CN219841158U - Supporting and hanging frame and heat supply device mounting mechanism - Google Patents

Abstract

The utility model relates to the technical field of a heat transfer device installation mechanism, in particular to a support and hanger and a heat transfer device installation mechanism, which comprises the following components: the telescopic device comprises a gear, a sliding block, a sliding groove and a telescopic rod, wherein the bottom end of the telescopic rod is fixedly connected with a supporting plate, the top end of the telescopic rod is fixedly connected with a fixed block, the sliding block is in sliding connection with the sliding groove, the lower end of the outer side wall of the sliding block is fixedly connected with a rack, and the gear is in meshed connection with the rack; the telescopic rod is controlled, the telescopic rod is enabled to adjust proper height, then the switch is pressed down to drive the motor to rotate, the motor drives the gear to rotate simultaneously, the gear drives the rack to transversely move simultaneously, the rack drives the sliding block to transversely slide in the sliding groove simultaneously, the sliding block drives the limiting plate II to transversely move simultaneously, and then the heat transfer device is placed between the limiting plate I and the limiting plate II, so that when the support and the hanger are installed, the installation interval can be adjusted according to the size of the heat transfer device, and the waste of the space above the heat transfer device is avoided.

Description

Supporting and hanging frame and heat supply device mounting mechanism

Technical Field

The utility model relates to a heat transfer device installation mechanism, in particular to a support and hanger and a heat transfer device installation mechanism.

Background

The support and hanger is mainly used for steam-water pipelines or boiler equipment of a power plant and equipment devices for generating thermal displacement in operation. And calculating and determining the working and thermal displacement requirements of the spring support and hanger according to the stress condition of the pipeline. The supporting and hanging frames can be mainly divided into four categories; spring support, pipe support, root support, accessory support.

In the prior art, the connection mode of the channel steel of the supporting and hanging frame, the fastening piece and the rooting component in the current market adopts a nut block connection mode. However, when the hanger is installed, the size of the heat transfer device cannot be adjusted, and the space above the heat transfer device is wasted.

Disclosure of Invention

The utility model aims to provide a support and hanger and a heat transfer device installation mechanism so as to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the support and hanging bracket comprises a gear, a sliding block, a sliding groove, a transverse hole and a telescopic rod, wherein the bottom end of the telescopic rod is fixedly connected with a supporting plate, the top end of the telescopic rod is fixedly connected with a fixed block, the sliding block is in sliding connection with the sliding groove, the lower end of the outer side wall of the sliding block is fixedly connected with a rack, and one end of the right side of the top of the sliding block is fixedly connected with a limiting plate II;

the outer wall of the gear is meshed with the outer wall of the rack, and the bottom surface of the gear is fixedly connected with a motor.

Preferably, the telescopic rods are arranged at two ends of the supporting plate respectively, and the centers of the telescopic rods and the fixing blocks are on the same vertical line.

Preferably, a first limiting plate is fixedly connected to the right side of the top end of the supporting plate, and the first limiting plate is close to the left side of the right telescopic rod.

Preferably, the side of backup pad has seted up spout and cross hole, and the size of cross hole is less than the size of spout, and the center of spout and cross hole is on same horizontal line, and the center of spout and cross hole is in the top of backup pad center, and spout and cross hole side perpendicular to backup pad's top surface, and spout and cross hole's width are half of backup pad width, and the facade of spout is "コ".

Preferably, the side bottom fixedly connected with connecting block of backup pad, the top surface of connecting block is less than the bottom surface of slider, the lateral surface of connecting block and the side fixed connection of motor, and the bottom surface of connecting block, the bottom surface of backup pad and the bottom surface of motor are on the coplanar, the bottom surface center fixedly connected with switch of motor, motor and switch electric connection.

Preferably, the sliding block is arranged on one side far away from the transverse hole, and the top surface of the sliding block is lower than the top surface of the supporting plate.

Preferably, the length of the rack is the same as the length of the sliding block, and the thickness of the rack is the same as the thickness of the gear.

Preferably, the top surface of the second limiting plate and the first limiting plate are on the same horizontal line, the center of the second limiting plate is hollow, the second limiting plate surrounds the supporting plate above the transverse hole and is respectively fixed on the top end and the inner side wall of the second limiting plate, and the bottom end of the second limiting plate is close to the lower end of the transverse hole.

A heat transfer device installation mechanism comprises the support and hanger.

