;

the height adjusting unit is arranged at the upper part of the rotating unit and is used for rotating along the horizontal direction under the action of the rotating unit;

the first end of the telescopic unit is connected with the upper part of the height adjusting unit and is used for moving along the vertical direction under the action of the height adjusting unit;

the baking lamp unit is arranged at the second end of the telescopic unit and used for moving along the horizontal direction under the action of the telescopic unit;

the lamp shade unit is covered by the lamp shade unit and is used for focusing and reflecting heat generated during the working of the lamp baking unit.

2. The roast lamp device according to claim 1, wherein the clamping unit comprises:

the clamping element is detachably connected with the protective railing of the sickbed;

a first mounting member provided at an upper portion of the clamping member and connected to the rotation unit;

the first limiting element is arranged on the side wall of the clamping element;

The second limiting element is connected with the first limiting element, and the end part of the second limiting element is abutted to the protective railing of the sickbed.

3. The roast lamp device according to claim 1, wherein the rotating unit comprises:

a rotating member rotatably provided at an upper portion of the clamping unit;

and a second mounting member disposed at an upper portion of the rotating member and connected with the height adjusting unit.

4. The roast lamp device according to claim 1, wherein the height-adjusting unit comprises:

a first adjusting element provided at an upper portion of the rotating unit;

a second adjustment element slidably coupled to the first adjustment element;

the third mounting element is arranged at the end part of the second adjusting element, which is far away from the first adjusting element, and is connected with the telescopic unit;

the third limiting element is arranged on the side wall of the first adjusting element;

and the fourth limiting element is arranged on the side wall of the second adjusting element and is connected with the third limiting element.

5. The roast lamp device according to claim 1, wherein the telescopic unit comprises:

the first end of the first telescopic element is connected with the height adjusting unit, and the second end of the telescopic unit is connected with the baking lamp unit;

the fourth mounting element is arranged at the first end of the first telescopic element and is connected with the height adjusting unit;

and the fifth mounting element is arranged at the second end of the first telescopic element and is connected with the baking lamp unit.

6. The roast lamp device according to claim 1, wherein the roast lamp unit comprises:

the baking lamp element is arranged at the second end of the telescopic unit;

the sixth installation element is arranged at the top end of the baking lamp element and is connected with the telescopic unit;

the first connecting element is arranged at the outer edge of the baking lamp element and is detachably connected with the lampshade unit.

7. The light fixture of claim 1 wherein the canopy unit comprises:

a cover member covering the roast lamp unit;

The second connecting element is arranged on the top of the outer cover element and is detachably connected with the baking lamp unit;

and the inner reflection element is arranged to cover the inner wall of the outer cover element and is used for focusing and reflecting heat generated during the operation of the baking lamp unit.

8. The heat lamp device as claimed in any one of claims 1 to 7, further comprising:

the temperature monitoring unit is connected with the baking lamp unit, and is used for acquiring the temperature of an affected part of a patient and/or the internal temperature of the lampshade unit and transmitting the temperature to the baking lamp unit.

9. The heat lamp device as claimed in claim 8, wherein the temperature monitoring unit comprises:

the first temperature monitoring element is arranged on an affected part of a patient, is connected with the baking lamp and is used for acquiring the temperature of the affected part of the patient and transmitting the temperature to the baking lamp unit; and/or

The second temperature monitoring element is arranged in the lampshade unit and connected with the baking lamp unit, and is used for acquiring the internal temperature of the lampshade unit and transmitting the internal temperature to the baking lamp unit.

10. The heat lamp device as claimed in claim 9, wherein the temperature monitoring unit further comprises:

and the display element is connected with the first temperature monitoring element and/or the second temperature monitoring element and is used for displaying the temperature.