Compared with the prior art, the utility model has the beneficial effects that:

the telescopic rod is controlled, the telescopic rod is enabled to adjust proper height, then the switch is pressed down to drive the motor to rotate, the motor drives the gear to rotate simultaneously, the gear drives the rack to transversely move simultaneously, the rack drives the sliding block to transversely slide in the sliding groove simultaneously, the sliding block drives the limiting plate II to transversely move simultaneously, the limiting plate II is enabled to be in a proper position, and then the heat transfer device is placed between the limiting plate I and the limiting plate II, so that when the support and hanger are installed, the installation interval can be adjusted according to the size of the heat transfer device, and waste of space above the heat transfer device is avoided.

Drawings

FIG. 1 is a diagram of the overall structure of the present utility model;

FIG. 2 is a bottom view of the overall structure of the present utility model;

FIG. 3 is a side view of the overall structure of the present utility model;

fig. 4 is a front view of the overall structure of the present utility model.

In the figure: 1. a gear; 2. a motor; 3. a connecting block; 4. a rack; 5. a slide block; 6. a chute; 7. a support plate; 8. a transverse hole; 9. a first limiting plate; 10. a limiting plate II; 11. a telescopic rod; 12. a fixed block; 13. and (3) a switch.

Detailed Description

In order to make the objects, technical solutions, and advantages of the present utility model more apparent, the embodiments of the present utility model will be further described in detail with reference to the accompanying drawings. It should be understood that the specific embodiments described herein are some, but not all, embodiments of the present utility model, are intended to be illustrative only and not limiting of the embodiments of the present utility model, and that all other embodiments obtained by persons of ordinary skill in the art without making any inventive effort are within the scope of the present utility model.

Embodiment one:

referring to fig. 1-4, the present utility model provides a technical solution: the support and hanger comprises a gear 1, a sliding block 5, a sliding groove 6, a transverse hole 8 and a telescopic rod 11, wherein the bottom end of the telescopic rod 11 is fixedly connected with a supporting plate 7, the top end of the telescopic rod 11 is fixedly connected with a fixed block 12, the sliding block 5 is in sliding connection with the sliding groove 6, the lower end of the outer side wall of the sliding block 5 is fixedly connected with a rack 4, and one end of the right side of the top of the sliding block 5 is fixedly connected with a limiting plate II 10; the outer wall of the gear 1 is meshed with the outer wall of the rack 4, and the bottom surface of the gear 1 is fixedly connected with the motor 2.

The spout 6 and the cross hole 8 have been seted up to the side of backup pad 7, the size of cross hole 8 is less than the size of spout 6, the center of spout 6 and cross hole 8 is on same horizontal line, the center of spout 6 and cross hole 8 is in the top at backup pad 7 center, spout 6 and cross hole 8 side perpendicular to backup pad 7's top surface, the width of spout 6 and cross hole 8 is half of backup pad 7 width, the standing of spout 6 is "コ", a heat transfer device installation mechanism, including foretell gallows.

The telescopic rod 11 is controlled, the telescopic rod 11 is enabled to adjust the proper height, then the switch 13 is pressed down to drive the motor 2 to rotate, the motor 2 simultaneously drives the gear 1 to rotate, the gear 1 simultaneously drives the rack 4 to transversely move, the rack 4 simultaneously drives the slide block 5 to transversely slide in the sliding groove 6, the slide block 5 simultaneously drives the limiting plate II 10 to transversely move, the limiting plate II 10 is enabled to be located at a proper position, and then the heat transfer device is placed between the limiting plate I9 and the limiting plate II 10.

Embodiment two:

on the basis of the first embodiment, in order to be able to perform stable adjustment according to the height of the conveying device, two telescopic rods 11 are provided, and the two telescopic rods 11 are respectively arranged at two ends of the supporting plate 7, and the centers of the telescopic rods 11 and the fixed block 12 are on the same vertical line.

By starting the telescopic rod 11, the fixing block 12 is fixed on the ceiling and cannot move, and the lower end of the telescopic rod 11 is adjusted in height, so that the height of the heat transfer device can be reserved between the top surface of the supporting plate 7 and the ceiling, and the gap above the heat transfer device is reduced.

Embodiment III:

on the basis of the first embodiment, in order to be adjustable according to the width of the conveying device, the length of the rack 4 is the same as the length of the sliding block 5, and the thickness of the rack 4 is the same as the thickness of the gear 1; the sliding block 5 is arranged on one side far away from the transverse hole 8, and the top surface of the sliding block 5 is lower than the top surface of the supporting plate 7; the right side of the top end of the supporting plate 7 is fixedly connected with a first limiting plate 9, and the first limiting plate 9 is close to the left side of a right telescopic rod 11; the top surface of the second limiting plate 10 and the first limiting plate 9 are on the same horizontal line, the center of the second limiting plate 10 is hollow, the second limiting plate 10 surrounds the supporting plate 7 above the transverse hole 8 and is respectively fixed on the top end and the inner side wall of the second limiting plate 10, and the bottom end of the second limiting plate 10 is close to the lower end close to the transverse hole 8; the side bottom fixedly connected with connecting block 3 of backup pad 7, the top surface of connecting block 3 is less than the bottom surface of slider 5, the lateral surface of connecting block 3 and the side fixed connection of motor 2, and the bottom surface of connecting block 3, the bottom surface of backup pad 7 and the bottom surface of motor 2 are on the coplanar, the bottom surface center fixedly connected with switch 13 of motor 2, motor 2 and switch 13 electric connection.

The motor 2 is driven to rotate by opening the switch 13, and meanwhile, the gear 1 is driven to rotate to drive the rack 4 to transversely move, so that the limiting plate II 10 fixed on the sliding block 5 moves, the distance between the limiting plate I9 and the limiting plate II 10 is enlarged, the width of the heat supply device can be properly placed in the supporting plate 7, the limiting plate I9 and the limiting plate II 10 on two sides also play a clamping and fixing role on the conveying device, and two ends of the connecting block 3 are respectively fixed on the motor 2 and the supporting plate 7, so that the whole device is integrated.

When the automatic heat supply device is in actual use, the telescopic rod 11 is controlled, the telescopic rod 11 is enabled to adjust the proper height, then the switch 13 is pressed down to drive the motor 2 to rotate, the motor 2 simultaneously drives the gear 1 to rotate, the gear 1 simultaneously drives the rack 4 to transversely move, the rack 4 simultaneously drives the slide block 5 to transversely slide in the chute 6, the slide block 5 simultaneously drives the limiting plate II 10 to transversely move, the limiting plate II 10 is enabled to be located at a proper position, and then the heat supply device is placed between the limiting plate I9 and the limiting plate II 10.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides a gallows, includes gear (1), slider (5), spout (6), cross tunnel (8) and telescopic link (11), the bottom fixedly connected with backup pad (7) of telescopic link (11), the top fixedly connected with fixed block (12) of telescopic link (11), its characterized in that: the sliding block (5) is in sliding connection with the sliding groove (6), the lower end of the outer side wall of the sliding block (5) is fixedly connected with the rack (4), and one end of the right side of the top of the sliding block (5) is fixedly connected with the limiting plate II (10);

the outer wall of the gear (1) is meshed with the outer wall of the rack (4), and the bottom surface of the gear (1) is fixedly connected with the motor (2).

2. A hanger according to claim 1, wherein: the two telescopic rods (11) are arranged, the two telescopic rods (11) are respectively arranged at two ends of the supporting plate (7), and the centers of the telescopic rods (11) and the fixing blocks (12) are arranged on the same vertical line.

3. A hanger according to claim 2, wherein: the right side of the top end of the supporting plate (7) is fixedly connected with a first limiting plate (9), and the first limiting plate (9) is close to the left side of the right telescopic rod (11).

4. A hanger according to claim 3, wherein: spout (6) and cross hole (8) have been seted up to the side of backup pad (7), the size of cross hole (8) is less than the size of spout (6), the center of spout (6) and cross hole (8) is on same horizontal line, the center of spout (6) and cross hole (8) is in the top of backup pad (7) center, the top surface of spout (6) and cross hole (8) side perpendicular to backup pad (7), the width of spout (6) and cross hole (8) is half of backup pad (7) width, the facade of spout (6) is "コ".

5. A hanger according to claim 4, wherein: the side bottom fixedly connected with connecting block (3) of backup pad (7), the top surface of connecting block (3) is less than the bottom surface of slider (5), the lateral surface of connecting block (3) and the side fixed connection of motor (2), and the bottom surface of connecting block (3), the bottom surface of backup pad (7) and the bottom surface of motor (2) are on the coplanar, the bottom surface center fixedly connected with switch (13) of motor (2), motor (2) and switch (13) electric connection.

6. A hanger according to claim 5, wherein: the sliding block (5) is arranged on one side far away from the transverse hole (8), and the top surface of the sliding block (5) is lower than the top surface of the supporting plate (7).

7. A hanger according to claim 6, wherein: the length of the rack (4) is the same as the length of the sliding block (5), and the thickness of the rack (4) is the same as the thickness of the gear (1).

8. A hanger according to claim 7, wherein: the top surface of limiting plate two (10) and limiting plate one (9) are on same horizontal line, and the center of limiting plate two (10) is empty, and backup pad (7) of transverse hole (8) top are embraced to limiting plate two (10), and fix respectively on the top and the inside wall of limiting plate two (10), and the lower extreme of transverse hole (8) is pressed close to in the bottom of limiting plate two (10).

9. A heat transfer device installation mechanism which is characterized in that: a hanger comprising the support of any of claims 1-8.